SU527941A1 - Valve - Google Patents

Description

At the neutral position of the spool 11, the liner cavity of the hydraulic cylinder 14 is under the influence of the load pressure sensed by the hydraulic rod of the cylinder 14. The spring 4 presses the check valve 3 to the seat In the same direction, the pressure valve acts on the check valve 3. When the calculated pressure in the rod cavity of the hydraulic cylinder 14 is exceeded, the discharge valve b opens, together with the control valve of the check valve 3 with the valve 11, and through the gaps of the valve 11, part of the working fluid goes to drain from the rod cavity of the hydraulic cylinder 14, preventing an unacceptable increase in pressure.

When moving the valve 11 down, as shown in the drawing, the working fluid from the hydraulic pump 12 through the check valve 3 enters the piston cavity of the hydraulic cylinder 14, the rod cavity of which is connected to the drain through the valve 11.

When the valve 11 is moved up from the neutral position, as shown in the drawing, the pumping line of the hydraulic pump 12 is connected through the valve 11 to the piston cavity of the hydraulic cylinder 14 and to the fitting 5. At that, the plunger 9 moves under the action of pressure in the piston cavity of the hydraulic cylinder 14, overcoming the spring force 7, opens the unloading valve 6 and communicates the control cavity of the check valve 3 through the valve 11 with the drain. As a result of the pressure loss in the control cavity of the check valve 3, under the action of pressure in the rod end of the hydraulic cylinder 14, the check valve 3 opens, passing the working fluid through the valve 11 of the hydraulic distributor from the rod end of the hydraulic cylinder 14 to the tank 13.

To stop downward movement of the piston of the hydraulic cylinder 14, the spool 11 must be set to the neutral position. The pressure in the piston cavity of the hydraulic cylinder 14 decreases, and the pressure acting on the plunger 9 accordingly decreases. The pressure in the rod cavity of the hydraulic cylinder 14 increases, the check valve 3 and the unloading valve 6 close, lock the rod cavity of the hydraulic cylinder 14.

The stability of the operation of the valve 3 is ensured by the fact that as it opens, the spring force 7 necessary for closing the discharge valve decreases.

The reliability of the hydraulic system is enhanced by the fact that the unloading valve b is simultaneously a thermal valve, which prevents the system from an excessive increase in pressure in the rod end of the hydraulic cylinder 14.

Claims (1)

Invention Formula The valve, the housing, the check valve and the relief valve located therein, interacting with the plug, differing in that. That, in order to increase reliability in operation, the relief valve seat is made from the valve valve cavity, and the plunger is located on the control valve side of the check valve.