DE10017811A1 - Actuation device for valve element produces regulating valve control signal from pressure of pressure medium regulated by regulating valve and pressure at output of secondary connection - Google Patents

Abstract

The device moves the valve element from a position blocking a passage between primary and secondary connections to a position in which the passage is at least partly open. The pressure of a pressure medium is regulated by a regulating valve before the actuating element and is detected and fed to a control/evaluation device with the detected pressure at the output of the secondary connection to enable the valve control signal to be produced. The device moves the valve element (5) from a rest position blocking a passage between primary and secondary connections (2,3) to a working position in which the passage is at least partly open. The deflection of an actuating element (31) caused by the pressure of a pressure medium is transferred to the valve element. The pressure of the pressure medium is regulated by a regulating valve (37) before the actuating element and is detected and fed to a control/evaluation device (50) with the detected pressure at the output of the secondary connection (3) to enable the valve control signal (S) to be produced. Independent claims are also included for the following: a valve.

Description

The invention relates to an actuating device for a valve member of a valve, through which the valve member at least from a rest position, in which by the Valve member a passage between a primary connection and a secondary Connection of the valve is blocked in a working position in which this passage is at least partially released, is movable.

Such an actuating device for a valve member of a valve is from the DE-U 192 02 519 of the applicant is known. This document describes a Valve with a valve housing in which a primary connection for a primary medium  with a primary pressure and a secondary connection for a medium with a Se secondary printing is provided. The valve member is in the axial direction in the valve housing tion slidably guided and is actuated by an actuator of the actuator device with an actuating force, so that the valve member its rest position is movable into its working position. To reset the Valve member from its working to its rest position is provided by the actuator of the actuator which acts on the valve member force is reduced, so that the valve member is driven back by the force Springs is moved back from its working to its original position.

The actuating force of the actuating device acting on the valve member is generated by a proportional magnet. Such an actuator supply organ is completely sufficient if the valve also contains media smaller pressures should be regulated or controlled. With a larger one .Pressurization and / or with larger flow rates is sufficient can be generated by a proportional magnet (with an acceptable size) Actuating force no longer.

It is therefore an object of the present invention to provide an actuator for to develop a valve member of the type mentioned in such a way that with a the valve using the actuator according to the invention also large re pressures and / or flow rates can be safely regulated or controlled can.

This object is achieved in that the actuation direction has a pressurizable actuator, the through a pressurization generated by a pressure medium deflection on the Valve member is transferable.

The measures according to the invention advantageously result in egg ne actuator for a valve member created, which thereby  is characterized in that in a simple and therefore inexpensive manner a height Here actuation force can be generated for the valve member. It is therefore with a the valve equipped actuator advantageously possible, even pressures well over 20 bar andl or safely regulate or control very large flow rates.

An advantageous development of the invention provides that the actuating element ment of the actuator according to the invention as a membrane or a Piston is formed. Such a measure according to the invention has the The advantage of a particularly simple and therefore inexpensive producibility.

An advantageous development of the invention provides that the actuation direction a first pressure sensor through which the retraction element the actuating device pressure can be detected, and a second pressure transducer through which the outlet of the secondary connection of the valve occurring pressure can be detected, and a tax Evaluation / evaluation device, the output signals of the two pressure transducers can be supplied. Such an inventive. Owns measure the advantage that in this way the at the exit of the Se secondary pressure prevailing pressure of the secondary medium through an ent speaking control or regulation of the pressure of the actuator control or regulating the pressure medium acting on the actuating device bar and is preferably stable at a constant pressure level.

Another advantageous development of the invention provides that Control / evaluation device of the actuating device the mixing ratio between the output signal of the first and the output signal of the second Pressure transducer is adjustable. Such a measure has the advantage that in this way a simple adjustment of the inventions in a simple manner according valve according to the currently prevailing pressure conditions and / or Flow rates can be achieved.  

Further advantageous developments of the invention are the subject of Subclaims.

