DE102008060253A1 - Method for testing hydraulically actuatable components - Google Patents

Abstract

The invention relates to a method for testing hydraulikbetätigbaren components, in which the component is subjected to a function to be tested with a gaseous test medium and a pneumatic function characteristic of the component is determined, so that it is determined based on the determined pneumatic function characteristic, if the component meets predetermined requirements ,

Description

The The invention relates to a method for testing hydraulic actuatable Components mentioned in the preamble of claim 1 Art.

Especially In the manufacturing industry, quality management is steadily getting closer expectant market structure an increasing importance, whereby the examination of Components and products are given a higher priority. So be Products as it hydraulically actuatable Can be components, while and in particular subjected to functional tests after production.

to Ensuring a required quality level is crucial that the exam a reliable one Statement about the quality achieved of the product concerned. Due to the competitive pressure, it is important not to take the exams only reliable, but also as possible cost-minimized perform.

to exam of hydraulically operated Components, such as automatic transmission of motor vehicles could be, the components are filled with the necessary operating and test mediums and subsequently z. B. tested under different load conditions ge.

So For example, a motor vehicle automatic transmission by means of one for that tested suitable oils, which after completion of the exam this can be seen again.

The Disadvantages distinguished by the conventional method of testing hydraulikbetätigbaren Components are, inter alia, that the test medium oil high costs caused by the fact that the oil after the exam the hydraulically operated Components is recovered and finally recycled or recycled must become. Furthermore, the used oil provides many times for Contamination of the environment and in particular of the workplace / testing station, so here sometimes expensive cleaning measures are necessary, the lead to further time or expense.

Furthermore is the viscosity an oil dependent on temperature, so that it for testing purposes preheated must become, whereby appropriate facilities are necessary. In addition, for a test of hydraulikbetätigbaren Components with oil a complex measuring technique required to secure test results to obtain.

Of the Invention is based on the object, a method for testing hydraulically actuatable components specify the type mentioned in the preamble of claim 1, the allows, the recycling effort caused by the test medium used is caused to reduce.

The Invention solves away from the thought, for the exam of hydraulically operated Components a liquid Test medium to use. Rather, the invention is characterized that the component in terms of functional testing with a gaseous Test medium acted upon becomes. Furthermore, a pneumatic function characteristic of the component determined so that based the determined pneumatic function characteristic curve is determined, whether the component meets predetermined requirements.

By the use of a gaseous test medium will the recycling costs for the test medium significantly reduced or eliminated altogether. Further This results in the advantage that the components by the exam must be classified as defective, not expensive to clean are, but especially uncleaned further processing steps z. B. for detecting and eliminating the / the error (s) are supplied can. Further it is avoided that the Environment or the test bench even heavy soiling is exposed by the test.

When gaseous Test medium can various gases or gas mixtures are used, which also the use of ambient air as a test medium is possible. This creates in particular the advantage that the Cost of the Test medium are very low and the cost of the preparation of the test medium for use for the exam is reduced.

The respective functional characteristics depend on the gaseous test medium, so that dependent on from the test medium give different pneumatic functional characteristics. For interpretation the respective pneumatic function characteristic is previously a corresponding Reference characteristic to determine, based on which the specific pneumatic Functional characteristic of the respective hydraulically actuated component interpreted can be. Due to the deviations of the specific pneumatic Functional characteristic of the previously determined reference characteristic Kings nen under knowledge the test media specific dependencies quickly the functionality of the component detected and errors are localized.

Therefore, an advantageous development of the invention provides that based on a reference component, a pneumatic reference function curve is determined and that by comparing the pneumatic reference function characteristic with a determined for a specimen pneumatic function is determined whether the test specimen meets predetermined requirements. This has the advantage that it can be determined very easily and quickly whether a test object meets the quality requirements or must be reworked or rejected.

