SU614351A1 - Transmission testing stand - Google Patents

Description

one

This invention relates to the field of benchmark testing of vehicle transmissions.

The limestone stand for testing the transmission contains a traction motor for driving the transmission to the output shaft of which a braking device with a control system is attached.

This stand allows you to simulate only a certain type of loading of the transmission. .

A transmission test is also known, which contains a drive motor having a kinematic connection for connecting to the transmission input shaft, a load device connected to the output shaft of the transmission and executed on an electric motor, load command units connected to the drive motor by a load device, a bench control unit associated with the load modes setting blocks and a pulse generator.

This stand is the closest to the invention by its technical essence and is achieved to the garden result.

The disadvantage of it is a narrow range of simulated loads-only 2

periodic with low purity oscillations.

The purpose of the invention is to expand the range of simulated loads.

Claims (2)

The goal is achieved by the fact that the stand is equipped with a coincidence circuit, a pulse counter connected to the output of the coincidence circuit, which is connected to the pulse generator and the stand control unit, and the interval duration setting blocks, consisting of: one — the first setter. Interval — of a trigger connected one of the inputs with the output of the control unit bench, and the rest from the switching element, the input of which is connected to one of the outputs of the counter i and the trigger, the inputs of which are connected to the output of the switching element corresponding The same and the following, the interval duration setting blocks, the second trigger input block specifying the duration of the first interval is connected to the switching element output of the subsequent interval duration setting block, the outputs of all triggers are connected to the corresponding blocks of the load mode setting, and the output of the mutacion element of the task block the duration of the last inter val is additionally connected to one of. inputs of the control unit bench. The drawing shows a functional on the scheme of the stand. The stand contains a pulse generator 1, the output of which is connected to one of the inputs of the coincidence circuit 2, the other input of which is connected to the control unit 3 by the stand. The output of the coincidence circuit 2 is connected to the input of the pulse counter 4, which by its outputs is connected to the inputs of the switching elements 5-1,. . . 5 - N. The outputs of the switching elements are connected to the inputs of the triggers 6-1, ..,., 6- W. The trigger outputs are connected to the corresponding inputs of blocks 7, 8 of the load mode setting. The outputs of blocks 7, 8 of setting the load modes are connected respectively to the load device 9 connected to the POWER shaft of the transmission L O and to the drive motor 11 connected with the input shaft of the transglision 10. The stand works as follows. When testing a transmission, any law of load distribution during a time with a sufficient degree of accuracy is approximated by a step function by separating the dependence of the load on time: for H intervals, the duration of which can be set arbitrary, and the load value in the interval remains constant any according to the program. In the described bench, the principle of counting pulses of a certain frequency, generated by pulse generator 1, is used to obtain time intervals. In the blocks for setting the interval duration, the first one is executed on trigger 6-1, and each of the subsequent ones on element 5-1 and trigger 6-2, on the switching element, a number is dialed according to the expression:, -T, the duration of the j -th interval; the number dialed on the 4th block of the task of the duration of the interval; pulse generator frequency. After the generator of the permission signal from the bench control unit 3, the number of pulses, corresponding to the Jf interval time, is received from the generator 1 to the counter 4, the corresponding output of the Jf interval ./Wj is pulses /, the output signal of the -th block the interval duration setting disappears, and at the output - "1 appears. The signal from the trigger output fi-1, ...., 6-N / is applied to the input of the load mode setting blocks corresponding to this interval. 7.8 mode setting blocks loads have L + +1 input, and, if there is a signal at one of the device inputs in unit allows to set any value of the output signal. Thus, in any interval, with a number of blocks for setting load modes, any value can be set, the moment of resistance (or speed) on the output shaft of the transmission at any speed of the drive engine, which allows to realize with a sufficient degree of accuracy any real mode of transmission operation. After the last interval has been processed, the signal from the output of the element and the 5-N block for setting the last interval enters the bench control unit 3, and depending on the mode set by the control unit 3, the bench can process the frame recruited by you once or periodically in automatic mode. In bench control unit 3, the possibility of stopping the counter at any interval, as well as any other possibilities associated with the test, may be provided. The bench allows you to simulate the real load conditions of the transmission, which can accelerate testing by 1.2 f 1.8 times. As a result, the timeframe for developing and introducing transport mechanisms into the national economy is significantly reduced, which will give a tangible economic effect. Claims for transmission test bench containing a drive motor having a kinematic connection for connection to the transmission input shaft, a load device connected to the output shaft of the transmission and a block of load conditions connected to the drive motor and the load device / block mounted on the electric motor control of the bench, associated with the blocks of setting the load conditions, and the generator of pulses / o tl and h y and the fact that, in order to regulate the range of simulated loads, it is equipped heme coincidence, a pulse counter connected to the output of the coincidence circuit, which inputs are connected to a pulse generator and a stand control unit, and interval duration setting blocks, consisting of: one specifying first interval w - a trigger connected by one of the inputs to the output of the stand control unit and the rest are from the switching element, the input of which is connected to one of the outputs of the counter and the trigger, the inputs of which are connected to the output of the switching element respectively of the same and subsequent blocks the interval duration, the second input of the trigger of the first-interval duration setting block — connected to the output of the switching element of the subsequent reference block (interval duration. the outputs of all the triggers are connected to the corresponding inputs of the blocks for setting load modes, and the output of the switching unit of the block for setting the duration of the last interval is additionally connected to one of the inputs of the control unit of the stand. Sources of information taken into account in the examination: 1. Author's certificate of the USSR 316962, cl. M 13/02, 1972. 2. Authors testimony of the USSR 353169, kl.O M 13/02, 1969.