DE102010013794A1 - Mobile measuring and calibration unit - Google Patents

Abstract

The invention relates to a mobile measuring and calibration unit (1) for calibrating machines with at least one interface for establishing a connection for transmitting data and / or measurement signals between the measuring and calibration unit and a machine, the measuring and calibration unit is coupled to a data memory (10) and comprises means for generating and reproducing information and at least one measuring module, and the measuring and calibration unit (1) is configured to measure a deviation of a current operating state of the machine from a by measuring current operating parameters of the machine Determine and document the normal condition of the machine. Furthermore, the present invention relates to a method for operating such a mobile measuring and calibration unit (1) and to a suitable computer program with program code means in order to functionally use such a measuring and calibration unit (1) when the computer program is on a computer with the Measuring and calibration unit (1) coupled computing unit is executed.

Description

Technical area

The present invention relates to a mobile measuring and calibrating unit for calibrating machines. Furthermore, the present invention relates to a corresponding calibration method and a computer program suitable for implementing such a method and to a corresponding computer program product.

State of the art

Mobile measuring and calibration units are known, for example, from pressure and temperature measurement technology, where mobile measuring units are used in cleanrooms and calibration laboratories. However, conventional measurement and calibration of a machine requires the greatest amount of time for accurate calibration and adjustment of desired readings due to the variety of measurement and calibration equipment to be used. As a rule, these devices also require independent software. There are also software tools with proprietary interface cables to set parameters directly on the measurement and calibration unit.

Accordingly, it would be desirable to provide a measuring and calibration device with which the physical measured variables necessary for the machine to be calibrated can be measured in a wide measuring and calibration range and also with high accuracy, without successively having different measuring and calibrating devices for different tasks must be used.

Summary of the invention

To this end, the present invention proposes a mobile measuring and calibrating unit according to claim 1, which enables an efficient calibration of a machine, without requiring the use of a plurality of measuring and calibration devices. Furthermore, a corresponding computer program is proposed with which an implementation of such a calibration on a machine is made possible. Likewise, the invention relates to a corresponding method for calibrating a machine.

The claims dependent on claim 1 describe further details of possible embodiments of the proposed mobile measuring and calibration unit.

According to claim 1, a mobile measuring and calibrating unit is provided for calibrating machines having at least one interface for establishing a connection for transmitting data and / or measuring signals between the measuring and calibrating unit and a machine. In this case, the measuring and calibration unit comprises means for generating and reproducing information and at least one measuring module. Furthermore, the measurement and calibration unit is coupled to a data memory, which it can access as needed. The measuring and calibration unit is further configured to determine and document a deviation of a current operating state of the machine from a standard state of the machine by measuring current operating parameters of the machine by means of the at least one measuring module. The data memory can be integrated in both the measuring and calibration unit as well as being suitably connected as an external unit to the measuring and calibration unit.

By using the measuring and calibration unit according to the invention, a person operating the measuring and calibrating unit is enabled on site of the machine to be calibrated to perform all measuring and calibrating operations on the machine without using a large number of measuring and calibrating devices the measurements made by the person or the resulting deviations of a currently determined operating state from a standard state of the machine are detected and documented. The proposed measuring and calendering unit makes it possible to perform locally, without the use of a plurality of devices, all the necessary measuring operations that are necessary for the calibration of the corresponding machine.

In order to carry out the required measuring tasks, which occur during the calibration process, it is necessary to provide equipment on the one hand and suitable software on the other hand by the measuring and calibration unit to be used according to the invention.

