US3795284A - Portable support and weigher for a bed patient - Google Patents

Portable support and weigher for a bed patient Download PDF

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Publication number
US3795284A
US3795284A US00214806A US3795284DA US3795284A US 3795284 A US3795284 A US 3795284A US 00214806 A US00214806 A US 00214806A US 3795284D A US3795284D A US 3795284DA US 3795284 A US3795284 A US 3795284A
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Prior art keywords
bed
supporting surface
carrier
pad
portable support
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US00214806A
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M Mracek
R Bauer
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Individual
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Individual
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    • GPHYSICS
    • G01MEASURING; TESTING
    • G01GWEIGHING
    • G01G19/00Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups
    • G01G19/44Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing persons
    • G01G19/445Weighing apparatus or methods adapted for special purposes not provided for in the preceding groups for weighing persons in a horizontal position
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61GTRANSPORT, PERSONAL CONVEYANCES, OR ACCOMMODATION SPECIALLY ADAPTED FOR PATIENTS OR DISABLED PERSONS; OPERATING TABLES OR CHAIRS; CHAIRS FOR DENTISTRY; FUNERAL DEVICES
    • A61G7/00Beds specially adapted for nursing; Devices for lifting patients or disabled persons
    • A61G7/05Parts, details or accessories of beds
    • A61G7/0527Weighing devices

