DE102014015892A1 - Stellarmatur comprising a sealing arrangement - Google Patents

Abstract

The invention relates to an actuating fitting (10) comprising a valve rod (14) which is sealed by a sealing arrangement comprising a packing (16, 42), the packing (16, 42) being connected between an abutment (18) on the actuating fitting housing (12 ) and a pressure piece (20, 44) is received axially compressible, wherein the pressure piece (20, 44) relative to the Stellarmaturgehäuse (12) is mounted axially movable, wherein at least two adjusting elements (26, 46) are provided, which in their distance from Counter bearing (18) are adjustable, wherein the pressure piece (20, 44) via a Übertragerelement (28, 50) with the adjusting element (26, 46) is connected and between the Übertragerelement (28, 50) and the pressure piece (20, 44) a first Ausgleichsanlageflächenpaarung (30, 48) is located, the first contact surface is concave or convex, and the Ausgleichsanlageflächenpaarung has a second surface which is formed corresponding to the first surface, so that a gelenka Rough relative movement of the two surfaces is possible. The invention is characterized in that between the transformer element (28, 50) and the adjusting elements (26, 46) there is a second compensating surface pairing (52, 32) whose first bearing surface is concave or convex, and the compensating surface pairing (52, 32). a second surface which is formed corresponding to the first surface, so that a hinge-like relative movement of the two surfaces is possible.

Description

The invention relates to a control valve according to the preamble of claim 1.

Stellarmaturen comprise a valve rod, which are regularly sealed by means of a sealing arrangement relative to the valve housing. A sealing arrangement comprises a sealing element - also called packing - and a pressure piece, with which the sealing element is axially compressed, wherein the sealing element may comprise a plurality of components. The axial pressure also creates a radial pressure of the sealing element on the valve rod and on the valve housing. As a result, a sealing gap can be adjusted to a minimum adapted to the operating conditions.

Stellarmaturen, like the DE 10 2006 022 212 A1 No. 4,309,860 shows an actuator housing having a valve rod sealed over a gland packing with respect to the actuator housing. This stuffing box is inserted in the axial direction between a counter bearing and a pressure piece. The pressure piece is axially movable relative to the valve housing and is acted upon by a spring element via a transformer element with a contact pressure. If the setting is initiated differently at different points, it comes to the strain of the transformer element.

In order to allow the most straightforward axial force on the stuffing box, the pressure piece at the transition to the Übertragerelement a concave, convex surface pairing.

It is an object of the invention to allow for a force application at different points as straight as possible axial loading of the pressure piece.

The object is solved by the characterizing features of claim 1 in conjunction with its preamble features.

The subclaims form advantageous developments of the invention.

In a known manner, a control valve comprises a valve rod and a control valve housing, wherein the valve rod is sealed relative to the actuator housing via a sealing arrangement. The sealing arrangement comprises a sealing element - packing - which lies in the axial direction between an abutment on Stellaraturgehäuse, in particular a Stellarmaturgehäusedeckel, and a pressure piece. By the pressure piece, the package is compressible in the axial direction. Furthermore, at least two adjusting elements are provided, which are adjustable in their distance from the anvil. The adjusting elements are connected to the pressure piece via a transformer element. Further, between the Übertragerelement and the pressure piece, a first Ausgleichsanlageflächenpaarung having a first convex or concave surface and by a second corresponding to the first surface formed second surface. The corresponding second surface permanently contacts the first surface at at least three points and is designed such that a joint-like movement of the two surfaces relative to one another is made possible. The surface may be conical, concave or convex, linear or broken line.

According to the invention, a second compensating surface pairing, which is formed by a first convex or concave surface, and a second, second surface corresponding to the first pairing surface, is provided between the transformer element and the adjusting elements. This may result in an articulated behavior between the two surfaces.

As a result, a larger Verkippbereich the transformer element can be compensated, whereby a rectilinear force applied to the pressure piece can be done.

Longitudinal holes or enlarged holes in the region of the at least two adjusting elements can be provided in the transmitter element, which allow the movement during rotation of the transformer element about the first compensating surface pairing and thus the displacement to the second compensating surface pairings.

