CN104340582A - Automatic medicine fetching device - Google Patents

Abstract

Disclosed is an automatic medicine fetching device. The automatic medicine fetching device comprises a box, a control chip in the box, a medicine fetching mechanism and a medicine storage mechanism; the medicine fetching mechanism comprises a medicine fetching arm, a suction nozzle arranged on the medicine fetching arm and a first driving mechanism, the medicine storage mechanism comprises a dial, a plurality of medicine storage houses arranged on the dial and a second driving mechanism, the control chip can control the second driving mechanism to drive the dial to rotate to turn one of the plurality of medicine storage houses to a medicine fetching position, control the first driving mechanism to drive the medicine fetching arm to rotate after one of the plurality of medicine storage houses reaches to the medicine fetching position to enable the suction nozzle to extend into the medicine storage houses of the medicine fetching position to suck up pills.

Description

Automatic medicine taking device

Technical field

The present invention relates to a kind of article access device, refer to a kind of medicine taking device automatically especially.

Background technology

Medicine, as the article safeguarding human health, needs patient to take to reach the object of remission and healing orally in certain course for the treatment of usually.Some patient often needs to take the multiple medicine without classification, and for preventing medicine from confusing, during each medication, patient or medical personnel need to check that specification sheets or related description are to confirm that whether medicine is correct.For the medication patient that some is special, as amesiac, psychotic disorder patient or some older patients, due to disease itself, these patients also need supernumerary and carry out medication monitoring, miss or excessive use affects disease recovery or healthy to prevent medicine.Existing application method wastes more manpower.

Summary of the invention

In view of above content, be necessary to provide a kind of automatic medicine taking device of automatically getting it filled.

A kind of medicine taking device automatically, include a box body, described automatic medicine taking device also includes the control chip be arranged in described box body, medicine taking mechanism and drug storage mechanism, described medicine taking mechanism includes arm of getting it filled, to get it filled described in being installed in suction nozzle on arm and the first driver train, described drug storage mechanism includes rotating disk, be installed in the some medicine holding bins on described rotating disk and the second driver train, described control chip can control described second driver train and drive described dial rotation to get it filled position one of to rotate in described some medicine holding bins to one, and one of in described some medicine holding bins to described in get it filled to control behind position described first driver train drive described in arm of getting it filled rotate, pill is drawn with the medicine holding bin of position of getting it filled described in making described suction nozzle stretch into be arranged in.

In one embodiment, described medicine taking mechanism also includes air pressure generator and tracheae, and described tracheae connects described suction nozzle and described air pressure generator, and described air pressure generator produces negative pressure, and via described tracheae to described suction nozzle, makes described suction nozzle draw described pill.

In one embodiment, described medicine taking mechanism also includes air pressure sensor, described air pressure sensor is for sensing described endotracheal atmospheric pressure value, described control chip is for judging whether described atmospheric pressure value is less than described preset pressure, when described atmospheric pressure value is less than preset pressure, described suction nozzle is drawn to pill.

In one embodiment, described control chip is for reading the pulse width modulated values of described first driver train and judging when described atmospheric pressure value is greater than described preset pressure whether described pulse width modulated values is greater than preset limit value, when described pulse width modulated values is greater than described preset limit value, to get it filled arm described in described first driver train rotates, arm of getting it filled described in making gets back to an initial position.

In one embodiment, described drug storage mechanism also includes vibrator, described control chip is for recording the number of times and be greater than the described preset limit value number of times that makes to get it filled described in judgement at described pulse width modulated values and whether be greater than preset times of getting it filled of described suction nozzle, described vibrator is opened when described number of times of getting it filled is greater than described preset times, with medicinal box to be got described in vibrating.

In one embodiment, medicine holding bin to be got described in arm of getting it filled described in described first driver train rotates when described pulse width modulated values is less than or equal to described preset limit value gos deep into.

In one embodiment, described medicine taking mechanism also includes filter, and described filter connects described air pressure generator and described suction nozzle, in order to the particulate in adsorption gas flow respectively by described tracheae.

In one embodiment, each medicine holding bin is labeled with the bar code of the initial number information storing pill, described automatic medicine taking device also includes code reader and counting machine, described code reader in order to be read the initial number information of described pill by described bar code to described counting machine, and controls described rolling counters forward at all after dates of described suction nozzle sucking action.

In one embodiment, described automatic medicine taking device also includes moisture absorber and humidity sensor, described humidity sensor is for sensing the humidity value in described box body, described control chip is for judging whether described humidity value is greater than default humidity value, when described humidity value is greater than described default adsorptive value, start described moisture absorber.

In one embodiment, described in get it filled arm can at one first rotation with in surface under described first driver train drives, described some medicine holding bins can at second rotation with in surface substantially vertical with the first plane under described second driver train drives.

