SU1681088A1 - Hydraulic drive - Google Patents

Abstract

This invention relates to a hydraulic drive and can be used in vehicle transmissions. The purpose of the invention is to reduce material consumption and increase reliability. This is achieved by those. that the hydraulic transmission is equipped with a pressure reducing valve 9 installed in the hydroline 8, and a hydraulically controlled brake 16, as well as the fact that the hydroline 8 is connected to the feed pump 18. 1 il.

Description

The invention relates to a hydraulic actuator and can be used for transmission of vehicles.

The purpose of the invention is to reduce material consumption and increase reliability.

The drawing shows a hydraulic circuit diagram of the proposed hydraulic transmission.

The hydraulic transmission '1 contains a pump 2 and a motor 3 connected by hydraulic lines 4 and 5, communicated through check valves 6 and 7 with the input line 8 of the pressure reducing valve 9, the output line 10 of which is connected to the supply line 11 of the control mechanism 12 of the pump 2.

The hydraulic transmission 1 is equipped with an unloading valve 13 installed in the line 10, and the control line 14 of the valve 13 is in communication with the input 8 and through the throttle 15 with the output 10 lines of the valve 9. Motor 3 is equipped with a normally closed brake 16 and the power cylinder 17.,

The feed pump 18 through check valves 19 and 20 communicate in hydraulic lines 4 and 5, and through valve 21 with drain 22 of hydraulic transmission 1, hydraulic lines 4 and 5 through one of valves 5 and? connected to the safety valve 23 high pressure.

The mechanism 12 contains servocylinders 24, which are in communication with line 11 and a drain 22. The regulator 25 of the pump 2 is connected to the feedback sleeve 26, the cylinder 17 is connected through a distributor 27 to the drain 22, and if there is pressure in the control line 28 through the throttle 29 to the pump 18.

In the idle hydraulic transmission, the distributor 30 is in the middle position, and the springs 31 set the regulator 25 of the pump 3 to the position of zero capacity.

Hydraulic transmission works as follows.

When starting hydraulic transmission 1, the pump 18 through the valves 19, 20, 6 and 7, line 8, valves 9 and 13 feeds the supply line 11. The pressure in line 28 switches, distribute 27 and the pump. 18 communicates with the cylinder 17 of the brake 16 and the brake 3 is released.

When the distributor 30 is displaced from the zero position, one of the servocylinders 24 moves the regulating body 25 of the pump 2 and in one of the hydraulic lines 4 or 5 a pressure arises due to the load on the motor 3. This pressure is higher than the pressure of the pump 18 through line 8, valves 9 and 13 and the distributor 30 is transferred to the servocylinder 24, which is currently moving the regulating organ 25, at a maximum load on the motor 3, 'large deviation angles of the regulating organ 25 and the maximum opening of the spool by the pressure spring 31 in lines 4 or 5 and the inertia of the organ 25 create the maximum load on the cylinder 24 and the flow rate decreases to liy 11 and the regulator 25 decelerates. If the pressure in the hydraulic line 4 or 5 exceeds the setting pressure of the valve 23, valve 13 is activated, switching line 11 to the drain 22 , In this case, the springs 31 begin to return the regulating body 25 at a level of zero productivity, displacing the feedback sleeve 26. The pressure in line 11 is determined by the resistance of the channels in the valve 13 and the flow rate from one of the cylinders 24.

If, with a decrease in the productivity of pump 2, the load 'on the motor 3 does not decrease and creates a pressure in one of the hydraulic lines 4 or 5, which is greater than the setting of the valve 23, then the regulating body 25 of the pump 2 goes to the position of zero capacity.

Claims (1)

Claim A hydraulic transmission containing an adjustable pump with a servocylinder and a hydraulic motor communicated between each other in a closed circuit by power hydraulic lines with high pressure relief valves, a make-up pump with a low pressure safety valve, a pressure hydraulic line and check valves communicating with power hydraulic lines, resetting the check valves whose inputs are communicated with power hydraulic lines, and the outputs are interconnected, the servo-cylinder hydraulic line connected to the discharge pressure line of the feed pump, the discharge valve n and a three-position four-way valve, sequentially installed in the hydraulic line of the servocylinder, while the control chamber of the discharge valve is in communication with the outputs of the resetting check valves, distinguished by the fact that, in order to reduce material consumption and increase reliability, it is equipped with a pressure reducing valve installed in hydraulic lines of the servocylinder in front of the discharge valve and a hydraulic brake acting on the shaft of the hydraulic motor, while the hydraulic line of the servocylinder is in communication with the outputs that reset the return 's valves, inlet and outlet pressure reducing valve are interconnected through the throttle and the brake control member includes a cylinder, through the on-off valve connected to the pressure systematic way which communicates with outlet hydraulic line times · charge pump cavity yn gruzochnogo valve.