DE102013108940B4 - Own medium controlled ring piston valve - Google Patents

Abstract

Annular piston valve with a housing (1) and an inside an inner guide part (5) of the housing (1) guided and axially displaceable between a closed position and an open position termination bushing (18) by the pressure within a first pressure chamber (27) in the closing direction and is acted upon by the pressure within a second pressure chamber (34) in the opening direction, wherein the axially displaceable Abschlussbuchse (18) includes a bottom (20) with the guide part (5), the first pressure chamber (27) and with a front-side closure element (28) limits the second pressure chamber (34) to a stop part (12) projecting into the terminating bush (18), characterized in that the terminating bush (18) is acted upon in the closing direction by a compression spring (23) and the second pressure chamber (34 ) is acted upon via an inner feed (24, 38) with the prevailing at an inlet opening (7) of the housing (1) form.

Description

The invention relates to an annular piston valve according to the preamble of claim 1.

Such a piston valve is from the US Pat. No. 6,230,734 B1 known. This includes a housing and a guided inside an inner guide part of the housing and axially displaceable between a closed position and an open position termination bush, which is acted upon by the pressure within a first pressure chamber in the closing direction and by the pressure within a second pressure chamber in the opening direction. The axially displaceable terminating bushing contains a base which, with the guide part, delimits the first pressure chamber and with an end-side closure element on a guide bush projecting into the terminating bush, delimits the second pressure chamber. In order to control the flow between an input space arranged inside the housing and a passage space arranged inside the housing, an axially displaceable sleeve is additionally provided in the housing. The sleeve is displaceable via a drive shaft and a corresponding actuator. For this purpose, however, a corresponding space is required in the housing.

Out GB 2 166 847 A . US 4,471,810 A . DE 10 2008 035 899 A1 and DE 28 46 250 A1 Further control valves are known with a valve body axially displaceable within a housing for controlling the passage between a housing input and a housing output.

An Indian WO 2010/133902 A2 disclosed annular piston valve includes a housing having an inner guide member in which a terminating sleeve is guided axially displaceable between a closed position and an open position. The adjoining in the closed position on a valve seat end bushing is acted upon by a compression spring and the pressure within a first pressure chamber in the closing direction and by a pressure within a second pressure chamber in the opening direction. Within the guide part, a separate hydraulic cylinder is housed with an axially displaceable piston. The piston defines within the cylinder, the two separate pressure chambers and is connected via a piston rod to the termination socket. However, this construction is relatively complex and requires a correspondingly large space.

The object of the invention is to provide a piston valve of the type mentioned, which has a compact and space-saving design.

This object is achieved by a piston valve with the features of claim 1. Advantageous embodiments and advantageous developments of the invention are specified in the dependent claims.

In the case of the annular piston valve according to the invention, the terminating bush is acted upon by a pressure spring and the pressure within the first pressure chamber in the closing direction and by the pressure within the second pressure chamber in the opening direction. The second pressure chamber is acted upon via an inner feed with the prevailing at an inlet opening of the housing form. The guide member for the terminating sleeve thus simultaneously forms the cylinder and the terminating bushing the pressurized piston, which allow actuation via a pending pressure difference between a pre- and post-pressure. For adjustment of the terminator thus no separate piston and cylinder are required, whereby a particularly compact and space-saving design can be achieved.

In an expedient embodiment, the stop member may be designed in the form of a stop bush attached to the housing and provided with radial passages and the closure element in the form of a piston arranged in the terminating bush. The e.g. designed as a piston closure element may be formed as a separate component or integrally with the preferably designed as a stop bushing stop member.

Advantageously, the axially adjustable terminating bush in the guide part of the housing can be guided in a radially sealed manner via a seal, which is preferably designed as a four-lip seal. The sealing element in the form of a piston is also radially sealed in the terminating bush via a seal, which is preferably designed as a four-lip seal.

A stable inner supply can be effected, for example, via a spring mandrel arranged within an opening of the guide bushing and designed as a hollow body and a connecting pipe fastened to the bottom of the terminating bush, which is open towards the second pressure chamber and projects with its free end into a continuous opening of the spring mandrel. By way of the spring pin and the connecting tube, the second pressure chamber can thus be acted upon by the inner guide part with the pressure prevailing at the inlet opening of the housing. At the free end of the spring mandrel pointing towards the bottom of the terminating bush, an end bushing can be fastened, through which the connecting pipe is axially displaceable and radially sealed by a seal. At the other end of the spring thorns can with a Be arranged inlet openings provided oncoming head. The Anströmkopf can be screwed into a fastened at this end of the spring mandrel cap.

