DE4435870A1 - Valve, especially for water or emulsion hydraulics - Google Patents

Abstract

The valve has a valve piston (2) movable in a housing (1), which locks in the closed position, together with an elastic sealing ring (14) fitted in a groove in the housing (1) between an inlet (10) and a feed (12) for the pressure medium and, in the open position, bridges the sealing ring (14) with a line consisting of recesses (17) extending axially parallel from the periphery of the valve piston (2). Thus, in the open position, the sealing ring is exposed to the flow of the liquid pressure medium. That has so far been avoided. According to the invention, the sealing ring is, however, held in its seat in the housing groove by the full peripheral sections of the valve piston remaining between the recesses. In addition, the direction of travel of the valve piston (2) to the closed position is opposed to the direction of flow from the inlet (10) to the feed (12). The shifting of the line to the surface of the valve piston in the form of the axially parallel extending recesses simplifies production and makes it possible to reduce the cross-section of the valve piston and hence that of the entire valve.

Description

The invention relates to a valve, in particular for water or emulsion hydraulics, with a valve piston that can be moved in a housing and that together with a valve a groove of the housing seated elastic sealing ring between a feed and a continuation for the pressure medium locks in the closed position and in the opening position bypassing the sealing ring with a line worked out in it.

Such a valve is e.g. B. known from DE-OS 37 22 053. The bridging lei tion consists of a plurality according to the proposal of this published specification axially parallel bores in the valve piston, which at their beginning and end with the Ver the surface of the valve piston through the narrow annular gaps cut into it are bound. Also known and in the published application as prior art is indicated an axial bore in the valve piston, which is arranged by a star Nete radial bores is connected to the circumference of the valve piston.

The object of the invention is a further development in the direction of a reduction of the construction volume and / or the manufacturing effort.

According to the invention, this purpose is achieved in that the line mentioned there are axially parallel recesses on the circumference of the valve piston.

Thus, the sealing ring is in the open position of the flow of the liquid pressure exposed. So far this has been avoided. According to the invention, the seal  ring, however, by the full circumference remaining between the recesses cuts the valve piston held in its seat in the groove of the housing.

Laying the pipe to the surface of the valve piston in the form of itself Recesses extending axially parallel simplifies the production and allows the To reduce the cross-section of the valve piston and thus that of the entire valve gladly.

To reduce the influence of the flow on the sealing ring, are preferred the following measures taken individually or in groups:

The displacement of the valve piston in the closed position should correspond to the direction of flow be opposite, so that the end channel is not when moving into the closed position pushing the recesses in addition to the flow in its transverse direction act on the sealing ring.

The passage cross section of the valve should be in the flow direction behind the seal to be smaller than in front of the sealing ring in order to reduce the flow velocity and to reduce the force attack on the sealing ring. For that the passage cross cut behind the sealing ring through an annular gap between the valve piston and the Housing must be reduced in size.

The valve is primarily intended for applications where the flow rates are low, approximately below 2.5 l / min. In particular, it is used as a pilot valve in the mountain building hydraulics provided. There it is suitable because of its small size - Piston diameter z. B. between 3 and 5 mm - especially for electrical actuators supply. Small consumers can also be controlled directly.

The valve is suitable for pressures up to 1000 bar.

More specifically, the valve is especially in combination with another valve part seen a consumer with the return in the above-mentioned open position to connect the other valve part with a in the closed position Pressure medium source connects.

A particularly advantageous application is the combination especially with a valve part according to the earlier patent application P 40 25 084.3, in which in one with the pressure medium source connected line with an axial passage part of this line forming piston is arranged, on one end face with that in this Lei tion prevailing pressure is applied and transversely on its other end face  abuts said valve piston, which has a passage after said feed has its entrance in the above-mentioned open position next to and in the said closed position, d. H. the opening position of the other valve part, immediately bar at the outlet of the passage of the piston.

This combination enables a particularly small overall size of the overall valve high functional reliability, also with regard to leakage losses.

The valve piston has its recesses mentioned for this combination preferably in the form of two flat, flat Aus arranged opposite each other cuts; the piston rests on one cutout and the passage extends itself as a cross hole from this cutout to the other.

The piston, the passage and, as a bore in the housing, the said with the Feeds connecting consumers then follow in the closed position mentioned preferably straight on each other and thus allow an unimpeded, fast Flow in the open valve part. Is in the open position of the valve Passage next to the piston, which is closed with it, then it connects the two flat cutouts of the valve piston, which also means the end facing away from the feed cut is usable for the line bridging the sealing ring mentioned.

As with the older proposal mentioned above, there is a preference on the side of the said pressurization also spring-loaded pistons preferably made of a plastic sealingly against the valve piston, and The end face resting on the valve piston is expediently crowned or conical, so that there is an increased surface pressure.

