DE4226495A1 - Electromagnetic operated pressure regulating valve - contains interacting counter=force and control pistons, passages connecting pressure source, load connection and pressure-free container. - Google Patents

Abstract

The regulating valve has a control piston (3) in a valve housing, moved axially by a controller and with two control edges (22,23) controlling passages from a load connection (A) to a pressure supply and a pressure-free container connection (T). A counter-force piston arrangement interacts with the control piston, which has an axial bore (9) which connects to the load connection via a radial bore (27) when the piston is in its control position. The passage to the pressure connection (P) is formed by a radial bore in the control piston branching off the axial bore and connected via the axial bore to the load connection. The load connection is connected via a choke cross-section (24) to the control edge (22) controlling the passage to the container connection. ADVANTAGE - Pressure regulating valve converts controller's control signals exactly proportionally and with min. hysteresis.

Description

The invention relates to a pressure control valve with an in a valve housing arranged control piston, which means a control device is movable in the axial direction and which has two control edges, one of which has one Passage from a consumer connection to one with a Pressure supply device connected pressure connection and the other a passage from the consumer line to a container connected to an unpressurized container circuit controls, one of the pressure at the consumer connection Actuating counter-force piston arrangement with the control piston ben is operatively connected and the control piston an axial bore in the control positions of the control piston connected to the consumer connection via a radial bore that is.

An electromagnetically operated pressure control valve The type mentioned at the outset is known from EP-A-0 182 053. In this known pressure control valve, the control piston has ring in its lateral surface at a distance from each other shaped control grooves with a middle, between the control grooves the piston grooves lying the control edges form. The control edges act with control edges in the valve housing together at the mouth of the consumer are formed in the longitudinal bore. In which known pressure control valve, the consumer connection at a movement of the control piston from its neutral position  across the passage formed by the control edges telbar ver with the pressure connection or the container connection tied while the counter-piston assembly with its in the Axial bore immersing the piston parallel to each open passage through the radial bore with the cover Connection is connected. This can be the control behavior impair and lead to a noticeable hysteresis. Furthermore, in the known pressure control valve, the opening cross section of the culverts to a fraction of the Cross section of the consumer connection limited.

The invention has for its object a pressure rule to create a valve of the type mentioned that through a precisely proportional and vibration-free conversion tion of the control signal of the control device at minimum Distinguishes hysteresis.

This object is achieved in that the Passage to the pressure connection through a radial connection hole tion in the control piston is formed by the axial bore branches and via this with the consumer connection in Ver is binding and that the consumer connection with the Passage to the control edge controlling the container connection via a throttle cross section is connected.

The inventive design of the pressure regulating valve tils become pressure differences between the consumer conclusion and the effective on the counterforce piston assembly Pressure avoided in pressure control and therefore with high Accuracy and low hyteresis a proportional implementation reached a control force in a consumer pressure. Furthermore, the multiple deflection of the pressure with telstroms when supplied via the pressure connection and the Throttling the pressure medium flow when discharging via the  Container connection achieved a suitable damping that without Disadvantage for the control speed the emergence of Vibration on the control piston is prevented. Because of his Properties is the pressure control valve for mechanically, electrically, hydraulically or pneumatically driven control devices equally suitable.

To continue the piston play of the control piston in one for choose an optimal control behavior suitable size can without loss of leakage in the Consider the closed position of the pressure control valve is after another proposal of the invention provided that the control piston on the the pressure connection facing side of the control edge on a sealing cone points with which the passage from the pressure connection to the consumption cher connection can be closed pressure-tight if the Control piston in a the consumer connection with the container Terminal connection connecting end position. The invent proper sealing of the pressure connection makes it out of the question that possible, the adjacent to the control edges and the Sealing sections of the lateral surface of the To keep the spool small, thereby a short To achieve control path. In operation, the control piston is in primarily by and against the tax force directed counterforce of the counterforce piston arrangement emotional. In addition, between the valve housing and the Control piston a preloaded spring can be arranged, the moved the control piston to the end position and the seal gel holds in the closed position when the counterforce col benanordnung is not pressurized.

An advantageous embodiment of the pressure control valve is achieved in that a portion of the Passage to control edge controlling pressure connection  formed the edge of the outer mouth of the connection bore is, this portion of the control edge in the beginning the opening cross section of the opening movement Continuity determined. This allows simple with a smoother transition when opening and closing the Pressure connection and pressure surges can be ver avoid. Preferably, the outer mouth of the An final bore of an annular groove in the lateral surface of the Control piston cut, one edge of the annular groove one further section of the passage to the pressure connection controlling control edge forms. The ring groove ensures a even pressure distribution on the circumference of the control piston and enables the opening of a large one with a piston stroke Passage cross-section. It is advantageous if the ring only a trapezoidal cross that extends outwards cut has.