In an alternative embodiment, the inner supply for acting on the second pressure chamber can also be effected via a flexible hose, which extends from the Anströmkopf to a through hole in the bottom of the terminating bushing.

The first pressure chamber can be acted upon by a control device with respect to the form pressure reducible control pressure. The control device may comprise a bypass line with an adjustable throttle. However, other controls of the above-described piston valve are possible.

Other features and advantages of the invention will become apparent from the following description of a preferred embodiment with reference to the drawing, which shows an inventive annular piston valve in cross section.

The illustrated in the drawing own medium controlled annular piston valve includes a housing 1 , one with connection flanges 2 provided outer part 3 and one about holding ribs 4 on the inside of the outer part 3 supported inner guide part 5 having. Between the outer part 3 and the inner guide part 5 becomes a ring channel 6 limited by the water or other medium from an inlet opening 7 to an outlet opening 8th of the housing 1 can flow. The inner leadership part 5 of the housing 1 has one of the inlet opening 7 facing smaller opening 9 and one of the outlet opening 8th facing larger opening 10 on.

At the outlet opening 8th of the housing 1 is a projecting into the housing interior stop member 12 attached. The stop part 12 is as one with radial passages 11 provided stop bush running. The radial passages 11 are formed in the embodiment shown as slots with different lengths. The passages 11 but may also have a round or rectangular cross-section. That in the case 1 projecting, bush-shaped stop part 12 is via an end-side annular flange 13 and screws 14 in a corresponding recess 15 at the outlet end side 16 of the housing 1 attached. Between the ring flange 13 of the bush-shaped stop member 12 and the outer part 3 of the housing 1 is a profile seal serving as a valve seat 17 clamped.

In the to the outlet opening 8th pointing larger opening 10 of the inner leadership part 5 is a termination socket 18 axially displaceable and via a here as a four-lip seal (Quadring) trained seal 19 opposite the guide part 5 guided radially sealed. The final jack 18 is in the form of a cup-shaped piston with a serving as a piston surface bottom 20 and a hollow cylindrical jacket 21 formed, extending over the stop bushing 12 extends and in the stop bushing 12 provided radial passages 11 depending on the axial position more or less covered. By axial adjustment of the terminating socket 18 so the outlet cross section can be changed. The preferably made of stainless steel termination socket 18 is formed such that the hollow cylindrical shell 21 the stop bush 12 covered and an annular end face 22 of the hollow cylindrical shell 21 in a closed position to rest on the profile seal serving as a valve seat 17 arrives.

The final jack 18 is by a trained here as a helical spring compression spring 23 in the direction of the valve seat serving as a profile seal 17 pressed. The compression spring 23 sits on one in the smaller opening 9 of the leadership part 5 arranged spring thorn 24 and is between a ring collar 25 of the spring thorn 24 and the smaller opening 9 of the leadership part 5 pointing forehead 26 of the soil 20 clamped.

Through to the smaller opening 9 of the leadership part 5 pointing forehead 26 on the ground 20 the serving as a piston end bushing 18 becomes within the leadership part 5 a first closed pressure chamber 27 limited. In the hollow cylindrical jacket 21 the termination socket 18 is a closure element designed here as a piston 28 about a seal 29 opposite the inner wall 30 of the coat 21 guided radially sealed. The preferably made of bronze disc-shaped closure element 28 is executed in the embodiment shown as a separate component and is located with its facing the outlet opening outer face 31 at the stop bush 12 on. The closure element 28 but could also be integral with the stop bushing 12 be executed. The seal 29 is also formed in the embodiment shown as a four-lip seal (quadring). Between the inside 32 of the soil 20 and the facing to this inner end face 33 of the piston 28 becomes a second closed pressure chamber 34 limited.