Compared with prior art, in above-mentioned automatic medicine taking device, described control chip controls described first driver train and automatically completes in described medicine holding bin with arm of getting it filled described in rotating and get it filled, convenient and save human cost.

Accompanying drawing explanation

Fig. 1 is a three-dimensional assembly diagram of the automatic medicine taking device in one embodiment of the present invention.

Fig. 2 is another visual angle figure of Fig. 1.

Fig. 3 is a three-dimensional assembly diagram of the automatic medicine taking device in Fig. 1.

Fig. 4 is a diagram of block of the automatic medicine taking device of the present invention.

Fig. 5 is a three-dimensional assembly diagram of medicine taking mechanism in Fig. 1 and a medicine box.

Fig. 6 is another visual angle figure of Fig. 5.

Fig. 7 is a three-dimensional exploded view of Fig. 5.

Fig. 8 to Figure 19 is the different conditions figure of medicine taking mechanism in the process of getting it filled in Fig. 4.

Figure 20 to Figure 22 is a diagram of circuit of the method for getting it filled of one embodiment of the present invention.

Main element nomenclature

Box body 100

Base 110

Support 120

Top cover 130

Control chip 200

Control unit 210

Pulse width modulation reading unit 220

To get it filled number recording unit 230

Pulse width modulation judging unit 240

To get it filled frequency judging unit 250

Air pressure judging unit 260

Humidity judging unit 270

Drug storage mechanism 300

Rotating disk 320

Second driver train 330

Second motor 331

Second gear 333

Vibrator 340

Humidity module 500

Moisture absorber 510

Humidity sensor 520

Power down process module 600

Pulling piece 610

Connecting rod 620

Pill sensing module 800

Code reader 810

Counting machine 820

User interface 900

Medicine taking mechanism 10

To get it filled arm 410

Air pressure generator 420

Filter 430

First driver train 440

First motor 441

First gear 443

Air pressure sensor 450

Tracheae 470

Principal arm 11

Main part 111

Opening 1111

Hold-down arm 112

Blocking arm 113

Abutting part 114

Connection arm mechanism 12

First link arm 121

First coupling end 1211

First pivot part 1212

Abutment end 1213

Protruding 1214

Second link arm 122

Second coupling end 1221

Second pivot part 1222

3rd coupling end 1223

3rd link arm 123

Actuating arm 124

3rd pivot part 1241

Arm shovel 1242

Resettlement section 1243

Lid 125

Suction nozzle 13

Transmission device 14

Driving cam 141

Fixed orifice 1411

Groove 1413

Drive spindle 142

Flower wheel 143

First stop part 16

Second stop part 15

Abutment face 161

Position sensor 17

Projector 171

Receptor 172

First elastic component 21

Second elastic component 22

First rotating shaft 31

Second rotating shaft 32

3rd rotating shaft 33

4th rotating shaft 34

5th rotating shaft 35

Medicine holding bin 50

Inwall 51

Opening for getting medicine 52

Go out medicine box 53

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Refer to Fig. 1 to Fig. 4, in one embodiment of the present invention, one automatic medicine taking device, be arranged in a box body 100, include control chip 200, drug storage mechanism 300, medicine taking mechanism 10, humidity module 500, power down process module 600, pill sensing module 800 and a user interface 900.Described user interface 900 connects described control chip 200, for arranging medicine time and dosage for patient.Described box body 100 includes base 110, support 120 and a top cover 130.

Described drug storage mechanism 300 is arranged on described base 110, and include a rotating disk 320, some medicine holding bins 50, be installed on described rotating disk 320 go out medicine box 53 and one second driver train 330.Described medicine holding bin 50 is for storing medicine, and in the present invention, alleged medicine refers in particular to solid-state drug.Described rotating disk 320 is rotatably installed in described base 110, for rotate described some medicine holding bins 50 to get it filled position and described in go out medicine box 53 to drug position.Described pedestal 310 is provided with a vibrator 340 below described position of getting it filled, for vibrating medicine holding bin 50 to be got.

Described some medicine holding bins 50 and described in go out medicine box 53 and be arranged in order rounded, and to be fixed on described rotating disk 320.Each medicine holding bin 50 comprises inwall 51, and described inwall 51 forms a cavity for holding medicine, and offers an opening for getting medicine 52.Each medicine holding bin 50 is provided with a bar code 57, described bar code 57 stores the initial number information of pill in described medicine holding bin 50.

Described second driver train 330 includes one second motor 331 and some second gears 333.Described second motor 331 is for driving described some second gears 333, and described some second gears 333 rotate to drive described rotating disk 310 to rotate.