Further results in a further advantageous embodiment of the invention in that one dependence a hydraulic reference function characteristic of a reference component from a pneumatic reference function characteristic of the component is determined. This has the advantage that conversion factors or conversion process can be determined, which makes it possible, a existing hydraulic reference function characteristic in a pneumatic Convert reference function characteristic without the respective component separately check to have to. This implies, in particular, time and cost advantages.

A Another advantageous embodiment of the invention is that through Comparison of for the examinee determined pneumatic function characteristic with the pneumatic Reference function characteristic is determined, whether the hydraulic Functional characteristic of the component corresponds to predetermined requirements. This results in the advantage that by comparison to the Behavior of the component in the intended operating conditions closed and can be quickly decided whether the corresponding component the meets predetermined requirements. The conclusion of the test results by means of a gaseous test medium on the suitability of the component in the later field of application, for example by simple mathematical conversion or conversion possible, whereby said inference very fast can be pulled.

moreover is a further advantageous embodiment of the invention therein, that under Attraction of the determined dependence the hydraulic reference function characteristic from the pneumatic reference function characteristic determined for the DUT pneumatic function characteristic is transferred to a hydraulic function line. This has the advantage that the transfer of the pneumatic function characteristic in a hydraulic function characteristic the suitability of the respective hydraulically actuated component with respect to different operating conditions is detectable. This makes it possible, not just discrete values for the aptitude test, but to make the aptitude determination on the basis of a range of values.

A appropriate training the invention provides that the Part of a motor vehicle, in particular a part of a Automatic transmission of a motor vehicle is. This results the opportunity that in particular in complex assemblies, as it is for automatic transmission panels of Motor vehicles are, the method can be used for the test. Further there is the advantage that thereby the price for the exam z. B. lowered an automatic transmission for a motor vehicle can be or in a designated period by Redu cation or elimination of the raised Recycling costs, which would result from the use of liquid test media, more specimens checked can be.

The The invention is explained in more detail below with reference to the attached drawing, in FIG an application example of a method according to the invention for the testing of hydraulikbetätigbaren Components is clarified. This form all claimed, described and in the drawing features taken in isolation and in any combination together the subject of the invention, regardless of their summary in the claims and their repayments as well independently from their description or representation in the drawing.

The Figures of the drawing illustrate the application of a method according to the invention in each case a schematic representation. Therefore, the representations neither to scale or detailed in detail, but are for a better overview on the understanding supportive Reduced elements.

It shows:

1 a highly schematic representation of a circuit board of an automatic transmission for a motor vehicle as an application example of a method according to the invention,

2 a diagram with a qualitative pneumatic characteristic and an exemplary hydraulic characteristic, wherein the abscissa of the control current of a variable solenoid valve and on the ordinate the output pressure of a variable solenoid valve is shown.

In the 1 an application example of a method according to the invention for testing hydraulically actuatable components is shown. The application example is a circuit board of an automatic transmission of a motor vehicle, which hereinafter also referred to as a circuit board and in the 1 is shown schematically.

For switching the individual driving stages of the automatic transmission for a motor vehicle, one or more clutches are opened or closed at the same time or in a predetermined sequence. The individual couplings are usually hy actuated draulic, so that the automatic transmission for a motor vehicle having an oil pump and a plurality of hydraulic control units. The pumped through the oil pump pressure oil is supplied via circuit boards of the individual hydraulic control units the individual clutches.

For controlling the clutches, an embodiment of the exemplary embodiment of an automatic transmission of a motor vehicle in addition to a transmission control device and various solenoid valves. For a pressure-free changing the speed levels are in the illustrated circuit board 2 variably controllable solenoid valves are used, which change their opening cross section depending on the applied control current. This makes it possible to vary the flow rate or the oil pressure.

For a better overview are the details of the automatic transmission for a motor vehicle and the circuit board 2 in the 1 not shown.