According to one possible embodiment of the proposed mobile measuring and calibration unit, its use is made possible only by input of a user identification and its checking by means of a detection mechanism implemented in the measuring and calibration unit. This makes it possible, on the one hand, to make the functionality of the measuring and calibration unit generally available only to authorized users; on the other hand, this gives the possibility of being able to identify the user by entering a user ID so far, what qualification he has when operating the machine resp Calibration of the same brings, so after matching the user ID with a coupled with the measuring and calibration unit database depending on the user a corresponding guidance for the use of the measuring and calibration unit is provided. It should be noted that the database is not in the measurement and Calibration unit must be integrated, but may also be provided externally, but must be accessible to the measuring and calibration unit. In order to carry out the detection mechanism, it is necessary for authorized users with a corresponding ID to be stored in the data memory coupled to the measuring and calibration unit, and also to be associated with the stored ID of further properties of the corresponding user with regard to their qualification or status associated with the calibration to be performed and / or the machine to be calibrated.

In a further embodiment of the mobile measuring and calibration unit, the current operating state of the machine is determined by operating parameters of the machine currently measured by means of the at least one measuring module. This means that a deviation of the current operating state of the machine from a standard state of the machine due to a deviation of at least one of the currently measured operating parameters is determined by a value associated with the at least one operating parameter and documented accordingly. As a rule, a nominal value, preferably in the database coupled to the measuring and calibration unit, is stored for each operating parameter to be measured and to be observed when calibrating the machine, so that a deviation of a currently determined measured value of the respective operating parameter from the respectively stored nominal value easily and quickly detected and documented accordingly in association with the respective operating parameters. The standard state of the machine is usually determined by the setpoint values associated with the respective operating parameters and correspondingly stored in a suitable form, preferably in the data memory coupled to the measuring and calibration unit, so that the currently measured operating parameters of the machine can be compared with the stored ones Setpoints of the respective operating parameters of the machine a respective possible deviation can be determined and documented. Furthermore, it is possible that the currently measured operating parameters and thus the current operating state as well as a possibly determined deviation of the current operating state from the standard state are visually displayed on a screen. This screen is preferably part of the mobile measuring and calibration unit. However, it is also conceivable that the screen is connected as an external component to the measuring and calibration unit. Furthermore, a respective deviation of the currently measured operating parameters from the stored nominal values respectively associated with the operating parameters can be displayed optically.

According to another conceivable embodiment of the mobile measuring and calibrating unit, the at least one measuring module is selected from the group consisting of a thermal scanner / camera, a pH measuring probe, a sound pressure measuring device, a gas measuring device, a concentration measuring device, an alignment measuring device, a tachometer , a position indicator and a tamper-evident scanner. If a plurality of said units are provided as measuring modules in the mobile measuring and calibration unit, then at least some of the units mentioned are implemented in the measuring and calibration unit. However, it is also conceivable that either all said units are implemented in the measuring and calibration unit or a part are connected as external components in a suitable manner to the mobile measuring and calibration unit. For this purpose, the mobile measuring and calibration unit then has suitable interfaces in order to ensure a data exchange of the respective measuring module with the mobile measuring and calibration unit. Such data exchange can be realized both wired and wireless.

According to a further possible embodiment of the mobile measuring and calibration unit, currently measured operating parameters of the machine are automatically logged and stored locally and / or forwarded by means of a transmitting unit to a central processing unit. With a forwarding of currently measured operating parameters to a central processing unit, it is made possible that as few data as possible are stored locally and thus memory space can be saved.

The inventively proposed mobile measuring and calibration unit may further comprise a signaling unit which, in the event that a deviation of at least one of the currently measured operating parameters from a value associated with the operating parameter setpoint exceeds a threshold, outputs a corresponding signal. In this case, the signaling unit can be, for example, a motor-controllable laser pointer and / or a voice output unit. A combination of these two signaling units is also conceivable.

If a deviation of at least one of the currently measured operating parameters from a desired value associated with the respective operating parameter exceeds a threshold value, then it is conceivable that the measuring and calibrating unit automatically triggers and / or triggers a shutdown and / or adapted power reduction of the machine.