The supply of the first pressure chamber 27 done by a through the outside of the housing 1 in the pressure chamber 27 running line 35 while the pressure chamber 34 via an inner feeder with one at the inlet opening 7 of the housing 1 prevailing form is applied. This is in the ground 20 the termination socket 18 an opening coaxial with its longitudinal axis 36 provided in the one by means of a sealing ring 37 sealed connecting pipe 38 is used. Also in the smaller opening 9 of the leadership part 5 attached spring thorn 24 is designed as a hollow body and has a through opening 39 on. In this opening 39 protrudes the connecting pipe 38 on the ground 20 shrewd end of the spring thorn 24 into it. By one at this end of the spring thorn 24 with screws end-mounted end bush 40 becomes the connecting pipe 38 axially displaceable and by a seal 41 guided radially sealed. The seal 41 is formed in the embodiment shown as a four-lip seal (quadring). At the inside of the opening 9 the guide bush 5 attached another end of the plume 24 is in the opening 39 one with a continuous internal threaded hole 42 provided cap 43 plugged in and over screws 44 fixed. Into the internal threaded hole 42 is one with radial inlet openings 45 provided Anströmkopf 46 screwed.

On the case 1 the annular piston valve is also a control device schematically shown in the drawing with a bypass line 47 arranged, which has a bypass from the inlet opening 7 to the outlet opening 8th forms, so that a small part of the flowing medium can flow past the annular piston valve. Due to the pressure difference between one at the inlet opening 7 attached larger form P _v and one at the outlet opening 8th adjacent smaller back pressure P _r , the medium flows through the bypass line 47 from the inlet opening 7 to the outlet opening 8th , In order to control the flow of the medium is in the bypass line 47 eg a manually adjustable throttle 48 arranged. Downstream of the throttle 48 branches from the bypass line 47 The administration 35 to supply the first pressure chamber 27 from.

In the following, the operation of the above-described annular piston valve will be explained.

In the ring piston valve shown in the drawing is the termination socket 18 in an open position, so that at least part of the radial passages 11 not through the hollow cylindrical shell 21 is closed and the medium through these open passages 11 from the inlet opening 7 to the outlet opening 8th can flow through the annular piston valve. The flow of the medium is due to a pressure difference across the annular piston valve, wherein the at the inlet opening 7 attached form P _v usually larger than that at the outlet opening 8th fitting back pressure P _r ,

Through the radial inlet openings 45 in the head 46 becomes the form P _v in the second pressure chamber 34 headed and pushes there against the inside 32 of the soil 20 What a force on the termination socket 18 against the force of the compression spring 23 causes.

About the throttle 48 the flow of the medium through the bypass line 47 and thus also the pressure in the first pressure chamber 27 controlled. Is the throttle 48 closed, no medium flows through the bypass line 47 and the back pressure P _r distributed in the flow direction of the medium after the throttle 48 even in the bypass line 47 , Through the line 35 will this back pressure P _r also in the first pressure chamber 27 directed. Accordingly, in a closed position of the throttle 48 in the first pressure chamber 27 the back pressure P _r and in the second pressure chamber 34 the form P _v on. The compression spring 23 is designed so that the force through the compression spring 23 along with through the back pressure P _r on the final jack 18 acting force is less than the opposite by the form P _v on the final jack 18 Acting force. As a result, in the closed position of the throttle 48 the termination socket 18 pressed into an open position, in the at least part of the radial passages 11 not through the hollow cylindrical shell 21 are closed and the medium thus from the inlet opening 7 to the outlet opening 8th through the open ring piston valve can flow.

Is the throttle located? 48 in an open position, the medium can pass through the bypass line 47 flow, depending on the degree of opening position, a pressure drop across the throttle 48 takes place. Is the throttle 48 only slightly open, only little medium passes through the throttle and the pressure in the flow direction behind the throttle 48 it drops only slightly. Will the throttle 48 However, completely open, so only an insignificant throttling takes place, so that the pressure after the throttle 48 as far as possible the form P _v in front of the throttle 48 equivalent. Through the line 35 this is dependent on the position of the throttle 48 between the back pressure P _r and the form P _v changeable pressure after the throttle 48 in the first pressure chamber 27 transfer.

Is the throttle 48 maximum open, lies in the first pressure chamber 27 the form P _v which causes a force on the terminating bush, which of equal and opposite force by the form P _v in the second pressure chamber 34 counteracts. These forces through the form P _v on the final jack 18 lift each other up, leaving only the force through the compression spring 23 affects which the termination socket 18 consequently to the valve seat serving as a valve seat 17 presses. The final jack 18 and thus the plunger valve are at a fully open throttle 48 consequently in a closed position.