Further details and advantages of the invention are the exemplary embodiments can be seen, which are described below with reference to the figures. It demonstrate:

Fig. 1 shows a first embodiment of an actuator for a valve member with the valve in a rest position,

Fig. 2 shows the first embodiment of FIG. 1 in its working position, and

Fig. 3 shows a second embodiment.

In Figs. 1 and 2 is now generally designated with 1 valve with a primary terminal 2 for a primary medium, with a primary pressure and a seconding däranschluß 3 for a secondary medium with a secondary pressure, which need not be mandatory as the same as the primary medium, is shown. In the interior of a valve housing 1 ', an axially displaceably guided valve member 5 which is acted upon by an actuating element 31 of an actuating device 30 is arranged. The actuating element 31 of the actuating device 30 for generating the actuating force F acting on the valve member 5 is, in the first exemplary embodiment described here, formed as a housing 4 supported in the valve housing 4 , the membrane 31 a on the side facing away from the valve member 5 from a pressure medium, which is not necessarily must match the primary medium or the secondary medium, can be acted upon. For this purpose, it is provided in the described embodiment that in front of the deflectably mounted membrane 31 a in a chamber 32 of the valve housing 4 , a chamber 35 connected to the chamber 32 via a through opening 34 is arranged for the pressure medium, which has an inlet 36 , to which a regulating valve 37 is connected upstream, by means of which the pressure of the pressure medium which can be supplied to the pre-chamber 35 can be regulated, ie controlled or regulated. A pressure increase in the prechamber 35 of the diaphragm chamber 32 thus leads to a deflection of the diaphragm 31 a and thus to a displacement movement of a pressure plate 31 a 'slidably mounted in the chamber 32 under the diaphragm 31 a, through which the valve member 5 in the direction of Actuation force F is displaceable by a plunger 33, the valve member 5 is acted upon. The provision of a pressure plate 31 a 'is advantageous, but not mandatory.

Before the operation of the actuating device 30 for the valve member 5 is to be explained in more detail, for the sake of clarity of these explanations, the further structure of the valve 1 known from DE-U 19 20 2 519 should first be briefly explained, with the Avoid repetition, the technical teaching of this document should be explicitly included in the disclosure of this application through this reference. In the reset state of the valve member 5 shown in Fig. 1, that is, in the rest position of the valve 1 , a seat 6 of the valve member 5 is pressure-tight on a valve seat 7 of the primary port 2 , preferably it is hen that the seat 6 is a circumferential Seal 6 a, which cooperates with the valve seat 7 , which is preferably designed as an annular cutting edge, in such a way that in the closed state of the valve member 5 a line contact is formed between the seat surface 6 and the valve seat 7 and penetration of the primary medium to the secondary connection 3 is prevented. A longitudinal bore 13 of a lower part 5 a of the valve member 5 receives a spring 11 , which causes the seat 6 by the restoring force of the spring 11 against the valve seat 7 of the primary connection without a corresponding action on the valve member 5 by the actuating device 30 2 is pressed.

In the exemplary embodiment shown here, the valve 1 also has a tertiary connection 4 for a tertiary medium with a tertiary pressure, which in turn need not necessarily be identical to the primary and / or the secondary medium. As a rule, the tertiary connection 4 is used for venting the valve, in such a way that in a venting position of the valve 1 a connection can be established between the secondary and tertiary connection 3 , 4 , so that the secondary medium can escape via the tertiary connection 4 . In order to be able to establish this connection, it is provided that the valve member 5 is tubular at least in its central part 5 b, and has an inlet opening 15 through which the secondary medium can enter the interior 10 of the valve member 5 . A free upper end 5 b 'of the central part 5 b of the valve member 5 forms a valve seat 17 which cooperates with a seat surface 16 having an encircling seal 16 a of an upper part 5 c of the valve member 5 . The valve seat 17 is in turn preferably formed as a ring cut, so that in the closed state of the valve seat 17 , passage of the secondary medium or the tertiary medium from the secondary circuit 3 to the tertiary connection 4 and vice versa is prevented. The upper part 5 c of the valve member 5 - which is relatively movable to the interconnected parts 5 a, 5 b thereof - is acted upon by the restoring force of a further Fe 21 , which causes 5 c of the valve member to be exerted without force 5 a stop 5 c 'of the valve member 5 is pressed against a stop surface 1 "of the valve housing by the actuating device 30 .

