SU985424A1 - Relief valve - Google Patents

Description

The invention relates to a volumetric hydraulic actuator and can be used, for example, in hydraulic systems with a battery.

A discharge valve is known, comprising a housing with inlet and outlet channels, in which it is installed under a spring plunger with the formation of end control cavities, the outlet channel being in communication with the spring control cavity, and the inlet channel through the check valve with the battery and with, the second control cavity [ 1] .

The disadvantages of this valve are a large number of control cavities and a stepped plunger ', which leads to significant design complexity, in addition, the valve design eliminates the possibility of regulating the pressure, opening and closing the valve.

The purpose of the invention is to simplify the design and expand the functionality.

This goal is achieved by the fact that the spring control cavity is in communication with the supply channel, and the valve is equipped with two throttles installed in the communication lines of the spring control strip with supply and exhaust channels.

One of the chokes is made adjustable ₅ .

The drawing shows a structural diagram of the valve.

Unloading valve includes a housing with channels 2 and 3 for supplying and removing, in which a preloaded spring 4, the plunger 5 with the formation of mechanical control cavities 7 and b, with a being 3 channel outlet in communication with the control spring cavity 6, inlet channel 8 through a check valve - _with battery 9 and with a second control cavity 7. 6- control spring cavity communicates with the inlet channel 2 and the valve is provided with two throttles _claim 10 and 11, ustavovlennymi in lines 12 and 13 of the cavity 6 svyazi'pruzhinnoy control channels 2 and 3, the inlet and outlet. One of the chokes 11 is made adjustable. Inlet channel 2 is connected to pump 14.

The unloading valve operates as follows.

In the initial position, the plunger 5 overlaps the outlet channel 3. After turning on the pump 14, the accumulator 9 starts to charge, the pressure in the supply channel 2 rises and at the same time the pressure in the cavities 6 and the control increases,. The pressure in the cavity 7 is equal to the pressure in the accumulator 9, and in the cavity 6 it is part of the pressure in the accumulator, the value of which is determined by the conductivity of the chokes 10 and 11, When the pressure difference between the cavities and 6, which the spring 4 is set to, the plunger 5 is shifted to the left ( according to the drawing), reporting channel 2 of the data center with channel 3 of the tap. At this moment, the pressure in the supply channel 2 drops and, accordingly, the pressure in the cavity b drops. To return the plunger 5 to its original position, the pressure in the cavity 7 must drop to a value less than the valve response pressure for unloading, since in the cavity 6 the pressure is equal to the pressure in the outlet channel 3.

To change the value of the response pressure of the unloading valve, the spring 4 is tightened, and to change the hysteresis value, the throttle 11 is adjusted.

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Claims (2)

Claim 1. An unloading valve, comprising a housing with inlet and outlet channels, in which a spring-loaded plunger is installed to form end control cavities, the outlet channel being in communication with the spring control cavity, and the non-return valve channel with and with the second cavity distinguishing in order to simplify design and expansion functionality, the spring control cavity is in communication with the inlet channel, and the valve is equipped with two chokes installed in the communication lines of the spring control cavity with the inlet and outlet channels 2. nd and mudflow of supply through the accumulator of control, with the fact that, The valve according to claim 1, characterized in that one of the throttles is adjustable. 1. Tower T.M. hydraulics. M., ' 1971 284, fig.