Please together with reference to Fig. 5-7, described medicine taking mechanism 10 comprises get it filled arm 410, transmission device 14,1 first stop part 16,1 second stop part 15, position sensor 17, air pressure generator 420, filter 430,1 first driver train 440 and an air pressure sensor 450.The end that described arm 410 of getting it filled comprises actuating arm 124 described in principal arm 11, connection arm mechanism 12 and an actuating arm 124 is provided with a suction nozzle 13.Described air pressure generator 420 can produce negative pressure to described suction nozzle 13, and described suction nozzle 13 can be made to draw pill.Described filter 430 connects described air pressure generator 420 and described suction nozzle 13 respectively by a tracheae 470, for the particulate in filtered airflow, prevents suction nozzle 13 described in described particles holography.In one embodiment, described air pressure generator 420 is an air lift pump.Described first driver train 440 includes one first motor 441 and some first gears 443.Described first motor 441 is for driving described some first gears 443.Described some first gears 443 are for driving described transmission device 14 with arm 410 of getting it filled described in rotating.Described air pressure sensor 450 is for sensing the atmospheric pressure value in described tracheae 470.

Described principal arm 11 can rotate around one first rotating shaft 31.Described principal arm 11 comprises main part 111, hold-down arm 112, blocking arm 113 and an abutting part 114.Described main part 111 offers an opening 1111, described opening 1111 is surrounded by two relative straight lines and two relative camber line limits and forms.Described hold-down arm 112 extends out from the side of described main part 111, roughly vertical with described main part 111.Described blocking arm 113 extends out from the opposite side of described main part 111.Described abutting part 114 is positioned at the bottom of described main part 111.

Described transmission device 14 comprises driving cam 141, drive spindle 142 and a flower wheel 143.Described driving cam 141 can rotate around one second rotating shaft 32.The free end of described driving cam 141 offers a fixed orifice 1411, one end of described drive spindle 142 is inserted and is fixed in described fixed orifice 1411, like this, described drive spindle 142 is substantially vertical with described driving cam 141, can follow described driving cam 141 and rotate around described second rotating shaft 32 together.Described flower wheel 143 is installed in the free end of described drive spindle 142, can rotate around described drive spindle 142.Described second rotating shaft 32 is positioned at the upper left side of described first rotating shaft 31.The lateral surface of described driving cam 141 offers some groove 1413(Fig. 3), can plug into described first driver train 440, rotate around described second rotating shaft 32 to order about described driving cam 141.

The free end of described drive spindle 142 stretches into described opening 1111, described flower wheel 143 can with the edge contact of described opening 1111, like this, when described drive spindle 142 rotates around described second rotating shaft 32 under the drive of described driving cam 141, described flower wheel 143 can against the edge of described opening 1111, thus promotes described principal arm 11 and rotate around described first rotating shaft 31.

Described connection arm mechanism 12 comprises one first link arm 121,1 second link arm 122 and one the 3rd link arm 123.

Described first link arm 121 comprises one first coupling end 1211,1 first pivot part 1212 and an abutment end 1213.Described first pivot part 1212 is connected with hold-down arm 112 pivotable of described principal arm 11 by one the 3rd rotating shaft 33, and like this, described first link arm 121 can rotate around described 3rd rotating shaft 33.Described first coupling end 1211 and described abutment end 1213 are positioned at the both sides of described first pivot part 1212, and described abutment end 1213 comprises one to the projection 1214 of downward-extension.

Described second link arm 122 comprises one second coupling end 1221,1 second pivot part 1222 and one the 3rd coupling end 1223.The side profile of described second link arm 122 is roughly in a triangle, and described second coupling end 1221, described second pivot part 1222 are roughly distributed on described leg-of-mutton three summits with described 3rd coupling end 1223.Described second pivot part 1222 is connected with hold-down arm 112 pivotable of described principal arm 11 by one the 4th rotating shaft 34, and like this, described second link arm 122 can rotate around described 4th rotating shaft 34.

One end of described 3rd link arm 123 is connected with the first coupling end 1211 pivotable of described first link arm 121, and the other end is connected with the second coupling end 1221 pivotable of described second link arm 122.Like this, when described first link arm 121 rotates around described 3rd rotating shaft 33, by the interlink function of described 3rd link arm 123, described second link arm 122 can rotate around described 4th rotating shaft 34 accordingly.

Described actuating arm 124 comprises one the 3rd pivot part 1241, arm shovel 1242 and a resettlement section 1243.Described 3rd pivot part 1241 is connected with the 3rd coupling end 1223 pivotable of described second link arm 122 by one the 5th rotating shaft 35, and like this, described actuating arm 124 can rotate around described 5th rotating shaft 35.Described resettlement section 1243 is for collecting and fixing described suction nozzle 13.Described arm shovel 1242 is one from the thinning gradually plates of rear end forward end, and in one embodiment, described arm shovel 1242 is a sheet.The outside of described resettlement section 1243 is located at by described arm shovel 1242, and described arm shovel 1242 is almost parallel with the bearing of trend of described resettlement section 1243.

