SE509575C2 - Diaphragm-controlled valve - Google Patents

Abstract

A diaphragm-controlled valve having a valve housing (1), in which a diaphragm (6) is also arranged. A central pipe (9) which forms part of the flow path, passes through the diaphragm (6). The valve seat (11) is provided at one end of the central pipe (9). Its other end is sealed with respect to the valve housing (1). This produces a compact and inexpensive construction.

Description

In this construction no diaphragm capsule is required, since all parts of the diaphragm-controlled valve are arranged in the valve housing. In the simplest case, the central tube itself forms the valve seat. The seal at the other end allows the back pressure chamber, which surrounds the central tube, to be securely separated from the flow path. In addition, the required total number of parts is reduced and subsequent steps to establish the connection between the diaphragm capsule and the valve housing are avoided. This enables the manufacturing costs to be significantly reduced. A further advantage is that the diaphragm is effective in the immediate vicinity of the valve opening and relatively long power transmission paths, which are prone to disturbance, are avoided.

There are significant advantages when the valve housing consists of two parts which fixedly clamp between the outer edge of the diaphragm, one part of which has the inlet and the other part the outlet. Before the two parts are assembled, the individual components can be installed very easily. When the two parts are joined, the membrane is simultaneously clamped at its edge.

Inlet, outlet and central pipe are advantageously arranged with their axes in line, and their axes run perpendicular to the diaphragm. This gives the lowest losses resulting from indirect paths and also a very compact construction.

A preferred embodiment provides for the central pipe to be built into the housing and to have guided on its outside a control sleeve which is connected to the diaphragm and to the closing element. This construction is particularly suitable for the application in which the valve is arranged in the supply line for a heating circuit with hot water. The self-pressure chamber is located at the outlet side of the valve. 2297 3A. DOC; 97-6-16 10 15 20 25 30 35 509 575 e ~ The control sleeve preferably has a flange to form a membrane plate. No separate component is therefore required for this membrane plate, which is a standard reinforcement.

It is also advantageous for a carrier of the closing element, which carrier has through openings beyond the closing element, to be secured to the control sleeve. The medium leaving the valve opening can flow further by means of the through-openings. The closing element can nevertheless be securely connected to the control sleeve.

It is also recommended that the spring surrounds the central tube and is attached between the control sleeve and a support built up in the housing.

This provides a design of short axial length and with high operational reliability.

In another preferred embodiment, measures have been taken for the central pipe to be movably arranged in the valve housing and to be connected to the diaphragm and for the closing element to be fixed in the direction. This construction is especially suitable for a valve arranged in the return line of a heating system, since the self-pressure chamber is located on the inlet side of the valve.

A carrier for the closing element is advantageously axially guided in the valve housing, is held by the spring surrounding the central pipe towards a fixed stop and is provided with through-openings beyond the closing element. The medium flowing to the valve opening can here be transported through the through-openings. The fact that the closing element is held in position only by applied force facilitates assembly.

A further simplification is achieved in that the central tube has an outer flange against which the spring abuts and to which the diaphragm is attached. 22973A. DOC; 97-6-16 10 15 20 25 30 35 509 575 It is also advantageous when the carrier of the closing element has an inner flange against which the spring abuts and whose inner circumference controls the central tube. The carrier thus assumes additional functions here.

In a further development of the invention, an adjusting plug rotatable from the outside is arranged in the valve housing near the closing element, which plug has a profiled surface so that when rotated it displaces the closing element. The setting plug in particular allows the valve to close as desired. Hardly any additional space is required for this.

In addition, it is possible for the profiled surface to form the fixed stop for the carrier of the closing element.

The setting plug has a double function in this respect.

Furthermore, it is advisable to arrange a pin pressed into the valve housing, which pin cooperates with a stop surface on the adjusting plug in order to limit the angle of rotation. This limits the angular rotation range of the setting plug, so that different basic settings of the closing element can be achieved.

The invention is explained below in more detail with reference to preferred embodiments illustrated in the drawing, wherein: Fig. 1 is a longitudinal section through a first embodiment of a valve according to the invention, and Fig. 2 is a longitudinal section through a second embodiment.

Fig. 1 shows a diaphragm-controlled differential pressure valve which is intended for installation in a supply line of a heating system. A valve housing 1 consists of two parts 2 and 3 which are held together 229739 .. DOC; 97-6-16 10 15 20 25 30 35 509 S75 with the edge 5 of a diaphragm 6 between them of a clamping ring 4.

The shafts of an inlet 7 in part 2 and an outlet 8 in part 3 and the shaft of a central pipe 9 are aligned with each other, the shafts being perpendicular to the diaphragm 6.

The central pipe 9 forms part of a flow path between the inlet 7 and the outlet 8. At one end it is fixedly mounted in the housing 1 with a seal 10 between it and the housing. The other end forms a valve seat 11 which together with a closing element 12 forms an adjustable valve opening 13.

A control sleeve 14 is axially displaceable on the central tube 9. The sleeve has a flange 15 which acts as a membrane plate reinforcing the membrane. A spring 16 lies at one end against the control sleeve 14 and at the other end against a stop 17 of the central tube 9. A carrier 18 for the closing element is attached to the control sleeve 14 and at the same time fixedly clamps the inner edge of the membrane. The carrier 18 for the closing element also holds a sealing ring 19 fixed to form a seal relative to the central pipe 9. Beyond the sealing element 12 there are through-going openings 20 for passage of the flow medium.

Inside the valve housing 1 there is a self-pressure chamber 21, the pressure of which acts on the right side of the diaphragm 6 in Fig. 1, and a counter-pressure chamber 22 in which the spring 16 is arranged. This back pressure chamber can be supplied with a control pressure by means of a connection 23, e.g. the return pressure for the heating system. The valve opening 13 therefore occupies a size at which the pressure difference is kept at a value preset by the spring 16.