The operation of the actuating device 30 described and thus of the valve 1 is now as follows:

In the rest position shown in Fig. 1, the pressure in the prechamber 35 on the membrane 31 a of the actuating device 30 is regulated in such a way that the valve member 5 is subjected to no or only such a small actuating force F that the seat 6 of the lower part 5 a of the valve member 5 against the valve seat 7 of the primary connection 2 and the stop surface 5 c 'of the upper part 5 c of the valve member 5 is pressed against the stop surface 1 "of the valve housing 1 ', so that in this rest position of the valve 1 an overflow of the primary medium prevented from the primary connection 2 to the secondary connection 3 and the secondary connection 3 is vented via the tertiary connection 4 , since the second valve opening formed by the valve seat 17 and the seat surface 16 is open.

If the primary medium located in the primary connection 2 is to be forwarded to the secondary connection 3 , the pressure of the pressure medium in the prechamber is increased 35 by opening the regulating valve 37 of the actuating device 30 and thus increasing the pressure in the prechamber 35 . This causes a deflection of the membrane 31 a in the direction of the actuating force F, which causes the upper part 5 c of the valve member 5 is pushed ver in the direction of the actuating force F, so that the second valve opening is closed by the seat surface 16 sealing on the valve seat 17 of the middle part 5 b of the valve member 5 and closes the passage from the secondary connection 3 to the tertiary circuit 4 .

Another pressure increase in the prechamber 35 causes a further deflection of the diaphragm 31 a, which results in a further displacement of the upper part 5 c of the valve member 5 , so that the lower part 5 a of the valve member 5 against the restoring force of the spring 11th is moved down, with the result that the first valve opening is opened by the seat 6 is moved away from the Ven tilsitz 7 . The primary medium can now flow from the primary connection 2 to the secondary connection 3 . This state of regulation of the valve is shown in FIG. 2.

If the pressure in the prechamber 35 is now reduced again, the first valve opening closes by the seating surface 6 being pressed again against the valve seat 7 by the restoring force of the spring 11 . A further pressure reduction in the prechamber 35 then causes the second valve opening to open, with the result that the medium in the secondary connection 3 can be vented via the tertiary connection 4 .

In order to regulate the outlet pressure of the medium located in the secondary connection 2 , that is to say as a rule the secondary medium, with sufficient accuracy, that is to say to be able to control and / or regulate, the two pressure sensors 41 and 42 are provided, as already briefly mentioned above, the first pressure transducer 41 the pressure of the pressure medium in the prechamber 35 and the second pressure transducer 42 receives the pressure at the outlet of the secondary connection 3 . It should be mentioned at this point that it is shown in the figures that the pressure transducers 41 , 42 are connected to the prechamber 35 and to the secondary connection 3 via channels 41 ', 42 '. Such a construction is not absolutely necessary. It is Z. B. also possible to arrange one or both Druckaufneh mer 41 , 42 directly in the corresponding cavity.

It is also shown in the figures that the pressure medium for the membrane 31 a is branched off from the primary connection 2 by means of a lead 43 , that is to say the primary medium is used as the pressure medium. This construction is also not absolutely necessary, since it can also be entirely sensible or necessary to use a medium different from the primary, secondary or tertiary medium as the pressure medium. For example, this is the case when the primary medium is a medium that is not compressible or is difficult to compress, e.g. B. is a difficult to compress liquid such as water. In any case, it is provided that the regulating medium for the membrane 31 a is supplied externally. Since - due to unavoidable force and friction losses, and the back stel loin force of the springs 11, 21 and, optionally, by fluid-dynamic or static reasons - the output pressure in the secondary terminal 3 not without dingt equal to the pressure of the diaphragm 31 a biasing and thus the operating force F for the valve member 5 must be pressure medium, a readjustment of the pressure of the pressure medium is usually required in order to regulate the pressure prevailing at the outlet of the secondary connection 3 , that is to say to control and / or regulate it, and preferably at a certain pressure level to keep. For this purpose, the output signals A1 and A2 of the two pressure transducers 41 , 42 are now passed to a control / evaluation device 50 through which a control signal S for the regulating valve 37 of the actuating device 30 can be generated, which causes the corresponding control signal S the pressure of the regulating medium in the pre-chamber 35 can be increased or decreased accordingly in order to generate the desired outlet pressure.

