SU1108397A1 - Distributing hydraulic valve - Google Patents

Abstract

A DISTRIBUTION HYDROVALVE, containing inlet and outlet channels and between them a main spring-loaded valve with a control chamber, a two-way valve, whose direct output is connected to a drain, and an inverse valve with a control chamber of an auxiliary spring-loaded valve and an inlet channel, characterized in that In order to expand the adjustment range, a relay is installed in it, made in the form of a normally open locking element and a plunger loaded with two springs towards each other, A spar is larger than the area of the locking element, in the cavity between which the first spring is installed, communicated with the drain, the second spring is installed in the cavity communicated by the inlet channel and connected through the normally open locking element to the control chamber of the main spring-loaded valve whose entrance is connected to a drain, in which case the above plunger chamber of the relay is connected to the direct output of the two-way distributor.

Description

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The invention relates to distribution hydraulic equipment, in particular, to hydraulic distribution valves of large aisles, and can be used in hydraulic presses and other machines for filling hydraulic cylinders, unloading and draining fluid from them. A two-view two-line valve, known for this purpose, is known, which can discharge and drain fluid from the hydraulic cylinder lj. In such a device, there is a choke on the line connecting one of the main valve inlets to its control chamber, preventing the quick opening and closing main valve. This reduces the speed of the device. The closest to the technical essence of the invention is a distribution valve containing inlet and outlet channels and a main spring-loaded valve located between them with a control chamber, a dual-line distributor whose direct output is connected to a drain and a control chamber of an auxiliary spring-loaded valve, and an inverse valve with the control chamber of the second auxiliary spring-loaded valve and with the inlet channel 2. The law of unloading the hydraulic cylinder by such a device is ultimately determined by the ratio of the sizes of the throttles and the volume of the control chamber, which is filled with fluid through this throttle. Since the volume mentioned is relatively small, the range of regulation of the law of unloading is also small. In addition, the above factor as a result of the influence of a number of random causes causes considerable difficulties in the process of setting up the device and the subsequent instability of its operation. This results in hydraulic shocks when the main valve opens. The purpose of the invention is to expand the control range. This goal is achieved by the fact that a distribution valve containing inlet and outlet channels and between them a main spring-loaded valve with a control chamber, a two-line distributor whose direct outlet is connected to a drain, and an inverse valve to a control chamber of an auxiliary spring-loaded valve and with an outlet channel, additionally equipped with a relay made in the form of a normally open locking element loaded with two springs towards each other and a plunger whose area is larger than the locking element, in the cavity between which the first spring is connected with the drain, the second spring is installed in the cavity communicated with the inlet channel and connected through the normally open locking element with the control chamber of the main spring-loaded valve and the inlet of the auxiliary spring-loaded valve. The output of the latter is connected to a drain, and the above plunger chamber of the relay is connected to the direct output of the dual-line distributor. The drawing shows the scheme of the proposed hydraulic valve. The hydraulic valve contains inlet 1 and outlet 2 channels and the main spring-loaded valve 3 between them with the control chamber 4, the two-way valve 5, the direct output 6 of which is connected to the drain 7, and the inverse 8 to the control chamber 9 of the auxiliary spring-loaded channel 10 and with an input channel 1. The device is equipped with a relay, 11, containing a locking element -14 loaded with two springs 12 and 13 and a plunger 15, the area of which is larger than the area of the locking element 14. In the cavity 16 communicated with the drain, between parts 14 and 15 is installed etc dinner 12. The spring 13 is installed in the cavity 17 communicated with the inlet channel 1 and connected through the locking element 14 to the chamber 4 of the valve 3 and the inlet chamber 18 of the auxiliary spring-loaded valve 10. The outlet chamber 19 of the latter is connected to the drain, and the above plunger chamber 20 of the relay 11 connected to the direct output of the distributor 5. The device operates as follows. When installing the distributor 5 in the position shown in the drawing, the outlet of the valve 10 is closed under the action of the spring. The dimensions of the spring 12 and plunger 15 are chosen so that, in the absence of pressure in the cavity, 20

gin 12 is in a free state. When the flow of fluid from channel 2 to channel 1 is directed, valve 3 works as a reverse. If the channel 2 is connected to the filling tank and the channel 1 is connected to the hydraulic cylinder of the press idling, then the cylinder is filled, i.e. the device performs the function of the filling valve.

