DE10222148A1 - Component life monitoring procedure for limited life components sends encoded use and serial number to supplier - Google Patents

Abstract

A component life monitoring procedure encodes (21) the wear, or usage and serial number of a pulsed acoustic wave generator or other life limited component as an alphanumeric character sequence that can be sent to the supplier for decoding (25) and guaranteed life verification.

Description

The invention relates to a device which at least a component subject to wear and a device for the quantitative determination of the wear of the Component has size.

For devices that have at least one wear have subject, relatively expensive component often an agreement between the manufacturer or the Distributors and customers of such devices in that that the customer is entitled to a free replacement of the Has subject component to wear when the component for example before a guaranteed lifespan or before a guaranteed number of intended uses fails due to excessive wear.

In medical technology can be exemplary of such Lithotripter devices with acoustic wave sources for example in the form of electromagnetic pressure pulse sources to be named. Because one source of acoustic waves only one has limited lifespan, which is usually strong depending on the number of acoustic signals generated with the source Waves or acoustic shock waves in particular is Source is usually a counter for control purposes assigned which is the number of acoustic with the source Waves generated acoustic waves counts. Knowing the Number of acoustic waves generated by a source both for the development and manufacture of such sources of business interest as well, since how already hinted at the warranty coverage of a source other of the number of acoustic generated with the source Waves is dependent.

It is not only a disadvantage for sources acoustic waves that the output one the wear a Component of a device size, such as the Number of acoustic waves generated at a source acoustic waves, in plain text, i.e. by direct specification the size is done. This makes them incomprehensible Manipulations are possible or even possible under certain circumstances provoked to a guarantee that is not actually due for the affected component. This can happen, for example, such that a source is acoustic Waves of a customer's lithotripter after wear contingent failure under the warranty is sent to the manufacturer, on the part of the customer or of a service technician is lower than the actual one Number of acoustic waves generated with the source is stated to unjustifiably guarantee performance, ie to get the free replacement of the source.

The invention is therefore based on the object Execute device of the type mentioned in such a way that at least a higher security against unauthorized persons Warranty claims for the replacement of a subject to wear Component of the device consists.

According to the invention, this object is achieved by Device, comprising at least one subject to wear Component, a device for quantitative determination a size related to component wear and a Device for coding, the device for Coding the size related to the wear of the component encoded and output in coded form. By coding the the size of the component largely ensure that no manipulation of the Wear of component size take place can because the one who is manipulating the the Wear of the component size to force it a guarantee could have an interest that the Wear of the component due to the size Can no longer recognize coding. Even if that Wear of the component size can be estimated manipulation of size is practical excluded because of those who have an interest in manipulation the coding method is not known. So can at least as far as possible to ensure that a Failure or a significant loss of performance Wearable component of a device the customer the device or a service technician the coded and Output size related to component wear correctly to the manufacturer or distributor of the device passes on, so that after decoding the Wear of component size in plain text can determine and decide whether a warranty case exists or not. If the component is worn, the In the case of the present invention, any wear of the Component understood due to their use.

Variants of the invention provide that the device for Coding related to component wear Size as a string, preferably as a number and / or String containing letters, outputs.

According to one embodiment of the invention, the Device for coding an additional wear subject and provides identifying information out. The additional coding of the component identifying information, for example the Serial number of the component can serve the Verification of the correctness to the manufacturer or distributor coded data transmitted to the device. Vote decoding the decoded serial number with the Serial number of the one built into the customer's device Component, which is easily reflected in delivery documents checked, it can be assumed that the decoded the wear of the corresponding component size is correct.

According to a variant of the invention, the device for Coding the size related to the wear of the component and the component subject to wear identifying information as a single string, which preferably composed of numbers and / or letters is.

According to one embodiment of the invention, the Device as a wearable component a source acoustic waves to generate acoustic waves. According to a variant of the invention is the device for quantitative determination of component wear relevant size of the device a device for Count the number of acoustic waves from the source generated acoustic waves. So in this way the number the acoustic generated with a source of acoustic waves Waves are identified and encoded around this Tamper-proof to a manufacturer or distributor of the source to be able to transmit acoustic waves so that after the Decoding can determine whether for the affected source acoustic waves a guarantee for free Exchange the source or one especially for wear affected assembly of the source of acoustic waves to provide.

According to variants of the invention Device around a medical device, in particular around one Lithotripter.

Embodiments of the invention are in the accompanying represented schematic figures. Show it:

Fig. 1 shows a device according to the invention in the form of a lithotripter,

Fig. 2 shows a schematic representation in longitudinal section of the therapy head of the lithotripter from Fig. 1 and

Fig. 3 is an illustration of the coding and decoding of a wear of the pressure pulse source of the therapy head in question size and the pressure pulse source identifying information.