It is now preferably provided that the determination of the control signal S includes not only the output signal A2 of the second pressure sensor 42 which characterizes the output pressure, but also the output signal A1 of the first pressure sensor 41 which detects the pressure in the prechamber 35 , it being preferred that the determination be carried out of the control signal S a weighted superposition of the two output signals A1, A2 is carried out. In order to prevent an unstable state from occurring at the output of the secondary connection 3 as a result of closed-loop control times, it is preferably provided that the control / evaluation device 50 has a switch by which the weighting of the two output signals A1, A2 can be varied as they overlap is to hereby achieve a better and easier adaptation to the current circumstances.

In Fig. 3, a second embodiment of the actuating device 30 is now shown, which essentially corresponds to the first embodiment of FIGS. 1 and 2, so that corresponding parts can be provided with the same reference numerals and no longer described who need to. The essential difference between the two Ausführungsbei play is that instead of the membrane 31 a in the first embodiment, in the second embodiment, the actuating element 31 of the actuating device 30 is designed as a piston 31 b displaceably guided in the chamber 32 , which by the in the Pre-chamber 35 pressure medium is acted upon. At the valve member 5 side facing a b connected to the piston 31 ram 33 is provided, through which the re obe part 5 c of the valve member 5 can be acted upon.

In the above explanations, it was assumed that the actuating device 30 is integrated in the valve housing 1 '. However, it is also possible to design the actuating device 30 as a separate component that can be placed on a valve housing.

Claims (20)

