DE10014435A1 - Multi-port valve has return spring interacting with spring guide assembly located inside spring chamber between shut-off element and guide element on valve spool in order to prevent transverse forces relative to axis of spool - Google Patents

Abstract

The multi-port valve has a return spring(14) to restore the valve spool(8) to its normal position when the control chamber(12) is vented. The return spring interacts with a spring guide assembly located inside a spring chamber(15) between the shut-off element(10) and a guide element(16) on the valve spool in order to prevent transverse forces relative to the axis of the spool. The spring guide assembly comprises a disc-form guide element adjoining the spool and with an annular slot(17) to retain one end of the return spring. The opposite end of the spring is guided through the cylindrically formed shut-off element.

Description

The invention relates to a multi-way valve for switching a pressure medium flow. In particular, the present invention relates to a two or three Multi-way valve with switching positions with a within a Valve housing slidably arranged valve spool that through a control medium and at least one return spring is longitudinally movable.

A multi-way valve according to the preamble of claim 1 is known from EP 0 926 354 A2 known. The multi-way valve with three switch positions has one within the Valve housing arranged valve bore in which a valve slide sliding is arranged. The valve housing has five external connections P, A, B, EA, EB, which are connected to the inner valve bore. The fluid flow through the Multi-way valve is within the axial position of the valve spool Valve bore dependent. A valve with three switch positions opens in one Switch position the pressure medium flow from port P to port A or to Port B for application. Another switch position creates one Pressure medium flow from the connections A and B to the connection EA or: EB to Venting. In the middle switch position, all connections are P, A, B, EA, EB completed so that no pressure medium flows through the valve.

To move the valve slide in the axial direction are at both ends of the Valve spool molded onto piston. The piston works with a cylindrical Control chamber together, which is integrated in the valve housing, so that the Switch positions of the valve spool can be controlled by air pressure. A Return spring on the opposite end of the piston of the valve spool brings the valve spool back to its neutral position. To the valve spool in his To keep the neutral center position, here are both return springs between the respective front of the valve spool and corresponding piston arranged.  

In order to stabilize the movement of the piston, the valve spool is in the front area a guide bore arranged with a guide shaft on the piston corresponds. The guide shaft is slidably movable in the guide bore. This guide arrangement stabilizes the sliding movement of the piston. Because the feathers positioned between the front of the valve slide and the piston is the Assembly of the valve quite difficult. Furthermore, the guide means for the piston shaped quite complicated. In addition, the force of the spring affects movement of the valve spool negative, since the spring is compressed when it moves, while the associated control chamber is under pressure to close the valve spool move.

A multi-way valve with two switching positions differs from that above Multi-way valve described with three switching positions in that only one Return spring is arranged on one side of the valve spool. On the other A piston operates in a control chamber around the side of the valve spool To move the valve slide. This monostable multi-way valve opens with two Switch positions in a switch position the pressure medium flow from port P to Port A for application. In the other switch position, a Pressure medium flow from port A to port EA created for ventilation.

This multi-way valve with two switch positions also requires one Guide arrangement for the return spring. Most often the return spring is for this type of valves between a closure element that closes the valve bore and the front of the valve spool. However, practice has shown that in operation, the axis of the return spring is not exactly coaxial with the axis of the The valve spool remains because the valve spool then moves the return spring out of its position brings when he takes the neutral switching position. The causes Return spring shear forces relative to the axis of the valve spool.

It is therefore the object of the present invention, a multi-way valve with two or three switch positions to further improve that correct guidance the return spring is ensured with a simple installation option.

The task is accomplished by a multi-way valve of the type described above solved the features of the characterizing part of claim 1. The invention consists in  that the return spring cooperates with a spring guide arrangement, the within a spring chamber between the closure element for sealing the Valve bore and a guide element as part of the guide arrangement is arranged adjacent to the valve spool to transverse forces relative to the axis of the Avoid valve spool.

The return spring therefore does not act directly on the front of the valve spool together but with the guide assembly positioned between them. Out for this reason, the present invention prevents transverse forces relative to the axis of the Valve spool caused by the return spring.

According to a preferred embodiment of the invention in connection with a valve with two switching positions includes the lead arrangement disc-like guide element with an annular groove for coaxial holding one end of the return spring. The guide element is adjacent to the Valve spool arranged with the opposite end of the return spring through the cylindrical closure element is guided. Any shear forces are taken up by the guide arrangement, so that the valve spool is only pressed coaxially by the return spring. During assembly of the valve, the guide element is only on each side of the valve slide to insert. With this arrangement, harmful lateral forces do not reach the Valve spool.