Described suction nozzle 13 is mounted in the resettlement section 1243 of described actuating arm 124, for drawing medicine after described connection arm mechanism 12 enters into described medicine holding bin 50.In some embodiments, described suction nozzle 13 is vacuum slot, and the other end of described suction nozzle 13 is connected to a vacuum pump (not shown).

Described connection arm mechanism 12 also comprises a lid 125, being assembled in the assembly clearance after described second link arm 122 for hiding described 3rd link arm 123 with described actuating arm 124, can avoiding like this when described connection arm mechanism 12 enters into the possibility that medicine when described medicine holding bin 50 is got it filled blocks this assembly clearance.

Described position sensor 17 is roughly in concave shape, and comprise projector 171 and a receptor 172, described projector 171 is relative with described receptor 172, the signal (such as, optical signal) that described receptor 172 emits for receiving described projector 171.When the blocking arm 113 of described principal arm 11 enters between the projector 171 of described position sensor 17 and receptor 172, described blocking arm 113 interdicts the signal transmitting and receiving between described projector 171 and described receptor 172, and now described position sensor 17 judges that described principal arm 11 is in initial position.When the blocking arm 113 of described principal arm 11 leaves between the projector 171 of described position sensor 17 and receptor 172, the signal that described blocking arm 113 no longer interdicts between described projector 171 and described receptor 172 sends out receipts, and now described position sensor 17 judges that described principal arm 11 have left initial position.

Described second stop part 15 is for when described principal arm 11 is in initial position, against the abutting part 114 of described principal arm 11, to stop described principal arm 11 to rotate clockwise around described first rotating shaft 31 further, like this, described principal arm 11 can be in a reliable and stable initial position.Described second stop part 15 is horizontal positioned.

Described first stop part 16 is located at the side of the opening for getting medicine 52 of described medicine holding bin 50, comprises an abutment face 161 tilted with horizontal surface.The factor such as position and structure of the angle of inclination of described abutment face 161, position and the visual described medicine taking mechanism 10 of length and described medicine holding bin 50 adjusts, to reach the object that can normally work.In one embodiment, the bottom of described abutment face 161 is positioned at the below of described first rotating shaft 31 place horizontal surface, upper base is positioned at the top of described first rotating shaft 31 place horizontal surface, and like this, described abutment face 161 crosses over described first rotating shaft 31 place horizontal surface.Described first stop part 16 is for abutting arm 410 of getting it filled described in support.When described connection arm mechanism 12 abuts described first stop part 16 and moves (downwards) along a direction, the other end of described connection arm mechanism 12 rotates towards a hand of rotation (anticlockwise direction).Particularly, when the described abutment end 1213 of described first link arm 121 abuts the described abutment face 161 of described first stop part 16 and moves along described direction (downwards), described first pivot part 1212 of described first link arm 121 rotates towards described hand of rotation (anticlockwise direction) and makes described second coupling end 1221 of described second link arm 122 rotate towards described hand of rotation (anticlockwise direction) with described second pivot part 1222 linkedly, now the 3rd coupling end 1223 of described second link arm 122 and the described actuating arm 124 that is connected with described 3rd coupling end 1223 pivotable swing towards described hand of rotation (anticlockwise direction).

Described principal arm 11 is designated as R1 around the radius of gyration (i.e. the far-end camber line limit of described opening 1111 and the distance of described first rotating shaft 31) of described first rotating shaft 31, and described drive spindle 142 is designated as R2 around the radius of gyration of described second rotating shaft 32.Horizontal throw between described first rotating shaft 31 and described second rotating shaft 32 is designated as X, and vertical distance is designated as Y.In one embodiment of the present invention, the proportionate relationship of R1 and R2 is the proportionate relationship of 3:1, X and Y is 1:3.5.Described principal arm 11 around the radius of gyration R1 of described first rotating shaft 31 and described protruding 1214 of described first link arm 121 from described first rotating shaft 31 Distance geometry described in the abutment face 161 of the first stop part 16 roughly the same from the distance of described first rotating shaft 31, like this, described protruding 1214 described abutment face 161 is abutted by making described principal arm 11 rotate counterclockwise around described first rotating shaft 31.In one embodiment, the abutment face 161 of the projection 1214 of described first link arm 121, described first stop part 16 all be the center of circle with described first rotating shaft 31, R1 is radius circle is crossing.

Described medicine taking mechanism 10 also comprises one first elastic component 21 and one second elastic component 22.One end of described first elastic component 21 is fixed on described principal arm 11, the other end is fixed on described first link arm 121, described first elastic component 21 provides a pulling force, makes described first link arm 121 have the movement tendency rotated clockwise around described 3rd rotating shaft 33.One end of described second elastic component 22 is fixed on described first link arm 121, the other end is fixed on described actuating arm 124, described second elastic component 22 provides a pulling force, makes described actuating arm 124 have the movement tendency rotated clockwise around described 5th rotating shaft 35.In some embodiments, described first elastic component 21 and described second elastic component 22 are extension spring.