The actuator housing may include an actuator housing cover for receiving the valve rod pack that is sealingly connected to a body housing in which the valve seat and fluidic ports are located. Stellarmaturgehäusedeckel and basic housing can also be integrally formed. The control valve can be designed for gases or liquids.

The anvil can be provided directly by the Stellarmaturgehäuse, in particular by the Stellarmaturdeckel.

In a first embodiment, the compression of the package can be achieved only by the reduction in the distance of the adjusting elements relative to the anvil. As a result, a particularly simple and compact design can be provided. Between the adjusting elements and the pressure piece the transformer element can be provided. The first Ausgleichsanlageflächenpaarung results in the transition from the Transformer element to the pressure piece. The second compensation surface pairing results in the transition of the adjusting elements to the transformer element.

The transmitter element may have recesses in which guide rails are accommodated. The guide rails may be, for example, screws or rods. By means of the guide rails, the transformer element is guided axially. The recesses have a diameter which corresponds to at least 1.5 times the diameter of the guide rails. As a result, a stress-free tilting of the transformer element can be made possible over a large angular range.

According to a further advantageous embodiment, a spring element and a biasing element may be provided for applying force to the pressure piece, wherein the spring element is supported against the biasing element and acts on the pressure piece. By adjusting the distance of the biasing member to the anvil is adjustable, whereby the spring force acting on the pressure piece is adjustable. Between the adjusting elements and the biasing element, the transformer element is provided. The first compensation surface pairing results in the transition from the transformer element to the biasing element. The second compensation surface pairing results in the transition of the adjusting elements to the transformer element.

According to an alternative design, the spring elements can also be provided between the adjusting elements and the second compensating surface pairing. The pressure piece acts directly on the pack with force.

In this way, although two or more adjusting elements act on the transformer element, a tension-free axial displacement of the transformer element take place. A correspondingly shaped transition from biasing element to transformer element can ensure a tilting of the transformer element for a compensation of the biasing member, so that the subsequent spring element can be applied almost uniformly with a bias.

The inventive design a largely tension-free adjustment of the bias is possible.

Preferably, the first compensation surface pairing may be formed such that the abutment surface pressure piece side has a convex surface, wherein the transfer element-side abutment surface has a concave surface.

According to a further embodiment it can be provided that the first compensating surface pairing on the part of the adjustment has a convex surface design and in particular the contact surface is formed on the transfer element side by a concave surface design. A corresponding plant surface design can be provided for each adjustment. Preferably, this can be implemented by a pair of discs.

It has proven to be particularly advantageous if the convex surface design is spherical and in particular a corresponding concave surface configuration conical.

Further advantages, features and possible applications of the present invention will become apparent from the following description in conjunction with the embodiments illustrated in the drawings.

In the description, the claims, and the drawing, the terms and associated reference numerals used in the list of reference numerals below are used. In the drawing:

1 a partial sectional view of a control valve according to the invention with loaded by a spring element stuffing box, and

2 a partial sectional view of a control valve according to the invention.

1 shows a detail of an embodiment of a control valve according to the invention 10 that has an actuator housing 12 , in particular a Stellarmaturgehäusedeckel 12a , as well as a valve rod 14 includes. The valve rod 14 connects known manner a drive not shown with an actuator, not shown. The valve rod 14 is about a pack 16 opposite the valve housing 12 sealed. The stuffing box packing 16 will be against the counter bearing 18 from a pressure piece 20 compressed. On the pressure piece 20 a spring force is exerted by a spring element 22 is caused. The pressure piece 20 includes the biasing element 24 and at least one spring element 22 , The spring element 22 is from a biasing element 24 held, which has a transformer element 28 with adjustment elements 26 in its distance to the counter bearing 18 can be adjusted. The biasing element 24 has a convex surface configuration which, together with a concave surface configuration of the transducer element 28 the first compensation surface pairing 30 forms.

This design has the advantage that when tilting the Übertragerelements 28 Nevertheless, an axial guidance of the biasing member 24 is possible. In addition, for each adjustment 26 also a compensation surface pairing 32 provided here, the adjusting element side is provided a convex surface design and the transfer element side a concave surface design. By both a Einstellelementseitige second Ausgleichsanlageflächenpaarung 32 as well as a first compensation surface pairing 30 on the side of the biasing element 24 is provided, an enlarged Verkippungsbereich can be tolerated over the prior art, as yet a linear force transmission to the pressure piece 20 is possible.

