DE102015200222A1 - Test device for testing a pendulum vane pump / vane pump - Google Patents

Abstract

The invention relates to a device (1) for testing a pendulum vane pump / vane pump (2), comprising - a pressure source (3) for connection to a first connection (4) of the pendulum vane pump / vane pump (2), - a pressure sensor (6) for connection with a second connection (5) of the pendulum slide pump / vane pump (2), - a drive device (8) for driving the pendulum slide pump / vane pump (2), - a measuring and evaluation device (9), at least with the drive means (8) and the pressure sensor (6) is connected, wherein the measuring and evaluation device (9) for detecting and evaluating pressure surges p in response to the rotation angle α of a rotor (7) of the pendulum slide pump / vane pump (2) is formed. This allows a simple yet highly accurate test can be achieved.

Description

The present invention relates to a test device for testing a pendulum vane pump or a vane pump. The invention also relates to a method for testing a pendulum slide pump or a vane pump.

Pendulum slide pumps or vane pumps are increasingly being used in modern motor vehicles because they allow a very exact dosage of the fluid to be delivered. Both the vane pump and the pendulum slide pump belong to the class of positive displacement pumps and have the advantage that the fluid to be delivered can be promoted virtually pulsation-free. In addition, such pumps are also characterized by a cost-effective design and low noise emission, which also offers advantages, especially in motor vehicle construction.

When installing vane pumps or pendulum slide pumps, the individual wings or pendulum are installed in a rotor and the pump is then assembled. At the end of the assembly line, a functional test of the pump takes place, for which purpose it is put into operation in a dry run, that is, for example, with compressed air, and the pressures then occurring are checked. In a fast-rotating pump, however, it can not be determined beyond doubt from the air pressure generated whether all the pendulum or wings are actually installed, since even with a missing pendulum, a corresponding pumping action and a pressure build-up begins.

In order to ensure that all pendulum slides or wings are reliably installed, corresponding control bodies would have to be implemented, which not only hampers the workflow, but is also complicated and expensive.

The present invention therefore deals with the problem of specifying a test device with which a pendulum slide pump or a vane pump can be tested inexpensively and yet reliably.

This problem is solved according to the invention by the subject matters of the independent claims. Advantageous embodiments are the subject of the dependent claims.

The present invention is based on the general idea to provide a test device for testing a pendulum vane pump or a vane pump, which not only detects the generally resulting in a functional test air pressure of the pump to be tested, but also the pressure surges / pressure pulsations occurring, as these a clear To draw conclusions about the absence of a pendulum slider or a wing. For this purpose, the test device according to the invention has a pressure source for connection to a first connection of the pendulum slide pump / vane pump. Such a pressure source is usually a compressed air source, which allows a dry test of the pump to be tested. The first port is usually a pump inlet, but may also be a pump outlet because vane pumps or shuttle pumps can operate in both directions of flow. In addition, the test device according to the invention has a pressure sensor which is connected to a second connection of the pendulum slide pump or the vane pump. Via a drive device, a rotor of the pump is driven. Essential for the test apparatus according to the invention is a measuring and evaluation device, which is connected at least to the drive device and the pressure sensor and is also able to detect and evaluate pressure surges depending on the angle of rotation of the rotor of the pendulum vane pump / vane pump, for example, graphically depicting what clearly on, for example, missing wings or pendulum slide can be closed. Thus, if a pendulum slide pump with six pendulum slides installed in the tester and tested, the pressure pulse generated by the measuring and evaluation device must have six peaks per complete revolution of the rotor, which then clearly indicate that all six pendulum slides are installed. In a figurative sense, this of course applies analogously to a vane pump.

Suitably, the pressure source is designed to provide compressed air. As already described in the previous paragraph, the functional test of the pump to be tested at the end of the assembly line is carried out as a dry test, whereby contamination of the pump to be tested and, for example, a related complex cleaning can be avoided. In addition, compressed air can be provided inexpensively and with almost any pressure.

In a further advantageous embodiment of the solution according to the invention, the pressure wave is designed to generate an air pressure of 4 bar <p <8 bar. In particular, the air pressure may be similar to the respective operating pressures resulting in the normal operating mode, e.g. 6 bar, to be dimensioned.

