DE102011088424A1 - Test apparatus for roller test bench for motor vehicle e.g. motorcycle, has support that is provided with connection device for spatial fixing of testing apparatus in relation to the roller test bench - Google Patents

Abstract

The test apparatus has a support (3) on which several wheels (4) are mounted via a bearing device (7) corresponding to number of rollers (1) of the roller test bench. A motor-generator unit (5) and/or a brake unit, and a torque measuring shaft (6) are provided in each wheel. The support is provided with a connection device (8) for spatial fixing of testing apparatus in relation to the roller test bench. The motor-generator unit is connected with a control unit, and the torque measuring shaft is connected with an evaluation unit.

Description

The invention relates to a test device for a roller test stand for a motor vehicle having at least two rollers, or a test device for a roller test stand for a motorcycle having one or two rollers.

Roller test stands for motor vehicles are known from the prior art. Such a roller test stand, for example, in the EP 0 655 617 A2 described. Such roller test rigs should be calibrated to ensure repeatability and unambiguity of the measurement results. The measurement of the pulley tension plays an important role here. A static calibration is usually via an attached weight and a lever. The role is considered at a standstill; a check in real operation is not possible. The check of the tensile force of the roller during operation is very difficult to implement. Although the measurement of the drive current can be carried out relatively easily, the high moments of inertia of the roller influence the measurement. A sensitive measurement is almost impossible. Using a motor vehicle as a test object is also inappropriate because there are too many non-repeatable parameters. A strong influence during operation, for example, by the frequency converter. It is conceivable to permanently install load cells for force or torque measurement, but these are only useful for the individual test bench on which they are installed. The problem with all previous devices is that no portability of a role test bench on another role test bench is possible. Since, however, even within a single factory of a motor vehicle manufacturer, there are regularly various roller test stands to which even the same models are sequentially set to measure different characteristics, it is necessary to compare the measurement results of one roller test bench with that of another roller test bench to be able to.

The object of the invention is therefore to provide a test device for a roller test stand, which makes it possible to port the measurement results obtained on a roller test bench to another roller test bench and thus on different roller test stands To be able to compare the obtained measurement results.

This object is achieved by a test device for a roller test stand for a motor vehicle having the features of patent claim 1; by a test device with the features of claim 2, the same object is achieved for a roller test stand for a motorcycle. Advantageous embodiments of the invention are the subject of the dependent claims.

Characterized in that a well-defined force is transmitted to a wheel of the test apparatus by a motor-generator unit, and characterized in that at the same time by means of a torque measuring shaft, the transmitted torque is measured on the roller, a very accurate inspection of the roller test stand in terms take place on the role associated with the associated wheel. Since each of the individual roles of the roller test stand is associated with such an arrangement according to the invention, each of the individual roles of the test stand can be checked exactly. According to the invention, the control of the motor-generator unit and / or the brake unit via a drive unit and each torque measuring shaft is in each case connected to an evaluation unit. So that the test device remains exactly at its position with respect to the rollers of the roller test stand, a tether device is provided according to the invention. The difference between the test devices for motor vehicles and motorcycles is that in motor vehicles two wheels are on a virtual axis of rotation or in a four-wheel drive motor vehicle two wheels on each such axis of rotation, and in a motorcycle no such arrangement of two wheels on a common axis given is.

Further advantages and details of the invention will be explained with reference to the embodiment shown in the drawing. Show it

1 a perspective view of a test device according to the invention on a roller test bench, wherein only the parts relevant to the invention are shown,

2 an enlarged detail of the test apparatus of 1 for one of the four wheels and

3 a schematic representation in plan view with wiring for the transmission of control and measurement signals.

1 shows the four roles 1 a roller test stand for a motor vehicle with four-wheel drive. There are two of these roles 1 arranged so that they run virtually on a common axis. The storage of the rolls 1 as well as their drives and other elements are in 1 not shown in order not to reduce the clarity of the presentation; Moreover, these are not relevant to the invention.

The roles 1 are located in a depression, which by means of a cover 2 is covered. Only a small part of the roles 1 in the region of their respective upper vertex protrudes over the cover 2 through one opening each. On these outstanding areas of roles 1 is the test device according to the invention - as will be explained in more detail below - arranged.

The testing device has a carrier element 3 on, which may for example be designed as a plate or as a grid frame. On the support element 3 are on four devices described in more detail below four wheels 4 arranged. The wheels 4 are arranged to each other so that they each above the vertices of the individual roles 1 stand. This means that two wheels each 4 on a common virtual axis of rotation 18 are arranged under such a virtual axis of rotation also understand that the camber and / or the track of each on such a rotation axis 18 arranged wheels 4 can be set differently, so that in the geometric sense, no common axis is possible. The two virtual axes of rotation 18 have such a distance to each other that - as already described above - all of the four wheels 4 each on one of the vertices of the assigned roles 1 stand.

In the illustrated embodiment, all four parts of the test device, in conjunction with a wheel 4 stand, trained the same. However, this is not mandatory. The following will explain the formation of these individual devices 2 referenced where an enlarged view of such area is shown.