In Fig. 1 shows an inventive medical device in the form of a lithotripter 1 is shown an animal with shock waves for disintegrating concrements in the body. The lithotripter 1 comprises a device trolley 2 and a support arm 4 arranged on a holder 3 , at one end of which a therapy head 5 is arranged for generating shock waves.

The therapy head 5 shown in more detail in FIG. 2 has a tubular housing 6 , which is closed at one end by a pressure pulse source denoted overall by 7 and at its other end by a flexible coupling membrane 8 .

The pressure pulse source 7 is an electromagnetic pressure pulse source which is known per se and has a coil carrier 9 , a flat coil 10 and a membrane 11 , as is described, for example, in EP 0 133 665 B1.

When shock waves are generated, the membrane 11 is repelled by the interaction of electromagnetic fields from the flat coil 10 into a first space 13 of the therapy head 5 filled with an acoustic propagation medium 12 , as a result of which a flat pressure pulse is introduced into the acoustic propagation medium 12 . This is focused by means of a converging lens 14 in the manner indicated by dash-dotted lines in FIG. 2 onto a focus zone F which lies on the central axis M of the therapy head 5 . The pressure pulse focused with the converging lens 14 then propagates in an acoustic propagation medium 12 contained in a second space 15 of the therapy head 5 . With the coupling membrane 8 , the therapy head 5 can be brought into abutment on a body of a living being, not shown, for introducing the pressure pulse into the body of the living being. The pressure pulses emanating from the membrane 11 gradually increase on their way through the propagation medium 12 located in the first 13 and in the second space 15 and the body tissue of the living being to shock waves, which are pressure pulses with a very steep rise front.

In the case of the present exemplary embodiment, a device 20 for counting the number of pressure pulses generated with the pressure pulse source 7 is arranged on the coil carrier 9 on the side of the coil carrier 9 facing away from the flat coil 10 . Such a device 20 is described, for example, in DE 197 28 718 A1, the disclosure of which is to be part of the present disclosure. The number of pressure pulses generated with the pressure pulse source 7 is a variable relating to the wear of the pressure pulse source 7 , which is exposed to high loads when generating pressure pulses. The number of pressure pulses generated with a generated pressure pulse source 7 therefore serves as a quantity for determining a warranty case. If the pressure pulse source 7 shows noticeable signs of wear, for example due to declining performance, before a number of pressure pulses that can be generated by the pressure pulse source 7 is guaranteed by the manufacturer or the distributor of the lithotripter 1 , or if the pressure pulse source 7 even fails, the number of pressure pulse source 7 will be reduced generated pressure pulses determined and based on the number of pressure pulses generated with the pressure pulse source 7 decided whether there is a guarantee.

In order to avoid manipulation of the number of pressure pulses generated with the pressure pulse source 7 , in the case of the present exemplary embodiment the lithotripter 1 has a device 21 for coding which is electrically connected to the device 20 for counting the generated pressure pulses, which is indicated schematically in FIG. 1 is. The device 21 is preferably a computing device. The electrical connection between the device 20 for counting the pressure pulses generated and the device 21 for coding is not explicitly shown, since it is carried out in a manner known per se with a cable.

If the pressure pulse source 7 fails due to wear or if this wear shows an intolerable drop in performance due to wear, an operating device 22 , which is also only schematically indicated in FIG. 1 and has operating elements in the form of buttons 23 and a display device 24 , can be operated by pressing a specific button 23 the coding of the number of pressure pulses generated by the pressure pulse source 7 determined by the device 20 for counting is initiated. In the case of the present exemplary embodiment, the serial number of the pressure pulse source 7 is also encoded. The coding can take place in such a way that the device 21 for coding, after an actuation of the specific key 23 by a customer or a service technician, the number of pressure pulses generated by the device 20 for counting together with the serial number of the pressure pulse source 7 from the device 20 for counting requests. The number of pressure pulses generated with the pressure pulse source 7 can, however, also be continuously transmitted by the device 20 for counting and stored, for example, in a memory, not shown, of the operating device 22 . The serial number of the pressure pulse source 7 can also be stored in a memory, not shown, of the operating device 22 . In this case, actuation of the specific key 23 causes the number of pressure pulses generated and the serial number of the pressure pulse source 7 to be retrieved from the memory or memories. After the device 21 for coding the number of pressure pulses generated and the serial number of the pressure pulse source 7 is available, the device 21 for coding the number of pressure pulses generated and the serial number of the pressure pulse source 7 according to a known or specially developed by the manufacturer or distributor In the case of the present exemplary embodiment, the coding method codes and outputs this as a character string comprising numbers and letters, which is displayed on the display device 24 of the operating device 22 of the lithotripter 1 . Which coding method was chosen is of course only known to the manufacturer or distributor of the lithotripter 1 .

