CS244471B1 - Electrohydraulic pressure reducing valve - Google Patents

Abstract

The design of the electrohydraulic pressure reducing valve is designed. The valve body is comprised of a body shell having a cylindrical cavity formed therein, into which a cylindrical body housing is inserted. In the housing housing, prior to insertion thereof, into the body shell cavity, the main cylindrical surface of the cavity for inserting the movable slide is in a direction perpendicular to the axis of rotation of the cylindrical housing body. The cavity for the pusher in the body cavity is divided by a cylindrical hinge from the side by which the casing is inserted into the body sheet, whereby two spatially shaped working edges are formed in this cavity corresponding to the working edges of the slide. The slide is formed as a cylindrical body with graduated diameters and is inserted into the cavity of the composite body. The equilibrium position of the slider is achieved by equalizing the force effect of the steering force on the slider, e.g. by means of a push rod of electro-mechnet, as a result of the force displacement of the pressurized fluid supplied from the space connected with the reduced pressure branch to the surface of the back-up action via the switching channel which is formed in the slide body. A stabilizing effect on the operation of the valve constitutes the throttle valve in the channel switch formed in the seat to open the connecting canal from the slider to the underfloor space.

Description

(54) Electrohydraulic pressure reducing valve

The design of the electrohydraulic pressure reducing yentil is solved. The valve body is comprised of a body shell with a cylindrical cavity formed into which a cylindrical housing of the body is inserted.

In the housing of the body, prior to its insertion into the body shell cavity, the main cylindrical surfaces of the cavity for receiving the movable slider are in a direction perpendicular to the axis of rotation of the cylindrical body of the housing. The cavity for the poser in the body case is divided by a cylindrical recess from the side where the casing is inserted into the body plate, thereby forming two spatially shaped working edges in this cavity corresponding to the working edges of the slider. The slider is formed as a cylindrical body with graduated diameters and inserted into the cavity of the composite body. The equilibrium position of the slider is achieved by equalizing the force effect of the steering force on the slider, e.g. by means of a push rod of the electromsgnet, as a result of the force transmission of the pressurized fluid brought from the space associated with the reduced pressure branch to the indentation surface via the switch channel formed in the slider body. A stabilizing effect on the operation of the valve is formed by a throttle valve in the channel switch formed in the seat at the outlet of the connecting canal from the slider into the space of the recoil action.

JA r. 7 “0

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cylindrical cavity and cylindrical slide valve electrohydraulic pressure reducing valve which, in direct mechanical coupling with a source of force, allows the fluid pressure in the reduced pressure branch to be reduced.

If the force applied to the pusher is derived from the electromegnet, then the reduced fluid pressure is proportional to the magnitude of the excitation current passing through its coil.

Pressure relief valves usually work in the so-called. two-sided arrangement. By suitably graduating the diameters of the cylindrical surface of the body cavity and the slider, spaces are formed which are connected to the supply pressure branch, the reduced pressure branch and the non-pressure outlet branch.

The edges of the slider cylindrical lips and the edges in the body cavity are overlapped at rest or in equilibrium and separate from each other the spaces associated with the pressure branch, the reduced pressure branch and the discharge branch.

The displacement of the pusher by the force representing the desired amount of reduced pressure caused a change in the fluid pressure in all spaces, in the active position of the pusher it is secured by force feedback.

The deflection force determining the desired size of the reduced pressure is counteracted by a force of the opposite direction, generated by the force action of the pressure fluid applied to the flat fueling action.

There are known designs of electrohydraulic pressure reducing valves, in which a separately designed housing with defined tolerances and a defined shape of working edges is inserted into the prepared cylindrical cavity of the body in the direction of its longitudinal axis.

The sleeve inserted into the cavity of the body completes the depletion of the diameters of the cavity so that upon insertion of the slider, the working edges of the sleeve and the slider are spaced apart from the supply, outlet and reduced pressure branches.

It is also known to design the composite valve body. The valve body is comprised of a body shell and a body shell, the cylindrical body of the body being inserted into the cylindrical cavity in the body shell only after the cylindrical cavity has been formed for the slider in the direction perpendicular to its axis of rotation. , which are made with the side where the aa case is inserted into the cylindrical cavity of the body.

Arrangements are also provided with formed transfer channels formed in the slider body and a throttle valve or diaphragm for the outflow of this channel in the back space.

The object of the design of the design of the electrohydraullic pressure reducing valve according to the invention j. the design of such a valve arrangement with an axially movable cylindrical slide in the body cavity in a double-sided arrangement so that the working edges of the body cavity outside of the body can be created in a new way by simple technological operation and the necessary interconnections pressure relief valve and solenoid with hydraulic circuit drain line.

At the same time, the valve arrangement must provide a stable stethic position of the slider in the cavity of the body at different valve positions in the binding electromegnet. Suitably, it provided sufficient stability of the reduced pressure when subjected to external shocks or vibration on the body valve and sufficient damping over time of the actual value of the reduced pressure with a rapid change in the reduced pressure setpoint represented by the rapid change in excitation current in the solenoid coil.

Achieving those properties of the electrohydraulic pressure reducer that have been formulated in the design objective allows a structural arrangement wherein the valve body is composed of two parts, namely the housing shell and the cylindrical housing of the body.