About a suitable mounting block 19 is a combination of a motor-generator unit 5 and a brake unit with the carrier element 3 connected. About a wave (this is hidden by the individual parts of the embodiment) is this motor-generator unit 5 in conjunction with the brake unit with the wheel 4 connected. The shaft is doing in a storage device 7 stored. Between this storage device 7 and the motor-generator unit 5 in conjunction with the brake unit is a torque measuring shaft 6 , By means of this torque measuring shaft 6 For example, the torque acting on the shaft can be determined very accurately. How this happens will be explained below.

As 1 it can be seen, they are just coming up 2 made statements on each of the wheels 4 to. Every single bike 4 can thus be completely independent of the other wheels 4 be driven or braked so that also the respective measured values in relation to each individual wheel 4 assigned single role 1 be obtained completely independently of each other.

Since different motor vehicles have different wheelbases and thus roller test benches for the different motor vehicles do likewise, there is the possibility (not shown in the exemplary embodiment) of the bearing devices 7 at different points on the rotary element 3 to attach and thus the distance between the two axes of rotation 18 to change, so vote on the respectively necessary wheelbase of the roller test bench. As a result, it is not necessary to produce a separate test device for each individual wheelbase.

To the entire test device exactly at the once determined point - so usually so that all wheels 4 in each case at their associated vertices of the roles 1 remain stationary - is the carrier element 3 via a bondage device 8th connected. The bondage device 8th is known from the prior art, so that it will be discussed only briefly. In the embodiment, several eyelets nine (one of them is in 2 shown) on the carrier element 3 appropriate. About these eyelets nine each will be ropes 10 guided and assigned via this post 11 braced.

Unlike in the prior art, it is in an advantageous embodiment of the invention, not shown in the embodiment, that by means of the restraint device 8th the contact pressure of the wheel 4 or the wheels 4 is adjustable to a predetermined value. As a result, a variable contact pressure can be set, which enables a simulation of different vehicle masses and mass distributions. The same result can alternatively be achieved by the carrier element 3 Additional weights are attached.

Alternatively to the in the 1 and 2 shown fixed arrangement of the motor-generator unit 5 and the torque measuring shaft 6 for every bike 4 the respective axis of rotation 18 Alternatively, an embodiment may be provided by means of a respective wheel 4 regarding its track and its camber can be changed with respect to the roller test bench. This can for example be done by the attachment block 19 and the storage device 7 that in the 1 and 2 firmly with the carrier element 3 are mounted on an intermediate plate (not shown) which are opposite to the carrier element 3 is changeable. To adjust the track, the intermediate plate must be movable about a vertically oriented axis and for camber adjustment about a horizontally oriented axis extending in the longitudinal direction of the test device.

To reduce the bearing friction, may alternatively to in the 1 and 2 illustrated arrangement, the storage device 7 not between wheel 4 and torque measuring shaft 6 but between the torque measuring shaft 6 and the mounting block 19 be arranged.

To achieve an even better simulation of a real vehicle, can on the support element 3 in addition, a damper and spring device are mounted (not shown). This can be designed, for example, in the form of a real, complete chassis, in particular including links, or else by functionally identical parts.

In 3 schematically another embodiment of a test device according to the invention is shown, wherein the carrier element 3 no plate like in the 1 and 2 is, but it is a grid frame 20 is. The on the individual wheels 4 acting devices according to the invention are shown here only schematically and without reproducing all parts. They are presented only insofar as they are necessary for obtaining meaningful data for obtaining portable characteristics of the roller test bench on which the test devices according to the invention are located during the test. The existing devices are for each wheel 4 the same, so that only one of these four orders is dealt with here. Each motor-generator unit 5 , the same applies - if any - also for each brake unit, is via a control line 13 with a drive unit 12 connected. From this drive unit 12 receives the motor-generator unit 5 thus the commands, which power should be currently driven. As a result, the respective power consumption of the motor-generator units 5 known.

Parallel to this is every torque measuring shaft 6 via a data line 15 with an evaluation unit 14 connected. The evaluation units 14 Thus obtained a temporal course of the torque that prevails in the wave that the respective associated wheel 4 leads.

The evaluation units 14 are in an evaluation device 16 summarized. From there, the of the individual torque measuring shafts 6 collected data via a CAN bus 17 sent to a computer. Instead of a CAN bus 17 - which has established itself as standard in the application of interest here - can also use any other bus system by means of which such data packets can be sent.

In the computer thus the characteristic curves of the individual torque measuring shafts 6 and the characteristic curves of the individual motor-generator units 5 or the brake units in time sequence and timed to each other known. This makes it possible, with known formulas using further, necessary for the determination of parameters - which can be detected or determined by known methods - to determine the specifics of the just reviewed roller test bench.

It is not absolutely necessary to use the same test device for the test of another roller test bench, but another test device, which is also constructed according to the invention but does not have to be identical to it, can be used. One then obtains for this other role test bench also key figures or curves that are objectively comparable with each other, so that for vehicles that are on different role test benches - after they were checked by means of a test devices according to the invention - can be compared.