Definitions

  • the present invention provides a normally deflated, .readily flexible, inflatable pad which can overlie a mattress on a bed and underlie abed patient.
  • the material of which that inflatable'pad is made is so thin and flexible that the bed patient can rest on that inflatable pad without discomfort, even when that inflatable pad is deflated.
  • As that inflatable pad is inflated it will gently but firmly elevate the bed patient until the bed patient is several inches above the mattress.
  • the portions of the inflatable pad which are not overlain by the bed patient will tend to inflate before theremaining portions of that inflatable pad can become inflated.
  • the perimetral portions of the inflatable pad will tend to inflate before the central portion of that inflatable pad can become inflated; and the prompt inflation of those perimetral portions will enablethe inflatable pad to cradle the bed patient, and thereby avoid any tendency of the bed patient to roll,.as that inflatable pad is being inflated.
  • the inflatable pad Once the inflatable pad has been inflated, it will constitute a firm supporting surface for the bed patient.
  • the weight of the bed patient will deflate the central por- 7 tion of that inflatable pad .before the perimetral portions .of that inflatable pad become deflated.
  • an object of the present invention to provide 'an inflatable pad which is made from a thin andflexible material, which can be inflated toconsitute a flrm supporting surface for a bed patient,- and which permits the perimetral portions thereof to tend to cradle the bed patient during the inflation and deflation of that inflatable pad.
  • One preferred embodiment of portable support provided by the present invention can be used as a lifting device for a bed patient, as a weighing device for a bed patient, and a'sa transporting devicefor a bed patient.
  • That portable support has a'carrier and a supporting surface which can be moved into position beneath an inflatable pad on which a bed patient is resting; and that carrier and supporting surface can be raised up wardly to lift the bed patient.
  • a weighing mechanism intermediate the supporting surface and carrier will develop a signal which will indicate the total weight of the inflatable pad, of the bed patient, and of his attire. Because theweight of the inflatable pad and attire will be essentially constant, any changes in the indicated weight will reflect changes in the weight of the bed patient.
  • the bed mattress can be turned over, or reversed end for end, to make it more comfortable for the bed patient.
  • an object of the present invention to provide a support has a wheel-equipped chassis and has a carrier and a supporting surface that can be moved laterally away from that wheel-equipped chassis and into position beneath the inflatable pad on which a bed patient is resting, that can be raised upwardly to lift the bed patient, and that can be moved back into position adjacent that wheel-equipped chassis to move the bed patient into position adjacent that wheel-equipped chassis.
  • That wheel-equipped chassis is narrower than the width of an average door in a hospital or nursing home; and hence that preferred embodiment of portable support can be used to transport a bed patient between various rooms or areas in a hospital or nursing home. It is, therefore, an object of the present invention to provide a portable support with a relatively narrow, wheel-equipped chassis which has a carrier and a supporting surface that can be moved laterally away from that wheel-equipped chassis and into position beneath an inflatable pad on which a bed patient is resting, that can be raised upwardly to lift the bed patient, and that can then be moved back into posi tion adjacent that wheel-equipped chassis to move the bed patient into position adjacent-that wheel-equipped chassis; Y I
  • the weight of a bed patient will apply a downwardly as that carrier and supporting surface lift that bed patient; andthat downward force will develop a rotative moment which will terid to cause that portable support to tilt. Any such tilting will be prevented by stabilizing legs which are carried by that portable support and which move laterally of that portable support to engage the floor at points below the bed patient. Those stabilizing legs, will automatically move into stabilizing position before the carrier and supporting surface can start to lift the bed patient, and those stabilizing legs will automatically move into retracted position when that carrier and supporting surface are lowered to their normal "positions.
  • the present invention provides a portable support which is narrow enough to pass through the average width doors of a hospital or nursing home, and yet is sufficiently stable to enable the carrier and supporting surface thereof to be moved laterally away from it and into position beneath an inflatable pad to lift that inflatable pad and a bed patient resting thereon. It is, therefore, an object of thepresent invention to provide a portable support which is narrow enough to. pass through the average-width doors of a hospital or nursing home, and yet is sufficiently stable to enable the carrier and supporting surface thereof to be moved laterally away from it and into position beneath an inflatable pad to lift that inflatable pad and a bed patient I resting thereon.
  • the base of that portable support will fully prevent any tilting of that portable support when the carrier and supporting surface lift an inflatable pad and a bed patient resting thereon.
  • the opposite ends of that inflatable pad will extend outwardly beyond the sides of that portable support, and will thereby keep that portable support from being moved endways through an average-width door of a hospital or nursing home; and the length of that portable support is greater than the width of such a door.
  • that portable support is unable to pass through an average-width door of a hospital or nursing home while it is supporting an inflated pad and a bed patient thereon.
  • portable support can be freely moved around within any given space or room while it is supporting an inflated bed and a bed patient thereon, and y it can be moved through an average-width door of a and without any need of interrupting the flow of fluids from the bed patient. It is, therefore, an object of the hospital or nursing home whenever it is not supporting an inflated pad. That embodiment of portable support can lift and lower an inflated pad and a bed patient thereon, can weigh that bed patient, and can move that bed patient around within a given space or room. It is, therefore, an object of the present invention to provide a portable support with a base that always underlies the carrier and supporting surface of that portable support and which can raise and lower that carrier and supporting surface to lift and lower an inflated 'pad and a bed patient thereon.
  • That portable support can be provided by making that portable support with a base that always underlies the carrier and supporting surface of that portable. support and by making that carrier and supporting surface stationary relative to that base.
  • the carrier and supportingsurface of that portable support can bemoved into position beneath an inflated pad and a bed patient thereon; and then the bed can be lowered to enable the weight of the inflated pad and of the bed patient to be transferred to that carrierand supporting surface.
  • the portable support can be moved around within a given space or room to move the bed patient around within that space or room.
  • an object of the present invention to provide a portable support with a base that always underlies the carrier and supporting surface of that portable support and that holds the carrier and supporting surface stationary relative to that base, V
  • the supporting surfaces of the various portable supports provided by the present invention are equipped with fittings that enable them to support bottles of blood, plasma, glucose, saline solution, or the like, or to hold' receptacles which are attached to catheters or tubes within the bed patient.
  • the various portable supports provided by the present invention can be used to weigh bed patients and to move those bed patients around within a given space or room without any need of interrupting the flow of blood, plasma, glucose, saline solution, or the like into the bed patient,
  • present invention to provide a portable support with a supporting surface which has fittings that enable it to support bottles of blood, plasma, glucose, saline solution, or the like, or to holdreceptacles which are attached to catheters or tubes within the bed patient.
  • the weighing mechanism in each of the portable supports provided by the present invention, need only weigh the inflatable pad, the bed patient, and the bed patients attire. Because the inflatable pad is light in weight and because the patients attire is light in weight, the bed patients weight constitutes the greatest proportion of the total weight sensed by the weighing mechanism. Such an arrangement is far more desirable than is an arrangement wherein the bed, as well as the bed patient, must be weighed; because in the former arrangement the weight of the bed patient is a very high percentage of the total weight, whereas in the latter arrangement the weight ofthe bed patient is a much smaller percentage of the totalweight.
  • each of the portable supports of the present invention does not require much vertical movement of the supporting surface of that portable support, and thus does'not'require much vertical movement of the inflatable pad or of the bed patient. This is desirable, because it permits a bed patient to'be weighed'even though some of his or her limbs are held by traction frames, and even though the upper portion of the bed patient is encased within an oxygen tent. It is, therefore, an'object of the present invention to provide a portable support which utilizes a weighing mechanism that does not require much vertical movement of the supporting surface of that portable support;
  • the various portable supports provided by the present invention make it possible for one person" to lift a bed patient'and to move that bed patient around within a given space or room. Also, those portable supports make it possible for that one person to accurately weigh that bed patient. Further, those portable supports make it possible for that one person to do any or all of those things without causing any discomfort to that bed patient. It is, therefore,-an object of the present invention to provide a portable support which makes it possible for one person to lift a bed patient, to move thatbed patient around within a given space or room, and to accurately weigh that bed patient without causing any discomfort to that bed patient.
  • the various portable supports provided by the present invention can be used to monitor the weight of a bed patient on a periodic or continuous basis. Where any of those portable supports is used to monitor the weight of a bed patient on a periodic basis, that portable support will be caused to recurrently hold that bed patient above the bed long enough to enable a reading of his or her weight to be taken. Where any of those portable supports is used to monitor a bed patients weight on a continuous basis, that'portable support will be caused to continuously hold the bed patient. In all events, the bed patient is held in a comfortable position while being weighed. It is, therefore, an object of the present invention to provide a portable support which can monitor the weight of a bed patient on a periodic or continuous basis.
  • the normally deflated, readily flexible, inflatable pad provided by the present invention has a passage therethrough in register with the rectal area of a bed patient. That passage permits a bedpan to be placed beneath the rectal area of the'bed patient whenever the inflatable pad is inflated to liftthe bed patient above the level of the bed.
  • Such an inflatable pad makes it possible for the waste products of the bed patient to be collected with an absolute minimum of discomfort for that bed patient. It is, therefore, an object of the present invention to provide a normally deflated, readily flexible, inflatable pad that has a passage therethrough in register with the rectal area of a bed patient.
  • FIG. 1 is a partially brokemplan view of one preferred embodiment of portable support that is made in accordance with the principles and teachings of the present invention
  • F 10.2 is an elevational view of the right-hand end of the portable support shown in FIG. 1, asit appears when the righthand wing thereof is in its lowered position,
  • FIG. 3 is a side elevational view of the portable support shown in FIG. 1,
  • FIG. 4 is a perspective view of the-inflated pad which can be used with the portable support shown in FIG. 1,
  • FIG. 5 is an elevational view, on a larger scale, of part of the supporting surface and inflated pad of'the portable support shown-in FIG. 1, and is taken along the plane indicated by the-line S-S'inFIG. 2,
  • FIG. 6 is a sectional view, on ascale'intermediate those of FIGS. 1 and 5, of a portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 6-6 in FIG. 3,
  • FIG. 7 is a sectional view, on a scale intermediate those of FIGS. 5 and 6, of a further portion of the portable support 'of FIG. 1,'and it is takenalong the planeindicated by the line 7-7 in FIG. 1,
  • FIG. 8 is a sectional view, on a scale intermediate those of FIGS. 1 and 7, through another portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 8-8 in FIG. 3,
  • FIG. 9 is a sectional view, on a scale intermediate those of FIGS. 1 and 8, through the portable support of FIG. 1, and it is taken along the plane indicated by the line 9-9 of FIG. 3,
  • FIG. 10 is a sectional view, on the scale of FIG. 9, through a portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 10-10 inFIG.9, i j
  • FIG. 11 is a partially broken away, partically sectioned view, on the scale of FIG. 9, through the porta- 9, through the portable support of FIG. 1, and it is taken along the plane indicated by the line 13-13 in FIG. 11,
  • FIG. 14 is yet another sectional view, on the scale of FIG. 9, through a portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 14-14 in FIG. 9, I
  • FIG. 15 is a sectional view, on a scale larger than the scale of FIG. 5, through another portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 15-15 in FIG. 9,
  • FIG. 16 is a sectional view, on a scale close to that of FIG; 5, through a further portion of the portable sup port of FIG. 1, and it is taken along the plane indicated by the line 16-16 of FIG. 9,
  • FIG; 17 is'a sectional view, on the scale of FIG. 16, through the structure shown in FIG. 16, and it is taken along the plane indicated by the line 17-17 in FIG. 16,
  • FIG; 18 is a sectional view, on the scale of FIG. 16, Y
  • FIG. 20 is a force diagram'which shows forces adjacent one of the levers in the structure of FIG. 17,
  • FIG. 21 shows the electrical circuit of the portable support of FIGS. 1-20
  • FIG. 22 is an elevational view of a portion of a second preferredembodiment of portable support which differs from the portable support of FIGS. 120 by having a crank, rather than a motor, to raise and lower the carrier and supporting surface thereof,
  • FIG. 23 is a plan view of a third preferred embodiment of portable support.
  • FIG. 24 is an elevational view of the rear of the portable support shown in FIG. 23', I
  • FIG. 25 is a partially broken-away, partially sectioned, elevational view'of the left-hand end of the portable support of FIG. 23,
  • FIG. 26 is a partially brokenaway, partially secsupport shown in FIG. 26,
  • FIG. 28 is a schematic showing of the pneumatic system used in the various portable supports of FIGS.
  • FIG. 29 is a side elevational view of a disposable bedpan which is usable with the inflatable pad of FIG. 4,
  • FIG. 30 isan end elevational view of the bedpan of FIG. 29 in use with that inflatable pad.
  • chassis is prismatic in form, is defined by horizontally'extendi'ng and vertically extending structural members, and is en closed by exterior walls which are secured to those structural members.
  • Casters 42 are secured to the bottom of the chassis 40 adjacent the four corners thereof; and those casters. are equipped with latches. When those latches are released, the chassis 40 can be wheeled in any direction to any desired position within a hospital or nursing home; but, when those latches are set, the chassis 40 will remain stationary.