Furthermore, it is conceivable that the mobile measuring and calibration unit in the event that a deviation of at least one of the currently measured operating parameters of one with the operating parameter associated setpoint exceeds a threshold, automatically indicates by means of a display unit recovery routines. Such remedial routines are capable of resolving the cause responsible for the deviation instantaneously and on-site. Thus, a fast, efficient and in particular continuous control of the corresponding machine is possible.

As measuring modules, which may be implemented in the measuring and calibration unit, include, for example, as already mentioned, a thermo-scanner or a thermal camera, a pH measuring probe, a sound pressure gauge, a gas meter, a concentration meter, an alignment meter , a tamper-evident scanner, a tachometer and a position indicator. In the following, the mentioned measuring modules will be briefly explained in detail.

A thermal scanner is a measuring module which makes it possible to detect defective components of a machine based on the heat caused by the defect. As a result, an overload of the respective components can be prevented and possibly the machine completely shut down or at least their performance can be shut down accordingly. In this case, the individual components of the machine are "scanned" so that a locally detected increased heat detected instantaneously on a component and a deviation from a correspondingly stored setpoint, which is associated with the component is detected and documented. The same procedure can also be performed with a corresponding thermal camera.

A pH measuring probe is suitable for instantaneously measuring the pH value at various points of the machine, so that a deviation of the measured pH value from a setpoint value can also be detected, documented and, if necessary, steps initiated to remedy the deviation can.

A sound pressure gauge makes it possible to measure pressure fluctuations that occur when sound propagates. Also, this physical quantity is important in a calibration process of a corresponding machine and deviations of this parameter from a stored setpoint may require that appropriate action be taken, such as the shutdown or at least "shutdown" of the machine.

A gas measuring device for measuring different gases, depending on which gas the corresponding device is specified, can each be an indication of a non-standard gas and thus a possible defect of the machine.

Likewise, the concentration of a corresponding substance can be of importance as a physical measured variable, so that a concentration measuring device can also be provided as a further measuring module in the proposed measuring and calibrating unit. For example, the salinity and / or water content within the machine could be of importance and include a physical measurement essential to the function of the machine.

Further, an alignment measuring device is conceivable, which makes a further optionally important physical measurement of the machine accessible, for example by means of a digital spirit level, a so-called "TriAngel ^® measurement". Here, an autocollimator is used, combining properties of a collimator and a telescope. The smallest angular deviations of mirrors are detected with the help of the own collimated light. The TriAngel ^® autocollimator used for a named TriAngel ^® measurement has an integrated sensor and a light source and allows very precise measurements of smallest angular deviations.

Furthermore, as a further measuring module, a tamper-evident scanner can be provided which checks the originality of various components and signals a deviation immediately.

Depending on the machine, a tachometer and / or a position gauge may be required to instantaneously determine further essential physical quantities that contribute to the functionality of the machine and to be able to determine and document a possible deviation from stored nominal values.

All currently measured operating parameters of the machine by means of corresponding measuring modules and the respective deviations of these currently measured operating parameters from respective stored nominal values of the operating parameters, via which the standard state of the machine is determined, can locally be stored and / or forwarded to a central processing unit.

Furthermore, the present invention relates to a method for operating a mobile measuring and calibration unit with at least one interface for establishing a connection for transmitting data and / or measuring signals between the measuring and calibration unit and a machine. In this case, the measuring and calibration unit comprises means for generating reproduction of information and at least one measuring module. Furthermore, the mobile measuring and calibration unit is suitably equipped with a Data storage coupled. This can be an integrated as well as an external unit with regard to the measuring and calibration unit. It is provided that by means of the measuring and calibration unit current operating parameters of the machine are measured and based on the currently measured operating parameters, a deviation of a current operating state of the machine from a standard state of the machine is detected and documented.

In particular, the method relates to the use of a mobile measuring and calibration unit described in detail above.

Furthermore, the present invention relates to a computer program with program code means in order to functionally use a measuring and calendering unit as described above, when the computer program is executed on a computing unit coupled to the measuring and calibrating unit. It is preferably provided that the arithmetic unit coupled to the measuring and calibration unit is implemented in the measuring and calibrating unit.