The present invention is further based on the general idea of a method for testing a pendulum vane pump. Vane pump by means of the test device described above, in this method, first the pump to be tested with the pressure source via the first port, that is, for example, the pump inlet or the pump outlet, is pressurized. Subsequently, the rotor of the pendulum slide pump / vane pump to be tested is coupled to the drive device and driven. Now a pressure at the second connection of the pendulum vane pump / vane pump to be tested is detected via the pressure sensor and forwarded to the measuring and evaluation device. This thus detected via the pressure sensor, the pressure surges occurring at the second output as a function of the angle of rotation of the rotor of the pendulum slide pump / vane pump and evaluates this. An evaluation can for example be carried out by means of a corresponding pressure / rotation angle diagram, wherein the number of detected pressure surges or pressure pulses per revolution of the rotor coincides with the actual number of existing pendulum slide or wing. If the actual number coincides with a specified target number, the pump to be tested has passed the test.

In an advantageous development of the solution according to the invention, the rotor is rotated by at least 360 ° per test procedure. In order to be able to determine the exact number of built-in vanes or pendulum slides, the rotor is preferably rotated not only by 360 ° per test, but several times, whereby the test accuracy can be increased.

Suitably, the measuring and evaluation device detects the number and / or the distribution of the pressure surges occurring at the second outlet per revolution of the rotor via the pressure sensor and evaluates these. By distributing the pressure surges over the angle of rotation of the rotor can also be determined whether the individual wings or pendulum slides are installed correctly and at what point or at which angle of rotation may be missing a pendulum slide. If, for example, six pendulum slides are distributed uniformly over the circumference of a rotor, the evaluation diagram would have to have corresponding pressure pulses approximately every 60 °, or oscillations in the desired angular intervals distributed unevenly over the circumference.

Other important features and advantages of the invention will become apparent from the dependent claims, from the drawings and from the associated figure description with reference to the drawings.

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

Preferred embodiments of the invention are illustrated in the drawings and will be described in more detail in the following description, wherein like reference numerals refer to the same or similar or functionally identical components.

Show, in each case schematically,

1 a sectional view through a test device according to the invention,

2 a pressure pulse / angle of rotation diagram generated by a measuring and evaluation device of the test device according to the invention.

According to the 1 has a test device according to the invention 1 for testing a pendulum vane pump / vane pump 2 a pressure source 3 on that with a first connection 4 the pump 2 connected is. The first connection 4 is usually a pump input, whereas a second connection 5 represents a pump outlet. Of course, the connection of the pressure source 3 but also at the pump outlet, ie at the second connection 5 take place because the pendulum slide pump / vane pump to be tested 2 independent of direction and can therefore be tested. Furthermore, the test device according to the invention comprises 1 a pressure sensor 6 that with the second connection 5 the pump 2 connected is. A rotor 7 , here an inner rotor, is with a drive device 8th connected and can be powered by this. Furthermore, a measuring and evaluation device 9 provided, at least with the drive device 8th and the pressure sensor 6 connected and for detecting and evaluating pressure surges p ₁ to p _n as a function of the rotational angle α of the rotor 7 the pendulum vane pump / vane pump 2 is trained.

The pressure source 3 is preferably designed as a compressed air source and thereby enables a so-called dry test of the pump 2 , which offers the great advantage that it does not need to be laboriously cleaned after the test. In addition, compressed air can be provided relatively inexpensively and almost any pressure p. Furthermore, it is of course conceivable that the measuring and evaluation 9 with the first connection 4 and / or with the pressure source 3 connected, which according to the 1 is shown with broken lines drawn.

Generally, the pressure wave 3 able to generate a test pressure p between 4 bar and 8 bar. Such a test pressure offers the great advantage of carrying out the test in a pressure range which corresponds to the actual operating pressure, as a result of which the system states can be imaged as close as possible to the operation.

