SU572589A1 - Volumetric hydraulic drive - Google Patents

Description

from the drain. Disconnecting this cavity from x; Liva causes the pressure from the flow of pump 1 to rise in this cavity. Since the valve control cavity 10 communicates with the control valve control line b, the pressure in this cavity will rise to the level required for switching the distributor. During the valve switching, the excess flow of pump 1 is throttled through valve 10 into the suction line 11 of pump 1. But when the valve 6 is switched to its final position, the increase in the volume of cavities communicated with the valve control cavity 10 stops, which leads to an increase in pressure developed by the pump to the level necessary to overcome the load on the hydraulic motor 5.

As a result, the motor starts to rotate in the required direction at a speed due to the volumetric flow of one pump, since the check valve 3 prevents the flow rate of the pump operating in working mode through the valve 10 of the unloaded pump.

If it is necessary to increase the rotational speed of the hydraulic motor 5, a second pump is connected, which is ensured by switching on the electromagnet of the other two-position valve 8, and, therefore, disconnecting the control cavity of the valve 10 from the drain. The second pump reaches the same level of overpressure as the first, since they feed one hydraulic motor 5, i.e. have a common load.

As a result, in both control chambers of the distributor b, the same pressure level is established and the distributor maintains its well-being under the influence of friction forces.

At the required moment of reversal of the motor 5, the pump 1 is unloaded, the control cavity of the safety-unloading valve 10 of which is connected to the control hydraulic line 11, which provides the shift of the distributor b to the required position.

Unloading is provided by turning off the electric power of the electromagnet of the corresponding two-way valve 8, which is scored. The control valve 10 communicates with the drain, the pressure in this cavity drops, and the flow of the pump 1 through the corresponding valve 10 enters the suction line 11. As the pressure level in the control cavity of the valve 10 decreases, it decreases in the corresponding control line distributor 6, which leads to a pressure differential between the control chamber of the distributor 6 and, consequently, to the movement of the distributor distribution element.

Moving the dispensing element results in an increase in the volume of the opposite control chamber of the dispenser and a drop in pressure therein to a level sufficient to move the dispensing element. Since the valve control chamber is in communication with the clan control chamber 10, the pressure in this cavity also drops, and Claian 10 puts pump 1 into unloading mode.

Thus, the pressure level developed by pump 1 when operating on the hydraulic motor 5 is automatically reduced and the flow of pump 1 begins to circulate between supply line 2 and suction line 11 through valve 10 of the pump in question. Wherein

the pressure level is determined by the pressure in the valve control cavity 10 and the override of the valve spring force.

Upon completion of the movement of the distributor distributor element to the desired position, i.e., when the change in the volumes of the distributor control chambers ceases, there is an automatic increase in pressure in the valve control cavity 10 and, therefore, the pressure developed by pump 1 to the level required to overcome the load on the hydraulic motor 5 .

In this way, the hydromotor o reverses and the rotation of its output shaft in the desired direction with automatic connection to one of the pumps is eliminated. The second pump is connected in the same way as previously described, i.e., by turning on the electromagnet of the respective bi-position valve 8.

Pz of the description of the work shows that before the reversal of the hydraulic motor there is a decrease in the level of isotope pressure in the hydrolines of the hydraulic system, and then switching the distributor with automatic maintenance

hydraulic system of reduced pressure during the whole time of switching off the switchgear, which excludes abrupt changes in pressure level in the hydraulic system and its casts.

Claims (1)

Invention Formula A volumetric hydraulic drive containing two passages of constant capacity, the supply lines of which are connected to a common pressure line through check valves, as well as a hydraulic motor that reverses its hydraulically controlled valve and pump relief valves, which are controlled by two-way valves, in order to simplify design and reduction of pressure drops when the motor is reversed, the control chambers of the reversing distributor communicate respectively with the control channels of the on-off lapans. Sources of information taken into account in the examination 1. P. Samatlin and others. “Hydraulic drive on the clamping conveyors. VNIIinformt zhmshch, M., 1968, p. 4, FIG. one.