Furthermore, the present invention relates to a corresponding computer program which is stored on a computer-readable medium.

It is conceivable that a communication or a data exchange between the measuring and calibration unit and the machine to be calibrated is made possible by the fact that at least a part of the machine, i. H. Components or format parts or elements of the machine is provided with a so-called smart item, for example in the form of an RFID or a radio tag, so that over a wireless connection, for example, a direct data exchange between an assembly and the mobile measuring and calibration is possible. By means of such a connection provided between a smart item with an indicator provided by the measuring and calibration unit, data stored on the smart item can be directly displayed without additional components such as an assembly number, a serial number or other information. A combination of the data stored on the smart item and an activation of this data, for example by radio and a corresponding display function allows for easy assignment.

It is understood that the features mentioned above and those yet to be explained below can be used not only in the particular combination indicated, but also in other combinations or in isolation, without departing from the scope of the present invention.

Further details and advantages of the invention will become apparent from the following description of embodiments in conjunction with a corresponding drawing.

The invention is illustrated schematically with reference to an embodiment in the drawing and will be described in detail below with reference to the drawing.

Brief description of the drawing

1 shows a possible embodiment of a mobile measuring and calibration unit;

2 shows a front view of another embodiment of the inventively presented mobile measuring and calibration unit;

3 shows a front ( 3a ) and a return ( 3b ) View of a further embodiment of the mobile measuring and calibration unit proposed according to the invention.

Detailed description of the drawing

1 shows a possible embodiment of a measuring and calibration unit according to the invention. The illustrated measuring and calibration unit 1 includes a data store 10 in which data can be stored locally. Furthermore, the measuring and calibration unit includes 1 a transmitting unit 11 If necessary, to be able to send data to another computing unit, such as to a central server.

In addition, the measuring and calibration unit shown here has a display 12 , which is also referred to as a display, over which data that has been measured, can be displayed or displays can be displayed, which already include an evaluation made by the measuring and calibration unit. For example, deviations from currently measured operating parameters of respectively associated with the operating parameters and in the data memory 10 stored setpoint values are pointed out and presented in a suitable form.

Furthermore, the measuring and calibration unit shown here 1 a voice output unit 13 , which can be realized for example by a speaker. By means of this voice output unit 13 It is possible, for example, in the event that a deviation of at least one of the currently measured operating parameters from a corresponding desired value exceeds a threshold, this instantaneously by the voice output unit 13 display to a user, so that appropriate action can be taken if necessary. By means of the speech output unit 13 However, it is also possible that, if necessary, on the part of the measuring and calibration 1 Instructions for using the measuring and calibration unit are output to a respective user.

When using the illustrated measuring and calibration unit 1 It is conceivable that a user only by entering a user ID and after their verification by means of a in the measuring and calibration unit 1 implemented detection mechanism is authorized, the measuring and calibration unit 1 apply. In this case, it can be provided, for example, that the respective user inputs a corresponding card that is of the measuring and calibration unit 1 read and stored thereon user identifier in the form of, for example, an ID with in the data memory 10 stored user IDs is compared. The reading of such a card, for example, after insertion of the card in a slot provided for this purpose 14 the measuring and calibration unit 1 respectively. The respective user is now given a defined access to the measuring and calibration unit on the basis of a status transmitted with the user identification 1 granted. The identifier may be a character string of predetermined length, which has either been transmitted with the information transmitted by an RFID card, for example, or may be queried by a central server.

Furthermore, the measuring and calibration unit shown here comprises 1 a motor-driven laser 15 which is routed directly or via an intended mirror and with the aid of which, for example, the location of a possibly detected or detected deviation of a currently measured operating parameter from a corresponding desired value can be signaled directly.

Furthermore, it is conceivable that for data transmission from the machine to the measuring and calibration unit 1 appropriate interfaces are provided, the wired, as here by reference number 16 indicated, or even wireless, as here by reference number 17 shown, can be executed.