Depending on the degree of opening position of the throttle 48 can the pressure within the first pressure chamber 27 between the back pressure P _r and the form P _v to be changed. Whenever the sum of the forces from the compression spring 23 and the pressure in the first pressure chamber 27 on the final jack 18 is less than the force through the form P _v in the second pressure chamber 34 the terminator moves 18 in the open position. Is the sum of the forces from the compression spring 23 and the pressure in the first pressure chamber 27 on the final jack 18 greater than the force through the form P _v in the second pressure chamber 34 , the terminator moves 18 consequently in the closed position.

Through the throttle 48 can the pressure in the first pressure chamber 27 be adjusted so that the sum of the forces from the compression spring 23 and the pressure in the first pressure chamber 27 the power through the form P _v in the second pressure chamber 34 so that balance the forces on the financial statements and consequently the financial statements 18 remains in a rest position.

As can be seen, through the adjustable throttle 48 the termination socket 18 move into any position and thus the flow through the piston valve are steplessly controlled. The drive of the annular piston valve is carried out purely by the pressure difference between the form P _v and back pressure P _r of the medium.

However, the invention is not limited to that shown in the embodiment, driven by the self-medium driven piston valve. Thus, an external pump, a pressure tank or other energy sources may be provided to change the pressure within the first and / or second pressure chamber and thus to actuate the annular piston valve.

Claims (11)

Annular piston valve with a housing (1) and an inside an inner guide part (5) of the housing (1) guided and axially displaceable between a closed position and an open position termination bushing (18) by the pressure within a first pressure chamber (27) in the closing direction and is acted upon by the pressure within a second pressure chamber (34) in the opening direction, wherein the axially displaceable Abschlussbuchse (18) includes a bottom (20) with the guide part (5), the first pressure chamber (27) and with a front-side closure element (28) limits the second pressure chamber (34) to a stop part (12) projecting into the terminating bush (18), characterized in that the terminating bush (18) is acted upon in the closing direction by a compression spring (23) and the second pressure chamber (34 ) is acted upon via an inner feed (24, 38) with the prevailing at an inlet opening (7) of the housing (1) form. After the piston valve Claim 1 , characterized in that the stop member (12) in the form of a housing (1) fixed and provided with radial passages (11) stop bushing and the closure element (28) in the form of a closure bush (18) arranged in the piston is formed. After the piston valve Claim 1 or 2 , characterized in that the closure element (28) is formed as a separate component or integrally with the stop member (12). Ring piston valve after one of Claims 1 to 3 , characterized in that the terminating bush (18) in the guide part (5) of the housing (1) via a seal (19) is guided radially sealed. Ring piston valve after one of Claims 1 to 4 , characterized in that the closure element (28) via a seal (29) radially sealed in the terminating bushing (18) is arranged. After the piston valve Claim 5 , characterized in that the inner feed (24, 38) arranged within an opening (9) of the guide bush (5) and designed as a hollow body spring mandrel (24) and at the bottom (20) of the terminating bushing (18) fixed connecting pipe ( 38) which is open towards the second pressure chamber (34) and projects with its free end into a continuous opening (39) of the spring mandrel (24). After the piston valve Claim 6 , characterized in that at the bottom (20) of the terminating bushing (18) facing the free end of the spring mandrel (24) an end bushing (40) is fixed, through which the connecting tube (38) axially displaceable and by a seal (41) radially sealed is performed. After the piston valve Claim 6 or 7 , characterized in that arranged on the inside of the opening (9) of the guide bush (5) end of the spring mandrel (24) with an inlet openings (45) provided Anströmkopf (46) is arranged. After the piston valve Claim 8 , characterized in that the Anströmkopf (46) is screwed into a at the end of the spring mandrel (24) attached to the closure cap (43). Ring piston valve after one of Claims 1 to 9 , characterized in that the first pressure chamber (27) can be acted upon by a control pressure which can be reduced by means of a control device (47, 48) relative to the admission pressure. After the piston valve Claim 10 , characterized in that the control device (47, 48) comprises a bypass line (47) with an adjustable throttle (48).

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