An adjusting plug 24 is inserted in the valve housing 1 so that its axis is parallel to the diaphragm 6. Its two ends 25 and 26 are of cylindrical construction. The end 25 is provided with a seal 27 and a screw head 28 with a hexagon socket so that the adjusting plug 22 973.5 .. DOC: 97-6-16 10 15 20 25 30 35 509 575 can be rotated until it engages with a stop surface 29 on a pin 30 pressed into the valve housing 1. Between the two cylindrical ends 25 and 26 there is a profiled surface 31 which comes into contact with the carrier 18 for the closing element when turning the adjusting plug 24. In this way the closing element 12 can be displaced as desired all the way to its closed position.

Fig. 2 illustrates a valve that can be inserted into a heating system return line. Reference numerals increased by 100 have been used for corresponding parts. The essential difference is that the self-pressure chamber 121 is connected to the inlet 107 and is therefore located on the left side of the diaphragm 106, while the counter-pressure chamber 122 is connected to the line connection 122, which is fed e.g. with the inlet pressure, is located on the right side. To achieve this, the central tube 109 is movably held in the valve housing 101 and connected to the diaphragm 106. The central tube 109 has an outer flange which serves to support the spring 116, together with a diaphragm plate 132 fixedly attached to the inner edge of the diaphragm 106. , and cooperates with a stop 133 built into the housing, in order to form the end position of the valve seat.

The carrier 118 for the closure element has an inner flange 134 against which the spring 116 abuts and which guides the central tube 109 with its inner circumference. By means of the spring force, the carrier 118 for the closing element is pressed against the profiled surface 127 of an adjusting plug 124 providing a fixed stop 135. The carrier 118 for the closing element is controlled with its cylindrical outer surface in an insert 136 which has been pressed into the valve housing 1.

In this construction, the valve opening 113 sets itself to a value at which the pressure difference acting on the diaphragm 106 is the same as a value preset by the spring 116. 22973A. DOC; 97-6-16 5:19 575 -9 The actual spring force can be changed by turning the setting plug 124. Here, too, the valve can be closed completely using the setting plug. 22973A. DOC; 97-6-16

Claims (11)

10 15 20 25 30 509 575 PATENT REQUIREMENTS Diaphragm-controlled valve, in particular a differential pressure-controlled valve for a radiator heating installation with hot water, with a valve housing (1), which between an inlet (7) and an outlet (8) has a flow path and a valve opening (13) between a valve seat (11) and a closing element (12), with a spring-loaded diaphragm (6) for adjusting the valve opening, which diaphragm is attached to its outer edge (5) between housing parts (2, 3; 102, 103) forming a diaphragm capsule in which a central tube (9) is arranged perpendicular to and through the diaphragm, which forms a part of the flow path and is concentric with the shaft between the inlet and outlet of the valve, said tube (9) supporting the valve seat at one end and wherein the other end of the tube is arranged sealingly relative to the valve housing, characterized in that the diaphragm is mounted between two parts (2, 3) of the valve housing (1), which diaphragm separates two chambers, one chamber being a back pressure chamber (22, 122) as above a pipe connection can affect the diaphragm depending on the pressure of the heating medium at a pressure point in the installation, and the second chamber is a pressure chamber (21, 121) responsive to the pressure at one of the valve openings, and the central pipe on its outside carries a guide sleeve ( 14, 118) which may be axially slidably movable on the tube to support the relative movement between the tube (9) and the diaphragm (6) and between the tube (9) and the housing (191), respectively. Valve according to claim 1, characterized in that the central pipe (9) is fixedly mounted at one end in the housing (11) with a seal between the pipe and the housing and has guided on its outside a control sleeve (14) which is connected to the membrane (6) and to the closing element (12). 229735. DOC; 1998-11-03 10 15 20 25 30 35 509 575 Valve according to claims 1 and 2, characterized in that the control sleeve (14) has a flange (15) for forming a diaphragm plate. Valve according to Claim 3, characterized in that a carrier (18) for the closing element with through-openings (20) beyond the closing element (12) is fastened to the control sleeve (14). Valve according to one of Claims 2 to 4, characterized in that the spring (16) surrounds the central tube (9) and is fastened between the control sleeve (14) and a support (17) arranged in the housing. Valve according to claim 1, characterized in that the central pipe (109) is movably arranged in the valve housing (101) and is connected to the diaphragm (106) and that a carrier (118) for the closing element is axially guided in the valve housing (101). , is held by the spring (116) surrounding the central tube (109) against a fixed stop (135) and is provided beyond the closing element (112) with through openings (120). Valve according to claim 6, characterized in that the central tube (109) has an outer flange (115) against which the spring (116) abuts and to which the diaphragm (106) is attached. Valve according to Claim 6 or 7, characterized in that the carrier (118) for the closing element has an inner flange (134) against which the spring (116) abuts and the inner circumference of which guides the central tube (109). Valve according to one of Claims 1 to 8, characterized in that a setting plug (24; 112) is arranged in the valve housing (1; 101) near the closing element (12; 112) and is rotatable from the outside, which plug has a profiled surface (27: 22973B.DOC; 1998-11-03 10 509 575 10 127) so that when rotated it displaces the closing element (12; 112). Valve according to claims 8 and 9, characterized in that the profiled surface (127) forms the fixed stop (135) for said carrier (118). Valve according to claim 9 or 10, characterized by a pin, a pin pressed into the valve housing (1), which pin cooperates with a stop surface (29) on the setting plug (24) in order to limit the angle of rotation. 229738. DOC; 1998-11-03