It is advantageous if the outer diameter of the guide element to the Diameter of the spring chamber is adjusted. Furthermore, it can be advantageous if the spring chamber has the same shape as the control chamber, so that the disc-like guide element is interchangeable by a piston to the Switch valve function from monostable to bistable. Because of that normally larger diameter of the control chamber, there is a larger area for absorption of the transverse spring forces are available. Because of this, the length the valve bore can be shortened.

According to another preferred embodiment of the invention in context with a valve with three switching positions includes the lead assembly Slider stop element that is in contact with the return spring and sliding  Contact is established and slidably guided coaxially through a leadership shaft is arranged stationary to the closure element. This arrangement is also the same Tolerances in the length of the return spring. To this extent, these tolerances cannot be compensated for by additional parts. The leadership of the The guide arrangement defines the length of the return spring. The leadership can on the cap by gluing or pressing or on others be attached appropriately. Between one end of the return spring and the cap is a washer which the forces of Return spring absorbed so that they do not press on the cap.

Further measures improving the invention are described below together with the description of preferred embodiments of the invention using the Figures shown in more detail. It shows:

Fig. 1 is a cross sectional view of a multi-way valve having two shift positions with a guide arrangement which consists of a disc-like guide element

Fig. 2 is a multi-port valve with two switching positions according to Fig. 1 in the other switching position,

Fig. 3 is a cross sectional view of a multi-way valve with three positions with a guide arrangement which comprises a slider stop member with guide shaft in the neutral shifting position,

Fig. 4 shows a multi-way valve with three switching positions according to FIG. 3 in the activated switching position and

FIG. 5 shows a detailed illustration of FIG. 3 in the area of the guide arrangement.

The multi-way valve with two switching positions according to FIG. 1 comprises a valve housing 1 with five connections 2 to 6 for pressure medium. Port 2 is used to supply pressure medium (P), ports 3 and 4 create a connection to the working line (A, B). The connections 5 and 6 serve as ventilation connections (EA, EB).

These connections 2 to 6 are connected to an inner valve bore 7 in which a valve slide 8 is slidably arranged to switch the fluid flow between the connections 2 to 6 . The valve bore 7 is sealed by two closure elements 9 and 10 , which are arranged on the respective end faces of the valve housing 1 . A piston 11 is arranged at one end of the valve slide 8 in order to move the valve slide 8 axially into a desired switching position. The piston 11 corresponds to a control chamber 12 which is formed in the valve bore 7 and can be acted upon by a control pressure medium through an opening 19 .

Furthermore, a return spring 14 is provided in order to bring the valve slide 8 into its stable switching position. The return spring 14 is arranged near a spring chamber 15 between the closure element 10 and a guide element 16 . The guide element 16 is located adjacent to the valve slide 8 in order to prevent transverse forces relative to the axis of the valve slide 8 . For this reason, the guide element 16 comprises an annular groove 17 for holding the return spring 14 . The outer diameter of the disk-like guide element 16 is adapted to the diameter of the spring chamber 15 , which in this respect can also be used as a control chamber. If such a change in the valve function is desired, the disk-like guide element 16 can be replaced by a piston. The disc-like guide element 16 also has the function of a stop in order to limit the axial travel of the valve slide 8 on both sides of the spring chamber 15 .

The multi-way valve with two switch positions is shown in its neutral position, the return spring 14 is not compressed and the control chamber 12 is vented so that pressure medium from port 2 (P) to port 4 (B) and from port 3 (A) to the port 5 (EA) arrived.

Referring to FIG. 2, the control chamber 12 is here under pressure to bring the valve slide 8 in its active operating position, the return spring is compressed fourteenth In this position of the valve spool 8 , the pressure medium passes from port 2 (P) to port 3 (A) and from port 4 (B) to port 6 (EB).

A multi-way valve with three switching positions shown in FIG. 3 has at one end the valve housing 1 a spring guide assembly with a slider stop member 18 a which communicates with a return spring 14 a in contact with and slidably connected to a coaxial guide shaft 19 a, the fixed to the closure element 10 is arranged is. The same spring guide arrangement 14 b, 18 b, 19 b is arranged at the opposite end of the valve housing 1 . If no pressure medium flows to the control chamber 12 a and 12 b, then both return springs 14 a and 14 b hold the valve slide in its neutral position. In this middle position, all connections P, A, B, EA, EB are closed, so that no pressure medium flows through the valve. In order to move the valve slide 8 in both operating positions to the left or to the right, two control chambers 12 a and 12 b are provided, which cooperate with associated pistons 11 a and 11 b on both sides of the valve slide 8 .