Described second elastic component 22 is positioned at the inner side of described 3rd link arm 123 and described lid 125, like this, when described connection arm mechanism 12 enter into described medicine holding bin 50 get it filled time, described second elastic component 22 can not with medicament contact, thus avoid described second elastic component 22 be subject to the interference of medicine and cannot normally work.

The inwall 51 of described medicine holding bin 50 is for having the curved surface of certain radian.Like this, on the one hand, the medicine be placed in described medicine holding bin 50 can slide to the direction of concentrating along described curved inner wall by the effect of gravity, facilitates described suction nozzle 13 to be drawn to medicine fast; On the other hand, after described connection arm mechanism 12 enters into described medicine holding bin 50, described arm shovel 1242 under the guiding of described inwall 51 curved surface mechanism, described inwall 51 can do the movement of continuous contact formula.

Described humidity module 500 includes moisture absorber 510 and a humidity sensor 520.Described moisture absorber 510 is for adsorbing the water vapour in described box body 100.Described humidity sensor 520 is for sensing the humidity value in described medicine holding bin 50.

Described power down process module 600 includes pulling piece 610 and a connecting rod 620.Described connecting rod 620 connect described pulling piece 610 and described in get it filled arm 410.When described control chip 200 power-off, pull described pulling piece 610, described pulling piece 610 drives described connecting rod 620 to rotate, described in driving, get it filled arm 410 from tilting in described medicine holding bin 50.

Described pill sensing module 800 includes code reader 810 and a counting machine 820.Described code reader 810 in order to read initial number information on the bar code 57 of described medicine holding bin 50 to described counting machine, and controls described counting machine 820 and described initial number information is subtracted one and the quantity information after reducing is refreshed described initial number information simultaneously after described suction nozzle 13 inhales the medicine action cycle.

Described control chip 200 includes control unit 210, pulse width modulation reading unit 220, number recording unit 230, pulse width modulation judging unit 240, of getting it filled and to get it filled frequency judging unit 250, air pressure judging unit 260 and a humidity judging unit 270.Described control unit 210 starts for controlling described first motor 441, second motor 331, described vibrator 340 and air pressure generator 420 or closes.

Described air pressure judging unit 260 for judging whether the air pressure in described tracheae 470 is less than preset pressure value, arm 410 to initial position of getting it filled described in described first driver train 440 rotates when described air pressure is less than described preset pressure value.Described pulse width modulation reading unit 220 is for reading the pulse width modulated values (Pulse Width Modulation) of described first motor 441.Described pulse width modulation judging unit 240 is for judging whether described pulse width modulated values is greater than a preset limit value.Described number recording unit 230 of getting it filled is for recording the number of times of getting it filled of described medicine taking mechanism 10.Described frequency judging unit 250 of getting it filled to be got it filled number of times and a preset times for more described medicine taking mechanism 10.

When needs are got it filled, described control unit 210 starts the second motor 331 of described second driver train 330, described second motor 331 rotates to drive described rotating disk 320 to rotate, make a medicine holding bin 50 to be got go to one be positioned at described in the position of getting it filled of getting it filled below arm 410.Refer to Fig. 4 to Figure 15, schematically illustrate the process that described medicine taking mechanism 10 is got it filled from described medicine holding bin 50.

In fig. 8, described principal arm 11 is in initial position, described in medicine holding bin 50 to be got be in position of getting it filled.Now, the abutting part 114 of described principal arm 11 is resisted against on described second stop part 15, and described principal arm 11 cannot be rotated clockwise around described first rotating shaft 31 further.The blocking arm 113 of described principal arm 11 is between the projector 171 and receptor 172 of described position sensor 17, described blocking arm 113 interdicts the signal transmitting and receiving between described projector 171 and described receptor 172, now, described position sensor 17 judges that described principal arm 11 is in initial position.

Under the pulling force produced described connection arm mechanism 12 and described suction nozzle 13 at described first elastic component 21 and described second elastic component 22 and the self gravitation effect of described connection arm mechanism 12 and described suction nozzle 13, described connection arm mechanism 12 and described suction nozzle 13 are in the position of a relative equilibrium.

In fig .9, the driving cam 141 of described transmission device 14 starts to rotate counterclockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and starts to rotate around described first rotating shaft 31 to rotate counterclockwise.Now, described connection arm mechanism 12 and described suction nozzle 13 arrive at opening for getting medicine 52 place of described medicine holding bin 50, and the blocking arm 113 of described principal arm 11 is about to leave described position sensor 17.

In Fig. 10, the driving cam 141 of described transmission device 14 continues to rotate counterclockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate counterclockwise.Now, described arm shovel 1242 and described suction nozzle 13 have stretched into the inside of described medicine holding bin 50 from the opening for getting medicine 52 of described medicine holding bin 50, and the front end of described arm shovel 1242 contacts with the high water level of the inwall 51 of described medicine holding bin 50.The blocking arm 113 of described principal arm 11 has left the sensing range of described position sensor 17, and described position sensor 17 judges that described principal arm 11 leaves initial position.