Upon the cessation of fluid flow from channel 1 to channel 2, valve 3 is closed by the action of a spring. The inlet channel 1 can be connected to a high pressure source to make a stroke for the press. Since chamber 4 is connected to channel 1 via relay 11, valve 3 closes channel 1, which allows pressure to be generated in channel 1. In doing so, the locking element 14 is kept in its initial position by said pressure.

Before draining the fluid from channel 1, it is necessary to unload the hydraulic system from the pressure according to the law, which ensures the absence of water hammer in the system. For this, the valve 5 is turned on by turning on the electromagnet in the inverse position. As a result, the chamber 20 is connected to the channel 1. The plunger 15 moves under the action of pressure up to the stop in the housing of the relay 11, and the locking element 14 is held in the initial position by the same pressure. As a result, the spring 12 is compressed to a design force between the parts 14 and 15.

The control chamber 9 communicates with the drain through the distributor 5. The valve organ 10 is lifted by the pressure in the chamber 18, the chamber 18 and 19 connect. Channel 1 is connected to the drain through the relay 11 and the valve 10 has a relatively small flow area. This makes it possible to reliably unload channel 1 from. pressure, and valve 3 continues to remain closed at all discharge times, since

08397. four

chamber 4 is connected to channel 1 and the pressures in them are equal. The moment when the force from the pressure in channel 1 to the locking element 14 becomes less than the force of the spring 12 is the calculated moment of equilibrium of the element 14 — the moment of transition from unloading to liquid discharge. A further decrease in pressure will allow the spring

O 12 move the locking element 14, which blocks the passage of fluid from channel 1 to the control chamber 4. The pressure in the latter drops as it is connected to the drain through

j valve 10. As a result of shut-off

the valve body 3 rises, ensuring fluid is drained from channel 1 into

channel 2. I

So when using

0 proposed distribution

By means of a hydraulic valve, by calculating (or selecting) spring parameters, you can obtain any necessary law of pressure unloading of the hydraulic system.

5 Further stability of the operation of the device is ensured by dependence only on one factor — the force of the said spring. The force of another spring can be neglected, since

0, it is no more than 5% of the force first and is intended only to set the locking element to its original position.

The proposed device makes it possible to combine in one block the functions of filling, unloading according to the necessary law and draining the liquid from the hydraulic cylinder. All elements of the valve can be mounted in one functional unit, with valve 3, relay 11 and connecting channels in valve cap 3, and valve 5 on it.

The economic effect of the implementation of the device is provided by expanding the range of regulation of the law of discharge of the hydraulic system and the increase of the reliability of the equipment.

Claims (1)

HYDRAULIC VALVE containing the inlet and outlet channels and the main spring-loaded valve located between them with a control chamber, a two-way distributor, the direct outlet of which is connected to the drain, and the inverse - with the control chamber of the auxiliary spring-loaded valve and the inlet channel, characterized in that, with the purpose of expanding the control range, it has a relay made in the form of a normally open locking element and a plunger loaded with two springs towards each other to a friend, the area of which is larger than the area of the locking element, in the cavity between which, connected with the drain, the first spring is installed, the second spring is installed in the cavity connected to the inlet channel and connected through the normally open locking element with g control chamber of the main spring-loaded valve with the input and a powerful spring-loaded valve ”, the outlet of which is connected with a drain, moreover, the supra-plunger chamber of the relay is connected to _a yen with a direct outlet of a two-line distributor.