In another embodiment of the invention, the device 20 for counting the number of pressure pulses generated with the pressure pulse source 7 and the device 21 for coding need not necessarily be present separately from one another. Rather, the device 20 for counting and the device 21 for coding can also be regarded as embodied by the control of the device, in the present case by the control of the lithotripter 1 , the control being a computing device. In the case of this embodiment, for example, the computing device 21, such a control of the lithotripter be 1, wherein the computing means includes software components 21, 21 which perform the function of the means 20 for counting and the function of the device for coding.

In this embodiment of the invention, the software component for counting, for example, determines the number of electrical pulses generated by the control of the lithotripter for triggering an acoustic wave. If the pressure pulse source 7 fails due to wear or if this wear shows an intolerable drop in performance due to wear, the coding of the determined number of pressure pulses generated with the pressure pulse source 7 by the software component can be carried out via the operating device 22 by operating a certain key 23 be prompted for coding. The character sequence comprising the numbers and letters can in turn be displayed on the display device 24 of the operating device 22 .

The code output on the display device 24 can finally be sent together with the pressure pulse source 7 or the entire therapy head 5 to the manufacturer or distributor of the lithotripter 1 so that the latter can check whether there is a warranty claim. The manufacturer decodes the transmitted character string so that it receives the serial number and the number of pressure pulses generated with the pressure pulse source 7 in plain text. If the decoded serial number of the pressure pulse source matches the serial number of the pressure pulse source, which was installed in the lithotripter 1 , for example according to the delivery documents of the manufacturer or distributor, it can be assumed that the decoded number of generated pressure pulses is also correct.

The display of the coded data, that is to say the character string, does not necessarily have to take place on the display device 24 , but can also be carried out, for example, on a service PC which, for. B. was connected to the lithotripter 1 by means of a cable. This has the advantage that the character string generated, which has the coded wear data, does not have to be written off by hand, where errors can occur, but can be printed out using the PC or electronically, e.g. B. can be sent by email to the manufacturer or the distributor.

In Fig. 3, the coding of the serial number of the pressure pulse source 7 and the number of pressure pulses generated with the pressure pulse source 7 is exemplified. The serial number and the so-called number of shots are coded with the device 21 for coding into a character string comprising letters and numbers, which can be decoded into the serial number and the number of shots by the manufacturer or distributor of the lithotripter 1 after transmission with a device 25 for decoding. The customer generally does not know the number of shots before they are encoded, but only sees the character string on the display device 24 of the operating device 22 .

Although the invention is described exclusively using the example of a lithotripter 1 serving medical purposes, it can also be applied to other medical devices or other technical devices which have at least one component subject to wear.

Incidentally, it must be at the source of acoustic waves not necessarily an electromagnetic one Act pressure pulse source. Rather, the source can also be based on a another principle for generating acoustic waves, work according to the piezoelectric principle, for example.

The coding does not necessarily have to be like this done that have letters and numbers String is generated. Rather, the string can too only numbers, only letters or other known characters and Have special characters in any combination.

Furthermore, it is optional, in addition to the Wear of the component-related size is another one To encode component identifying information. Should this be the case, the two encoded data need not necessarily output as a single string become.

Claims (9)

1. Device comprising at least one component ( 7 ) subject to wear, a device ( 20 , 21 ) for the quantitative determination of a quantity relating to the wear of the component ( 7 ) and a device ( 21 ) for coding, the device ( 21 ) for coding which codes the size of the wear of component ( 7 ) and outputs it in coded form. 2. Device according to claim 1, in which the device ( 21 ) for coding outputs the wear-related component ( 7 ) as a character string. 3. The device of claim 2, wherein the string is numbers and / or letters. 4. Device according to one of claims 1 to 3, in which the device ( 21 ) for coding additionally codes and outputs a component ( 7 ) subjected to wear identifying information. 5. The device according to claim 4, wherein the device ( 21 ) for coding outputs the wear related component ( 7 ) and the wear component ( 7 ) identifying information as a character string. 6. Device according to one of claims 1 to 5, which as a component subjected to wear has a source ( 7 ) of acoustic waves for generating acoustic waves. 7. The device according to claim 6, wherein the device ( 20 ) for the quantitative determination of a size related to the wear of the component ( 7 ) is a device ( 20 ) for counting the number of acoustic waves generated by the source ( 7 ) of acoustic waves. 8. Device according to one of claims 1 to 7, which is a medical device ( 1 ). 9. Device according to one of claims 1 to 8, which is a lithotripter ( 1 ).