Medicine in described medicine holding bin 50 is when filling, described suction nozzle 13 just can be drawn to medicine at the high water level of described inwall 51 this moment, then, the driving cam 141 of described transmission device 14 rotates clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14 is against the edge of the opening 1111 of described principal arm 11, promote described principal arm 11 to rotate clockwise around described first rotating shaft 31, and then make described principal arm 11 get back to initial position, complete the process of getting it filled.

In fig. 11, if described suction nozzle 13 is not yet drawn to medicine at the high water level of described inwall 51, the driving cam 141 of described transmission device 14 continues to rotate counterclockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate counterclockwise.Now, described arm shovel 1242 moves down under the curved surface guiding of described inwall 51, and described arm shovel 1242 and described suction nozzle 13 come the median water level of described inwall 51.

Medicine in described medicine holding bin 50 is dress half, described suction nozzle 13 just can be drawn to medicine in the median water level of described inwall 51 this moment, then, the driving cam 141 of described transmission device 14 rotates clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14 is against the edge of the opening 1111 of described principal arm 11, promote described principal arm 11 to rotate clockwise around described first rotating shaft 31, and then make described principal arm 11 get back to initial position, complete the process of getting it filled.

In fig. 12, if described suction nozzle 13 is not yet drawn to medicine in the median water level of described inwall 51, the driving cam 141 of described transmission device 14 continues to rotate counterclockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate counterclockwise.Now, the projection 1214 of the abutment end 1213 of described first link arm 121 abuts on the abutment face 161 of described first stop part 16, and under the effect of keeping out of described abutment face 161, described first link arm 121 starts to rotate counterclockwise around described 3rd rotating shaft 33.The strength that described arm shovel 1242 provides described actuating arm 124 to rotate counterclockwise around described 5th rotating shaft 35 against described inwall 51, described arm shovel 1242 on described actuating arm 124 can be moved down under the curved surface guiding of described inwall 51, and described arm shovel 1242 and described suction nozzle 13 come the low water of described inwall 51.The movement tendency that second elastic component 22 provides described actuating arm 124 to rotate clockwise around described 5th rotating shaft 35, and make the described arm shovel 1242 on described actuating arm 124 in the process moved down, be close to described inwall 51.

Medicine in described medicine holding bin 50 is when filling a little, described suction nozzle 13 just can be drawn to medicine in the low water of described inwall 51 this moment, then, the driving cam 141 of described transmission device 14 rotates clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14 is against the edge of the opening 1111 of described principal arm 11, promote described principal arm 11 to rotate clockwise around described first rotating shaft 31, and then make described principal arm 11 get back to initial position, complete the process of getting it filled.

In fig. 13, if described suction nozzle 13 is not yet drawn to medicine in the low water of described inwall 51, the driving cam 141 of described transmission device 14 continues to rotate counterclockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate counterclockwise.Now, under the effect of keeping out of the abutment face 161 of described first stop part 16, described first link arm 121 continues to rotate counterclockwise around described 3rd rotating shaft 33, described arm shovel 1242 moves down under the curved surface guiding of described inwall 51, and described arm shovel 1242 and described suction nozzle 13 come the bottom of described inwall 51.

Medicine in described medicine holding bin 50 still has a storage in the bottom of described inwall 51, described suction nozzle 13 just can be drawn to medicine in the bottom of described inwall 51 this moment, then, the driving cam 141 of described transmission device 14 rotates clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14 is against the edge of the opening 1111 of described principal arm 11, promote described principal arm 11 to rotate clockwise around described first rotating shaft 31, and then make described principal arm 11 get back to initial position, complete the process of getting it filled.

In fig. 14, if described suction nozzle 13 is not yet drawn to medicine in the bottom of described inwall 51, the driving cam 141 of described transmission device 14 continues to rotate counterclockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate counterclockwise.Now, under the effect of keeping out of the abutment face 161 of described first stop part 16, described first link arm 121 continues to rotate counterclockwise around described 3rd rotating shaft 33, and described arm shovel 1242 moves with upper right to the right, until described suction nozzle 13 is drawn to medicine under the curved surface guiding of described inwall 51.In this case, by the interlock of described connection arm mechanism 12 with described first stop part 16, make described suction nozzle 13 can be drawn to the medicine of final residual in described medicine holding bin 50, improve and depend the shortcoming that described connection arm mechanism 12 itself often cannot draw the medicine of final residual alone.

After described suction nozzle 13 is drawn to medicine, the driving cam 141 of described transmission device 14 starts to rotate clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14 is against the edge of the opening 1111 of described principal arm 11, promote described principal arm 11 to start to rotate around described first rotating shaft 31 to rotate clockwise, reply toward initial position mobile.

