FI109930B - Diaphragm-controlled differential pressure relief valve - Google Patents

Description

109930

The present invention relates to a diaphragm differential pressure relief valve for use in heating systems, which comprises a valve chamber having an inlet port with an inlet port for discharge and discharge ports, , and having a diaphragm-loaded diaphragm, the outer edge of which is firmly pressed between the lower part of the diaphragm housing and the lid, said diaphragm casing being centered by a valve stem connected to a sealing part separating the inner and outer the diameter of the diaphragm of the valve housing, which is located between the inlet and outlet passages, is only up to about 20% smaller than the length of the valve chamber.

20 For example, EP 0 405 339 A2 discloses a differential pressure valve having a valve chamber having an inlet and outlet and valve seat and a diaphragm housing having a base at the bottom for mounting to the valve chamber! :: for the base while simultaneously forming a through-pass for the valve stem, which is connected to the diaphragm 25 and supports the closure part.

The valve stem has a hollow structure. It contains a pass - through •. ··. ·. in the area of the corridor that connects the interior of the valve chamber * Iti to the interior of the chamber, and in the area of the diaphragm it is provided with a large. . in the cavity in which the setting spring is disposed. A control device is located in the central extension of the cover • · · · · 30 to adjust the force of the spring and either limit the movement of the closing member or close the valve completely. This configuration is large in overall length and takes up a lot of space when installed.

The present invention is based on how the above-mentioned * · '* differential pressure valve can be implemented in such a way that it requires little space.

109930 \

Said problem is solved according to the present invention in that the lower part of the diaphragm housing is formed by the upper part of the valve chamber limiting the through-passage of the valve and that the pivoting edge of the valve chamber engages over the lid edge 5.

In said configuration, a separate diaphragm housing and connection between the housing and the valve chamber are not necessary. As a result, overall length is reduced and manufacturing and installation costs are also reduced.

When the diaphragm diameter is only up to 20% smaller than the length of the valve chamber measured between the inlet and outlet, almost the entire length of the valve chamber is accessible to the lower portion 15 of the diaphragm housing. Thus, sufficiently large films can be used.

The inner surfaces of the lower part and the lid are preferably parallel. In this way, a very shallow film is obtained which allows a further reduction in overall height.

In the preferred embodiment, the valve seat may be located at a distance from the diaphragm and the valve stem may pass through the valve. through the brick seat, guiding the valve chamber passage and: in the diaphragm housing, connecting to the diaphragm. The resulting function of the valve · 1 · .. is suitable, for example, for use in a differential pressure valve installed in the supply pipe of the heating system.

t: In this case, it is recommended that the valve chamber include a mounting opening on its side farther away from the diaphragm; 1 which receives the closure member and can be closed by the plug member | t | 1. This provides a very simple installation of the closure part.

• · · • · '.35 Additional advantages are achieved because the adjacent diaphragm portion of the * 1 valve stem passes sealed through a passageway in the valve chamber having a diameter equal to the inside diameter of the valve seat, and the valve stem portion adjacent the closure portion 3 like a corridor. This type of dimensioning allows a pressure relief valve to be realized.

In accordance with the further development of the invention, it is preferred that the valve chamber include, on its side away from the diaphragm, an actuator which is manually operated from the outside to limit movement of the closure or to close the valve. The said drive does not hit the film. It can directly affect the closing member. In addition, it can be connected to the plug-in closure of the installation opening.

Preferably, the valve chamber includes an opening that connects the internal pressure chamber to the interior of the valve. The internal pressure chamber 15 thus functions as a self-pressure chamber. For this purpose, the valve stem does not need to be fitted with pipes.

It is also advantageous that the mouth of the pressure line connection is placed in the cover so that it can be closed by a film. When the outer pressure chamber 20 is opened with a differential pressure valve installed, for example, to change the setting spring, sealing occurs automatically • t · · 1 '. The extruded film separates the outer pressure chamber <»; * ·· Inside the valve and also closes the pressure line connection.

25 It is recommended that the spring housing be removed and that the spring pressed against its end be replaced. This provides a very simple structure in which the desired values can be obtained simply. . changing the spring.