  • the numeral 44 denotes two channels which have slots 46 in the upper surfaces thereof; and those channels are located adjacent the bottom of the chassis 40. As indicated particularly by FIGS. 2 and 9, the channels 44 incline downwardly at a shallow angle from the left-hand or rear face of the chassis toward the righthand or front face of that chassis.
  • Elongated stabilizing legs 48 which are shown in FIG. 10 as hollow beams of rectangular cross section, are slidably mounted within the channels 44.
  • Rollers 50 are rotatably mounted at the front ends of the stabilizing legs 48; and elongated racks 52 are provided on the upper surfaces of those stabilizing legs. Those racks extend upwardly through, and above the levels of, the slots 46 in'the channels 44, as indicated particularly by FIGS.
  • the numeral 53 denotes a supporting sub-frame which is mounted .at the inner face of the front end of the chassis 40, asindicated particularly by FIGS. 9 and 15.
  • An elongated shaft 54 is mounted in bearing blocks l 55 which are part of the supporting sub-frame 53, and
  • That shaft is close to, and extends parallel to, the lower part of the front of the chassis 40, as indicated particularly by FIG. 15.
  • Pinions 56 are fixedly secured to the outer ends of the shaft 54;'and those pinions'mesh with, and drive, the racks 52 on the upper'surfaces of the stabilizing legs 48, as indicated by FIGS. 1-3 and 9.
  • the numeral 58 denotes a pivot which is mounted in the supporting sub-frame 53; and that pivot is shown particularly by FIGS. 9 and 15.
  • a gear segment 60, with slotted arms 62, is rotatably mounted on the pivot 58; and that gear segment is shown particularly byFIGS. 9, 14 and 15.
  • Pins 64 are carried by the lower'ends of the slotted arms 62 of gear segment and those pins project both outwardly and inwardly of those arms, as
  • Pins .66 are secured to the sub-frame 53, and they project outwardly beyond both sides of that sub-frame at a point below the level of the pivot 58, as shown particularly by FIGS. 9 and I5; and the opposite ends of those pins receive the lower ends of helical extension springs 68.
  • the upper ends of those helical extension springs are held by the pins 64 in the slotted arms 62'of gear-segment 60, as
  • the numeral denotes a shaft which is rotatably supported within bearings that are located in the supporting sub-frame 53 above the level of the bearing on, and thus will rotate with, the shaft 54.
  • the teeth on the pinions 72 and 74 mesh with each other; and the teeth on the pinion 72 mesh with the teeth on the gear segment 60.
  • rotation of that gear segment in the counter'clockwise direction in FIG. 9 will effect counter clockwise rotation of the shaft 54.
  • clockwise rotation of that gear segement will effect clockwise rotation of that shaft;
  • the numeral 76 denotes a bushing which is mounted in the supporting sub-frame 53, as shown particularly by FIG. 9; and that bushing rotatably supports one end of anelongated-lead screw 78. That'lead screw is horizontally disposed, and, it extends from the front of the chassis 40 toward the rear of that chassis, as shown by FIG. 9.
  • a bearing housing 80 which is supported by the chassis 40, has a bearing therein that rotatably supports the rear end of the lead screw78.
  • a flexible coupling 82 connects the rear end of that lead screw to the output shaft of a reversible gear motor 84. That gear motor 4 is mounted on a suitable supporting element within the chassis 40, as indicated particularly by FIGS. 9 and 11.
  • the numeral 86 generally denotes a slide which has a straight rear edge, but which has a front edge that is defined by rearwardly-inclined converging surfaces, as indicated by FIGS. 1, l2 and 14.
  • the central portion of the slide 86 has a cylindrical passage 87 through it that has an inner diameter which is larger than the diameter of the lead screw 78, as shown particularly by FIG. 14.
  • the slide 86 has horizontally directed arms 88, as
  • FIGS. 1 and 14 show particularly by FIGS. 1 and 14;'and those arms have slots therein, as shown by FIG. 15. Projections 90,
  • FIGS. 11-13 extend outwardly from the opposite sides of the 'slide 86.
  • Slotted bosses 92' are formed on the upper surface of the guide 86 adjacent the front edge of that upper surface, as shown particularlyby FIGS. 11-13.
  • Pins 98 are fixedly secured to, and extend outwardly from, both sides, of the follower block 96, as shown particularly by FIGS. 14 and 15. Those pins are disposed within, and are confined and guided by, the slots in the slotted arms 88 of the slide 86.
  • FIGS. 9, 11 and 12 Those slotted bosses are located at the same approximate level as the slotted bosses 92 on the slide 86; and those slotted bosses are in general alignment with the slotted bosses 92.
  • the numeral 102 generally denotes a platform which is rectangular in plan and in elevation, and which can be moved from the lowered position of FIG. 9 to the raised position of FIG. 11.
  • Slotted bosses 104 are provided at the underside of the platform 102, adjacent the front of that platform, as indicated by FIGS. 9 and 11.
  • Slotted bosses 105 are provided at the underside of the platform 102, adjacent the rear of that platform, as indicated by FIGS. 9 and 11.
  • the numeral 106 denotes channels which are carried by the platform 102 at the top thereof; and those channels extend from the front to the rear of that platform, and they are located adjacent the'opposite sides of that platofrm. As shown particularly by FIG. 16, the channels 106 have flanges which extend short distances downwardly'at the oppositesides of the platform 102. Screws107 extend through those flanges and seat in threaded openings within the opposite sides of the platform 102, as shown by FIG. 16, to fixedly secure the channels 106 to that platform. Elongated slides 108 are dimensioned to fit within the channels 106, as indicated particularly by FIGS. 11 and'1619; and those'elongated slides are generally C-shaped in cross section but have thick webs.
  • Recesses are formed in the upper and lower surfaces of the thick webs of the elongated slides 108 to accommodate rollers 110. Those rollers engage the confronting faces of the upper and lower flanges of the channels 106, and thereby facilitate ready telescoping movement of those slides relative to those channels.
  • the sides of the platform 112 are offset slightly upwardly and are disposed within the slides 108, as indicated partic'ularlyby FIGS. 16 and 17.
  • Rollers 114 are disposed within recesses in the upper'and lower surfaces of the sides of the carrier 112; and those'rollers engage the confronting surfaces of the upper and lower flanges of the elongated slides 108. -As a result, the carrier 112 can freely telescope relative to the slides 108, while the slides 108 telescope freely relative to the channels 106. All of this means position of FIG. 9, wherein it is in register withthe plat-
  • the carrier 112 has spaced, upstanding ribs 113, and' also has a perimetral upstanding flange. Those ribs and that flange stiffen and reinforce that carrier, and
  • the supporting surface 120 has spaced, downwardly extending ribs 121 plus a downwardly extending perimetral flange. Those ribsand that flange stiffen and reinforce that supporting surface, and thereby enable that supporting surface to be sturdy and strong although light in weight.
  • the numeral 122 denotes a pressure transducer of standard design and construction, and that pressure transducer is supported by the carrier 112 adjacent the geometric center of that carrier.
  • the numeral 123 denotes an insert of hard material in the underface of the supporting surface 120; and that insert is in register with the movable element of the pressure transducer 122.
  • the upper surface of that movable element is spherical in configuration to enable it to have point contact with the hard insert 123; and such contact is desirable because it will make certain that the pressure that the carrier ll2can be shifted forwardly from the form 102, to the position of FIGS. 1, 2 and 11, wherein Y it is disposed wholly forwardly of that platform.
  • Hinge plates 116 are pivotally secured to the carrier 112 by hinge pins 118, as shown particularly by FIGS. 16 and 17.
  • One set of hinge plates 116 is disposed adjacent the rear edge of the carrier 112 and extends lengthwise of that carrier, while a second set of those hinge plates is disposed adjacent the front of that carrier and also extends lengthwiseof that carrier all as indicated byFIGS. 9 and 17.
  • a generally rectangular supporting surface 120 is secured to the upper ends of the hinge plates 116 by hinge pins 119, as shown by FIGS9 and 17. That supporting surface overlies the carrier 112; and the'edges thereof extend short distances outwardly beyond the edges of that carrier.
  • the hinge plates 116, the carrier 112 and the supporting surface 120 essentially act as a four-bar, linkage mechanism which is arranged as a quadrilateral, whichhasthe opposite sides thereof parallel, and which defines equal oblique angles and equal acute angles; and this is desirable, because such linkage mechanism enables all'of the weight of the supporting surface 120 and of anything and anyoneresting thereon to be concentrated 'at the hard insert 123 as a vertically directed load.
  • the portable support of the present invention obviates the cost and the potential errors inherent in the use of a plurality of pressure transducers or load-sensing'cells which have the outputs thereof suitably totaled.
  • any internal loads which develop in the four-bar, linkage mechanism will be in static equilibrium, and thus will produce no significant rotation in the load which is concentrated at the hard insert 123. Further, because any displacement of the center of gravity of the supporting surface 120 and of anything and anyone resting thereon relative to the hard insert 123 will merely produce a variation in the internal loads in the hinge plates 116 of the four-bar, linkage mechanism, it is not necessary that the said hard insert be atlthe precise geometric center of thesupporting surface 120, and it is not necessary that the pressure transducer 122 be at the precise geometric center of the carrier ,1 12.
  • the only disturbance forces which could tend to decrease the accuracy of the weight-indicating signals developed by the pressure transducer 122 would be those caused by friction.
  • the numeral in FIG. 20 denotes an arrow which represents a horizontally directed frictional force that is the product of a down-wardly acting force represented by the arrow 127 and its associated coefficient of friction; and that horizontally directed frictional force acts at a small radial distance indicated by the numeral 129 below the center line of a hinge pin 119.
  • That horizontally directed frictional force will develop a resistive moment of force that will have to be overcome by the load applied to the supporting surface but that resistive moment of force will be essentially insignificant because the diameter of the hinge pin 119 is very small, and because the surface of that hinge pin and of the complementary opening in the hinge plate 116 will be smooth, hard and lubricated.
  • the overall result is that the four bar, linkage mechanism enables the pressure transducer122 to indicate the total weight of the supporting surface 120 and'of anything and anyone resting thereon with a high degree of repeatable accuracy.
  • the pressure transducer 122 has a movable element which moves only a very small fraction of an inch as a bed patient is being weighed. If desired, that pressure transducer could be a resistance-type load-sensing cell or could be a piston of a hydraulic weight-sensing system.
  • a flexible insulated conductor 124 extends from the pressure transducer 122 to and th rougha grommet 126 in the carrier 122, and then extends to and through a grommet 128 in the upper surface of the platform 102, as shown by FIG. 9. That conductor extends to a digital readout and transducer supply 236 which is shown in FIG. 21.
  • the portion of the flexible conductor 124 which is intermediate the: grommets 126 and 128 preferably is made so it tends to assume a generally helical configuration, as shownby FIG. 9; because such a configuration enables that conductor to accommodate movement of the carrier 1 l2 and of the supporting sur face 120 from the position shown in FIG. 9 to the position shown in FIGS. 1, 2 and 11.
  • the conductor 124 is shown as being absolutely straight; but even when the supporting surface 120 is in the position shown in FIGS. 1, 2 and 11, the conductor 124 will have some'slack in it:
  • the numeral 130 denotes a handle that is fixedly secured to the rear edge of the supporting surface 120; and that handle resembles an inverted U in elevation, as shown particularly by FIG. 3. That handle can be used to apply forces tothe supporting surface 120.
  • the handle 130 can be used to apply forces to the sup porting surface 120 which will cause that supporting surface and the carrier 112 to move from the moved position of FIGS. 1, 2 and 11 to the retracted position of FIG. 9. v
  • the supporting surface 120 has sockets 131 secured thereto adjacent one edge thereof; and those sockets can releasably receive hangers 132. Those hangers can be used to support containers, such as the container 256 in FIG. 2, for blood, plasma, glucose, saline solution, or the like.
  • the supporting surface 120 also is provided with several headed pins 134, as indicated by FIGS. 1-3 and 17.
  • the supporting surface 120 has sockets 125 therein which can releasably receive the hangers 132.
  • the numeral 136v denotes a lever which has two end plates that are held in fixedly spaced relation by two connecting plates 137.
  • the end plates of the lever 136 are disposed a short distance inwardly of the innerfacesof the sides of the platform I02; and theconnecting plates ,137 of that lever extend lengthwise of that platform.
  • Pins 138 rotatably secure the upper ends of the end plates of the lever 136 to the slotted bosses 105 and thus to the platform 102, as shown by FIGS. 9 and 11.
  • Pins 140 rotatably secure the lower ends of the end plates of the lever 136 to the slotted bosses 92 of the slide 86, as shown by FIGS. 9 and 11.
  • the numeral 142 denotes a lever which is essentially identical with the lever 136 having two end plates and two connecting plates'143.
  • the end plates of the lever 142 are disposed outwardly of the end plates of the lever 136 but inwardly of the inner surfaces of the sides of the platform 102, and the connecting plates 143 of the former lever extend longitudinally of that platform.
  • portions of the end plates of the levers 136 and 142 are cut away to reduce the weights of those levers.
  • Pins 144 rotatably secure the lower ends of the end plates of the lever 142 to the slotted bosses of the chassis 40.
  • Pins 146 .slidably and rotatably secure the upper ends of the end I plan view in FIG. 1 and in side view in FIG. 3.
  • a similar wing 164 is shown in plan view in FIG. 1, in end view in FIG. 2, in side view in FIG. 3, and in section in FIG. 6.
  • a hinge 151 has one'plate thereof secured to the chassis 40, and has the other plate thereof secured to the under surface of the wing 150;and that hinge permits that wing to be rotated into and out of the dottedline and solid-line positions in FIG. 3.
  • a hinge 161 has one plate thereof secured to the'chassis-40, and has the other plate thereof secured to the under surface of the wing 164; and that hinge permits that wing to be rotated into and out of the dotted-line and solid-line,
  • the wing has slots 152 in the sides thereof, and the wing 164 has slots 162 in the sides thereof.
  • the wing 164 has a barlike latch 174 therein, and that latch has a recess therein.
  • a pin 165 has the inner end thereof disposed within the recess in the latch 174, and it has the outer end thereof extending outwardly of the slot 162.
  • a helical compression spring 176 urges the pin 165 'outwardly into locking position within the slot 162.
  • head of the pin 165 is undercut to provide a smalldiameter portion which can slide freely through the slot 162; but a shoulder 167 on that pin is too large to fit into the normal-width portion of that slot, and can only fit into larger-diameter openings at the ends of that slot.
