RU2137004C1 - Valve controlled by means of diaphragm - Google Patents

Abstract

FIELD: applicable for maintaining a definite differential in water radiator heating systems. SUBSTANCE: positioned between inlet and outlet ports 7 and 8 of valve body 1 in central pipe 9 passing through diaphragm 6 and forming part of the passage for flow. Valve seat 11 is located on one end of pipe 9 for forming hole 20 with shut-off member 12. Shut-off member 12 is attached to diaphragm 6 squeezed over the external edge between the two parts of body 1 with formation of pressure chamber 21 and backpressure chamber 22. Backpressure chamber 22 is connected through pipe-line 23 to the point of measurement of heat-transfer agent pressure in the installation for influence of the mentioned pressure on diaphragm 6. Pressure chamber 21 responds to the pressure at one of the valve ports. Installed on the outer surface of central pipe 9 is control bush 14 connected to diaphragm 6 and shut-off member 12 and sliding on pipe 9. EFFECT: improved compactness and reduced cost. 11 cl, 2 dwg

Description

 The invention relates to a valve controlled by a diaphragm, in particular to a valve controlled by a differential pressure, designed for a water radiator heating installation, in which the valve body between the inlet and the outlet has a flow channel for flow and a valve hole located between the valve seat and a locking element, the valve comprising a spring-loaded diaphragm for regulating the opening of the valve, clamped along the outer edge between the parts of the housing, in which on the central pipe, which passes through the diaphragm perpendicular to it, which forms part of the flow channel, which is located concentrically to the axis between the inlet and outlet openings of the valve, at one end of which there is a valve seat, and the other end of which is fitted with an interference fit relative to the valve body.

 In radiator installations, it is common practice to use a diaphragm controlled valve to maintain a certain pressure drop between the inlet and outlet openings of a number of radiators.

 EP 0 002 935 B1 discloses a diaphragm-controlled valve, in particular a pressure-controlled valve comprising a valve body between which the inlet and outlet openings are provided with a flow passage, a valve seat and a spring-loaded shut-off element a diaphragm for regulating the opening of the valve, which is clamped at its outer edge between the two parts of the valve body and forms with the latter a pressure chamber and a backpressure chamber in which it is concentric relative to the axis between the inlet th and outlet valve body is a central tube passing through the aperture perpendicular thereto and forming part of said channel for passage of the flow, one end of the pipe mounted in the housing with an interference fit, and the valve seat is arranged at its other end to form a valve hole with a locking element. However, the known valve is not suitable for regulating the differential pressure in the heating system, since it simply controls the fluid flow passing through the pipe 10 by determining the differential pressure that occurs when the flow passes through the restriction, and the effect, depending on this differential pressure, on the safety valve (52, 72) in the closing direction, when the pressure in the pipe (12) at the inlet to the restriction in the flow direction, acting in the diaphragm chamber (22) through the hole (12), exceeds the pressure at the outlet of narrowing and, accordingly, in the chamber (24) plus the force of the spring 74.

 It is an object of the present invention to provide a differential pressure controlled valve similar to that mentioned in the introductory part of the description, which can be used to maintain a constant differential pressure between the inlet and return side of the radiator installation, to facilitate adjustment and to provide an adequate flow of hot water to other groups of radiators connected to the same source of hot water. In addition, the proposed valve should be more compact and cheaper than commonly used.

 The solution to this problem is provided by creating a valve controlled by a diaphragm, in particular a pressure controlled valve, designed for a water radiator heating installation containing a valve body, between the inlet and outlet openings of which a channel for flow passage, a valve seat and a shut-off element are made with a spring loaded diaphragm for regulating the opening of the valve, which is clamped at its outer edge between the two parts of the valve body and forms a chamber with the latter pressure and a backpressure chamber, in which a central pipe is located concentrically with respect to the axis between the inlet and outlet openings of the valve body, passing through the diaphragm perpendicular to it and forming part of the channel for the passage of flow, and one end of the pipe is installed in an interference fit, and the valve seat is located on its other end with the possibility of forming a valve opening with a locking element, while the backpressure chamber is connected by a pipe connection to the point of measurement of the pressure of the coolant in installation with the possibility of the specified pressure acting on the diaphragm, and the pressure chamber responds to the pressure at one of the valve openings, and on the outer surface of the central pipe there is a control sleeve with the possibility of axial movement along the pipe with sliding to ensure relative movement between the pipe and the diaphragm and between pipe and body.

 Due to the fact that the backpressure chamber is connected by a pipe connection to the measuring point of the coolant pressure in the installation with the possibility of the specified pressure acting on the diaphragm, and the pressure chamber responds to pressure at one of the valve openings, as well as to the fact that a control sleeve with the possibility of movement in the axial direction along the pipe with sliding to ensure relative movement between the pipe and the diaphragm and between the pipe and the housing, the proposed the valve can be used to maintain a constant pressure differential between the inlet and the return side of the radiator installation, which facilitates adjustment and provides a sufficient flow of hot water to other groups of radiators connected to the same source of hot water. Such a valve achieves a highly integrated design where the valve device is located in the diaphragm region. In addition, with this design, no diaphragm compartment is required, because all parts of the membrane-controlled valve are located in the valve body.

 In the proposed valve, the central pipe at one end can be fixedly mounted in the housing with a seal between it and the housing, and the control sleeve can be connected to the diaphragm and to the locking element. This design is especially suitable when the valve is installed in the inlet pipe of the water heating circuit. A chamber under its own pressure is located on the outlet side of the valve.

 The control sleeve may have a flange for forming a diaphragm plate, therefore, no separate elements are required for this diaphragm plate, which is a conventional reinforcement.