3 0 ·; It is also recommended that in this case the cover shall contain: an adjusting spring guiding neck portion, outside of which the spring housing is mounted. The neck therefore has two functions.

; '. 3 According to another preferred alternative, the spring housing is • constructed in one piece with the lid, and includes an externally pivotable adjusting pin for axially adjusting the support member for the spring. The maize, 109930 4 is supported so that it cannot rotate. At this point, the setpoint can be continuously changed.

The present invention will now be described in more detail with reference to the drawings illustrating preferred embodiments, in which Figure 1 is a longitudinal section through a first embodiment of a differential pressure valve according to the present invention; and Figure 2 is a longitudinal sectional view of a modified embodiment.

10

The differential pressure valve illustrated in Fig. 1 comprises a valve chamber 1 having an inlet 2 and an outlet 3 and a valve seat 4. The upper part of the valve chamber 1 forms the lower part of the diaphragm housing 6 which extends substantially over the entire axial length 15 of the valve chamber 1. The diaphragm 7 is firmly pressed on its outer edge 8 between the lower part 5 and the lid 9, the pivoting edge 10 of the valve chamber 1 extending over the edge of the lid 9. The facing surfaces of the lower part 5 and the lid 9 are parallel.

20

The diaphragm 7 divides the diaphragm housing 9 into an internal pressure chamber 11 which is: "· in communication with the external inner chamber 13 of the valve chamber 1: * ·. through an opening 12 in the chamber wall, and an outer pressure chamber! a nozzle 14, which is connected to the pressure transducer 16 by means of the pressure line connection 15. The mouth 17 of the pressure line is located on the cover 9; with a flat part where it can be covered and thus closed, ··, ·. the diaphragm 7. The other end of the setpoint spring 18 rests against the end surface 19 of the spring housing 20 while the other end acts on the diaphragm plate. . 21. The adjusting spring 18 is guided by a neck portion 22 having an outer surface of a thread 30 for screwing into the screw housing 20. ··· 'In this way, the setting spring 18 can be changed to produce a certain desired value.

* · • ·, ·. The central portion of the diaphragm 7 is firmly pressed between the stiffening plate 24 of the diaphragm plate 21 and 35, the screw 25 holding the two discs 21 and 24 facing the valve stem 26. At its opposite end, the valve stem 26 includes a closure portion 27 which cooperates with the valve seat 4. The end of the valve stem 2 6 adjacent the diaphragm 7 is guided through the opening 28 to the valve chamber 1, where it is sealed by a gasket 29. The diameter of said opening 28 is equal to the inside diameter of the valve seat 4. The opening 28 and the valve seat 4 5 can be drilled simultaneously. The portion of the valve stem 26 adjacent the closure portion 27 has a smaller cross-section than the opening 28. In this way, a pressure relief valve is provided.

On the side of the valve chamber opposite the diaphragm, there is a mounting opening 31 which can be closed by a screw-in insert 32. The insert is located in the actuator 33 which can be screwed into place by a rotatable knob 34 and is thus axially displaceable. By using said actuator 33, the movement of the closing member 27 can be limited and, if desired, the valve can be completely closed.

For mounting, the diaphragm 7 is placed together with the diaphragm plate 21 and the stiffening plate 24. The spindle 2 6 of the valve 20 is then passed through the mounting opening 31 and is connected to the center of the diaphragm by a screw 25. The insert 32 is then screwed into the mounting opening 31 and the cover 9 is inserted and secured by pivoting over the pivoting edge 10. With the desired setting spring. :: 18 has been selected, the spring housing 2 0 can be screwed into place.

If desired, valve spindle 26 need not be installed before cover 9 is connected to lower part 5.

The spring housing 20 may also be removed during operation. Slide 7,. prevents water from escaping from the inside of the valve, and covering the mouth 17 * .. 3 0 prevents water from escaping from the pressure transducer 16.