The measuring and calibration unit 1 comprises at least one measuring module, but as a rule it is a question of several measuring modules implemented within the measuring and calibration unit in order to be able to calibrate a machine to be calibrated completely by means of one and the same measuring and calibration unit. In the measuring and calibration unit 1 Implemented measurement modules may be, for example, a thermal scanner / camera, a pH probe, a sound pressure gauge, a gas meter, a concentration meter, an alignment meter, a tamper-evident scanner, a tachometer, or a position gauge. In the case that a plurality of measuring modules is necessary to the functionality of the measuring and calibration unit 1 In order to fully guarantee for a particular machine to be calibrated, at least a portion of these measurement modules may be included in the measurement and calibration unit 1 be implemented and a part can also externally in a suitable manner to the measuring and calibration unit 1 be connected.

In the event that when performing a calibration process on a machine at least one currently measured operating parameters of a value associated with the operating parameter setpoint such that the deviation exceeds a predetermined threshold, it is conceivable that in the display 12 instantaneously appropriate remedial routines are displayed, which make it possible to remedy the cause responsible for the deviation as quickly and efficiently as possible. Furthermore, it is also conceivable in this case that the measuring and calibration unit 1 Automatically triggers a shutdown or at least a reduction in performance of the machine, so that no major damage to the machine can be caused.

2 shows a front view of another embodiment of a mobile measuring and calibration unit 100 , The measuring and calibration unit shown here 100 has an approximately square shape with a side length in the range of about 15-35 cm. It has a display 110 , which may be formed, for example, as a touch display "touch display" (Multitouch). In the lower part of the mobile measuring and calibration unit 100 on the left is a clearly marked button, larger than the other buttons 120 when pressed, it causes an emergency stop to be triggered. Further, in the lower area below the display 110 a start button 130 and a stop button 140 arranged for the mobile unit. In addition, one or more buttons 150 provided which a user of the mobile measuring and calibration unit or a person configuring the unit can define himself or via which the user or the corresponding person own configurations on the measuring and calibration unit 100 can make. One in the lower right area of the measuring and calibration unit 100 provided socket 160 allows user access to the mobile measuring and calibration unit 100 , Top right in the display 110 is an identification in the embodiment shown here by way of example 170 of a current user of the mobile measuring and calibration unit 100 specified. In the upper center of the display 110 is a current date and time 175 specified. Top left in the display 110 is an identification 180 specified for the machine to be calibrated, which may be, for example, one of the calibrated machine given name. the display 110 can be divided into different tactile and display elements or fields. the display 110 shows in the in 2 illustrated specific embodiment 100 in its middle a display field 111 on which data is displayed for the user, which may also be appropriately color-coded or color-coded. On the basis of specific colors, the displayed data can also provide other related information in addition to its pure content, whereby a meaning of a specific color scheme must be known to the user. Possibly. has the mobile measuring and calibration unit 100 also via a callable "auxiliary function", which also provides information regarding this meaning. the display 110 has a scroll bar on the right side 112 , In the upper and lower area of the display shown here 110 is ever a toolbar 113 respectively. 114 intended. Each of the toolbars 113 respectively. 114 shows various functions of the mobile measuring and calibration unit via suitable symbols known to a user 100 , wherein the respective functions can be activated by appropriate contact. In the illustrated embodiment 100 is at least the toolbar 113 further expandable, for example by touching an arrow symbol 115 ,

3 shows a further embodiment 200 a mobile measuring and calibration unit proposed according to the invention. The measuring and calibration unit shown here 200 has a rectangular shape with a longitudinal side of about 10 to 20 cm and a broad side of about 5 to 15 cm. 3a shows a front view of the measuring and calibration unit 200 , while 3b a back view shows. Measuring and calibration unit 200 has a touch screen 310 (Touch Screen), via which direct commands can be entered by suitable touch. Below the ad 310 are navigation buttons 311 provided for navigation. On the back of the measuring and calibration unit 300 , as in 3b shown are interfaces 312 shown. At one of the interfaces 312 it may, for example, be an RFID interface which enables a data exchange, in particular a readout of an RFID tag, as may be provided on components of a machine to be calibrated. At another of the interfaces 312 For example, it may be a barcode interface, which allows a barcode to be read in as an identification, for example, of a component. There is also a supply on the back 315 provided with the help of the measuring and calibration unit 300 can be operated.