The drawings show exemplary embodiments of the invention.

Fig. 1 shows a section of a valve in axial section,

Fig. 2 shows a section of a second valve in axial section,

Fig. 3 shows a detail of a third valve in axial section,

Fig. 4 1 shows a cross section through a single part (plunger) of FIG. To 3,

Fig. 5 shows a cross section through another valve piston and

Fig. 6 shows a complete fourth valve in axial section.

Fig. 1 to 3 are also limited this represented only cut to a substantially same housing insert 1 with a valve piston 2.

In the complete valve, the cylindrical housing insert 1 seated in the of Fig. 6 manner shown in a corresponding recess of a in FIG. 6, designated by 3-housing outer part.

Separate three in the circumferential grooves of the housing insert 1 , between the sem and the housing outer part effective sealing rings 4 , 5 and 6, two annular spaces 7 and 8 worked out between them on the circumference of the housing insert 1 . An access led through the housing outer part opens into the annular space 7 . An exit leads out of the annular space 8 through the outer housing part. The outer part of the housing has connections for access and exit.

The housing insert 1 takes the entire cylindrical valve piston 2 bar in a whole cylindrical interior 9 on.

Radial bores 10 extend as a feed from the annular space 7 into the inner space 9 , where they open into an annular space 11 worked out on the wall thereof. Further radial bores 12 connect the interior 9 with the annular space 8 as continuations.

Corresponding to the sealing rings 4 to 6 , sealing rings 13 , 14 and 15 , which are seated in ring grooves of the housing insert 1 , divide two chambers in the interior 9 ; one chamber is essentially formed by the annular space 11 , the other chamber 16 by a small increase in the inner diameter of the housing insert 1 between the sealing rings 14 and 15 receiving grooves.

The sealing rings 13 to 15 are designated in Fig. 1 to 3 given the same position in the valve the same. However, they have different shapes. In Fig. 1 they are O-rings. In Fig. 2 they are lip seals; the middle side faces the side from which it receives pressure alone. FIG. 3 shows a sealing ring combination known per se with an inner, harder sliding ring and an outer, softer pressure ring.

The valve piston 2 has two opposing, flat and flat cut-outs 17 . The recesses 17 are cut obliquely at the left end at 18 , that is, their outline is bent elliptically here.

In the closed position of the valve shown in FIG. 3, all three sealing rings 13 to 15 rest against the complete circular circumference of the valve piston 2 . The annular space 11 is separated from the chamber 16 , the pressure is encapsulated in the annular space 11 .

In the open position shown in FIGS. 1 and 2, the valve piston 2 is moved so far to the left that the two recesses 17 extend below the sealing ring 14 , ie bridge it and bind the annular space 11 with the chamber 16 ver. The pressure medium flows in the recesses 17 past the sealing ring 14 . However, the sealing ring 14 remains securely held in its groove since it rests on the valve piston 2 on the two circumferential sections between the recesses 17 . The application of force of the flow on the sealing ring 14 is further reduced by the fact that the passage cross-section behind the sealing ring 14 in the, consisting only of an annular gap chamber is reduced sixteenth

When shifting into the closed position, the oblique incision 18 protects the sealing ring 14 .

A backflow and a reverse pressurization of the sealing ring 14 are not provided.

Instead of a backflow through the mentioned output, the annular space 8 and the drilling stanchions 12 , a branch to another in the same housing insert 1 and with the same valve piston 2 arranged valve arrangement 4 to 18 can be placed , which is in the closed position when the former valve arrangement 4 to 18 is opened and vice versa.

A solution that only requires a shorter overall length is shown in FIG. 6:

The housing outer part 3 shown in FIG. 6 has already been mentioned above. It is equipped with a consumer connection A and a return connection R, both designed as plug-in connections.

A housing insert 21 sits in the outer housing part 3 in the manner described above for the housing insert 1 . Just like this, its individual parts and designs are provided with 20 increased reference numerals each compared to the corresponding individual parts and designs of the housing insert 1 .

The valve arrangement 24 to 38 here connects consumer A to the return R. To connect consumer A to a pump line, it is combined with another valve part as follows:

In the housing insert 21 , a plug-O connection is designed as a pump connection P on its free end face. From this extends an axially parallel connec tion bore 39 to a drilled in the transverse direction in the housing insert 21 hollow cylinder 40th The hollow cylinder 40 is completed on its outside by a screwed plug 41 with a sealing ring 42 . On the other hand, a piston 44 sealed against the cylinder wall by a sealing ring 43 is led out of the hollow cylinder 40 . The piston 44 consists of a small plastic tube of 1.4 mm outer diameter and 0.5 mm inner diameter in the example. Via an annular spring plate 45 , the piston 44 is under the force of a spring 46 , which presses it against the valve 22 on the flat surface of the recess 37 . In addition, a much greater pressure is exerted on the piston 44 by the pump pressure present in the hollow cylinder 40 .