1. Actuating device for a valve member of a valve, through which the valve member ( 5 ) at least from a rest position, in which through the valve member ( 5 ) a passage between a primary connection ( 2 ) and a secondary connection ( 3 ) of the valve ( 1 ) is locked, in a working position in which this passage is at least partially released, is movable, characterized in that the actuating device ( 30 ) has a pressurized actuating element ( 31 ), the deflection generated by a pressurization by a pressure medium on the Valve member ( 5 ) is transferable. 2. Actuating device according to claim 1, characterized in that the actuating element ( 31 ) is arranged in a chamber ( 32 ). 3. Actuating device according to one of the preceding claims, characterized in that in front of the chamber ( 32 ) for the actuating element ( 31 ) via a through opening ( 34 ) with this ( 32 ) connected chamber ( 35 ), which is the actuating element ( 31 ) pressurizing media to be fed is arranged. 4. Actuating device according to one of the preceding claims, characterized in that the prechamber ( 35 ) has an inlet ( 36 ) for the pressure medium, which is preceded by a regulating valve ( 37 ) through which the pressure of the pressure chamber of the prechamber ( 35 ) can be supplied tax is and / or adjustable. 5. Actuating device according to one of the preceding claims, characterized in that the prechamber ( 35 ), the pressure medium via a Ablei device ( 43 ) from a primary connection ( 2 ) of the valve ( 1 ) can be fed. 6. Actuating device according to one of the preceding claims, characterized in that the pressure medium of the actuating device ( 30 ) can be fed ex tern. 7. Actuating device according to one of the preceding claims, characterized in that the actuating device ( 30 ) has a first pressure sensor ( 41 ) through which the actuating element ( 31 ) of the actuating device ( 30 ) acting pressure of the pressure medium can be detected, and egg nen second pressure sensor ( 42 ) through which the pressure occurring at the outlet of the secondary connection ( 3 ) of the valve ( 1 ) can be detected, and that output signals (A1, A2) of the two pressure sensors ( 41 , 42 ) of a control / evaluation device ( 50 ) can be supplied, by means of which a control signal (S) for the regulating valve ( 37 ) can be generated. 8. Actuating device according to one of the preceding claims, characterized in that for determining the control signal (S) for the regulating valve ( 37 ) by the control / evaluation device ( 50 ) a weighted superposition of the two output signals (A1, A2) of the pressure transducer ( 41 , 42 ) can be undertaken. 9. Actuating device according to one of the preceding claims, characterized in that the control / evaluation device ( 50 ) has a switch through which the weighting of the two output signals (A1, A2) can be varied when they are superimposed. 10. Actuating device according to one of the preceding claims, characterized in that the actuating element ( 31 ) as a deflectable in the chamber ( 32 ) arranged membrane ( 31 a) is formed. 11. Actuating device according to claim 10, characterized in that un ter the deflectable membrane ( 31 a), a pressure plate ( 31 a ') is arranged, which has a plunger ( 33 ) through which the valve member ( 5 ) can be acted upon. 12. Actuating device according to one of claims 1-9, characterized in that the actuating element ( 31 ) is designed as a piston ( 31 b) which is displaceably mounted in the chamber ( 32 ). 13. Valve, which has a valve housing ( 1 ') in which a primary connection ( 2 ) for a primary medium with a primary pressure and a secondary connection ( 3 ) for a secondary medium with a secondary pressure is arranged, a passage between the primary connection ( 2 ) and the secondary connection ( 3 ) can be blocked and released by a valve member ( 5 ), characterized in that the valve member ( 5 ) can be acted upon by an actuating device ( 30 ) according to one of claims 1 to 9. 14. Valve according to one of the preceding claims, characterized in that a lower part ( 5 a) of the valve member ( 5 ) has a seat surface ( 6 ) which cooperates with a valve seat ( 7 ) of the primary connection ( 2 ). 15. Valve according to one of the preceding claims, characterized in that one with the lower part ( 5 a) of the valve member ( 5 ) connected to the central part ( 5 b) of the valve member ( 5 ) has an inlet opening ( 15 ) which with the secondary connection ( 3 ) is connected, and that through this inlet opening ( 15 ) a medium in a hollow interior ( 10 ) of the tubular middle part ( 5 b) of the valve member ( 5 ) can be entered. 16. Valve according to one of the preceding claims, characterized in that the lower part ( 5 a) of the valve member ( 5 ) by a return spring ( 11 ) can be acted upon, which causes that without a corresponding loading of the valve member ( 5 ) the actuating force (F) of the actuating device ( 30 ), the seat surface ( 6 ) of the lower part ( 5 a) of the valve member ( 5 ) against the valve seat ( 7 ) of the primary connection ( 2 ) is pressed. 17. Valve according to one of the preceding claims, characterized in that by the actuating element ( 31 ) with the central part ( 5 b) of the valve member ( 5 ) cooperating upper part ( 5 c) can be acted upon by the actuating force (F). 18. Valve according to claim 17, characterized in that the upper part ( 5 c) of the valve member ( 5 ) is relatively movable to the lower part ( 5 a) connected central part ( 5 b) of the valve member ( 5 ). 19. Valve according to one of the preceding claims, characterized in that the valve ( 1 ) has a tertiary connection ( 4 ), that the free end ( 5 b ') of the central part ( 5 b) protrudes into the tertiary connection ( 4 ), and that through the free upper end ( 5 b ') of the central part ( 5 b) of the valve member ( 5 ) a valve seat ( 17 ) of the tertiary connection ( 4 ) is formed, the surface with a Sitzflä ( 16 ) of the upper part ( 5 c ) of the valve member ( 5 ) cooperates. 20. Valve according to one of the preceding claims, characterized in that the upper part ( 5 c) of the valve member ( 5 ) can be acted upon by a return spring ( 21 ).