DE102005034869A1 - Apparatus and method for testing a piezo injector - Google Patents

Abstract

The invention relates to a device and a method for testing a piezo injector of a common rail system. DOLLAR A To improve error detection, the test device (1) comprises an electrical equivalent load (8, 10) for the injector.

Description

The The invention relates to an apparatus and a method for testing a Piezo injector of a common rail system.

conventional Common rail systems are equipped with a control unit that self-monitoring allows. Errors in the system are in the form of an error message in a fault memory of the control unit saved and can be read during maintenance. However, from the error messages not always clear where the error lies.

task The invention is an apparatus and a method for testing a Piezoinjektors to create a common rail system through which the error detection is improved.

Advantages of invention

The Task is in a device for testing a piezo injector of a Solved common rail system, that the tester an electrical surplus load for includes the piezo injector. At an overcurrent or short circuit on a particular injector is not from the associated error message of the controller always visible, whether the injector, the associated wiring or the control unit is defective is. The substitute load is used in the test apparatus according to the invention, the piezo injector to be tested to simulate. This makes it possible clearly determine whether the tested piezo injector is defective, or whether the error, for example, in the associated wiring harness or in the control unit lies.

One preferred embodiment the device is characterized in that the electrical Replacement load includes a capacitor whose capacity to the to be tested Piezo injector is adjusted. Preferably, in the test device according to the invention a film capacitor used.

One Another preferred embodiment the device is characterized in that parallel to the Condenser connected a direction-dependent signal device is. The signaling device is used to indicate whether the replacement load with the correct polarity to the test device connected.

One Another preferred embodiment the device is characterized in that the signaling device a light emitting diode connected in parallel with the capacitor is. The LED preferably glows green when the equivalent load is correct to the test device connected.

One Another preferred embodiment the device is characterized in that the signaling device a further light-emitting diode, the anti-parallel to the capacitor is switched. The further LED preferably shines red, if the replacement load is not connected to the test device with the correct polarity is.

One Another preferred embodiment the device is characterized in that the testing device an input terminal and an output terminal, between which the electrical equivalent load is switched. The connections are used to connect from connecting cables to the tester.

One Another preferred embodiment the device is characterized in that the testing device a pair of sockets for connection of connecting lines and another pair of sockets for connecting a Additional modules includes. The additional module is used to test from to enable other piezo injectors as with the tester alone.

One Another preferred embodiment the device is characterized in that the additional module comprises a further capacitor which is switchable in parallel to the first capacitor is. This makes it possible various types of injectors with the test device according to the invention to consider. The additional module is preferably on by means of connector elements easy way to detach, this means destructively separable, with the tester connectable.

A method for testing a piezo injector of a common rail system of an internal combustion engine with a test device described above is characterized by the following method steps: First, an electrical connector is detached from the piezoinjector and connected to the tester; subsequently or else before, an oscilloscope, in particular a two-channel oscilloscope, is connected to the test apparatus; Finally, the drive signal for the piezo injector is detected with the aid of the oscilloscope while the internal combustion engine is running. The detected drive waveform is compared with a reference drive waveform of an intact injector. When connecting the connector and the oscilloscope to the tester, it does not matter what is connected first. The Rei When connecting is irrelevant for the inventive method. The Referenzansteuersignalverlauf is stored for example in a troubleshooting guide. If the detected drive signal curve coincides with the reference drive signal curve, then it can be assumed that both the control device and the cable strand belonging to the piezo injector are in order. The error is then in the piezo injector. If the detected drive waveform does not match the reference drive waveform, then the fault is in the harness or in the controller.

One preferred embodiment of the method is characterized in that by means of in the tester integrated signaling device is controlled, whether the piezo injector is connected with correct polarity. When the pin assignment of the electric Connector of the piezo injector, for example due to a Manufacturing error is not correct, then it can happen that the piezo injector is not connected correctly, resulting in a permanent damage can lead the piezo injector. By the current direction-dependent signal device according to the invention it is reliably detected whether the piezo injector is connected with correct polarity is.

Further Advantages, features and details of the invention will become apparent the following description, with reference to the drawing various embodiments are described in detail. It can in the claims and features mentioned in the description each individually for itself or in any combination essential to the invention.

drawing

It demonstrate:

1 an electrical circuit diagram of a test device according to the invention;

2 the connections of in 1 illustrated device according to another embodiment and

3 a circuit diagram of an additional module for the test device according to the invention.

description the embodiments

In 1 is an electrical circuit diagram of a test device according to the invention 1 shown. The tester 1 has an input port 4 and an output terminal 5 , The connections 4 and 5 are formed by connection sockets, which are mounted in a housing (not shown) of the testing device accessible from the outside. Between the connections 4 and 5 is a foil capacitor 8th whose capacity is, for example, 4.7 μF. The capacity of the film capacitor 8th corresponds to the capacity of the piezo injector to be tested.

A so-called erase diode 10 is parallel to the film capacitor 8th connected. The erase diode 10 serves to during operation of the test apparatus 1 to eliminate occurring voltage spikes. In addition, a light-emitting diode 12 parallel to the film capacitor 8th and the erase diode 10 connected. The light-emitting diode 12 gives as by arrows 13 . 14 is indicated, green light off, when it is flowed through in the direction of the arrow. In front of the LED 12 are a protective resistor 16 and a protection diode 18 connected in series. The protective resistance 16 serves to limit the current flowing through. The protective diode 18 serves to allow a current flow in one direction only.