An alternative test device according to the invention is not as in the 1 to 3 shown intended for motor vehicles, but for motorcycles. Since motorcycles either one or occasionally two driven wheels 4 but not on the same axis of rotation 18 are arranged, are also only one (in a driven axle) or two (with two driven axles) units according to the 1 to 3 per wheel 4 necessary. For a motorcycle with two driven axles, for example, a testing device 3 according to the 1 to 3 used, which is divided along the central longitudinal axis and only one of these parts is used. However, then it is necessary to provide a support device, otherwise the test device would tip over.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0655617 A2 [0002]

Claims (14)

Test device for a roller test stand for a motor vehicle, comprising at least two rollers ( 1 ), characterized in that it comprises a carrier element ( 3 ), on which a number of wheels ( 4 ) via a respective storage device ( 7 ), the number of rollers ( 1 ) and which are aligned with each other in such a way that they are each on one of the rollers ( 1 ) of the roller dynamometer, with two wheels ( 4 ) a virtual common axis of rotation ( 18 ), each wheel ( 4 ) one on the carrier element ( 3 Assigned attached separate test arrangement, each having a motor-generator unit ( 5 ) and / or a brake unit and a torque measuring shaft ( 6 ), each torque measuring shaft ( 6 ) between each wheel ( 4 ) and the respective motor-generator unit ( 5 ) or brake unit is arranged, wherein the carrier element ( 3 ) at least one connecting device to a tether device ( 8th ) for locating the test apparatus in relation to the roller test bench, each motor-generator unit ( 5 ) or brake unit a drive unit ( 12 ), each torque measuring shaft ( 6 ) an evaluation unit ( 14 ) having. Test device for a wheeled test stand for a motorcycle having one or two rollers ( 1 ), characterized in that it comprises a carrier element ( 3 ), on which a number of wheels ( 4 ) via a respective storage device ( 7 ), the number of rollers ( 1 ) and which are aligned with each other so that they each on one roll ( 1 ) of the roller test bench, with two rollers ( 1 ) on one of the roles ( 1 ) of the roller dynamometer, with two wheels ( 4 ) this no common axis of rotation ( 18 ), each wheel ( 4 ) one on the carrier element ( 3 Assigned attached separate test arrangement, each having a motor-generator unit ( 5 ) and / or a brake unit and a torque measuring shaft ( 6 ), each torque measuring shaft ( 6 ) between each wheel ( 4 ) and the respective motor-generator unit ( 6 ) or brake unit is arranged, wherein the carrier element ( 3 ) at least one connecting device to a tether device ( 8th ) for locating the test apparatus in relation to the roller test bench, each motor-generator unit ( 5 ) or brake unit a drive unit ( 12 ), each torque measuring shaft ( 6 ) an evaluation unit ( 14 ) having. Inspection device according to claim 2, characterized in that it comprises a support device which prevents tilting of the wheel ( 4 ) or the wheels ( 4 ) prevented. Test device according to claim 1, characterized in that it has exactly four wheels ( 4 ), the two parallel axes of rotation ( 18 ) exhibit. Test device according to one of the preceding claims, characterized in that the bearing devices ( 7 ) at different locations on the carrier element ( 3 ), so that the distance between the two axes of rotation ( 18 ) is changeable. Test device according to one of the preceding claims, characterized in that the motor-generator unit ( 5 ) or brake unit and torque measuring shaft ( 6 ) for each wheel ( 4 ) along the respective axis of rotation ( 18 ) are aligned. Test device according to one of claims 1 to 5, characterized in that the angle between the bearing device ( 7 ) and the carrier element ( 3 ) is changeable. Test device according to one of the preceding claims, characterized in that the bearing device ( 7 ) between the motor-generator unit ( 5 ) or brake unit on the one hand and the torque measuring shaft ( 6 ) is arranged on the other side and the associated wheel ( 4 ) at the storage device ( 7 ) facing away from the end of the torque measuring shaft ( 6 ) is attached. Test device according to one of the preceding claims, characterized in that on the carrier element ( 3 ) A damper / spring device is mounted. Test device according to one of the preceding claims, characterized in that by means of the tethering device ( 8th ) the contact pressure of the wheel ( 4 ) to the role ( 1 ) or the wheels ( 4 ) to the roles ( 1 ) is adjustable to a predetermined value and / or the weight of the tester is adjustable via additional weights. Test device according to one of the preceding claims, characterized in that the individual torque measuring shafts ( 6 ) via one data line each ( 15 ) with the respective evaluation unit ( 14 ) and the evaluation units ( 14 ) in an evaluation device ( 16 ) are summarized. Test device according to claim 11, characterized in that the evaluation device ( 16 ) via a CAN bus ( 17 ) is connected to a computer. Test device according to one of the preceding claims, characterized in that the individual motor-generator units ( 5 ) or brake units via control lines ( 13 ) with their control units ( 12 ) and the control units ( 12 ) are combined in a drive device. Test device according to one of the preceding claims, characterized in that the carrier element ( 3 ) is a plate or a grid frame.

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