If according to FIG. 4, the control chamber 12 b charged with pressure medium, the valve slide 8 moves in the figure to the right and the return spring 14a is compressed. The other return spring 14 b is not in contact with the end of the valve slide 8 , since this is held by the guide arrangement. In this switching position, pressure medium flows from port 2 (P) to port 3 (A) for application. Port 4 (B) is connected to port 6 (EB) for ventilation. Another - not shown - left switching position creates a pressure medium flow from port 2 (P) to port 4 (B), port 3 (A) being connected to port 5 (EB).

FIG. 5 shows the detailed construction features of the guide assembly for the multi-way valve with three switching positions. The guide arrangement comprises the slide stop element 18 with a conical section 20 which engages in the return spring 14 in a guiding manner. The slide stop element 18 is slidably arranged with a coaxial guide shaft 19 , which in turn is fastened in the closure element 9 or 10 . A washer 21 arranged on the closure element 9 or 10 absorbs forces of the return spring 14 .

The invention is not limited to the preferred ones described above Embodiments. Modifications are therefore also conceivable, despite others make concrete use of the invention.  

Reference list

1

Valve body

2

Feed pressure connection

3rd

Work line connection

4

Work line connection

5

Vent connection

6

Vent connection

7

Valve bore

8th

Valve spool

9

Sealing cap

10th

Sealing cap

11

piston

12th

Tax chamber

13

opening

14

Return spring

15

Spring chamber

16

Guide element

17th

Groove

18th

Slider stop element

19th

Leadership

20th

Cone section

21

Washer

Claims (11)

1. Multi-way valve for switching a pressure medium flow consisting of a valve housing ( 1 ) with several connections ( 2 , 3 , 4 , 5 , 6 ) for pressure medium, which are connected to a valve bore ( 7 ) in which a valve spool ( 8 ) for switching of the pressure medium flow between the connections ( 2 , 3 , 4 , 5 , 6 ) is arranged in a sliding manner, and with closure caps ( 9 , 10 ) for closing the valve bore ( 7 ) at both ends, at least one piston ( 11 ) for the axial movement of the valve spool ( 8 ) into a desired switching position, which corresponds to a control chamber ( 12 ) which is formed in the valve bore ( 7 ) and which can be acted upon by a control pressure to move the piston ( 11 ), and a return spring ( 14 a, 14 b) for resetting the valve slide ( 8 ) into its normal position when the control chamber ( 12 ) is vented, characterized in that the return spring ( 14 ) interacts with a spring guide arrangement, which are located within a spring chamber ( 15 ) between the closure element ( 9 ; 10) and a guide element is arranged (16 or 18) on the valve slide (8) to lateral forces to prevent relative to the axis of the valve slide (8). 2. Multi-way valve according to claim 1, characterized in that the spring guide arrangement for a valve with two switching positions comprises a disc-like guide element ( 16 ) arranged adjacent to the valve slide ( 8 ) with an annular groove ( 17 ) for holding one end of the return spring ( 14 ), wherein the opposite end of the return spring ( 14 ) is guided by the cylindrically shaped closure element ( 9 ; 10 ). 3. Multi-way valve according to claim 2, characterized in that the outer diameter of the disc-shaped guide element ( 16 ) is adapted to the diameter of the spring chamber ( 15 ). 4. Multi-way valve according to claim 2, characterized in that the spring chamber ( 15 ) has the same shape as the control chamber ( 12 ), so that the disc-like guide element ( 16 ) by a piston ( 11 ) is interchangeable to change the valve function. 5. Multi-way valve according to claim 2, characterized in that the disc-like guide element ( 16 ) is an injection molded part, which consists of a low-friction material. 6. Multi-way valve according to claim 5, characterized in that the disc-like guide element ( 16 ) consists of plastic. 7. Multi-way valve according to claim 2, characterized in that the disc-like guide element is designed as a stop for the valve slide ( 8 ) to both ends of the spring chamber ( 15 ). 8. Multi-way valve according to claim 1, characterized in that the spring guide arrangement for a valve with three switching positions comprises a slide stop element ( 18 ) which is in contact with the return spring ( 14 ) and which is slidably connected to a coaxial guide shaft ( 19 ) which is arranged fixedly opposite the closure element ( 9 ; 19 ). 9. Multi-way valve according to claim 8, characterized in that the guide shaft ( 19 ) is held by gluing or pressing in the closure element ( 9 ; 10 ). 10. Multi-way valve according to claim 8, characterized in that the spring guide arrangement further comprises a washer ( 21 ) which receives the force exerted by the return spring ( 14 ), the return spring ( 14 ) on the one hand with the washer ( 21 ) and on the other hand with the Slider stop element ( 18 ) is in contact. 11. Multi-way valve according to claim 8, characterized in that the slide stop element ( 18 ) comprises a conically shaped section ( 20 ) which projects into the return spring ( 14 ) for guidance.