  • the bar-like latch 174 will be located wholly out of the chassis 40 and will be wholly within the wing 164; and the shoulder 167 of the pin 165 will be in the large-diameter opening at that end of the slot 162 which is most remote from the hinge 161.
  • the wing 164 can be rotated freely into and out of the dotted-line position in FIG. 3.
  • the wing 164 is to be set in the solid-line position in FIG. 3, that wing will be raised to that position; and then the pin 165 will be pushed inwardly, against the pressure of the spring 176, and that pin will be moved to the solid-line position in FIG. 6.
  • the bar-like latch 174 will move into position within the chassis 40, and will thereby hold the wing 164 in horizontal position thereby enabling that wing to constitute an extension of the upper surface of the chassis 40.
  • the shoulder 167 of the pin 165 will respond to the spring 176 to move into the large-diameter opening at that end of the slot 162 which is closest to the pivot 161.
  • the wing 164 will have two bar-type latches 174, two pins 165, two springs 176, and two slots 162; and those latches, pins, springs and slots will be in register with each other.
  • the wing 150' will have two slots 152 which will perform the functions performed by the slots 162, will have two pins 154 which will perform the functions of the pins 165, will have two springs, not shown, which will perform the functions of the springs 176, and will have two bar-type latches, not shown, which will perform the functions of the bar-type latches 174.
  • the wing 150 can be latched in the solid-line position in FIG. 3, or can be unlatched and moved into the dotted-line position in'FIG. 3.
  • the numeral 156 denotes an arm which is rotatably secured to the wing 150 by a pivot 158; and the nu meral 160 denotes a second arm which is rotatably se 160 are in the retracted positions wherein they extend part-way into that wing, and whenever the wing 164' is cured to that wing by a pivot 159.
  • Thenumeral 166 denotes an arm which is rotatably secured to the wing 164 by a pivot 168; and the numeral 170 denotes a second arm which is rotatably securedto that wing by a pivot 172.
  • The-outer edge of the wing 164 is open in nature so the arms'l66' and 170 can be rotated into the positions indicated by FIGS.
  • the outer edge of the wing 150is1open in nature'so thearrns 156 and 160 can be rotated into positions comparable to the positions occupied by the arms 1 66 and 170 in FIG. 1.
  • the arms 166 and '170 can be rotated outwardly to positions comparable to the positions occupied by the arms 156 and 160 in FIG. 1.
  • the arm 166 has a button 178 with a reduced diameter upper end; and a helical compression spring urges that reduced diameter upper end upwardlyinto the opening 179. or into the opening 181 in the wing 164. Whenever the arm 166 is in the retracted position shown by FIG. 1, the reduced diameter upper end of the button 178 will extend into and be held by the opening 181.
  • the reduced diameter upper end of the button 178 will extend into and be held by the opening 181.
  • the reduced diameterupper end. of the button 178 will extend into and beheld by'the opening 179.
  • the arm 170 carries a button 180 with a reduced diameter upper end; and that reduced diameter upper end will be in the forwardmost opening 182 whenever that arm is in the retracted position shown in FIG. 1, but will be in. the other opening 182 whenever that arm is in its extended position.
  • the arm 156 has a button 155 which is comparable to the button 178 in FIG. 7, and that button will be disposcd in the forwardmost opening 149 of the wing whenever that arm is in its retracted position. However, the reduced diameter upper end of the button will be in the other of the openings 149-in the'wing 150 whenever the arm 156 is in its extended position.
  • the arm is provided with a button 153 that can be identical to the button 178 of FIG. 7. That button will have the reduced diameter upper end thereof .disposed within the rearmost of two openings 157 in the wing 150 whenever the arm 160 is in its retracted position, but will have that reduced diameter upper end in the other of the openings 157 whenever that arm is in the extended position shown by'FIG. 1.
  • Bumpers 184 of the resilient material are provided at the outer corners of each of the wings 150 and 164. Those bumpers will keep those corners from directly engaging thev edges of any doorways through which the portable support of FIGS. l-20 is moved. Because the chassis 40 is narrower than the width of an averagewidth door in a hospital or nursing home, the portable support of FIGS. 1-20 can easily be movedinto and out of most spaces and rooms in a hospital or nursing home. I
  • the numeral 188 in FIG. 3 denotes a door of a compartment, within the chassis 40, which accommodates a storage battery 192.
  • a pull or other handle 190 is provided to enable the door 188 to be'opened to check, or to service, the battery.
  • the numeral 194 in FIG. 3 denotes a door toa further compartment within the chassis 40'; and a pull or knob 196 is provided on that door to facilitate the opening of that door.
  • the numeral 198 denotes an electric motor which is mounted'within the chassis 40; and the numeral 200 denotes an air compressor which also is mounted within that chassis.
  • a belt 202 connects a pulley on the shaft of the motor 198 to a pulley on the shaft of the air compressor 200.
  • the numeral 20lin FIGS. 3 and 28 denotes a manually operated valve; and that valve is mounted on a control panel 252 on the chassis 40.
  • One port of that valve is connected .to the outlet of the compressor 200 by a pressure regulator203, asecond port of that valve is connected to flexible hoses 222 and 226, a third port of that valveis connected to the inlet of the compressor 200 by an adjustable valve 205, and the fourth port of that valve is connectedto an air filter 199.
  • the compressor 200 will draw air inwardly through the air filter 199 and the valve 201 and the adjustable valve 205, will compress that air, and will then cause that air to flow through the pressure regulator 203 and'the valve 201 to the hoses 222 and 226.
  • the inflatable pad 204 also includes sides and ends which make that inflatable pad air-tight. Handles 206 are provided on the sides and ends of the inflatable pad 204 to facilitate the lifting and handling of that inflatable pad. In fact, those handles make it possible to use that inflatable pad as a stretcher on which persons can be transported by hand.
  • a passage 208 is provided through the inflatable pad 204; and that passage will be located in register with the rectal area of a bed patient resting on that inflatable pad. The passage 208 will be large enough to permit body wastes to pass freely through it into a bedpan or other'receptacle located below it, but will be small enough to enable the adjacent portions of the inflatable pad to provide support for'the bed patient;
  • the numeral 210 denotes a commercially available, low pressure, quick-disconnect fitting atone end of the inflatable pad 204; and that fitting is hermetically sealed whenever it does not havea complementary commercially available, low pressure, quick-disconnect fitting connected to it.v
  • a complementary commercially-available, low pressure, quickdisconnect fitting is provided at the free end of each of the flexible hoses 222 and 226. The connecting of the complementary commercially available, low pressure, quick-disconnectfitting, at the free end of either of those flexible hoses, to the commercially-available, low pressure, quick-disconnect fitting 210 will permit air to be introduced into or withdrawn from the inflatable pad 204.
  • Flexible straps 212 are secured to the inflatable pad 204, adjacent the sides of that inflatable pad; and the free ends of those straps have openings 213 therein which can telescope over the heads of the headed pins 134 on the supporting surface 120. Whenever the straps 212 have the openings 213 in the lower ends thereof telescoped over the heads of the headed pins 134,.the inflatable pad 204 will be held against shifting relative to the supporting surface ;120. a
  • the numeral 214 denotes an inflatable spacer which underlies one end of the inflatable pad 204, That inflatable spacer has an upper surface, a bottom surface, a multitude of drop threads which extend between and interconnect those surfaces, sides and ends. Some of the drop threads ofthat inflatable spacer are shown'in FIG. 3.
  • the inflatable spacer 214 is providedv witha commercially available, low pressure, quick-disconnect fitting 218; and that fitting is hermetically sealed whenever it does not have a complementary commercially available, low pressure, quick-disconnect fitting connected to it, Such a complementary commercially available, low pressure, quick-disconnect fitting is pro vided at the free end of each of the flexible hoses 222 and 226.
  • the commercially-available, low pressure,v quick-v disconnect fitting 218 will permit air to be introduced into orwithdrawn from the inflatable spacer 214.
  • the inflatable pad 204 and the inflatable spacers 214 and 216 could be made of different materials, and they could be made in differentways.
  • that in. flatable pad and those inflatable spacers could be made of dacron, nylon, fiber glass and many other filaments, single or stranded; and that inflatable pad and those inflatable spacers could be made in the same way in which the Goodyear Aerospace Corporation makes the three-dimensional structural fabrics which itsells under Whenever the inflatable pad 204 and the inflatable spacers 214 and 216 are deflated, they are very flexible flated, theyvare quite firm, andthey can'provide full support for a bed patient; Whenever the inflatable pad 204 isjust partially inflated, it will provide a gentle, cradle-like cushioning action for the bed patient.
  • the inflatable pad 204 can be dimensioned to have an inflated thickness within a range of 2 to 6 inches.
  • each of the inflatable spacers 214 and 216 can be dimensioned to have an inflated thickness within" aran'ge of 2to'6 in'cheszAs a result, inflating of the inflatable pad 204 and of the inflatable spacers 214 and 216 can gently but firmly raise a bed patient a distanee of from 4 to 12 inches above the leveliof the mattress on a bed.
  • the inflatable spacers 214 and 216 As the inflatable spacers 214 and 216 are inflated, they will raise the inflated pad 204 upwardly relative to that mattress; and, depending upon the inflated thicknesses of those inflatable spacers, the central portion of that inflatable pad can be raised from 2 to6 inches from that mattress.
  • each of the inflatable spacers 214 and 216 is greater than the height of the bedpan 258 shown in FIG. 3. As a result, that bedpan can be freely moved into position below the passage 208 in the inflatable pad 204, and can subsequently be freely removed from position below that passage. Also, the inflated thickness of each of the inflatable spacers 214 and 216 is greater than the combined heights of the supporting surface and of the carrier 112, as shown by FIG. 2. Consequently, that carrier and that supporting surface can readily be telescoped into the space between the upper surface of the mattress and the lower surface of the inflatable pad 204.
  • one or the other of the inflatable spacers 214 and 216 could be left in deflated condition. Where that was done, the inflatable pad 204 would incline at a, gentle angle relative to the mattress of the bed; and
  • the adjacent end of the inflatable pad 204 would raise upwardly; and that inflatable pad would be so stiff that it would gently but firmly raise all portions of the bed patients body to the desired inclination.
  • the flexible hose 222 has one end thereof connected to the valve 201 by piping and a T-junction 223, as shown by. FIG. 1. Normally that flexible hose is held within a hose compartment 224 within the chassis 40; and normally the door of' that hose'compartment is closed. However, that door is readily openable to per- 'mit the flexible hose 222 to be withdrawn from that compartment, and to have the commercially available, low pressure, quick-disconnect fitting at the free end thereof connected to the commercially available, low
  • the flexible hose 226 has one end, thereof connected to the valve 201 by piping and the T-junction 223, as shown by FIG. 1. Normally that flexible hose is held within a hose compartment 228 within the chassis 40; and normally the door of that hose compartment is closed.
  • the door is readily openable to permit the flexible hose 226 to be withdrawn from that compartment, and to have the commercially available, low pressure, quickdisconnect fitting at the free end thereof connected to the commercially available, low pressure, quickdisconnect fitting 210 on the inflatable pad 204' orto either of the commercially available, low pressure, quick-disconnect fittings 2.18 and 220 on the inflatable spacers 214 and 216.
  • the numeral 230 denotes anelectric plug whichcan be plugged into the standard and usual electric outlet in the, wall of a room in ahospital or nursing home.
  • An overload device 232 is connected between one prong of the plug 230 and a connector strip 233; and the other prong of that plug is directly connected to a connector strip 235.
  • a voltmeter 244 is connectable across the terminals of the storage battery 192 by a single pole, single throw switch 245. The positive output terminal of the DC. Power Distri bution And Charger 240 is connected to the two stationary contacts adjacentthe other pole of the doublepole double-throw switch 238.
  • That other pole is con nected to one pole of a double-pole double-throw reversing switch 246, and also is connected to one terminal of the motor 198 by a single-pole single-throw switch 250.
  • the other pole of the double-pole doublethrow reversing switch 246 and the other terminal of the motor 198 are connected to the negative output terminal of the DC.
  • Power Distribution And Charger 240 by the overload device 242.
  • the limit switch 95 selectively connects the right-hand contacts of the double-pole double-throw reversing switch 246 to the terminalsof the gear motor 84; and the limit switch 97 selectively connects the left-hand contacts of that dou;
  • the control panel 252 has a knob which can be used to set the movable contacts of the double-pole double-' throw switch 238 in their upper position, in their, lower position, or in an open position. That control panel also has a knob which can be used to set the movable contacts of the double-pole double-throw reversing switch 246 in their left-hand positions, in'their righthand positions, or in an off position; In addition, that control panel has an actuator to selectively close the switch 250 and an actuator to selectively close the switch 245. Furthermore, that control panel has actuators that can be used to reset the overload devices 232 and 242. Moreover, the control panel 252 has a knob which canbe used to set the valve 201 in its inflate or deflate position. Also, that control panel has the lamp 234 and the voltmeter 244 incorporated therein.
  • the numeral 254 denotes a display panel which is located on the chassis 40 in the position-shown by FIG.
  • That display panel includes the digital readout of the digital readout and transducer supply'236. That readout will display in digital form the value of any weight which rests upon the supporting surface 120, and thereby acts upon the pressure transducer .122.
  • the operator will release the latches on the casters 42 of that portable support, and will then move that portable support into position where it is alongisde of, and parallel with, a bed on which an inflatable pad 204, with its inflatable spacers 214 and 216, underlies a bed patient. At such time, that inflatable pad and those inflatable spacerswill be in. their'deflated conditions. Also, at such time, the slides 108 will be fully retracted within the channels 106 on the platform 102, and the sides of the carrier 112 will be fully retracted within the slides 108; andlatches, not shown, will hold that carrier in that position. Consequently, the supporting surface and the carrier 112 will be directly above, and in register with, the platform 102 and the chassis 40, as shown particularly by FIG. 9.
  • the operator After the chassis 40 has been moved into position wherein it is alongside of, and parallel with, the bed, the operatorwill set the latches on the casters 42. Also, the operator will open the hose compartment 224 and will

