SU630547A1 - Stand for investigating oscillatory processes of vehicles - Google Patents

Description

one

The invention relates to the field of testing equipment and can be applied to the study of the oscillatory processes of vehicles in laboratory conditions.

A stand for studying suspension systems is known, containing a noise generator for creating an off-road micro-profile analog, an analog computer (AVM), corrected; its equipment is to ensure the amplitude-frequency characteristic of the amplifier node, a power amplifier, a hydraulic booster unit with a tracking device. and a power actuator cylinder balanced by a swinging frame with a natural seat for passenger 1.

The disadvantages of this stand are the complexity and high cost due to the presence of the AVM and the manufacture of special equipment (a hydraulic booster with a follow-up spool device, a balanced swinging frame, a powerful amplifier); the ability to reproduce using a noise generator only a certain frequency of oscillation of the vehicle.

A stand for studying oscillatory processes of vehicles is known, comprising a dynamic part made of cranks with sliders connected to the shafts of electric motors, an electric motor shirring circuit and a software device 2.

The disadvantages of this test bench are low reliability and a narrow range of studies due to the reproduction of only a certain frequency of vehicle oscillation.

The aim of the invention is to expand the range and increase the accuracy of research.

This is achieved by the fact that the proposed stand is equipped with rollers placed on

nod-blades, and the cranks of the dynamic part are made in the form of profiled rocker arms, the swing centers of which are rigidly connected to the shafts of electric motors, with one end of each rocker arm

movably mounted roller slider, and on the other end - the counterweight.

FIG. 1 shows the scheme of the proposed stand; in fig. 2 - motor control circuit of the dynamic part

stand

The bench consists of a dynamic part, a control circuit for the electric motors of the dynamic part and a software device.

The dynamic part of the stand is made in

cranks with sliders 1, which through rollers 2 are connected with the ends of the rocker arms 3. At the other ends of the rocker arms 3, the counterweights 4 are installed, and the centers of the rocker arms are rigidly connected to the shafts of the electric motors 5.

The control circuit of the electric motor 5 includes power thyristor converters 6, pulse-width modulators (PWM) 7 connected to the converters 6, demodulators 8 supplying signals to the corresponding PWM 7 by selective amplifiers 9 to the corresponding PWM 7. a magnetic tape of a tape recorder 10 connected to the inputs of the selective amplifiers 9. The power supply And through the respective converters 6 is connected to the electric motors 5.

The stand works as follows.

In the absence of a signal from the tape recorder 10, the electric motors 5 are powered by the operating voltage from the power source 11. The torques of the electric motors 5 and the counterweights 4 through the yoke 3 and the slider 1 with the roller 2 are balanced by the weight of the machine under investigation, i.e. the whole system is in a hindered state.

In the study of the interaction between the vehicle and the road, signals about the unevenness of the microprofile roads, read from the magnetic tape recorder 10, through selective amplifiers 9 and demodulators 8, are fed to PWM 1, which give a series of control pulses to the power thyristor converters 6. These pulses form and serve direct current to the electric motor 5. The duration of the generated pulses, i.e. the amplitude of the rotor swing of the electric motors 5, and hence the sliders 1, depends on the magnitude of the road roughness, write on the tape of the tape recorder 10. In this case, the rotors of the electric motors 5 are braked by the weight of the machine under study and the slide blocks 1 reciprocate depending on the voltage on the electric motors 5.

The forces on the slider 1 vary depending on the weight of the machine under investigation by changing the weight of the counterweight and partly by the voltage of the source 11.

The use of this device allows, through the installation of counterweights, to investigate various types of transport machines, simplify the design by using conventional DC motors, and also improve the accuracy of investigating the process of interaction of the vehicle with the road by simulating the actual conditions of this process.

Claims (2)

1. USSR author's certificate number 195221, cl. G 01M 17/00, 10.06.66. 2. USSR author's certificate number 115268, cl. G 01M 15/00, 22.11.57. 77 -i Jf W