In fig .15, the driving cam 141 of described transmission device 14 continues to rotate clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate clockwise.Now, described arm shovel 1242 and described suction nozzle 13 get back to the bottom of the inwall 51 of described medicine holding bin 50.

In figure 16, the driving cam 141 of described transmission device 14 continues to rotate clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate clockwise.Now, described arm shovel 1242 and described suction nozzle 13 get back to the low water of the inwall 51 of described medicine holding bin 50.

In fig. 17, the driving cam 141 of described transmission device 14 continues to rotate clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate clockwise.Now, described arm shovel 1242 and described suction nozzle 13 get back to the high water level of the inwall 51 of described medicine holding bin 50.

In figure 18, the driving cam 141 of described transmission device 14 continues to rotate clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14, against the edge of the opening 1111 of described principal arm 11, promotes described principal arm 11 and continues to rotate around described first rotating shaft 31 to rotate clockwise.Now, described arm shovel 1242 and described suction nozzle 13 have left the inside of described medicine holding bin 50 from the opening for getting medicine 52 of described medicine holding bin 50, the blocking arm 113 of described principal arm 11 is about to enter described position sensor 17.

In Figure 19, the driving cam 141 of described transmission device 14 continues to rotate clockwise around described second rotating shaft 32, the flower wheel 143 of described transmission device 14 is against the edge of the opening 1111 of described principal arm 11, promote described principal arm 11 to continue to rotate around described first rotating shaft 31 to rotate clockwise, until the abutting part 114 of described principal arm 11 is resisted against on described second stop part 15, described principal arm 11 cannot be rotated clockwise further around described first rotating shaft 31.

Now, between the projector 171 that the blocking arm 113 of described principal arm 11 has got back to described position sensor 17 and receptor 172, described blocking arm 113 interdicts the signal transmitting and receiving between described projector 171 and described receptor 172, described position sensor 17 judges that described principal arm 11 gets back to initial position, thus the driving cam 141 of described transmission device 14 stops rotating around described second rotating shaft 32.Under the pulling force effect that described first elastic component 21 and described second elastic component 22 produce described connection arm mechanism 12 and described suction nozzle 13, described connection arm mechanism 12 and described suction nozzle 13 are returned to the position of relative equilibrium again.So far, a process of getting it filled of described medicine taking mechanism 10 just completes.

Relative to prior art, in above-mentioned medicine taking mechanism 10, when described connection arm mechanism 12 abuts described first stop part 16 and moves along a direction, head of getting it filled described on the other end of described connection arm mechanism 12 swings towards a hand of rotation, the start making described connection arm mechanism 12 more flexibly and elasticity, is convenient to described medicine taking mechanism 10 and is got it filled from described medicine holding bin 50.

In addition, described arm shovel 1242 can do the movement of continuous contact formula in the curved surface mechanism of the inwall 51 of described medicine holding bin 50.

Please refer to Figure 20 to Figure 22, the diagram of circuit for the method for getting it filled in described automatic medicine taking device according to one embodiment of the present invention is schematically illustrated in figure, when patient sets medicine time and dosage by described user interface 900, described automatic medicine taking device will complete following steps:

Step S701: start described first driver train 440 and get it filled arm 410 to described initial position described in one first Plane Rotation.

Step S702: start described second driver train 330 rotating disk 320 described in the second Plane Rotation that is substantially vertical with the first plane and a medicine holding bin 50 to be got is gone to one and to get it filled position.

Step S703: in medicine holding bin 50 to be got described in the suction nozzle 13 of arm 410 of getting it filled described in arm 410 of getting it filled described in rotation makes stretches into, simultaneously read the pulse width modulated values of described first motor 441 first motor 441, and the number of times of getting it filled of arm 410 of getting it filled described in record.

Step S704: start the air pressure generator 420 connecting described suction nozzle 13 and make described suction nozzle 13 produce negative pressure absorbing pill, and sensing connects the tracheae 470 internal gas pressure value of described air pressure generator 420 and described suction nozzle 13.

Step S705: judge whether described atmospheric pressure value is less than preset pressure value, when described atmospheric pressure value is less than described preset pressure value, described suction nozzle 13 is drawn onto a pill, then enter step S707; When described atmospheric pressure value is more than or equal to described preset pressure value, then enter step S801.

Step S706: described arm 410 of getting it filled is lifted to described initial position by arm 410 of getting it filled described in rotation.

Step S707: judge whether described atmospheric pressure value is less than described preset pressure value, when described atmospheric pressure value is less than described preset pressure value, then enter step S708; When described atmospheric pressure value is more than or equal to described preset pressure value, then enter step S703.

Step S708: rotate described rotating disk 320 by described go out medicine box 53 go to described in get it filled position.