In the 1 illustrated testing device 1 It is used to test the electrical control signal and to test the polarity of the connection of piezo injectors in common rail systems. The foil capacitor 8th and the erase diode 10 form a substitute load for a piezo injector to be tested. The light-emitting diode 12 serves as an indicator of polarity.

at a malfunction in the electrical structure of the piezo injector, if For example, a piezoelectric layer is defective or an insulation fault present, or in the event of a fault in the supply line to the piezoinjector, For example, if there is a chafe in the harness, then detects the engine control unit associated with the engine of a motor vehicle Error. This error is stored in the fault memory of the engine control unit and can over a diagnostic tester are displayed.

Out the listed Error messages is for However, the service technician is not always clear where the error lies. To simplify the troubleshooting procedure, becomes the device according to the invention with correct polarity with connecting lines to a harness connector of the to be tested Piezoinjektors connected. To the connecting lines is beyond a two-channel loszilloskop for the voltage and current measurement connected. Then it is running Motor the control signal is displayed on the oscilloscope and with a Reference signal image compared.

The reference signal image is stored in a troubleshooting guide. At the same time it serves parallel to the connections 4 . 5 built-in LED 12 as an indicator of whether the replacement load 8th . 10 is connected with correct polarity. Optionally, second, anti-parallel connected LED, for example with red color, to be installed. The second LED then explicitly indicates that a spare load is not connected with the correct polarity.

For a lasting Function of the common rail system have to the piezo injectors are connected with correct polarity. For this reason are the plug connections the piezo injectors mechanically coded and the pin assignment of the harness connector for the Manufacturing process set.

If the pin assignment is not correct, for example by a repair in the wiring harness or by manufacturing process errors, then it works Piezo injector, but it can lead to permanent damage. Then the maximum stroke of the piezo injector in operation is no longer reached. This kind of mistake is self-monitoring of the engine control unit not recognized. Such a permanently damaged piezo injector would indeed by the engine control unit be recognized and replaced in service by a new injector. The new injector would but, due to the wrong pin assignment, in turn, permanently damaged.

Through the parallel to the terminals 4 . 5 switched LED 12 can be easily checked whether the respective lines are correctly connected in the harness connector. When the light emitting diode 12 when the engine is running does not flicker to the rhythm of the drive signals, then you see that there is a fault in the harness / harness connector.

In 2 is indicated that the test device according to the invention not only two sockets 4 . 5 , but preferably two more connection sockets 21 . 22 that is at a defined distance 24 are arranged to each other. The distance 24 is for example 24 mm. The additional connection sockets 21 . 22 serve to accommodate connection plugs of an additional module.

In 3 is such an add-on module 30 represented in the form of an electrical circuit diagram. The additional module 30 includes two connectors 31 . 32 that with connections 33 . 34 are connected. The connection plugs 31 . 32 are at the same distance 24 arranged like the additional sockets ( 21 . 22 in 2 ). The additional module 30 can with the help of the connector 31 . 32 in a simple way to the test device 1 be connected by the connectors 31 . 32 into the additional connection sockets ( 21 . 22 in 2 ) are inserted.

Between the connections 33 and 34 is a foil capacitor 38 connected. The capacity of the film capacitor 38 is chosen so that the total capacity of the film capacitor ( 8th in 1 ) and the film capacitor 38 corresponds to the capacity of a piezoelectric injector to be tested. Parallel to the film capacitor 38 is a deletion diode 40 connected. Furthermore, a light emitting diode 42 parallel to the film capacitor 24 and the erase diode 40 connected. The light-emitting diode 42 gives as by arrows 43 . 44 is indicated, green light off, if it is traversed by electricity. In series with the LED 42 are a protective resistor 46 and a protection diode 48 connected.

Claims (10)

Device for testing a piezo injector of a common rail system, characterized in that the test device ( 1 ) an electrical surplus load ( 8th . 10 ) for the piezo injector. Device according to Claim 1, characterized in that the electrical equivalent load comprises a capacitor ( 8th ), whose capacity is adapted to the piezo injector to be tested. Apparatus according to claim 2, characterized in that parallel to the capacitor ( 8th ) a current direction-dependent signaling device ( 12 ) is switched. Apparatus according to claim 3, characterized in that the signaling device is a light-emitting diode ( 12 ) parallel to the capacitor ( 8th ) is switched. Apparatus according to claim 4, characterized in that the signaling device ( 12 ) comprises a further light-emitting diode which is connected in anti-parallel to the capacitor. Device according to one of the preceding claims, characterized in that the test device ( 1 ) an input terminal ( 4 ) and an output terminal ( 5 ) between which the substitute electric load is connected. Device according to claim 6, characterized in that the test device ( 1 ) a pair of sockets ( 4 . 5 ) for connecting connecting lines and another pair of sockets ( 21 . 22 ) for connecting an additional module ( 30 ). Device according to one of the preceding connections, characterized in that the additional module ( 30 ) another capacitor ( 38 ) parallel to the first capacitor ( 8th ) is switchable. Method for testing a piezo injector of a common rail system of an internal combustion engine with a test device ( 1 ) according to one of the preceding claims, characterized by the following process steps: a) an electrical connection plug is released from the piezoinjector and sent to the test device ( 1 ) connected; b) an oscilloscope, in particular a two-channel oscilloscope, is connected to the test apparatus ( 1 ) connected; c) with the aid of the oscilloscope, the drive signal for the piezo injector is detected while the internal combustion engine is running, and the detected drive signal curve is compared with a reference drive signal course of an intact injector. A method according to claim 9, characterized in that by means of the in the test apparatus ( 1 ) is checked whether the piezo injector is connected with the correct polarity.