DE102007009423A1 - Device with an electrical contact element and such - Google Patents

Abstract

The invention relates to a device, such as motor or pantograph, with a carbon contact or containing electrical contact element (10, 28), such as carbon brush or sanding strip. In order to ensure that the device is equipped with a predetermined specification-compliant electrical contact element, it is proposed that the electrical contact element (10, 28) has a coding which can be read by means of identification and evaluation electronics.

Description

The This invention relates to a device such as a motor or a pantograph, with or consisting of carbon electrical Contact element like carbon brush. Furthermore, the invention makes reference to an electrical contact element, like carbon brush or grinding element, as a functional element for a device, such as engine.

To Elements that affect the function of devices such. B. an engine, ensure a pump or a pantograph include u. a. Carbon brushes, the comply with specifications specified by the manufacturer of the device have to. This alone ensures operational safety. When installing appropriate Devices, however, may experience incorporation of electrical contact elements that are not device typical are. This need not necessarily be determined during a check, so that in normal operation there is a risk that a device fails. However, operational safety is not guaranteed even if z. B. in the wear of electrical contact elements this by dimensionally identical components exchanged without these being mandatory of the specification of the originating producer. Spare parts lead to this a danger the operational safety, which must be excluded.

Of the present invention is based on the object, a device of the aforementioned type so educate that ensured is that these comply with specified specifications electric Contact elements equipped is.

to solution The task is essentially proposed that the electric Contact element one by means of an identification and evaluation electronics having evaluable coding. The coding itself is particular as a transponder integrated in the electrical contact element formed, which with a transmitting-Emfpangseinheit such as coil electromagnetic coupled, which is part of the identification and release electronics is. The identification and tripping electronics can be a microcontroller with an input at which the transceiver unit to Reading the coding of the electrical contact element connected is to have at least one output for generating at least one Switching signal to be connected. About this switching signal can a controller be activated to the device z. B. in operation to be able to sit down. If an electrical contact element is installed in the device, which does not have a given coding, becomes a corresponding one Switching signal is not generated, as a result, the device can not be put into operation. This ensures that that only approved electrical contact elements are used can. This is z. B. in electrical machines or pantographs of Meaning, in the carbon brushes or grinding strips are installed, the specified specifications fulfill have to, to ensure proper operation to ensure.

Especially is due to the teaching of the invention ensure that unauthorized replacement parts are not in appropriate Devices are installed, since in this case the required coding not available.

Becomes preferably the coupling between the transponder and the transceiver unit based on RFID (Radio Frequency Identification) technology, so Other techniques are also possible in a simple way enable electronic reading of a coding. Exemplary Codes to be called by inductive coupling, microwaves or Close Coupling are readable.

In Preferably, the transponder is in the electrical Contact element arranged that the outer surface of the transponder with a Outside surface of the electrical contact element is aligned. This is especially true at carbon brushes beneficial, so this in the usual way in carbon brush guides are axially displaceable without causing changes to the carbon brush guides even needed.

It However, there is also the possibility the transponder on a surface of the electrical contact element to apply as to stick. When further solution is provided that the transponder in a bore of the electric Contact element is arranged.

The inventive teaching However, it is also suitable for improper wear of the electrical Monitor contact element. Thus, it is provided that the transponder on and / or in the electrical contact element is arranged that inadmissible wear of the electrical contact element the transponder is without function, that is destroyed or damaged to an extent that Signals can no longer be generated by the identification evaluation electronics be read out. In this case the device switches automatically from.

Further it is possible, that when using a transponder whose signals are temperature-dependent, the temperature of the electrical contact element or the device to monitor. Thus, z. B. when crossing a maximum allowable Operating temperature triggered a signal and / or through the transmitter the device will be turned off.

The However, the invention is also characterized by an electrical contact element, like carbon brush or grinding element as a functional element for a device, such as motor, characterized in that the electrical contact element by means of a Identification and evaluation has readable coding. Further developments emerge from the subclaims.

Further Details, advantages and features of the invention do not arise only from the claims, the features to be taken from these - by themselves and / or in combination -, special also to be taken from the following description of the drawing preferred embodiments.

It demonstrate:

1 a schematic representation of a transceiver unit and a transponder,

2 a carbon brush with transponder and

3 a seal with transponder.

Around to check if in devices such as motors, pumps, pantographs or other arrangements and devices intended functional elements, which consist of or contain carbon are incorporated, is provided according to the invention, that the functional elements are provided with a coding, the can be read by means of an identification evaluation. The appropriate coding ensures that neither during assembly incorrect functional elements are installed, nor that at a later date z. B. worn or damaged Functional elements are replaced by those made by the manufacturer not be allowed. In particular, the measure in question ensures that that inadmissible copied functional elements the possibility open, that the device is put into operation, thereby posing a threat would.