Abstract

A normally deflated, readily flexible, inflatable pad which underlies a bed patient can be inflated to raise the bed patient and to gently but firmly hold that bed patient in raised position. When that inflatable pad is inflated, it defines a recess at the lower surface of the center thereof into which the supporting surface of a portable support can be moved; and that inflatable pad and that portable support can thereafter hold the bed patient at a desired level relative to the bed on which that inflatable pad normally rests. When the supporting surface of the portable support subsequently is removed from the recess at the lower surface of the center of the inflatable pad, that inflatable pad can be deflated to lower the bed patient. A pressure transducer, between the supporting surface and the carrier therefor, develops a signal while that supporting surface underlies and holds the inflatable pad and the bed patient; and a readout responds to that signal to indicate the weight of that bed patient.

Description

Mracek et a1.
PORTABLE SUPPORT AND WEIGHER Port A BED PATIENT h 1111 3,795,284 1 1 Mar. 5, 1974 Primary IL'xarnin*rStephen J. 'lomsky [75'] Inventors: Milo F. Mracek, 22 Morwood l.n., jz f z fl js g d I crevlCoeur, Mu 63M]; Ronald J. ()l'nLy, gmt,ur [rmogcrs, ./.e an .1 ers Bauer, Florissant, Mo. [73] Assignee: said Mraeek by said Bauer l57l ABSIRALI x v A normally deflated, readily flexible, inflatable pad l22l Fllbd' 1972 which underlies a bed patient can be inflated to raise I21] Appl. No: 214,806 the bed patient and to gently but firmly hold that bed patient in raised position. When that inflatable pad is inflated, it defines a recess at the lower surface of the 17783:, enter thereof into whichthe supporting surface of a 245 portable support can be moved; and that mflatable pad and that portable support can thereafter hold the [56] References Cited bed. patientat a desired level relative to the bed on which that inflatable pad normally rests. When the UNITED STATES PATENTS supporting surface of the portable support subse- 3,338,323 8/1967 Swcrscy 17 7/l44 .quently is removed from the recess at the lower sur- 5 09 51 fGoldbc rgeru 177/144 X face of the center of the inflatable pad, that inflatable 33171818 H965 Engelshcr cl 177/144 pad can be deflated to lower the bed patient. A pres- ?239918 -3/l966 MV 177/]44 sure transducer, between the supporting surface and M966 l'cmhcrg ct Tl/M4 X the carrier therefor, develops a signal while that sup- 10,062 12/1967 Potter 177/144 8,656,478 4 1972 Swersey 177 144 x Pmmg Surface and the Pad and the bed pat1ent; and a readout responds to that FORElGN T OR'APPUCATIONS signal to indicate the weight of that bed patient. 1,125,025 8/1968 Great Britain 177/245 1 5 1,125,670 3/1962 Germany 177 144 Clams, 30 Drawmg Flgures 2/? me d m7 W L a 111W W 205 2/; 220 1206 W m .1 WW 5 E 1l I /fi 4-5 7 9 /6f I #1; 1 /5 M; /7iig K1 j /9 r 1 my M6 1 9 1 /72 m5 I Zia J 225 PATENTED 515174 v 3.795.284 SHEET U1BF10 PATENTEU 51974 sum o anmo WQN w% @m MG W PAIENTEDIIIR E m sum 05m 10 PATENTED 5 4 sum as 0F 10 PORTABLE SUPPORT AND WEI GHER FOR A BED PATIENT,
The present invention providesa normally deflated, .readily flexible, inflatable pad which can overlie a mattress on a bed and underlie abed patient. The material of which that inflatable'pad is made is so thin and flexible that the bed patient can rest on that inflatable pad without discomfort, even when that inflatable pad is deflated. As that inflatable pad is inflated it will gently but firmly elevate the bed patient until the bed patient is several inches above the mattress. The portions of the inflatable pad which are not overlain by the bed patient will tend to inflate before theremaining portions of that inflatable pad can become inflated. This means that the perimetral portions of the inflatable pad will tend to inflate before the central portion of that inflatable pad can become inflated; and the prompt inflation of those perimetral portions will enablethe inflatable pad to cradle the bed patient, and thereby avoid any tendency of the bed patient to roll,.as that inflatable pad is being inflated. Once the inflatable pad has been inflated, it will constitute a firm supporting surface for the bed patient. When that inflatable pad is to be deflated, the weight of the bed patient will deflate the central por- 7 tion of that inflatable pad .before the perimetral portions .of that inflatable pad become deflated. This means that the perimetral portions of the inflatable pad will tend to cradle the bed patient, and thereby avoid any tendency of the bed patient to roll, as that inflatable pad is being deflated. lt is,.therefore, an object of the present invention to provide 'an inflatable pad which is made from a thin andflexible material, which can be inflated toconsitute a flrm supporting surface for a bed patient,- and which permits the perimetral portions thereof to tend to cradle the bed patient during the inflation and deflation of that inflatable pad.
One preferred embodiment of portable support provided by the present invention can be used as a lifting device for a bed patient, as a weighing device for a bed patient, and a'sa transporting devicefor a bed patient.
That portable support has a'carrier and a supporting surface which can be moved into position beneath an inflatable pad on which a bed patient is resting; and that carrier and supporting surface can be raised up wardly to lift the bed patient. As the bed patient is lifted, a weighing mechanism intermediate the supporting surface and carrier will develop a signal which will indicate the total weight of the inflatable pad, of the bed patient, and of his attire. Because theweight of the inflatable pad and attire will be essentially constant, any changes in the indicated weight will reflect changes in the weight of the bed patient. Also, if desired, while the bed patient is in lifted position, the bed mattress can be turned over, or reversed end for end, to make it more comfortable for the bed patient. Further, while the bed patient is in lifted position, he or she can be moved around within a given area by moving the portable support around within that given area. ltis, therefore, an object of the present invention to provide a support has a wheel-equipped chassis and has a carrier and a supporting surface that can be moved laterally away from that wheel-equipped chassis and into position beneath the inflatable pad on which a bed patient is resting, that can be raised upwardly to lift the bed patient, and that can be moved back into position adjacent that wheel-equipped chassis to move the bed patient into position adjacent that wheel-equipped chassis. The width of that wheel-equipped chassis is narrower than the width of an average door in a hospital or nursing home; and hence that preferred embodiment of portable support can be used to transport a bed patient between various rooms or areas in a hospital or nursing home. It is, therefore, an object of the present invention to provide a portable support with a relatively narrow, wheel-equipped chassis which has a carrier and a supporting surface that can be moved laterally away from that wheel-equipped chassis and into position beneath an inflatable pad on which a bed patient is resting, that can be raised upwardly to lift the bed patient, and that can then be moved back into posi tion adjacent that wheel-equipped chassis to move the bed patient into position adjacent-that wheel-equipped chassis; Y I
The weight of a bed patient will apply a downwardly as that carrier and supporting surface lift that bed patient; andthat downward force will develop a rotative moment which will terid to cause that portable support to tilt. Any such tilting will be prevented by stabilizing legs which are carried by that portable support and which move laterally of that portable support to engage the floor at points below the bed patient. Those stabilizing legs, will automatically move into stabilizing position before the carrier and supporting surface can start to lift the bed patient, and those stabilizing legs will automatically move into retracted position when that carrier and supporting surface are lowered to their normal "positions. When the stabilizing legs are in stabilizing position, the total width of the portable support is greater than the width of an average door in a hospital 'or nursing home; but,when those stabilizing legs are in retracted position, the total width'of the portable support is less than the width of such'a door. As a result, the present invention provides a portable support which is narrow enough to pass through the average width doors of a hospital or nursing home, and yet is sufficiently stable to enable the carrier and supporting surface thereof to be moved laterally away from it and into position beneath an inflatable pad to lift that inflatable pad and a bed patient resting thereon. It is, therefore, an object of thepresent invention to provide a portable support which is narrow enough to. pass through the average-width doors of a hospital or nursing home, and yet is sufficiently stable to enable the carrier and supporting surface thereof to be moved laterally away from it and into position beneath an inflatable pad to lift that inflatable pad and a bed patient I resting thereon.
that always underlies the carrier and supporting surface of that portable support. The base of that portable support will fully prevent any tilting of that portable support when the carrier and supporting surface lift an inflatable pad and a bed patient resting thereon. The opposite ends of that inflatable pad will extend outwardly beyond the sides of that portable support, and will thereby keep that portable support from being moved endways through an average-width door of a hospital or nursing home; and the length of that portable support is greater than the width of such a door. As a result, that portable support is unable to pass through an average-width door of a hospital or nursing home while it is supporting an inflated pad and a bed patient thereon.
However, that portable support can be freely moved around within any given space or room while it is supporting an inflated bed and a bed patient thereon, and y it can be moved through an average-width door of a and without any need of interrupting the flow of fluids from the bed patient. It is, therefore, an object of the hospital or nursing home whenever it is not supporting an inflated pad. That embodiment of portable support can lift and lower an inflated pad and a bed patient thereon, can weigh that bed patient, and can move that bed patient around within a given space or room. It is, therefore, an object of the present invention to provide a portable support with a base that always underlies the carrier and supporting surface of that portable support and which can raise and lower that carrier and supporting surface to lift and lower an inflated 'pad and a bed patient thereon.
An even less expensive portable support-which can hold an inflated pad and a bed patient resting thereon,
can be provided by making that portable support with a base that always underlies the carrier and supporting surface of that portable. support and by making that carrier and supporting surface stationary relative to that base. The carrier and supportingsurface of that portable support can bemoved into position beneath an inflated pad and a bed patient thereon; and then the bed can be lowered to enable the weight of the inflated pad and of the bed patient to be transferred to that carrierand supporting surface. At such time, when the weight of the inflated pad and of the bed patient can be noted; and the portable support can be moved around within a given space or room to move the bed patient around within that space or room. Subsequently, when it is desired to have the bed again support the inflated pad and the bed patient, the carrier and the supporting surface of the portable support will be moved into position above the bed, and then that bed will be raised upwardly until it engages and supports the inflated pad and the bed patient thereon. It is, therefore, an object of the present invention to provide a portable support with a base that always underlies the carrier and supporting surface of that portable support and that holds the carrier and supporting surface stationary relative to that base, V
The supporting surfaces of the various portable supports provided by the present invention are equipped with fittings that enable them to support bottles of blood, plasma, glucose, saline solution, or the like, or to hold' receptacles which are attached to catheters or tubes within the bed patient. As a result, the various portable supports provided by the present invention can be used to weigh bed patients and to move those bed patients around within a given space or room without any need of interrupting the flow of blood, plasma, glucose, saline solution, or the like into the bed patient,
present invention to provide a portable support with a supporting surface which has fittings that enable it to support bottles of blood, plasma, glucose, saline solution, or the like, or to holdreceptacles which are attached to catheters or tubes within the bed patient.
The weighing mechanism, in each of the portable supports provided by the present invention, need only weigh the inflatable pad, the bed patient, and the bed patients attire. Because the inflatable pad is light in weight and because the patients attire is light in weight, the bed patients weight constitutes the greatest proportion of the total weight sensed by the weighing mechanism. Such an arrangement is far more desirable than is an arrangement wherein the bed, as well as the bed patient, must be weighed; because in the former arrangement the weight of the bed patient is a very high percentage of the total weight, whereas in the latter arrangement the weight ofthe bed patient is a much smaller percentage of the totalweight. lt is, therefore, an object of the present invention to provide a portable support which only weighs an inflatable pad, a bed patient'on that inflatable pad, and .the attire of that pa tient. V v I The weighing rnechanism in each of the portable supports of the present invention does not require much vertical movement of the supporting surface of that portable support, and thus does'not'require much vertical movement of the inflatable pad or of the bed patient. This is desirable, because it permits a bed patient to'be weighed'even though some of his or her limbs are held by traction frames, and even though the upper portion of the bed patient is encased within an oxygen tent. It is, therefore, an'object of the present invention to provide a portable support which utilizes a weighing mechanism that does not require much vertical movement of the supporting surface of that portable support;
The various portable supports provided by the present invention make it possible for one person" to lift a bed patient'and to move that bed patient around within a given space or room. Also, those portable supports make it possible for that one person to accurately weigh that bed patient. Further, those portable supports make it possible for that one person to do any or all of those things without causing any discomfort to that bed patient. It is, therefore,-an object of the present invention to provide a portable support which makes it possible for one person to lift a bed patient, to move thatbed patient around within a given space or room, and to accurately weigh that bed patient without causing any discomfort to that bed patient.
The various portable supports provided by the present invention can be used to monitor the weight of a bed patient on a periodic or continuous basis. Where any of those portable supports is used to monitor the weight of a bed patient on a periodic basis, that portable support will be caused to recurrently hold that bed patient above the bed long enough to enable a reading of his or her weight to be taken. Where any of those portable supports is used to monitor a bed patients weight on a continuous basis, that'portable support will be caused to continuously hold the bed patient. In all events, the bed patient is held in a comfortable position while being weighed. It is, therefore, an object of the present invention to provide a portable support which can monitor the weight of a bed patient on a periodic or continuous basis.
The normally deflated, readily flexible, inflatable pad provided by the present invention has a passage therethrough in register with the rectal area of a bed patient. That passage permits a bedpan to be placed beneath the rectal area of the'bed patient whenever the inflatable pad is inflated to liftthe bed patient above the level of the bed. Such an inflatable pad makes it possible for the waste products of the bed patient to be collected with an absolute minimum of discomfort for that bed patient. It is, therefore, an object of the present invention to provide a normally deflated, readily flexible, inflatable pad that has a passage therethrough in register with the rectal area of a bed patient.
Other and further objects and advantages of the present invention should become apparent from an examination of the drawing and accompanying description.
In the drawing and accompanying description several preferred embodiments of the present invention are shown and described but it is to be understood that the drawing and accompanying description are for the purpose of illustrationonly and donot limit the invention and that the invention will be defined by the appended claims. I r r BRIEF DESCRIPTION OF THE DRAWING 'ln th e'drawing, H
FIG. 1 is a partially brokemplan view of one preferred embodiment of portable support that is made in accordance with the principles and teachings of the present invention,
F 10.2 is an elevational view of the right-hand end of the portable support shown in FIG. 1, asit appears when the righthand wing thereof is in its lowered position,
FIG. 3 is a side elevational view of the portable support shown in FIG. 1,
FIG. 4 isa perspective view of the-inflated pad which can be used with the portable support shown in FIG. 1,
' FIG. 5 is an elevational view, on a larger scale, of part of the supporting surface and inflated pad of'the portable support shown-in FIG. 1, and is taken along the plane indicated by the-line S-S'inFIG. 2,
FIG. 6 is a sectional view, on ascale'intermediate those of FIGS. 1 and 5, of a portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 6-6 in FIG. 3,
FIG. 7 is a sectional view, on a scale intermediate those of FIGS. 5 and 6, of a further portion of the portable support 'of FIG. 1,'and it is takenalong the planeindicated by the line 7-7 in FIG. 1,
FIG. 8 is a sectional view, on a scale intermediate those of FIGS. 1 and 7, through another portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 8-8 in FIG. 3,
FIG. 9 is a sectional view, on a scale intermediate those of FIGS. 1 and 8, through the portable support of FIG. 1, and it is taken along the plane indicated by the line 9-9 of FIG. 3,
FIG. 10 is a sectional view, on the scale of FIG. 9, through a portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 10-10 inFIG.9, i j
FIG. 11is a partially broken away, partically sectioned view, on the scale of FIG. 9, through the porta- 9, through the portable support of FIG. 1, and it is taken along the plane indicated by the line 13-13 in FIG. 11,
FIG. 14 is yet another sectional view, on the scale of FIG. 9, through a portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 14-14 in FIG. 9, I
FIG. 15 is a sectional view, on a scale larger than the scale of FIG. 5, through another portion of the portable support of FIG. 1, and it is taken along the plane indicated by the line 15-15 in FIG. 9,