Claims (13)

Mobile measuring and calibration unit for calibrating machines with at least one interface ( 312 ) for establishing a connection for transmitting data and / or measuring signals between the measuring and calibration unit ( 1 . 100 . 200 ) and a machine, whereby the measuring and calibration unit ( 1 . 100 . 200 ) is coupled to a data memory and comprises means for generating and reproducing information and at least one measuring module, and the measuring and calibration unit ( 1 . 100 . 200 ) is configured to determine and document a deviation of a current operating state of the machine from a standard state of the machine by measuring current operating parameters of the machine by means of the at least one measuring module. Mobile measuring and calibration unit according to claim 1, the use of which only by input of a user identification and its verification by means of a in the measuring and calibration unit ( 1 . 100 . 200 ) implemented detection mechanism is enabled. Mobile measuring and calibration unit according to claim 1 or 2, wherein the current operating state of the machine is determined by currently measured by means of the at least one measuring module operating parameters of the machine. Mobile measuring and calibration unit according to one of the preceding claims, in which the currently measured operating parameters and thus the current operating state are visually displayed on a screen. Mobile measuring and calibration unit according to one of the preceding claims, wherein the at least one measuring module is selected from the group consisting of a thermal scanner / camera, a pH measuring probe, a sound pressure gauge, a gas measuring instrument, a concentration meter, an alignment measuring device, a Tachometer, a position indicator and a tamper-evident scanner. Mobile measuring and calibration unit according to one of the preceding claims, wherein the measuring and calibration unit ( 1 . 100 . 200 ) automatically logs the currently measured operating parameters of the machine and stores them locally and / or forwards them to a central processing unit by means of a transmission unit. Mobile measuring and calibration unit according to claim 6, wherein the measuring and calibration unit ( 1 . 100 . 200 ) is signaled by means of a signaling unit when a deviation of at least one of the currently measured operating parameters from a setpoint associated with the operating parameter exceeds a threshold value. Mobile measuring and calibration unit according to claim 7, wherein the signaling unit is a motor-guided laser pointer ( 15 ) and / or a voice output unit ( 13 ). Mobile measuring and calibration unit according to claim 7 or 8, wherein, if a deviation of at least one of the currently measured operating parameters from a desired value associated with the operating parameter exceeds a threshold value, the measuring and calibration unit ( 1 . 100 . 200 ) automatically causes a shutdown and / or an adjusted power reduction of the machine. Mobile measuring and calibration unit according to one of claims 7 to 9, wherein, when a deviation of at least one of the currently measured operating parameters of a value associated with the operating parameter setpoint exceeds a threshold, automatically by means of a display unit ( 12 . 110 . 310 ) Error correction routines are displayed. Method for operating a mobile measuring and calibration unit with at least one interface for establishing a connection for transmitting data and / or measuring signals between the measuring and calibration unit and a machine, wherein the measuring and calibration unit is coupled to a data memory and means for Generation and reproduction of information and at least one measuring module comprises, and measured by means of the measuring and calibration unit current operating parameters of the machine and based on the currently measured operating parameters, a deviation of a current operating state of the machine from a standard state of the machine is detected and documented. Computer program with program code means for functionally utilizing a measuring and calibrating unit according to one of claims 1 to 10, when the computer program is executed on a computing unit coupled to the measuring and calibrating unit. The computer program of claim 12 stored on a computer readable medium.

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