According to the invention it can further be provided that the Control edge of the control piston at the passage to the container through the edge of an annular groove with a triangular cross cut is formed and that the annular groove is an annular collar is adjacent, the lateral surface to form an as Throttle cross section serving annular gap a reduced Has diameter.

The invention is illustrated below with the aid of an embodiment game explained in more detail, which is shown in the drawing is. The drawing shows a longitudinal section through an elek tromagnetically actuated pressure control valve.

The pressure control valve shown has a valve housing 1 with a continuous, stepped longitudinal bore 2 , in which a control piston 3 is arranged to be axially movable. A plunger 4 of an electromagnet (not shown), through which the control piston 3 can be actuated, projects into one end of the longitudinal bore 2 from the outside. The opposite end of the longitudinal bore 2 is closed with a threaded plug 5 which forms the abutment for a sleeve 6 inserted into the longitudinal bore 2, a pressure piston 7 supported on the control piston 3 and a piston 8 which is arranged in an axial bore 9 of the control piston 3 is. The longitudinal bore 2 has at the ends of the control piston 3 chambers 10 , 11 formed by pierced annular grooves, which can be connected to a pressureless container via radial bores 12 , 13 . Between the bores 12, 13 is provided a further connectable to a pressure supply device hole 14, the chamber formed in an adjacent through the sleeve 6 and the sleeve 6 stepped surface 15 of the longitudinal bore 2 opens 16th Between the container connection T formed by the chamber 10 and the pressure connection P formed by the chamber 16 branches off from the longitudinal bore 2 a radial bore 17 which forms a consumer connection A.

The control piston 3 has a trapezoidal annular groove 18 which is in all positions of the control piston 3 opposite the mouth of the bore 17 . The annular groove 18 is connected to the axial bore 9 through a radial bore 19 penetrating the control piston 3 . The annular groove 18 is separated by an annular collar 20 of the control piston 3 from an annular groove 21 which has a triangular cross section and a control edge 22 controlling the passage to the chamber 10 bil det. In the valve housing 1 , the passage is limited by a control edge 23 . The diameter of the collar 20 is smaller than the diameter of the guided in the longitudinal bore 2 and the sleeve 6 with little sliding portions of the control piston 3 , whereby a throttle gap 24 is formed on its circumference, which connects the annular grooves 18 and 21 with each other.

In addition to the annular groove 18 , the control piston 3 has an annular groove 25 which is separated from the annular groove 18 by a collar 26 . In the annular groove 25 opens the regulating piston 3 a radially penetrating connecting hole 27 that connects the groove 25 with the axial bore. 9 The diameter and the position of the connection bore 27 are chosen so that a control edge 28 , which controls the passage to the chamber 16 , partially from the edge of the annular groove 25 and partially from the mouth edge of the connection bore 27 is formed. Inside half of the chamber 16 , the control piston 3 has an inserted conical sleeve 29 , which consists of an elastomeric material and is held in a recess 30 of the control piston 3 . The control edge 28 and the taper bush 29 interact with a control edge 31 in the valve housing 1 men, which is formed by the step surface 15 and the longitudinal bore 2 .

The drawing shows the control piston 3 of the pressure control valve in two different positions. In the lower half of the drawing, the control piston 3 is in its rest position, in which there is no pressure control. The consumer connection A is connected via the throttle gap 24 to the tank connection T. The pressure connection P is blocked and sealed against the consumer connection A by the conical sleeve 29 resting on the control edge 31 . The rule piston 3 is pressure balanced and is held in this position by the compression spring 7 .

If a pressure is to be built up at the consumer connection A, the control piston 3 is acted upon by the plunger 4 with a force which drives the control piston 3 against the force of the compression spring 7 from its idle position by actuating the electromagnet. First, the cone sleeve 29 is lifted from the control edge 31 and the connection between the consumer connection A and the container connection T is closed by the control edge 22 passing over the control edge 23 . After closing the container connection T first run over the through the connection bore 27 and then the sections formed by the annular groove 25 from the control edge 28, the control edge 31 , whereby the passage to the pressure port P is opened and pressure medium from the chamber 16 into the annular groove 25th and the connection bore 27 and from there via the axial bore 9 , the radial bore 19 and the annular groove 18 to the consumer connection A formed by the bore 17 th As a result, a pressure builds up in the spaces mentioned to the consumer connection A, which generates opposing pressure forces by acting on the cross-sectional area of the axial bore 9 in the control piston 3, one of which acts on the piston 8 and is supported on the threaded plug 5 via this, while the other acts as a counterforce against the control force of the electromagnet on the control piston 3 . If, due to the further increase in pressure, the counterforce exceeds the control force, the control piston 3 is moved back with the armature of the electromagnet against the actuation direction and the supply of further pressure medium from the pressure connection P is throttled until an equilibrium state is reached, in which the pressure at Ver consumer connection A has the desired value proportional to the control force of the electromagnet.