A however, appropriate coding allows also that the device is then put out of service, if a damage or an invalid Wear occurs is. In this case the coding is destroyed or so damaged that of the identification and evaluation electronics signals can no longer be read are with the result that the identification and evaluation electronics interrupts the signal required to operate the device or a signal is generated with the result that the device itself except Function is set.

Preferred application examples for corresponding functional elements provided with a coding are the 2 and 3 refer to. So is in 2 a carbon brush 10 shown in section, the axially displaceable in a holder 12 is feasible. With the carbon brush 10 is an example of a laminated carbon brush. Indicates the layer carbon brush 10 z. B. dimensions of conventional block carbon brushes, so there is a risk that in the carbon holder 12 no layer carbon brush, but a normal carbon brush is used, whereby the functioning of the engine equipped with the carbon brush would be affected.

In order to exclude errors in this regard, the carbon brush points 10 in one of its transverse sides, in the embodiment of the page 14 , a transponder described with a coding 16 on that in the vehicle 12 a transceiver unit 18 associated with an identification and evaluation electronics. Is from the transceiver unit 18 and the downstream identification and evaluation detected a coding corresponding to a carbon brush, as intended for the carrier 12 with the carrier 12 identifying machine is generated by the identification and evaluation electronics, a signal that releases the machine in order to put them into operation can.

In the 2 is a schematic representation of the transmitter-receiving unit 18 with antenna 20 as well as the transponder 16 with antenna 22 played. The transponder 16 further includes a microchip 24 , The inductively coupled transponder 16 is operated passively. This means that the operation of the microchip 24 required energy through the transmitter and receiver unit to be referred to as the reader 18 is made available. From the antenna 20 of the reader 18 For this purpose, a strong high frequency electromagnetic field is usually generated, which is the cross section of the coil surface of the antenna 20 and the space around the antenna 20 penetrates. Since the wavelength of the frequency ranges used is many times greater than the distance between the antenna 20 of the reader 18 and the antenna 22 of the transponder 16 , the electromagnetic field becomes a simple alternating magnetic field 26 treated that the antenna coil 22 of the transponder 16 penetrates, so that by induction at the antenna coil 22 of the transponder 16 a voltage is generated. This voltage is sufficient for the power supply of the data carrier (microchip 24 ).

Is a resonant transponder in the alternating magnetic field of the antenna 20 of the reader 18 brought, it deprives the magnetic field energy. The resulting repercussion of the transponder on the antenna 20 of the reader 18 can be considered transformed impedance in the antenna coil 20 of the reader 18 Darge be presented. Switching on and off a load resistance of the antenna 22 of the transponder 16 causes a change in the impedance and thus voltage change at the antenna 20 of the reader 18 ,

This corresponds to the effect of an amplitude modulation of the voltage of the antenna coil 20 of the reader 18 through the remote transponder 16 , If you control the switching on and off of the load resistor by data, these data can be transferred from the transponder 16 on the reader 18 be transmitted. If there is a corresponding resonance and thus a proper coding, then the identification and evaluation electronics in which the reading device is used 18 integrated, generates a signal about which, as mentioned, the machine, the proper carbon brush 10 contains, ready to be switched. Corresponding monitoring devices can be provided in all carbon brushes or other functional elements present in the machine.

In a further development it is provided that the transponder 16 so in the carbon brush 10 integrated is that destroying then takes place when the carbon brush 10 inadmissible. In this case, there is no possibility that of the reader 18 Information from the transponder 16 be read out with the result that a signal for switching off the machine is generated by the identification and evaluation electronics.

As is clear from the 2 results, the outside of the transponder is aligned 16 with an outer surface of carbon brushes 10 so that as a result the carbon brush 10 in the usual way in the coal holder 12 can be performed.

Alternatively, there is the possibility that the transponder 16 in a bore of the carbon brush 10 is introduced, the z. B. is closed with carbon material.

If a preferred field of application of the teaching according to the invention is to be seen in current-transmitting functional elements which consist of or contain carbon, and in particular are electronic contact elements, the teaching according to the invention is however not limited thereto. An insert z. B. at sealing rings 28 Like mechanical seals is also possible, as based on the 3 is clarified. In that regard, the sophisticated considered feature "electronic contact element" is to be valued accordingly.