To check the circuit board 2 serves a test device 4 , which is also shown schematically. The tester 4 initially has a control unit 6 on that the circuit board 2 , insbesonde the solenoid valves for controlling the clutches, with a control current drives. The control current in the variable solenoid valves causes a variable orifice to open according to the applied control current, thereby changing the pressure of the flow medium. To check the circuit board 2 this is pressurized with compressed air, so that the conventional oil for the operation of the circuit board 2 is replaced by compressed and purified ambient air.

To provide the compressed air, the test device 4 a compressed air supply unit 8th on which the ambient air for the actuation of the circuit board 2 cleans and compacts. The compressed air supply unit 8th are Druckluftmeßmittel 10 downstream, which serve the compressed air loading of the circuit board 2 to be measured with compressed air and adapted according to the respective test requirements. Furthermore, the inspection device 4 further compressed air measuring 12 on to measure the pressure at the respective outlet of the hydraulically actuated components, in particular the variable solenoid valves.

The 2 shows a qualitative reference function characteristic 18 for the test medium air, which is used to test the circuit board 2 can be used. The reference function characteristic is based on this 18 for the test medium air on the test of a variable solenoid valve of the circuit board 2 , On the abscissa is the control current 20 plotted for the variable solenoid valve and on the ordinate the pressure 22 , which at the output of the variable solenoid valve in dependence of the control current 20 can be measured. In the diagram is also an exemplary reference function characteristic 24 represented for the test medium oil.

Both on the reference function characteristic 24 for the test medium oil as well as on the reference function characteristic curve 18 for the test medium air are various bases 26 . 26 ' recognizable, which can be used to develop a mathematical relationship of various functional parameters.

The presentation in the 2 clarifies that from a reference function characteristic 18 for the test medium air can be closed to the function of a hydraulically actuated component when using the test / operating medium oil. The mathematical relationship of the reference function characteristics 18 . 24 can be determined in particular by experiments that may be dependent on the specific test medium and, for example, the respective component and the corresponding application. For a better overview, only one interpolation point of the respective reference function characteristic is shown 18 . 24 with the respective reference numeral 26 . 26 ' Mistake.

To determine the dependencies between the various parameters and parameters, among others, test series are necessary, so that the diagram of 2 is only one way to convert the measured values for the test medium air into values for the test medium oil.

For the exam of hydraulically actuatable components and the determination of function or reference characteristics, the Components of a device for carrying out the method according to the invention be connected to computer resources. The computer engineering Means can controlling the components of the device and finally also the recording and evaluation of test and test parameters serve.

there can the components of the device also together control / regulation technology be networked so that one fast adjustment of manipulated variables done can.

The possibility of networking, control or regulation is in 1 symbolically represented. The method according to the invention can be used both computer-aided and manually.

Claims (6)

A method for testing hydraulikbetätigbaren components, characterized in that the component is acted upon in terms of a function to be tested with a gaseous test medium and a pneumatic function characteristic of the component is determined and that it is determined based on the determined pneumatic function characteristic, whether the component meets predetermined requirements. Method according to Claim 1, characterized in that, based on a reference component, a pneumatic reference function characteristic ( 18 ) and that by comparison of the pneumatic reference function characteristic ( 18 ) is determined with a determined for a test specimen pneumatic function curve, if the DUT meets predetermined requirements. Method according to one of the preceding claims, characterized in that a dependence of a hydraulic reference function characteristic ( 24 ) of a reference component of a pneumatic reference function characteristic of the component is determined. Method according to claim 3, characterized in that by comparison of the pneumatic functional characteristic curve determined for the test specimen ( 18 ) is determined with the pneumatic reference function characteristic, whether the hydraulic function characteristic of the component corresponds to predetermined requirements. Method according to Claim 3 or 4, characterized in that, using the determined dependence of the hydraulic reference function characteristic ( 24 ) from the pneumatic reference function characteristic ( 18 ) the pneumatic functional characteristic curve determined for the test specimen is converted into a hydraulic functional characteristic curve. Method according to one of the preceding claims, characterized in that the component is a part of a motor vehicle, in particular a part of an automatic transmission of a motor vehicle ( 2 ) is.