The application of Figure 2 differs from the application of Figure 1 only in the structure of the cover 35. The deck is built as one. complete with spring housing 36. Adjusting spring 37 leans on heel; * 35 inches against 3 8; said support member is held in place by a "·" · so that it cannot rotate and is axially adjustable by means of an adjusting pin. For this purpose, the adjusting pin 39 is provided with a hexagonal sleeve 40 6 for 109930 rotation and an external thread 41 for axial displacement of the support member 38. Such a setting spring 37 can be continuously adjusted.

5 In both applications, the internal pressure chamber 11 forms a self-pressure chamber which is actuated by the discharge pressure of the valve. Such a valve can be installed in particular in the supply pipe of the heating system when supplying a return pressure to the upper pressure chamber 14. However, the basic idea 10 of the present invention can also be utilized for differential pressure valves where the inlet pressure acts on the inner pressure chamber 11, such as valves located in the return line of the heating system.

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Claims (11)

A diaphragm regulated differential pressure water valve intended for use in heating systems, comprising a valve housing (1) between whose inlet and outlet ducts (2, 3) has been placed a through-flow duct in which a valve seat (4) has been placed which cooperates with a locking member (27), which comprises a diaphragm (7) rechargeable (7), the outer edge (8) of which is firmly pressed between the lower part (5) and the cover (9) of a membrane housing (6) , wherein the middle portion of said diaphragm housing is joined by a valve spindle (26) at the locking member (27) which separates an inner and an outer pressure chamber (11, 14) from each other, the lower part of the diaphragm housing being integrally formed with the valve housing and in such a way that the lid includes a spring housing (20) in which the tension spring has been placed, and the diameter of the diaphragms is only at most about 20% less than the length of the valve housing measured between the inlet and outlet ducts, characterized in that the diaphragm housing The lower part (5) of the set (6) is formed by the upper part of the valve housing (1) which restricts the passage through the valve, and that a pivoting edge (10) at the valve housing is coupled to the lid (9) over the lid edge. • «t · • ·; ·. Valve according to claim 1, characterized in that the internal •. the portions at the lower portion (5) and the lid (9) run parallel to each other in parallel. «· * I« · i · I Valve according to claim 1 or 2, characterized in that the seat (4) of the valve (4) is far from the diaphragm and that the spindle (26) runs through the valve seat (4). from where it is guided in a shark (28) in the valve housing (1) and where ** ': it has been connected to the membrane housing (6) of the diaphragm (7). Valve according to any of claims 1-3, characterized in that the valve housing (1) includes, at the side located: further away from the diaphragm (7) a mounting opening (31) which receives the locking part (27) and which can be closed. by means of an insert part (32). 10 Valve according to any one of claims 1-4, characterized in that a portion of the valve spindle (26) located adjacent the diaphragm (7) runs sealed through an opening (28) in the valve housing (1), the diameter of said aperture is as wide as the inner diameter of the seat (4) of the valve, and that the portion of the spindle (26) located next to the locking member (27) has a smaller cross-section than the aperture. Valve according to any of claims 1-5, characterized in that the valve housing (1) includes, at the side further away from the diaphragm (7), an operating device (33) which is used manually from outside to limit the movement of the locking member (27). or to close the valve. Valve according to any of claims 1-6, characterized in that the valve housing (1) comprises an opening (12) which joins the internal pressure chamber (11) with the inner part (13) of the valve. Valve according to any of claims 1-7, characterized in that the mouth opening (17) is placed in the cover (9) in a pressure line connection (15) in such a way that it can be closed by means of the diaphragms (7). 9. Valve according to any one of claims 1-8, characterized in that the spring housing (20) is removable and that the tension spring (18) leaning against the end surface of the spring housing is interchangeable. 10. Valve according to claim 9, characterized in that the cover (9) comprises a neck part (22) which controls the tension spring (18) and • on which the outer surface of the spring housing (20) is fixed. . Valve according to any of claims 1-10, characterized in that the spring housing (36) is made integrally with the cover (35) and comprises a control pin (39) which can be rotated from the outside and with which a supporting element (38) ) which is: intended for the spring (37) can be adjusted axially; said support element is poured in such a way that it will not rotate.