FIG. 16 is a sectional view, on a scale close to that of FIG; 5, through a further portion of the portable sup port of FIG. 1, and it is taken along the plane indicated by the line 16-16 of FIG. 9,
' FIG; 17 is'a sectional view, on the scale of FIG. 16, through the structure shown in FIG. 16, and it is taken along the plane indicated by the line 17-17 in FIG. 16,
FIG; 18 is a sectional view, on the scale of FIG. 16, Y
FIG. 20 is a force diagram'which shows forces adjacent one of the levers in the structure of FIG. 17,
FIG. 21 shows the electrical circuit of the portable support of FIGS. 1-20,
FIG. 22 is an elevational view of a portion of a second preferredembodiment of portable support which differs from the portable support of FIGS. 120 by having a crank, rather than a motor, to raise and lower the carrier and supporting surface thereof,
FIG. 23 is a plan view of a third preferred embodiment of portable support,
FIG. 24 is an elevational view of the rear of the portable support shown in FIG. 23', I
FIG. 25 is a partially broken-away, partially sectioned, elevational view'of the left-hand end of the portable support of FIG. 23,
FIG. 26 is a partially brokenaway, partially secsupport shown in FIG. 26,
FIG. 28 is a schematic showing of the pneumatic system used in the various portable supports of FIGS.
FIG. 29 is a side elevational view of a disposable bedpan which is usable with the inflatable pad of FIG. 4,
and
FIG. 30 isan end elevational view of the bedpan of FIG. 29 in use with that inflatable pad.
DESCRIPTION OF THE PREFERRED EMBODIMENTS table support that is made in accordance with'the principles and teachings of the present invention. As indicated particularly by FIGS. 1-4 and9, that chassis is prismatic in form, is defined by horizontally'extendi'ng and vertically extending structural members, and is en closed by exterior walls which are secured to those structural members. Casters 42, of standard and usual design, are secured to the bottom of the chassis 40 adjacent the four corners thereof; and those casters. are equipped with latches. When those latches are released, the chassis 40 can be wheeled in any direction to any desired position within a hospital or nursing home; but, when those latches are set, the chassis 40 will remain stationary. V
The numeral 44 denotes two channels which have slots 46 in the upper surfaces thereof; and those channels are located adjacent the bottom of the chassis 40. As indicated particularly by FIGS. 2 and 9, the channels 44 incline downwardly at a shallow angle from the left-hand or rear face of the chassis toward the righthand or front face of that chassis. Elongated stabilizing legs 48, which are shown in FIG. 10 as hollow beams of rectangular cross section, are slidably mounted within the channels 44. Rollers 50 are rotatably mounted at the front ends of the stabilizing legs 48; and elongated racks 52 are provided on the upper surfaces of those stabilizing legs. Those racks extend upwardly through, and above the levels of, the slots 46 in'the channels 44, as indicated particularly by FIGS. 9 and The numeral 53 denotes a supporting sub-frame which is mounted .at the inner face of the front end of the chassis 40, asindicated particularly by FIGS. 9 and 15. An elongated shaft 54 is mounted in bearing blocks l 55 which are part of the supporting sub-frame 53, and
which are shown particularly by FIG. 15. That shaft is close to, and extends parallel to, the lower part of the front of the chassis 40, as indicated particularly by FIG.
9. Pinions 56 are fixedly secured to the outer ends of the shaft 54;'and those pinions'mesh with, and drive, the racks 52 on the upper'surfaces of the stabilizing legs 48, as indicated by FIGS. 1-3 and 9.
* The numeral 58 denotes a pivot which is mounted in the supporting sub-frame 53; and that pivot is shown particularly by FIGS. 9 and 15. A gear segment 60, with slotted arms 62, is rotatably mounted on the pivot 58; and that gear segment is shown particularly byFIGS. 9, 14 and 15. Pins 64 are carried by the lower'ends of the slotted arms 62 of gear segment and those pins project both outwardly and inwardly of those arms, as
shown particularly by FIG. 15. Pins .66 are secured to the sub-frame 53, and they project outwardly beyond both sides of that sub-frame at a point below the level of the pivot 58, as shown particularly by FIGS. 9 and I5; and the opposite ends of those pins receive the lower ends of helical extension springs 68. The upper ends of those helical extension springs are held by the pins 64 in the slotted arms 62'of gear-segment 60, as
shown particularly by FIGS. 9, l4 and l5.
gear segment is in the solid-line position shown in FIG.
9, but those helical extension springs bias those pins toward those stops wheneverthat gear segment is in the dotted-line position shown in FIG. 9; V
The numeral denotes a shaft which is rotatably supported within bearings that are located in the supporting sub-frame 53 above the level of the bearing on, and thus will rotate with, the shaft 54. The teeth on the pinions 72 and 74 mesh with each other; and the teeth on the pinion 72 mesh with the teeth on the gear segment 60. As a result, rotation of that gear segment in the counter'clockwise direction in FIG. 9 will effect counter clockwise rotation of the shaft 54. Coversely, clockwise rotation of that gear segement will effect clockwise rotation of that shaft;
The numeral 76 denotes a bushing which is mounted in the supporting sub-frame 53, as shown particularly by FIG. 9; and that bushing rotatably supports one end of anelongated-lead screw 78. That'lead screw is horizontally disposed, and, it extends from the front of the chassis 40 toward the rear of that chassis, as shown by FIG. 9. A bearing housing 80, which is supported by the chassis 40, has a bearing therein that rotatably supports the rear end of the lead screw78. A flexible coupling 82 connects the rear end of that lead screw to the output shaft of a reversible gear motor 84. That gear motor 4 is mounted on a suitable supporting element within the chassis 40, as indicated particularly by FIGS. 9 and 11.
The numeral 86 generally denotes a slide which has a straight rear edge, but which has a front edge that is defined by rearwardly-inclined converging surfaces, as indicated by FIGS. 1, l2 and 14. The central portion of the slide 86 has a cylindrical passage 87 through it that has an inner diameter which is larger than the diameter of the lead screw 78, as shown particularly by FIG. 14. The slide 86 has horizontally directed arms 88, as
shown particularly by FIGS. 1 and 14;'and those arms have slots therein, as shown by FIG. 15. Projections 90,
which are shown particularly by, FIGS. 11-13, extend outwardly from the opposite sides of the 'slide 86. Slotted bosses 92'are formed on the upper surface of the guide 86 adjacent the front edge of that upper surface, as shown particularlyby FIGS. 11-13.
Guide channels 94Iarefixedly mounted within the chassis 40;-and those'guide channels extend from the front to the ,rear of that chassis adjacent the inner sur" face of the sides of that chassis, as shown particularly by FIGS. 11-13. Those guide channels receive and l4 and 15, has an internal thread which mates with the thread of the lead screw 78. Pins 98 are fixedly secured to, and extend outwardly from, both sides, of the follower block 96, as shown particularly by FIGS. 14 and 15. Those pins are disposed within, and are confined and guided by, the slots in the slotted arms 88 of the slide 86. V
particularly by FIGS. 9, 11 and 12. Those slotted bosses are located at the same approximate level as the slotted bosses 92 on the slide 86; and those slotted bosses are in general alignment with the slotted bosses 92.
The numeral 102 generally denotes a platform which is rectangular in plan and in elevation, and which can be moved from the lowered position of FIG. 9 to the raised position of FIG. 11. Slotted bosses 104 are provided at the underside of the platform 102, adjacent the front of that platform, as indicated by FIGS. 9 and 11.
Slotted bosses 105 are provided at the underside of the platform 102, adjacent the rear of that platform, as indicated by FIGS. 9 and 11.
The numeral 106 denotes channels which are carried by the platform 102 at the top thereof; and those channels extend from the front to the rear of that platform, and they are located adjacent the'opposite sides of that platofrm. As shown particularly by FIG. 16, the channels 106 have flanges which extend short distances downwardly'at the oppositesides of the platform 102. Screws107 extend through those flanges and seat in threaded openings within the opposite sides of the platform 102, as shown by FIG. 16, to fixedly secure the channels 106 to that platform. Elongated slides 108 are dimensioned to fit within the channels 106, as indicated particularly by FIGS. 11 and'1619; and those'elongated slides are generally C-shaped in cross section but have thick webs. Recesses are formed in the upper and lower surfaces of the thick webs of the elongated slides 108 to accommodate rollers 110. Those rollers engage the confronting faces of the upper and lower flanges of the channels 106, and thereby facilitate ready telescoping movement of those slides relative to those channels. The numeral 112'denotes a generally rectangular carrier which has a length just shorter than the length of the platform 102, and which has a width that is slightly greater than the width of the platform 102, as shown particularly by FIGS. 16 and 17. The sides of the platform 112 are offset slightly upwardly and are disposed within the slides 108, as indicated partic'ularlyby FIGS. 16 and 17. Rollers 114 are disposed within recesses in the upper'and lower surfaces of the sides of the carrier 112; and those'rollers engage the confronting surfaces of the upper and lower flanges of the elongated slides 108. -As a result, the carrier 112 can freely telescope relative to the slides 108, while the slides 108 telescope freely relative to the channels 106. All of this means position of FIG. 9, wherein it is in register withthe plat- The carrier 112 has spaced, upstanding ribs 113, and' also has a perimetral upstanding flange. Those ribs and that flange stiffen and reinforce that carrier, and
thereby enable that carrier to be sturdy and strong although light in weight. The supporting surface 120 has spaced, downwardly extending ribs 121 plus a downwardly extending perimetral flange. Those ribsand that flange stiffen and reinforce that supporting surface, and thereby enable that supporting surface to be sturdy and strong although light in weight.
The numeral 122 denotes a pressure transducer of standard design and construction, and that pressure transducer is supported by the carrier 112 adjacent the geometric center of that carrier. The numeral 123 denotes an insert of hard material in the underface of the supporting surface 120; and that insert is in register with the movable element of the pressure transducer 122. The upper surface of that movable element is spherical in configuration to enable it to have point contact with the hard insert 123; and such contact is desirable because it will make certain that the pressure that the carrier ll2can be shifted forwardly from the form 102, to the position of FIGS. 1, 2 and 11, wherein Y it is disposed wholly forwardly of that platform.
Hinge plates 116 are pivotally secured to the carrier 112 by hinge pins 118, as shown particularly by FIGS. 16 and 17.One set of hinge plates 116 is disposed adjacent the rear edge of the carrier 112 and extends lengthwise of that carrier, while a second set of those hinge plates is disposed adjacent the front of that carrier and also extends lengthwiseof that carrier all as indicated byFIGS. 9 and 17. A generally rectangular supporting surface 120 is secured to the upper ends of the hinge plates 116 by hinge pins 119, as shown by FIGS9 and 17. That supporting surface overlies the carrier 112; and the'edges thereof extend short distances outwardly beyond the edges of that carrier.
transducer is centrally loaded by a single concentrated load. 7 j v The hinge plates 116, the carrier 112 and the supporting surface 120 essentially act as a four-bar, linkage mechanism which is arranged as a quadrilateral, whichhasthe opposite sides thereof parallel, and which defines equal oblique angles and equal acute angles; and this is desirable, because such linkage mechanism enables all'of the weight of the supporting surface 120 and of anything and anyoneresting thereon to be concentrated 'at the hard insert 123 as a vertically directed load. In this way, the portable support of the present invention obviates the cost and the potential errors inherent in the use of a plurality of pressure transducers or load-sensing'cells which have the outputs thereof suitably totaled. Any internal loads which develop in the four-bar, linkage mechanism will be in static equilibrium, and thus will produce no significant rotation in the load which is concentrated at the hard insert 123. Further, because any displacement of the center of gravity of the supporting surface 120 and of anything and anyone resting thereon relative to the hard insert 123 will merely produce a variation in the internal loads in the hinge plates 116 of the four-bar, linkage mechanism, it is not necessary that the said hard insert be atlthe precise geometric center of thesupporting surface 120, and it is not necessary that the pressure transducer 122 be at the precise geometric center of the carrier ,1 12.
The only disturbance forces which could tend to decrease the accuracy of the weight-indicating signals developed by the pressure transducer 122 would be those caused by friction. The numeral in FIG. 20 denotes an arrow which represents a horizontally directed frictional force that is the product of a down-wardly acting force represented by the arrow 127 and its associated coefficient of friction; and that horizontally directed frictional force acts at a small radial distance indicated by the numeral 129 below the center line of a hinge pin 119. That horizontally directed frictional force will develop a resistive moment of force that will have to be overcome by the load applied to the supporting surface but that resistive moment of force will be essentially insignificant because the diameter of the hinge pin 119 is very small, and because the surface of that hinge pin and of the complementary opening in the hinge plate 116 will be smooth, hard and lubricated. The overall result is that the four bar, linkage mechanism enables the pressure transducer122 to indicate the total weight of the supporting surface 120 and'of anything and anyone resting thereon with a high degree of repeatable accuracy. The pressure transducer 122 has a movable element which moves only a very small fraction of an inch as a bed patient is being weighed. If desired, that pressure transducer could be a resistance-type load-sensing cell or could be a piston of a hydraulic weight-sensing system.
A flexible insulated conductor 124 extends from the pressure transducer 122 to and th rougha grommet 126 in the carrier 122, and then extends to and through a grommet 128 in the upper surface of the platform 102, as shown by FIG. 9. That conductor extends to a digital readout and transducer supply 236 which is shown in FIG. 21. The portion of the flexible conductor 124 which is intermediate the: grommets 126 and 128 preferably is made so it tends to assume a generally helical configuration, as shownby FIG. 9; because such a configuration enables that conductor to accommodate movement of the carrier 1 l2 and of the supporting sur face 120 from the position shown in FIG. 9 to the position shown in FIGS. 1, 2 and 11. In FIG. 1, the conductor 124 is shown as being absolutely straight; but even when the supporting surface 120 is in the position shown in FIGS. 1, 2 and 11, the conductor 124 will have some'slack in it:
The numeral 130 denotes a handle that is fixedly secured to the rear edge of the supporting surface 120; and that handle resembles an inverted U in elevation, as shown particularly by FIG. 3. That handle can be used to apply forces tothe supporting surface 120.
the moved position of FIGS. 1, 2, and 11. Conversely,
the handle 130 can be used to apply forces to the sup porting surface 120 which will cause that supporting surface and the carrier 112 to move from the moved position of FIGS. 1, 2 and 11 to the retracted position of FIG. 9. v
l The supporting surface 120 has sockets 131 secured thereto adjacent one edge thereof; and those sockets can releasably receive hangers 132. Those hangers can be used to support containers, such as the container 256 in FIG. 2, for blood, plasma, glucose, saline solution, or the like. The supporting surface 120 also is provided with several headed pins 134, as indicated by FIGS. 1-3 and 17. In addition, the supporting surface 120 has sockets 125 therein which can releasably receive the hangers 132. i I
Referring to FIGS. 9 and 11, the numeral 136v denotes a lever which has two end plates that are held in fixedly spaced relation by two connecting plates 137. The end plates of the lever 136 are disposed a short distance inwardly of the innerfacesof the sides of the platform I02; and theconnecting plates ,137 of that lever extend lengthwise of that platform.
Pins 138 rotatably secure the upper ends of the end plates of the lever 136 to the slotted bosses 105 and thus to the platform 102, as shown by FIGS. 9 and 11. Pins 140 rotatably secure the lower ends of the end plates of the lever 136 to the slotted bosses 92 of the slide 86, as shown by FIGS. 9 and 11.
The numeral 142 denotes a lever which is essentially identical with the lever 136 having two end plates and two connecting plates'143. The end plates of the lever 142 are disposed outwardly of the end plates of the lever 136 but inwardly of the inner surfaces of the sides of the platform 102, and the connecting plates 143 of the former lever extend longitudinally of that platform. As shown particularly by FIG. 9, portions of the end plates of the levers 136 and 142 are cut away to reduce the weights of those levers. Pins 144 rotatably secure the lower ends of the end plates of the lever 142 to the slotted bosses of the chassis 40. Pins 146 .slidably and rotatably secure the upper ends of the end I plan view in FIG. 1 and in side view in FIG. 3. A similar wing 164 is shown in plan view in FIG. 1, in end view in FIG. 2, in side view in FIG. 3, and in section in FIG. 6.- A hinge 151 has one'plate thereof secured to the chassis 40, and has the other plate thereof secured to the under surface of the wing 150;and that hinge permits that wing to be rotated into and out of the dottedline and solid-line positions in FIG. 3. Similarly, a hinge 161 has one plate thereof secured to the'chassis-40, and has the other plate thereof secured to the under surface of the wing 164; and that hinge permits that wing to be rotated into and out of the dotted-line and solid-line,
positions in FIG. 3.
The wing has slots 152 in the sides thereof, and the wing 164 has slots 162 in the sides thereof. As shown particularly by FIG. 6, the wing 164 has a barlike latch 174 therein, and that latch has a recess therein. A pin 165 has the inner end thereof disposed within the recess in the latch 174, and it has the outer end thereof extending outwardly of the slot 162. A helical compression spring 176 urges the pin 165 'outwardly into locking position within the slot 162. The
head of the pin 165 is undercut to provide a smalldiameter portion which can slide freely through the slot 162; but a shoulder 167 on that pin is too large to fit into the normal-width portion of that slot, and can only fit into larger-diameter openings at the ends of that slot.