In general, with the test device according to the invention 1 the pendulum vane pump / vane pump to be tested 2 Simple yet extremely precise testing by first checking the pendulum vane pump / vane pump 2 with the pressure source 3 connected and via the first port 4 with pressure, in particular compressed air, is acted upon. Simultaneously or subsequently, the rotor 7 the pendulum vane pump / vane pump 2 with the drive device 8th connected and powered by these. About the pressure sensor 6 is now a pressure p or pressure pulses p ₁ to p _{n of} the pendulum slide pump / vane pump 2 detected and the pressure surges occurring here p ₁ to p _n as a function of the rotation angle α of the rotor 7 the pendulum vane pump / vane pump 2 recorded and evaluated.

Indicates the pendulum vane pump / vane pump to be tested 2 five pendulum slides 11 or wings 11 on, so must with a correct assembly of the individual pendulum slides 11 or wings 11 that according to the 2 shown pressure / rotation angle diagram also show five pressure surges p ₁ to p ₅ . With a uniform distribution of the individual pendulum slides 11 or wings 11 over the circumference of the rotor 7 These individual pressure surges or pressure pulses p ₁ to p _{5 must} also be distributed uniformly over the angle of rotation α. Consequently, a rotational angle distance of 73 ° would have to exist between the individual pressure surges / pressure pulses. Indicates this from the measuring and evaluation device 9 generated diagram less than five pressure surges or pressure pulses p, so it can be assumed that not all pendulum slides 11 or wings 11 correctly mounted. Soft alternatively to the readings of the individual pressure pulses p _n from p to _{n + 1} from the value of 73 °, or in addition, it may be assumed in addition that the single pendulum slide 11 or wings 11 not mounted correctly.

With the testing device according to the invention 1 Thus, it is easy and also inexpensive and reliable possible to reliably determine whether all wings or pendulum slides were mounted exactly and in the predefined number. In the 1 is with the reference number 10 also called an outer rotor.

Claims (8)

Tester ( 1 ) for testing a pendulum vane pump / vane pump ( 2 ), with - a pressure source ( 3 ) for connecting to a first connector ( 4 ) of the pendulum vane pump / vane pump ( 2 ), - a pressure sensor ( 6 ) for connecting to a second port ( 5 ) of the pendulum vane pump / vane pump ( 2 ), - a drive device ( 8th ) for driving the pendulum vane pump / vane pump ( 2 ), - a measuring and evaluation device ( 9 ), which at least with the drive device ( 8th ) and the pressure sensor ( 6 ), the measuring and evaluation device ( 9 ) for detecting and evaluating pressure surges p as a function of the rotational angle α of a rotor ( 7 ) of the pendulum vane pump / vane pump ( 2 ) is trained. Test device according to claim 1, characterized in that the pressure source ( 3 ) is designed to provide compressed air. Test device according to claim 1 or 2, characterized in that the measuring and evaluation device ( 9 ) with the first connection ( 4 ) and / or with the pressure source ( 3 ) connected is. Test device according to one of claims 1 to 3, characterized in that the first connection ( 4 ) a pump input and the second port ( 5 ) is a pump outlet, or vice versa. Test device according to one of claims 1 to 4, characterized in that the pressure source ( 3 ) for generating a pressure of 4 bar <p <8 bar, in particular 6 bar, is formed. Method for testing a pendulum vane pump / vane pump ( 2 ), by means of a test device ( 1 ) according to one of the preceding claims, in which - the pendulum slide pump / vane pump to be tested ( 2 ) with the pressure source ( 3 ) over the first port ( 4 ) is pressurized, - a rotor ( 7 ) of the pendulum vane pump / vane pump ( 2 ) via the drive device ( 8th ), - via the pressure sensor ( 6 ) a pressure of the pendulum vane pump / vane pump ( 2 ), - the measuring and evaluation device ( 9 ) via the pressure sensor ( 6 ) at the second exit ( 5 ) occurring pressure surges p as a function of the rotational angle α of the rotor ( 7 ) of the pendulum vane pump / vane pump ( 2 ) recorded and evaluated. Method according to claim 6, characterized in that the rotor ( 7 ) is rotated by at least 360 ° per test procedure. Method according to claim 6 or 7, characterized in that the measuring and evaluation device ( 9 ) via the pressure sensor ( 6 ) the number and / or the distribution of the pressure surges p occurring at the second outlet per revolution of the rotor ( 7 ) recorded and evaluated.

Images