Step S709: close described air pressure generator 420, go out described in described pill drops in medicine box 53.

Step S710: send and take medicine alerting signal.

When described atmospheric pressure value is greater than described preset pressure value, also need following steps:

Step S801: judge whether described pulse width modulated values is greater than limit, when described pulse width modulated values is greater than described limit, then enter step S802, when described pulse width modulated values is less than or equal to described limit, then enter step S704.

Step S802: described arm 410 of getting it filled is lifted to described initial position by arm 410 of getting it filled described in rotation.

Step S803: whether number of times of getting it filled described in judgement is greater than preset times (such as, preset times is 2 times), when described number of times of getting it filled is greater than described preset times, then enters step S804; When described number of times of getting it filled is less than or equal to described preset times, then enter step S703.

Step S804: Vibration on Start-up device Preset Time, to vibrate medicine holding bin 50 to be got, and by described number of times zero setting of getting it filled, and enters step S703.

By above-mentioned automatic medicine taking device and method, user takes medicine time and dose by the input of described user interface 900, when after arrival Preset Time, described medicine taking device automatically completes and gets it filled, and remind patient to take medicine, without the need to medical personnel's monitor patients, not only convenient but also cost-saving.

Claims (10)

1. an automatic medicine taking device, includes a box body, it is characterized in that: described automatic medicine taking device also includes the control chip be arranged in described box body, medicine taking mechanism and drug storage mechanism, described medicine taking mechanism includes arm of getting it filled, to get it filled described in being installed in suction nozzle on arm and the first driver train, described drug storage mechanism includes rotating disk, be installed in the some medicine holding bins on described rotating disk and the second driver train, described control chip can control described second driver train and drive described dial rotation to get it filled position one of to rotate in described some medicine holding bins to one, and one of in described some medicine holding bins to described in get it filled to control behind position described first driver train drive described in arm of getting it filled rotate, pill is drawn with the medicine holding bin of position of getting it filled described in making described suction nozzle stretch into be arranged in.

2. medicine taking device automatically as claimed in claim 1, it is characterized in that: described medicine taking mechanism also includes air pressure generator and tracheae, described tracheae connects described suction nozzle and described air pressure generator, described air pressure generator produces negative pressure, and via described tracheae to described suction nozzle, make described suction nozzle draw described pill.

3. medicine taking device automatically as claimed in claim 1, it is characterized in that: described medicine taking mechanism also includes air pressure sensor, described air pressure sensor is for sensing described endotracheal atmospheric pressure value, described control chip is for judging whether described atmospheric pressure value is less than described preset pressure, when described atmospheric pressure value is less than preset pressure, described suction nozzle is drawn to pill.

4. medicine taking device automatically as claimed in claim 3, it is characterized in that: described control chip is for reading the pulse width modulated values of described first driver train and judging when described atmospheric pressure value is greater than described preset pressure whether described pulse width modulated values is greater than preset limit value, when described pulse width modulated values is greater than described preset limit value, to get it filled arm described in described first driver train rotates, arm of getting it filled described in making gets back to an initial position.

5. medicine taking device automatically as claimed in claim 4, it is characterized in that: described drug storage mechanism also includes vibrator, described control chip is for recording the number of times and be greater than the described preset limit value number of times that makes to get it filled described in judgement at described pulse width modulated values and whether be greater than preset times of getting it filled of described suction nozzle, described vibrator is opened when described number of times of getting it filled is greater than described preset times, with medicinal box to be got described in vibrating.

6. medicine taking device automatically as claimed in claim 4, is characterized in that: medicine holding bin to be got described in arm of getting it filled described in described first driver train rotates when described pulse width modulated values is less than or equal to described preset limit value gos deep into.

7. medicine taking device automatically as claimed in claim 2, it is characterized in that: described medicine taking mechanism also includes filter, described filter connects described air pressure generator and described suction nozzle, in order to the particulate in adsorption gas flow respectively by described tracheae.

8. medicine taking device automatically as claimed in claim 1, it is characterized in that: the bar code each medicine holding bin being labeled with the initial number information storing pill, described automatic medicine taking device also includes code reader and counting machine, described code reader in order to be read the initial number information of described pill by described bar code to described counting machine, and controls described rolling counters forward at all after dates of described suction nozzle sucking action.

9. medicine taking device automatically as claimed in claim 1, it is characterized in that: described automatic medicine taking device also includes moisture absorber and humidity sensor, described humidity sensor is for sensing the humidity value in described box body, described control chip is for judging whether described humidity value is greater than default humidity value, when described humidity value is greater than described default adsorptive value, start described moisture absorber.

10. medicine taking device automatically as claimed in claim 1, it is characterized in that: described in get it filled arm can at one first rotation with in surface under described first driver train drives, described some medicine holding bins can at second rotation with in surface substantially vertical with the first plane under described second driver train drives.