.When the wing 164 is in the dotted-line position in FIG. 3, the bar-like latch 174 will be located wholly out of the chassis 40 and will be wholly within the wing 164; and the shoulder 167 of the pin 165 will be in the large-diameter opening at that end of the slot 162 which is most remote from the hinge 161. At such time, the wing 164 can be rotated freely into and out of the dotted-line position in FIG. 3. When the wing 164 is to be set in the solid-line position in FIG. 3, that wing will be raised to that position; and then the pin 165 will be pushed inwardly, against the pressure of the spring 176, and that pin will be moved to the solid-line position in FIG. 6. As the pin 165 is moved from the dotted-line position to the solid-line position in FIG. 6, the bar-like latch 174 will move into position within the chassis 40, and will thereby hold the wing 164 in horizontal position thereby enabling that wing to constitute an extension of the upper surface of the chassis 40. As the bar-like latch 174 reaches the limit of its inner-movement, the shoulder 167 of the pin 165 will respond to the spring 176 to move into the large-diameter opening at that end of the slot 162 which is closest to the pivot 161. The wing 164 will have two bar-type latches 174, two pins 165, two springs 176, and two slots 162; and those latches, pins, springs and slots will be in register with each other. The wing 150' will have two slots 152 which will perform the functions performed by the slots 162, will have two pins 154 which will perform the functions of the pins 165, will have two springs, not shown, which will perform the functions of the springs 176, and will have two bar-type latches, not shown, which will perform the functions of the bar-type latches 174. As a result, the wing 150 can be latched in the solid-line position in FIG. 3, or can be unlatched and moved into the dotted-line position in'FIG. 3.
The numeral 156 denotes an arm which is rotatably secured to the wing 150 by a pivot 158; and the nu meral 160 denotes a second arm which is rotatably se 160 are in the retracted positions wherein they extend part-way into that wing, and whenever the wing 164' is cured to that wing by a pivot 159. Thenumeral 166 denotes an arm which is rotatably secured to the wing 164 by a pivot 168; and the numeral 170 denotes a second arm which is rotatably securedto that wing by a pivot 172. The-outer edge of the wing 164is open in nature so the arms'l66' and 170 can be rotated into the positions indicated by FIGS. 1 and 2. Similarly, the outer edge of the wing 150is1open in nature'so thearrns 156 and 160 can be rotated into positions comparable to the positions occupied by the arms 1 66 and 170 in FIG. 1. Conversely, the arms 166 and '170 can be rotated outwardly to positions comparable to the positions occupied by the arms 156 and 160 in FIG. 1. As shown particularly by FIG. 7, the arm 166 has a button 178 with a reduced diameter upper end; and a helical compression spring urges that reduced diameter upper end upwardlyinto the opening 179. or into the opening 181 in the wing 164. Whenever the arm 166 is in the retracted position shown by FIG. 1, the reduced diameter upper end of the button 178 will extend into and be held by the opening 181. However,
whenever the arm- 166 is in its extended position, the reduced diameterupper end. of the button 178 will extend into and beheld by'the opening 179. The arm 170 carries a button 180 with a reduced diameter upper end; and that reduced diameter upper end will be in the forwardmost opening 182 whenever that arm is in the retracted position shown in FIG. 1, but will be in. the other opening 182 whenever that arm is in its extended position. v
The arm 156 has a button 155 which is comparable to the button 178 in FIG. 7, and that button will be disposcd in the forwardmost opening 149 of the wing whenever that arm is in its retracted position. However, the reduced diameter upper end of the button will be in the other of the openings 149-in the'wing 150 whenever the arm 156 is in its extended position. Simi larly, the armis provided with a button 153 that can be identical to the button 178 of FIG. 7. That button will have the reduced diameter upper end thereof .disposed within the rearmost of two openings 157 in the wing 150 whenever the arm 160 is in its retracted position, but will have that reduced diameter upper end in the other of the openings 157 whenever that arm is in the extended position shown by'FIG. 1. v
Whenever-the wing 150'is moved into and latched in the solid-line position of FIG. 3 and the arms 156 and moved into and latched in the solid-line position of FIG. 3 and the arms 166 and are in the retracted positions wherein they extend part-way into that wing, those wings will moderately increase the effective length of the portable support of FIGS. 120. If the effective length of that portable support needs to be increased even further, the arms 156 and 166 can be moved into, and locked in, the positions shown by FIG. 1; and thearms 166 and 170 also can be moved into, and locked in, their extended positions. On the other hand, if the effective length of the portable support support should be decreased to a minimum, the wings 150 and 164 can be rotated into the dotted-line positions shown by FIG. 3.
Bumpers 184 of the resilient material are provided at the outer corners of each of the wings 150 and 164. Those bumpers will keep those corners from directly engaging thev edges of any doorways through which the portable support of FIGS. l-20 is moved. Because the chassis 40 is narrower than the width of an averagewidth door in a hospital or nursing home, the portable support of FIGS. 1-20 can easily be movedinto and out of most spaces and rooms in a hospital or nursing home. I
- The numeral 188 in FIG. 3 denotes a door of a compartment, within the chassis 40, which accommodates a storage battery 192. A pull or other handle 190 is provided to enable the door 188 to be'opened to check, or to service, the battery. The numeral 194 in FIG. 3 denotes a door toa further compartment within the chassis 40'; and a pull or knob 196 is provided on that door to facilitate the opening of that door.
' The numeral 198 denotes an electric motor which is mounted'within the chassis 40; and the numeral 200 denotes an air compressor which also is mounted within that chassis. A belt 202 connects a pulley on the shaft of the motor 198 to a pulley on the shaft of the air compressor 200. The numeral 20lin FIGS. 3 and 28 denotes a manually operated valve; and that valve is mounted on a control panel 252 on the chassis 40. One port of that valve is connected .to the outlet of the compressor 200 by a pressure regulator203, asecond port of that valve is connected to flexible hoses 222 and 226, a third port of that valveis connected to the inlet of the compressor 200 by an adjustable valve 205, and the fourth port of that valve is connectedto an air filter 199. Whenever the movable element of the valve 201 is in the position shown by FIG. 28 and the motor 198 is operated, the compressor 200 will draw air inwardly through the air filter 199 and the valve 201 and the adjustable valve 205, will compress that air, and will then cause that air to flow through the pressure regulator 203 and'the valve 201 to the hoses 222 and 226. How
ever, when the movable element of the valve 201 is rotated ninety degrees in the clockwise direction, the outlet of the compressor 200 will be connected to the air filter 199 by the pressure regulator 203 and that valve,
and the hoses 222 and 226 will be connected to the face,'a lower surface and a multitude of drop threads which extend between and interconnect those upper and lower surfaces; and some of those drop threads are shown by FIG. 3. The inflatable pad 204 also includes sides and ends which make that inflatable pad air-tight. Handles 206 are provided on the sides and ends of the inflatable pad 204 to facilitate the lifting and handling of that inflatable pad. In fact, those handles make it possible to use that inflatable pad as a stretcher on which persons can be transported by hand. A passage 208 is provided through the inflatable pad 204; and that passage will be located in register with the rectal area of a bed patient resting on that inflatable pad. The passage 208 will be large enough to permit body wastes to pass freely through it into a bedpan or other'receptacle located below it, but will be small enough to enable the adjacent portions of the inflatable pad to provide support for'the bed patient;
The numeral 210 denotes a commercially available, low pressure, quick-disconnect fitting atone end of the inflatable pad 204; and that fitting is hermetically sealed whenever it does not havea complementary commercially available, low pressure, quick-disconnect fitting connected to it.v Such a complementary commercially-available, low pressure, quickdisconnect fitting is provided at the free end of each of the flexible hoses 222 and 226. The connecting of the complementary commercially available, low pressure, quick-disconnectfitting, at the free end of either of those flexible hoses, to the commercially-available, low pressure, quick-disconnect fitting 210 will permit air to be introduced into or withdrawn from the inflatable pad 204. v
. Flexible straps 212 are secured to the inflatable pad 204, adjacent the sides of that inflatable pad; and the free ends of those straps have openings 213 therein which can telescope over the heads of the headed pins 134 on the supporting surface 120. Whenever the straps 212 have the openings 213 in the lower ends thereof telescoped over the heads of the headed pins 134,.the inflatable pad 204 will be held against shifting relative to the supporting surface ;120. a
The numeral 214denotes an inflatable spacer which underlies one end of the inflatable pad 204, That inflatable spacer has an upper surface, a bottom surface, a multitude of drop threads which extend between and interconnect those surfaces, sides and ends. Some of the drop threads ofthat inflatable spacer are shown'in FIG. 3. The inflatable spacer 214 is providedv witha commercially available, low pressure, quick-disconnect fitting 218; and that fitting is hermetically sealed whenever it does not have a complementary commercially available, low pressure, quick-disconnect fitting connected to it, Such a complementary commercially available, low pressure, quick-disconnect fitting is pro vided at the free end of each of the flexible hoses 222 and 226. The connecting of the complementary cornmercially available, low pressure,- quick-disconnect fitting, at the free end of either of those flexible hoses, to
the commercially-available, low pressure,v quick-v disconnect fitting 218 will permit air to be introduced into orwithdrawn from the inflatable spacer 214. The
the mark AIRMAT,
' end of each of the flexible hoses 222 and 226. The con- 7 necting of the complementary commercially available,
low pressure, quick-disconnect fitting, at the free end of either of those flexible hoses, to the commercially available,'low pressure, quick-disconnect fitting 220 will permit air to be introduced into or withdrawnfrom V the inflatable spacer 216. e I
The inflatable pad 204 and the inflatable spacers 214 and 216 could be made of different materials, and they could be made in differentways. For example, that in. flatable pad and those inflatable spacers could be made of dacron, nylon, fiber glass and many other filaments, single or stranded; and that inflatable pad and those inflatable spacers could be made in the same way in which the Goodyear Aerospace Corporation makes the three-dimensional structural fabrics which itsells under Whenever the inflatable pad 204 and the inflatable spacers 214 and 216 are deflated, they are very flexible flated, theyvare quite firm, andthey can'provide full support for a bed patient; Whenever the inflatable pad 204 isjust partially inflated, it will provide a gentle, cradle-like cushioning action for the bed patient.
The inflatable pad 204 can be dimensioned to have an inflated thickness within a range of 2 to 6 inches. Similarly, each of the inflatable spacers 214 and 216 can be dimensioned to have an inflated thickness within" aran'ge of 2to'6 in'cheszAs a result, inflating of the inflatable pad 204 and of the inflatable spacers 214 and 216 can gently but firmly raise a bed patient a distanee of from 4 to 12 inches above the leveliof the mattress on a bed. As the inflatable spacers 214 and 216 are inflated, they will raise the inflated pad 204 upwardly relative to that mattress; and, depending upon the inflated thicknesses of those inflatable spacers, the central portion of that inflatable pad can be raised from 2 to6 inches from that mattress.
The inflated thickness of each of the inflatable spacers 214 and 216 is greater than the height of the bedpan 258 shown in FIG. 3. As a result, that bedpan can be freely moved into position below the passage 208 in the inflatable pad 204, and can subsequently be freely removed from position below that passage. Also, the inflated thickness of each of the inflatable spacers 214 and 216 is greater than the combined heights of the supporting surface and of the carrier 112, as shown by FIG. 2. Consequently, that carrier and that supporting surface can readily be telescoped into the space between the upper surface of the mattress and the lower surface of the inflatable pad 204.
If desired, one or the other of the inflatable spacers 214 and 216 could be left in deflated condition. Where that was done, the inflatable pad 204 would incline at a, gentle angle relative to the mattress of the bed; and
hence, a gentle inclination of the bed patients body,
that need be done is to inflate the inflatable pad 204,
and thereafter to inflate the desired inflatable spacer 214 or 216. As that inflatable spacer was inflated, the adjacent end of the inflatable pad 204 would raise upwardly; and that inflatable pad would be so stiff that it would gently but firmly raise all portions of the bed patients body to the desired inclination.
The flexible hose 222 has one end thereof connected to the valve 201 by piping and a T-junction 223, as shown by. FIG. 1. Normally that flexible hose is held within a hose compartment 224 within the chassis 40; and normally the door of' that hose'compartment is closed. However, that door is readily openable to per- 'mit the flexible hose 222 to be withdrawn from that compartment, and to have the commercially available, low pressure, quick-disconnect fitting at the free end thereof connected to the commercially available, low
pressure, quick-disconnect fitting 210 on the inflatable pad 204 or to'either of the commercially available, low pressure, quick- disconnect fittings 218 and 220 on the inflatable spacers 214 and 216. Similarly, the flexible hose 226 has one end, thereof connected to the valve 201 by piping and the T-junction 223, as shown by FIG. 1. Normally that flexible hose is held within a hose compartment 228 within the chassis 40; and normally the door of that hose compartment is closed. However, that door is readily openable to permit the flexible hose 226 to be withdrawn from that compartment, and to have the commercially available, low pressure, quickdisconnect fitting at the free end thereof connected to the commercially available, low pressure, quickdisconnect fitting 210 on the inflatable pad 204' orto either of the commercially available, low pressure, quick-disconnect fittings 2.18 and 220 on the inflatable spacers 214 and 216. f v a Referring particularly to FIG. '21, the numeral 230 denotes anelectric plug whichcan be plugged into the standard and usual electric outlet in the, wall of a room in ahospital or nursing home. An overload device 232 is connected between one prong of the plug 230 and a connector strip 233; and the other prong of that plug is directly connected to a connector strip 235. A lamp ha] of the DC Power Distribution And Charger 240; and it has the negative terminal thereof connected to the negative terminal of that DC Power Distribution And Charger by an overload device 242. A voltmeter 244 is connectable across the terminals of the storage battery 192 by a single pole, single throw switch 245. The positive output terminal of the DC. Power Distri bution And Charger 240 is connected to the two stationary contacts adjacentthe other pole of the doublepole double-throw switch 238. That other pole is con nected to one pole of a double-pole double-throw reversing switch 246, and also is connected to one terminal of the motor 198 by a single-pole single-throw switch 250. The other pole of the double-pole doublethrow reversing switch 246 and the other terminal of the motor 198 are connected to the negative output terminal of the DC. Power Distribution And Charger 240 by the overload device 242. The limit switch 95 selectively connects the right-hand contacts of the double-pole double-throw reversing switch 246 to the terminalsof the gear motor 84; and the limit switch 97 selectively connects the left-hand contacts of that dou;
-ble-pole double throwreversing switch to these terminals."
The control panel 252 has a knob which can be used to set the movable contacts of the double-pole double-' throw switch 238 in their upper position, in their, lower position, or in an open position. That control panel also has a knob which can be used to set the movable contacts of the double-pole double-throw reversing switch 246 in their left-hand positions, in'their righthand positions, or in an off position; In addition, that control panel has an actuator to selectively close the switch 250 and an actuator to selectively close the switch 245. Furthermore, that control panel has actuators that can be used to reset the overload devices 232 and 242. Moreover, the control panel 252 has a knob which canbe used to set the valve 201 in its inflate or deflate position. Also, that control panel has the lamp 234 and the voltmeter 244 incorporated therein.
The numeral 254 denotes a display panel which is located on the chassis 40 in the position-shown by FIG.
234 has the terminals thereof connected to the connector strips 233 and 235, and thus will be illuminated whenever the plug 230 is plugged into the appropriate electric outlet. One terminal of the digital readout and transducer supply 236 is directly connectedto the connector strip 235, while the other terminal of that digital V 1 That display panel includes the digital readout of the digital readout and transducer supply'236. That readout will display in digital form the value of any weight which rests upon the supporting surface 120, and thereby acts upon the pressure transducer .122.
To use the portable support of FlGSJ-ZO, the operator will release the latches on the casters 42 of that portable support, and will then move that portable support into position where it is alongisde of, and parallel with, a bed on which an inflatable pad 204, with its inflatable spacers 214 and 216, underlies a bed patient. At such time, that inflatable pad and those inflatable spacerswill be in. their'deflated conditions. Also, at such time, the slides 108 will be fully retracted within the channels 106 on the platform 102, and the sides of the carrier 112 will be fully retracted within the slides 108; andlatches, not shown, will hold that carrier in that position. Consequently, the supporting surface and the carrier 112 will be directly above, and in register with, the platform 102 and the chassis 40, as shown particularly by FIG. 9.
After the chassis 40 has been moved into position wherein it is alongside of, and parallel with, the bed, the operatorwill set the latches on the casters 42. Also, the operator will open the hose compartment 224 and will