The main cylindrical surfaces of the slider receiving cavity are formed in the body housing in a direction perpendicular to the axis of rotation of the cylindrical housing. The working edges form a single cylindrical recess into the sleeve from the side through which the sleeve is inserted into the cavity in the body shell as a line of intersection of the cylindrical surface of the cavity and the wall of the cylindrical recess.

The necessary connection openings of the supply pressure line, the drain line and the reduced pressure line are also provided in the housing. A groove is formed on the housing body, connected by a drain channel to a drain branch, allowing a simple connection of the mechanical coupling space between the pressure reducing valve and the electromagnet, which occurs after insertion of the housing into the housing.

The sleeve of the cylindrical shape is inserted into a cylindrical cavity formed in the body beach in a direction perpendicular to the longitudinal axis of the cavity prior to insertion of the slider.

The feedback force effect on the pusher from the actual magnitude of the reduced fluid pressure is generated on the flat feedback action. The feedback area is the side of the graduated cylindrical pusher opposite the side on which the electromagnet push rod is applied by force.

In the space of the feedback action formed in the composite body from the part of the cavity in the body casing and from the part of the cavity in the body shell defined by the body wall and the surface of the feedback action on the slider, a diaphragm is pushed from the body wall to the saddle formed in the slider channel.

The switching channel connects the feedback zone with the space associated with the reduced pressure branch. The throttle valve formed by the orifice and spring at the outlet of the interconnecting channel provides stability of the reduced pressure due to external shocks or shaking effects on the valve body and sufficient damping of the actual value of the reduced pressure during rapid setpoint change represented by rapid change of excitation current in the solenoid coil.

The electrohydraulic pressure reducing valve of the present invention is shown in the accompanying drawings, in which: FIG. 1 is a longitudinal axial sectional view of the pressure relief valve in the interconnecting channel, FIG. 2 shows a structural design of the housing of the body in an axonometric view.

A valve body shell X with a cylindrical cavity is formed separately for receiving a cylindrical housing 6 of the valve body as well as a slider J. The valve body housing 6 is characterized in that it is cylindrical in which the main cylindrical surfaces of the cavity 3 | for insertion of the slider J formed in a direction perpendicular to its axis of rotation.

The working edges § and 2 are the lines of intersection of the cylindrical cavity XX for the pusher and the cylindrical bore 5χ. In the housing X there are also formed the connection openings of the supply pressure branch 40 of the outflow branch 60, the reduced pressure branch 60 and the outflow channel 61.

In the static position, the overlapping of the working edges g e J formed in the housing X of the composite valve body ensures the separation of the supply pressure line 40 of the outflow branch 40 and the reduced pressure branch 40.

In the initial position, the spring 6 ensures that the pressure supply line 40 is separated from the reduced pressure line 50 by moving the slider 2 separately from the reduced pressure line 50 and simultaneously by the reduced pressure line 22 and the drain line 22.

The mechanical bonding of the solenoid 4 and the pressure relief valve is formed after the solid mechanical connection of their telles and after sealing by the sealing ring IX by means of a push rod X which, after applying electrical current through terminals 26 to the solenoid coil 6 presses on the adjacent face of the slider 2 electric force, the force exerted by the electromagnet 4 causes the displacement of the slider 2 against the lesser force of the spring 2 ·

As a result, the reduced pressure branch 50 is disconnected from the waste branch 22 and wishes to connect it to the pressure branch 54. The pressurized fluid penetrates from the supply pressure line 40 to the reduced pressure line 50 and through the connection channel X 'in the slider body 2 into the backward multiplication space 100.

For the flat reverberation, which is the circular surface of the slide 2 enclosing the space of the multiplier operation 100, a force effect is produced causing a backward displacement of the slide 2, thereby stopping the penetration of the pressurized fluid from the pressure branch to slider 2 *

The throttle valve formed in the seat 12 by the orifice 2 and the spring 2 allows to influence the dynamic properties of the valve and allows to change the effect of external cuts and vibrations on the valve body in their manifestations on fluid pressure fluctuations in the reduced pressure branch 22.

Permanent continuity of the mechanical coupling space of the pressure reducing valve and the solenoid 6 with the outlet branch 60 is made possible by the groove A2 connected by the outlet channel 21 ^{8 through the} outlet branch 22.

The electrohydraulic pressure reducing valve with the structural arrangement according to the invention can be operated in conjunction with a control solenoid or in other systems with mechanical, pressure or other forces acting under the conditions of mechanical coupling, i. transmitting force effects to the pusher where conversion of the thrust force effect or signal to proportional pressure fluid pressure is required.

Claims (2)

OF THE INVENTION 1. Electrohydraulic pressure reducing valve with a cylindrical graduated slider axially movably mounted in a cylindrical cavity of a composite body with two working edges which, in a statically position, separates the spaces associated with the supply pressure line, the discharge branch and the reduced pressure branch, 8, 9) in the housing (2) are formed as lines of intersection of the cylindrical cavity (31) through the slide (3) and the cylindrical bore (51). Electrohydraulic pressure reducing valve according to claim 1, characterized in that the mechanical coupling space of the valve and the electromagnet (4) is connected by a groove (16) formed around the circumference of the housing (2) and the drain channel (61) to the drain branch. 60 /.