The end face pressure of the piston 44 on the valve piston 22 creates a you th closure.

This is the open position for the valve arrangement 24 to 38 . The consumer A is via the annular space 27 , the bore (s) 30 , the two recesses 37 , which are connected by a transverse bore 47 , a annular space 36 which takes the place of the narrow chamber 16 , the bore (s) 32 and the annular space 28 connected with the return R. Here too, a gap 48 narrows the flow cross section behind the sealing ring 34 .

In the closed position of the valve assembly 24 to 38 , the transverse bore 47 is in the continuation of the passage of the piston 44 , so that the consumer A is connected to the P pump line P.

For the combination of the valve arrangement 24 to 38 with the other valve part 39 to 47 , only the length of the recesses 17 and 37 has been slightly increased compared to the valve arrangement 1 to 18 . With its very small size, see the scale drawn in FIG. 6, the overall valve is designed as a hydraulic pilot valve in the mining hydraulics, which is actuated electrically by a magnet 49 .

For manual control, it could be seen with a dashed handle knob 50 ver. A stop device 51 defines the closed position and the open position.

For an application of the valve arrangement 1 to 18 for direct control of small consumers, one would e.g. B. replace the two recesses 17 by a ring of recesses 52 , as shown in Fig. 5.

Claims (12)

1. Valve, in particular for water or emulsion hydraulics, with a valve piston ( 2 ; 22 ) displaceable in a housing ( 1 ; 3 , 21 ), which together with an elastic sealing ring seated in a groove of the housing ( 1 ; 21 ) ( 14 ; 34 ) between a feed ( 10 ; 30 ) and a continuation ( 12 ; 32 ) for the pressure medium in the closed position and bridges the sealing ring ( 14 ; 34 ) in the open position with a line worked out in it, characterized in that that said line ( 17 ; 37 ; 52 ) consists of recesses ( 17 ; 37 ; 52 ) extending axially parallel on the circumference of the valve piston ( 2 ; 22 ). 2. Valve according to claim 1, characterized in that the displacement direction of the valve piston ( 2 ; 22 ) in the closed position of the flow direction of the feed ( 30 ) after the continuation ( 32 ) is opposite. 3. Valve according to claim 1 or 2, characterized in that the passage cross section of the valve in the flow direction behind the sealing ring (14; 34) is smaller (16; 48) than in front of the sealing ring (14; 34). 4. Valve according to claim 3, characterized in that the passage cross section behind the sealing ring ( 14 ; 34 ) is limited by an annular gap ( 16 ; 48 ) between the valve piston ( 2 ; 22 ) and the housing ( 1 ; 21 ). 5. Valve according to one of claims 1 to 4, characterized in that it is a, in particular electrically operated ( 49 ) pilot valve of the mining hydraulic system. 6. Valve according to one of claims 1 to 5, characterized in that it connects a consumer (A) with the return (R) in the said open position and is combined with another valve part ( 39-47 ) which is in the said closed position the consumer (A) with a pressure medium source (P) binds ver. 7. Valve according to claim 6, characterized in that in the other valve part ( 39-47 ) in a with the pressure medium source (P) verbun which line ( 39 , 40 , 44 ) with an axial passage part of this line ( 39 , 40 , 44 ) forming piston ( 44 ) is arranged, which is acted upon on one end face with the pressure prevailing in this line ( 39 , 40 , 44 ) and on its other end face abuts transversely on said valve piston ( 22 ), which has a passage ( 47 ) after the feeder ( 30 ) connecting to the consumer (A), the input of which is in the said open position next to and in the said closed position directly at the outlet of the passage of the piston ( 44 ). 8. Valve according to claim 7, characterized in that the piston ( 44 ) on the valve piston ( 22 ) bears against one of the said recesses ( 37 ) which is cut out flat and flat. 9. Valve according to claim 8, characterized in that the valve piston ( 22 ) has two flat and flat cut-out recesses ( 37 ) opposite one another and the passage ( 47 ) is a transverse bore ( 47 ) from one recess ( 37 ) to the other. 10. Valve according to one of claims 7 to 9, characterized in that the piston ( 44 ), the passage ( 47 ) and, as a bore ( 30 ) in the housing ( 21 ), said feed ( 30 ) in said closed position follow each other in a straight line. 11. Valve according to one of claims 6 to 10, characterized in that the, preferably on the side of the said pressurization further spring-loaded ( 46 ) piston ( 44 ) consists of a sealing against the valve piston ( 22 ) plastic. 12. Valve according to claim 11, characterized in that the piston ( 44 ) with a spherical or conical end face on the valve piston ( 22 ).