2 shows a detail of a sectional view of a control valve 40 similar to the control valve as in 1 described, with the compression of the pack 42 over the pressure piece 44 ultimately through the adjustment elements 46 he follows. In this version is the pressure piece 44 executed in one piece and includes a contact surface of Ausgleichsanlageflächenpaarung 48 , This results in a first compensation surface pairing 48 directly in the transition from pressure piece 44 to a transformer element 50 , wherein the pressure piece 44 has a convex surface design and the Übertragerelement 50 a concave one. In addition, each results in a second compensation surface pairing 52 in the transition from transformer element 50 to the adjustment element 46 , The second compensating surface pairing 52 is designed such that is provided by corresponding discs Einstellelementseitig a convex surface design and transfer element side, a concave surface design.

LIST OF REFERENCE NUMBERS

10

positioning device

12

Positioning device housing

12a

Adjustment valve cover

14

valve rod

16

pack

18

thrust bearing

20

Pressure piece

22

spring element

24

biasing member

26

adjustment

28

transducer element

30

first compensation surface pairing

32

second compensation surface pairing

40

positioning device

42

pack

44

Pressure piece

46

adjustment

48

first compensation surface pairing

50

transducer element

52

second compensation surface pairing

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102006022212 A1 [0003]

Claims (9)

Control armature ( 10 ) comprising a valve rod ( 14 ) via a sealing arrangement comprising a packing ( 16 . 42 ), the package being sealed ( 16 . 42 ) between an abutment ( 18 ) on the control arm housing ( 12 ) and a pressure piece ( 20 . 44 ) is received axially compressible, wherein the pressure piece ( 20 . 44 ) relative to the actuator housing ( 12 ) is mounted axially movable, wherein at least two adjusting elements ( 26 . 46 ) are provided, which in their distance from the anvil ( 18 ) are adjustable, wherein the pressure piece ( 20 . 44 ) via a transformer element ( 28 . 50 ) with the adjusting element ( 26 . 46 ) is connected and between the Übertragerelement ( 28 . 50 ) and the pressure piece ( 20 . 44 ) a first compensation surface pairing ( 30 . 48 ), the first contact surface is concave or convex, and the Ausgleichsanlageflächenpaarung has a second surface which is formed corresponding to the first surface, so that a hinge-like relative movement of the two surfaces is possible, characterized in that between Übertragerelement ( 28 . 50 ) and the adjustment elements ( 26 . 46 ) a second compensating surface pairing ( 52 . 32 ), whose first contact surface is concave or convex, and the compensating surface pairing ( 52 . 32 ) has a second surface which is formed corresponding to the first surface, so that a hinge-like relative movement of the two surfaces is possible. Stellarmatur according to claim 1, characterized in that the first compensation surface pairing ( 30 . 48 ) directly in the transition from transformer element ( 28 . 50 ) to the pressure piece ( 20 . 44 ). Control fitting according to one of the preceding claims, characterized in that a spring element ( 22 ) and a biasing element ( 24 ) is provided, wherein the spring element ( 22 ) against the biasing element ( 24 ), which at a distance to the anvil ( 18 ) by the adjusting elements ( 26 ) is adjustable, whereby a contact pressure of at least one spring element is adjustable, which on the pressure piece ( 20 ) acts. Stellarmatur according to claim 3, characterized in that the second compensating surface pairing ( 32 . 52 ) results in the transition from biasing element to transformer element. Control fitting according to one of the preceding claims, characterized in that the first compensating surface pairing ( 30 . 48 ) is designed such that this pressure piece side has a convex surface design. Control fitting according to one of the preceding claims, characterized in that the second compensating surface pairing ( 32 . 52 ) adjusting element side has a convex surface design. Control fitting according to one of the preceding claims, characterized in that each adjusting element ( 26 . 46 ) a convex surface design in the transition to the transformer element ( 28 . 50 ) having. Stellarmatur according to one of the preceding claims, characterized in that the first surface has a convex surface design, in particular spherical. Stellarmatur according to claim 8, characterized in that the second surface is designed as a conical or frusto-conical recess.

Images