Claims (13)

1. A portable support which is movable relative to a bed and which can be moved into position immediately adjacent said bed to weigh a bed patient lying on a pad on said bed without requiring said bed patient to get out of said bed and which comprises a carrier that is held at the approximate level of said bed on which said bed patient is lying, a supporting surface overlying but being vertically movable relative to said carrier, a pressure transducer intermediate said carrier and said supporting surface which responds to the application of a weight to said supporting surface and to the resulting tendency of said supporting surface to move downwardly relative to said carrier to develop a signal, and a readout which responds to said signal from said pressure transducer to indicate the value of said weight applied to said supporting surface, said pad having means to define a recess that is dimensioned to accommodate said carrier and said supporting surface, said carrier and said supporting surface being movable horizontally relative to said bed and said pad to move into position within said recess and thus into position beneath said bed patient but above said bed, thereby enabling the weight of said bed patient and of said pad but not the weight of said bed to be applied to said supporting surface and thus to said pressure transducer, means on said portable support holding said carrier as an end-supported load-supporting cantilever for said supporting surface and for said pad and for said bed patient whenever said carrier is positioned within said recess in said pad and said pad is resting on said supporting surface, said carrier and said supporting surface being able to support said pad and saiD bed patient without having to support said bed, thereby enabling said pressure transducer to sense and respond to the combined weights of said supporting surface and pad and bed patient but not to the weight of said bed.
2. A portable support as claimed in claim 1 wherein said pad is an inflatable pad that is interposed between said bed and said bed patient, wherein said inflatable pad is inflatable to raise said bed patient relative to said bed, wherein said inflatable pad defines said recess whenever it is inflated, and wherein said carrier and said supporting surface support said inflatable pad to support and weigh said bed patient.
3. A portable support as claimed in claim 1 wherein means on said portable support can be actuated to cause said carrier and said supporting surface to move vertically relative to said bed to raise and lower said bed patient relative to said bed, and wherein said pressure transducer will respond to the raising of said bed patient by said carrier and said supporting surface to develop said signal.
4. A portable support as claimed in claim 1 wherein said means on said portable support permit said carrier and said supporting surface to move in the horizontal direction, relative to other portions of said portable support, from a position displaced laterally from said bed patient to said position within said recess beneath said bed patient.
5. A portable support as claimed in claim 1 wherein said portable support includes a wheel-equipped chassis, wherein said carrier and said supporting surface normally overlie and are in register with said wheel-equipped chassis, and wherein said means on said portable support permit said carrier and said supporting surface to move in the horizontal direction, relative to other portions of said portable support, to said position within said recess beneath said bed patient.
6. A portable support as claimed in claim 1 wherein said supporting surface has means thereon to carry objects connected to said bed patient by hoses, and wherein carrying means is bodily movable with said supporting surface.
7. A portable support as claimed in claim 1 wherein lifting means can raise and lower said carrier relative to said bed and can thereby raise and lower said supporting surface and said bed patient relative to said bed.
8. A portable support as claimed in claim 1 wherein lifting means can raise and lower said carrier relative to said bed and can thereby raise and lower said supporting surface and said bed patient relative to said bed, and wherein stabilizing legs are movable into engagement with the floor to stabilize said portable support.
9. A portable support as claimed in claim 1 wherein lifting means can raise and lower said carrier relative to said bed and can thereby raise and lower said supporting surface and said bed patient relative to said bed, wherein stabilizing legs are movable into engagement with the floor to stabilize said portable support, and wherein further means move said stabilizing legs into engagement with said floor before said lifting means raises said carrier.
10. A portable support as claimed in claim 1 wherein lifting means can raise and lower said carrier relative to said bed and can thereby raise and lower said supporting surface and said bed patient relative to said bed, wherein stabilizing legs are movable into engagement with the floor to stabilize said portable support, wherein further means move said stabilizing legs into engagement with said floor before said lifting means raises said carrier, and wherein said further means includes a scissors jack and a lost-motion connection associated with said scissors jack.
11. A portable support as claimed in claim 1 wherein said pressure transducer has a movable element that has a range of movement in the order of a fraction of an inch, whereby said portable support can be used to weigh a bed patient having a limb in the traction frame.
12. A portable support as claimed in claim 1 wherein lifTing means can raise and lower said carrier relative to said bed and can thereby raise and lower said supporting surface and said bed patient relative to said bed, wherein stabilizing legs are movable into engagement with the floor to stabilize said portable support, and wherein further means move said stabilizing legs into fully-extended position before said lifting means can begin to raise said carrier.
13. A portable support which is movable relative to a bed and which can be moved into position immediately adjacent said bed to weigh a bed patient lying on a pad on said bed without requiring said bed patient to get out of said bed and which comprises a carrier that is held at the approximate level of said bed on which said bed patient is lying, a supporting surface overlying but being vertically movable relative to said carrier, a pressure transducer intermediate said carrier and said supporting surface which responds to the application of a weight to said supporting surface and to the resulting tendency of said supporting surface to move downwardly relative to said carrier to develop a signal, a readout which responds to said signal from said pressure transducer to indicate the value of said weight applied to said supporting surface, said pad having means to define a recess that is dimensioned to accommodate said carrier and said supporting surface, and links pivotally securing said supporting surface to said carrier, said links and said carrier and said supporting surface coacting to constitute a four-bar linkage mechanism, said carrier and said supporting surface being movable horizontally relative to said bed and said pad to move into position within said recess and thus into position beneath said bed patient but above said bed, thereby enabling the weight of said bed patient and of said pad but not the weight of said bed to be applied to said supporting surface and thus to said pressure transducer, means on said portable support holding said carrier as an end-supported load-supporting cantilever for said supporting surface and for said pad and for said bed patient whenever said carrier is positioned within said recess in said pad and said pad is resting on said supporting surface, said carrier and said supporting surface being able to support said pad and said bed patient without having to support said bed, thereby enabling said pressure transducer to sense and respond to the combined weights of said supporting surface and pad and bed patient but not to the weight of said bed.
US00214806A 1972-01-03 1972-01-03 Portable support and weigher for a bed patient Expired - Lifetime US3795284A (en)

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Cited By (24)

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US4250759A (en) * 1979-11-21 1981-02-17 Scovill Manufacturing Company Digital readout gauge
US4487276A (en) * 1983-05-03 1984-12-11 Swersey Burt L Scale of flat construction
WO1990002927A1 (en) * 1988-09-09 1990-03-22 Brava Patent Och Invent Hb Method and device for weighing, especially of seriously ill patients confined to bed
US4974692A (en) * 1989-06-26 1990-12-04 Ssi Medical Services, Inc. Weigh bed
EP0482267A1 (en) * 1990-10-26 1992-04-29 Gram Corporation Method for weighing human body and the like
US5483709A (en) * 1994-04-01 1996-01-16 Hill-Rom Company, Inc. Low air loss mattress with rigid internal bladder and lower air pallet
US5513406A (en) * 1994-04-21 1996-05-07 Hill-Rom Company, Inc. Modular hospital bed and method of patient handling
US5577279A (en) * 1990-05-16 1996-11-26 Hill-Rom Company, Inc. Hospital bed
US5672849A (en) * 1994-03-31 1997-09-30 Hill-Rom Company, Inc. Patient weigh scale
US5680661A (en) * 1990-05-16 1997-10-28 Hill-Rom, Inc. Hospital bed with user care apparatus
US5859390A (en) * 1996-10-23 1999-01-12 Hill-Rom, Inc. Hospital bed scale mounting apparatus
US6180893B1 (en) * 1999-03-03 2001-01-30 Peter Salgo Patient weighing apparatus
US6374436B1 (en) 1994-01-25 2002-04-23 Hill-Rom Services, Inc. Hospital bed
US6639157B2 (en) 2000-08-22 2003-10-28 Louis E. Sternberg Portable attachable weighing system
US20040194210A1 (en) * 1993-01-21 2004-10-07 Foster L. Dale Hospital bed
US6924441B1 (en) 1999-09-29 2005-08-02 Hill-Rom Services, Inc. Load cell apparatus
US20060028350A1 (en) * 2004-08-09 2006-02-09 Bhai Aziz A Apparatus and method for monitoring a patient in a hospital bed
US20060059814A1 (en) * 2004-09-13 2006-03-23 Metz Darrell L Load cell to frame interface for hospital bed
US20110068932A1 (en) * 2006-11-14 2011-03-24 Thierry Flocard Bed exit alarm of hospital bed mattress
CN103251421A (en) * 2012-02-07 2013-08-21 西门子公司 Method for determining of mass of patient through patient table and device having patient table
US8717181B2 (en) 2010-07-29 2014-05-06 Hill-Rom Services, Inc. Bed exit alert silence with automatic re-enable
US20140263144A1 (en) * 2013-03-15 2014-09-18 The Timken Company Portable lifting system
US9875633B2 (en) 2014-09-11 2018-01-23 Hill-Rom Sas Patient support apparatus
US10292605B2 (en) 2012-11-15 2019-05-21 Hill-Rom Services, Inc. Bed load cell based physiological sensing systems and methods

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Cited By (38)

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Publication number Priority date Publication date Assignee Title
US4250759A (en) * 1979-11-21 1981-02-17 Scovill Manufacturing Company Digital readout gauge
US4487276A (en) * 1983-05-03 1984-12-11 Swersey Burt L Scale of flat construction
WO1990002927A1 (en) * 1988-09-09 1990-03-22 Brava Patent Och Invent Hb Method and device for weighing, especially of seriously ill patients confined to bed
US4974692A (en) * 1989-06-26 1990-12-04 Ssi Medical Services, Inc. Weigh bed
US5680661A (en) * 1990-05-16 1997-10-28 Hill-Rom, Inc. Hospital bed with user care apparatus
US6725474B2 (en) 1990-05-16 2004-04-27 Hill-Rom Services, Inc. Hospital bed
US5577279A (en) * 1990-05-16 1996-11-26 Hill-Rom Company, Inc. Hospital bed
EP0482267A1 (en) * 1990-10-26 1992-04-29 Gram Corporation Method for weighing human body and the like
US6993799B2 (en) 1993-01-21 2006-02-07 Hill-Rom Services, Inc. Hospital bed
US20070113342A1 (en) * 1993-01-21 2007-05-24 Foster L D Hospital bed
US7644458B2 (en) 1993-01-21 2010-01-12 Hill-Rom Services, Inc. Hospital bed
US20040194210A1 (en) * 1993-01-21 2004-10-07 Foster L. Dale Hospital bed
US6694548B2 (en) 1994-01-25 2004-02-24 Hill-Rom Services, Inc. Hospital bed
US6374436B1 (en) 1994-01-25 2002-04-23 Hill-Rom Services, Inc. Hospital bed
US5672849A (en) * 1994-03-31 1997-09-30 Hill-Rom Company, Inc. Patient weigh scale
US5483709A (en) * 1994-04-01 1996-01-16 Hill-Rom Company, Inc. Low air loss mattress with rigid internal bladder and lower air pallet
US5513406A (en) * 1994-04-21 1996-05-07 Hill-Rom Company, Inc. Modular hospital bed and method of patient handling
US5859390A (en) * 1996-10-23 1999-01-12 Hill-Rom, Inc. Hospital bed scale mounting apparatus
US6180893B1 (en) * 1999-03-03 2001-01-30 Peter Salgo Patient weighing apparatus
US6924441B1 (en) 1999-09-29 2005-08-02 Hill-Rom Services, Inc. Load cell apparatus
US6639157B2 (en) 2000-08-22 2003-10-28 Louis E. Sternberg Portable attachable weighing system
US7253366B2 (en) 2004-08-09 2007-08-07 Hill-Rom Services, Inc. Exit alarm for a hospital bed triggered by individual load cell weight readings exceeding a predetermined threshold
US20070268147A1 (en) * 2004-08-09 2007-11-22 Hill-Rom Services, Inc. Load-cell based hospital bed control
US7437787B2 (en) 2004-08-09 2008-10-21 Hill-Rom Services, Inc. Load-cell based hospital bed control
US20060028350A1 (en) * 2004-08-09 2006-02-09 Bhai Aziz A Apparatus and method for monitoring a patient in a hospital bed
US7176391B2 (en) 2004-09-13 2007-02-13 Hill-Rom Services, Inc. Load cell to frame interface for hospital bed
US20060059814A1 (en) * 2004-09-13 2006-03-23 Metz Darrell L Load cell to frame interface for hospital bed
US7335839B2 (en) * 2004-09-13 2008-02-26 Hill-Rom Services, Inc. Load cell interface for a bed having a stud receiver with a roller axis parallel with an axis of a load cell stud
US20070107948A1 (en) * 2004-09-13 2007-05-17 Metz Darrell L Load cell to frame interface for hospital bed
US20110068932A1 (en) * 2006-11-14 2011-03-24 Thierry Flocard Bed exit alarm of hospital bed mattress
US8717181B2 (en) 2010-07-29 2014-05-06 Hill-Rom Services, Inc. Bed exit alert silence with automatic re-enable
CN103251421A (en) * 2012-02-07 2013-08-21 西门子公司 Method for determining of mass of patient through patient table and device having patient table
CN103251421B (en) * 2012-02-07 2015-05-20 西门子公司 Method for determining of mass of patient through patient table and device having patient table
US10292605B2 (en) 2012-11-15 2019-05-21 Hill-Rom Services, Inc. Bed load cell based physiological sensing systems and methods
US20140263144A1 (en) * 2013-03-15 2014-09-18 The Timken Company Portable lifting system
US8991626B2 (en) * 2013-03-15 2015-03-31 The Timken Company Portable lifting system
US9875633B2 (en) 2014-09-11 2018-01-23 Hill-Rom Sas Patient support apparatus
US10276021B2 (en) 2014-09-11 2019-04-30 Hill-Rom Sas Patient support apparatus having articulated mattress support deck with load sensors

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