To make sure a wave 30 via a manufacturer specified seal 28 opposite a warehouse 32 is sealed, is in the seal 28 a transponder 34 integrated, as explained in the context of the 1 and 2 a reader 36 which is part of an identification and evaluation electronics, in order to be able to determine whether it is the seal 28 is a proper seal. If this does not apply, so from the reader 36 not reading the code required to release the seal, a signal is generated which indicates to the user that the seal 28 does not conform to the specified specifications or may be damaged, requiring inspection and replacement.

Of Furthermore, the teaching according to the invention also offers the possibility a temperature monitoring a functional element or containing the functional element Device, if a transponder is used, whose signals or type of signals are temperature-dependent. In this case can be exceeded a predetermined temperature such as an operating temperature means the evaluation of the device containing the functional element turned off.

The explained with reference to the figures Examples with a carbon brush and a gasket are not to be interpreted as restricting protection. Much more is the teaching of the invention z. B. also for Pump slide or contact strip of pantograph applicable.

Claims (18)

Device, such as a motor or a current collector, with an electrical contact element made of or containing carbon ( 10 . 28 ), such as carbon brush or abrasive strip, characterized in that the electrical contact element ( 10 . 28 ) has a readable by means of an identification and evaluation coding. Apparatus according to claim 1, characterized in that the coding as a in or on the electrical contact element ( 10 . 28 ) integrated transponder ( 16 ) is trained. Device according to claim 1 or 2, characterized in that the identification and evaluation electronics comprises a microcontroller with an input to which a transceiver unit ( 18 ) for reading the coding of the electrical contact element ( 10 . 28 ), and at least one output for generating a signal. Device according to at least one of the preceding claims, characterized in that the coupling between transponders ( 16 . 34 ) and the transceiver unit ( 18 . 36 ) on RFID technology based. Device according to at least one of the preceding claims, characterized in that the transponder ( 16 . 34 ) is formed as a microchip or contains such. Device according to at least one of the preceding claims, characterized in that the transponder ( 16 . 34 ) on the surface of the electrical contact element ( 10 . 28 ) is arranged. Device according to at least one of the preceding claims, characterized in that the transponder ( 16 ) in a recess of the electrical contact element ( 10 ) is arranged and outside surface side aligned to a surface side ( 14 ) of the electrical contact element ( 10 ) runs. Device according to at least one of the preceding claims, characterized in that the transponder ( 16 . 28 ) in a bore of the electrical contact element ( 10 . 28 ) is arranged. Device according to at least one of the preceding claims, characterized in that the transponder ( 16 ) on and / or in the electrical contact element ( 10 . 28 ) is arranged and / or designed so that in case of improper wear and / or impermissible damage to the electrical contact element and / or inadmissible temperature of the electrical contact element or the device that removes the transponder is inoperative and / or the transmitter sets the device without function. Electrical contact element, such as carbon brush or grinding element as a functional element for a device, such as motor, characterized in that the electrical contact element ( 10 . 28 ) has a readable by means of an identification and evaluation coding. Electrical contact element according to claim 10, characterized in that the coding as a in or on the electrical contact element ( 10 . 28 ) integrated transponder ( 16 ) is trained. Electrical contact element according to claim 10 or 11, characterized in that the identification and evaluation electronics comprises a microcontroller with an input to which a transceiver unit ( 18 ) for reading the coding of the electrical contact element ( 10 . 28 ), and at least one output of generating a signal. Electrical contact element according to at least one of Claims 10 to 12, characterized in that the coupling between transponders ( 16 . 34 ) and the transceiver unit ( 18 . 36 ) based on RFID technology. Electrical contact element according to at least one of claims 10 to 13, characterized in that the transponder ( 16 . 34 ) is formed as a microchip or contains such. Electrical contact element according to at least one of claims 10 to 14, characterized in that the transponder ( 16 . 34 ) on the surface of the electrical contact element ( 10 . 28 ) is arranged. Electrical contact element according to at least one of claims 10 to 15, characterized in that the transponder ( 16 ) in a recess of the electrical contact element ( 10 ) is arranged and outside surface side aligned to a surface side ( 14 ) of the electrical contact element ( 10 ) runs. Electrical contact element according to at least one of Claims 10 to 16, characterized in that the transponder ( 16 . 28 ) in a bore of the electrical contact element ( 10 . 28 ) is arranged. Electrical contact element according to at least one of claims 10 to 17, characterized in that the transponder ( 16 ) on and / or in the electrical contact element ( 10 . 28 ) is arranged and / or designed so that in case of improper wear and / or impermissible damage to the electrical contact element and / or inadmissible temperature of the electrical contact element or the device that removes the transponder is inoperative and / or the transmitter sets the device without function.