If the control force on the tappet 4 is reduced, the control piston 3 is moved back so far in the direction of its rest position by the counterforce and the compression spring 7 until the control edge 21 opens the passage to the container connection T and thereby enables pressure reduction at the consumer connection A. The pressure drop is damped by the throttle gap 24 and a too rapid pressure change at the consumer connection A is avoided. Furthermore, the throttle gap 24 contributes to reducing the hysteresis. If the control force disappears when the electromagnet is switched off, the control piston 3 returns to its previously described rest position.

The upper half of the drawing shows the control piston 3 in an intermediate position, in which the container connection T and the pressure connection p are closed, a leakage current constantly flowing from P to A and T due to the slight overlap of the control edges 22 , 23 and 28 , 31 . The acceptable leakage current in the pressure control is largely prevented in the rest position by closing the control edge 31 with the help of the conical sleeve 29 . Instead of the conical sleeve 29 made of elastomeric material, the control piston 3 can also be provided with a correspondingly shaped section.

Reference list

1 valve housing
2 longitudinal bore
3 control pistons
4 pestles
5 threaded plugs
6 sleeve
7 compression spring
8 pistons
9 axial bore
10 chamber
11 chamber
12 hole
13 hole
14 hole
15 step surface
16 chamber
17 hole
18 ring groove
19 radial bore
20 ring collar
21 ring groove
22 control edge
23 control edge
24 throttle gap
25 ring groove
26 fret
27 connection bore
28 control edge
29 taper bush
30 puncture
31 control edge
A consumer connection
T tank connection
P pressure connection

Claims (6)

1. Pressure control valve with an arranged in a valve housing control piston which is movable by means of a Steuerervorrich device in the axial direction and which has two control edges, one of which has a passage from a consumer connection to a pressure supply device connected to a pressure connection and the other a passage from controls the consumer connection to a container connection connected to an unpressurized container, with a pressure acting on the consumer connection against the opposing force-Kolbenanord voltage is in operative connection with the control piston and the control piston has an axial bore which, in the control positions of the control piston, via a radial bore with the consumer connection is connected, characterized in that the passage to the pressure connection (P) is formed by a radial connection bore ( 27 ) in the control piston ( 3 ) which branches off from the axial bore ( 9 ) and via this to the consumer connection (A) in connection stands and that the consumer connection (A) with which the passage to the container connection (T) control the control edge ( 22 ) is connected via a throttle cross section ( 24 ). 2. Pressure control valve according to the preamble of claim 1, characterized in that the control piston ( 3 ) on the pressure connection (P) facing side of the control edge ( 28 ) has a sealing cone ( 29 ) with which the passage from the pressure connection (P) to the consumer connection (A) can be closed in a pressure-tight manner when the control piston ( 3 ) is in an end position connecting the consumer connection (A) with the container connection (T). 3. Pressure control valve according to one of the preceding Ansprü surface, characterized in that between the Ventilge housing ( 1 ) and the control piston ( 3 ) a preloaded spring ( 7 ) is arranged which moves the control piston ( 3 ) into the end position. 4. Pressure control valve according to one of the preceding Ansprü surface, characterized in that a portion of the passage to the pressure connection (P) controlling the control edge ( 28 ) is formed by the edge of the outer mouth of the connection bore ( 27 ), this section of the control edge ( 28 ) determines the opening cross-section of the passage in the initial area of the opening movement. 5. Pressure control valve according to claim 4, characterized in that the outer mouth of the connecting bore ( 27 ) from an annular groove ( 25 ) in the outer surface of the control piston ( 3 ) is cut, with an edge of the ring groove ( 25 ) a further section which forms the control edge ( 28 ) controlling the passage to the pressure connection (P). 6. Pressure control valve according to one of the preceding claims, characterized in that the control edge ( 22 ) of the control piston ( 3 ) at the passage to the container connection (T) is formed by the edge of an annular groove ( 21 ) with a triangular cross-section and that the annular groove ( 21st ) an annular collar ( 20 ) is adjacent, the outer surface of which has a reduced diameter to form an annular gap ( 24 ) serving as a throttle cross section.