 A locking element holder having through holes behind the locking element can be attached to the control sleeve. Substances exiting the valve opening may flow further through the through holes. The locking element can nevertheless be reliably attached to the control sleeve.

 A spring may surround the central tube and be sandwiched between the control sleeve and the stop integrated in the housing. This provides a device with a small axial length having high operational reliability.

 The central pipe can be installed in the valve body with the possibility of movement and connected to the diaphragm, and the locking element can be fixedly fixed. This design is particularly suitable for installing the valve in the return pipe of the heating system, because the chamber, which is under its own pressure, is located on the inlet side of the valve.

 The holder of the locking element can be provided with through holes for the locking element, made with the possibility of movement along the axis of the housing and held by the spring surrounding the Central tube, at a hard stop. The substance flowing into the valve opening can be moved here through the through holes. The fact that the locking element is held in place only due to the applied force facilitates assembly.

 The central tube may have an external flange on which the spring rests and to which the diaphragm is attached.

 The holder of the locking element may have an inner flange on which the spring rests and whose inner circumference guides the central pipe. Thus, the holder of the locking element performs here additional functions.

 In the valve body near the locking element, an adjustment rod can be mounted rotatably from the outside, which has a profiled surface, so that during rotation it biases the locking element. The adjustment rod in particular allows the valve to be closed in accordance with the requirements. For him, almost no additional space is required.

 The profiled surface may form a hard stop for the holder of the locking element. The adjustment rod has a dual function in this regard.

 The valve may include a pin, pressed into the valve body and interacting with the thrust surface on the adjustment rod to limit the angle of rotation. This limits the range of the angle of rotation of the adjustment rod, so that various basic settings of the locking element can be obtained.

The following is a more detailed explanation of the invention with reference to the drawings of preferred embodiments, in which:
FIG. 1 is a longitudinal sectional view of a first embodiment of a valve according to the invention; and
FIG. 2 is a longitudinal sectional view of a second embodiment.

 Figure 1 shows a valve controlled by a diaphragm depending on the differential pressure, which is designed to be installed in the supply pipe of the heating system. The valve body 1 consists of two parts 2 and 3, which are fastened together, with the diaphragm 6 edge 5 located between them, a crimping ring 4. The axis of the inlet 7 in part 2, the axis of the outlet 8 in part 3 and the axis of the central pipe 9 are combined on the other, the axis extending perpendicular to the diaphragm 6.

 The Central pipe 9 forms part of the channel for the passage of flow 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 the locking element 12 forms an adjustable valve opening 13.

 The control sleeve 14 has the possibility of axial displacement along the Central pipe 9. It has a flange 15, which acts as a diaphragm plate, reinforcing the diaphragm. The spring 16 is supported at one end by the control sleeve 14, and the other end by the stop 17 of the central pipe 9. The holder 18 of the locking element is attached to the control sleeve 14 and at the same time firmly clamps the inner edge of the diaphragm. In the holder of the locking element, the sealing ring 19 is also fixedly fixed to form a seal relative to the central pipe 9. Outside the locking element 12, it has through holes 20 for passing the flowing substance.

 Inside the valve body 1 there is a chamber 21, which is under its own pressure of the system, the pressure of which acts on the right side of the diaphragm 6 shown in FIG. 1, and a backpressure chamber 22 in which the spring 16 is located. A control pressure, for example, the pressure of the return line of the heating system, can be supplied to this backpressure chamber through a pipe connection 23. The hole 13 of the valve therefore assumes a size at which the differential pressure is kept near the value specified by the spring 16.

 An adjustment rod 124 is inserted into the valve body 1, so that its axis runs parallel to the diaphragm 6. Both ends 25 and 26 are cylindrical. The end 25 is provided with a seal 27 and a hexagonal socket 28, so that the adjustment rod can rotate until it engages with the locking surface 29 on the pin 30, pressed into the valve body 1. Between the two cylindrical ends 25 and 26 there is a profiled surface 31, which comes into contact with the holder 18 of the locking element as a result of rotation of the adjusting rod 24. Thus, the locking element 12 can be shifted as much as necessary to its closed position.

 FIG. 2 shows a valve that can be placed in the return pipe of a heating system. For similar parts, position numbers increased by 100 were used. The significant difference is that the chamber 121, which is under its own pressure of the system, is connected to the inlet 107 and therefore is located on the left side of the diaphragm 106, while the backpressure chamber 122 connected to the pipe connection 123, into which, for example, the pressure of the inlet line is supplied, is located on the right side. To achieve this, the central pipe 109 is movably fixed in the valve body 101 and attached to the diaphragm 106. The central pipe 109 has an outer flange that serves to support the spring 116, together with the diaphragm plate 132 firmly clamps the inner edge of the diaphragm 106 and interacts with an emphasis 133 integrated into the body in order to set the end position of the valve seat.

 The locking element holder 118 has an inner flange 134 on which the spring 116 rests and which guides the central pipe 109 with its inner circumference. Under the action of the spring force, the locking element holder 118 is pressed against the profiled surface 127 of the adjusting rod 124, which creates a hard stop 135. The locking element holder 118 is guided by the cylindrical outer surface in the liner 136, which is pressed into the valve body 1.

 In this design, the valve opening 113 itself is adjusted to a value at which the pressure drop acting on the diaphragm 106 will be equal to the value set by the spring 116. The spring force itself can be changed by rotating the adjusting rod 124. Here, the valve can also be completely closed using adjustment rod.

Claims (11)

 1. A valve controlled by a diaphragm, in particular a differential pressure controlled valve intended for a water radiator heating system, comprising a valve body between which the inlet and outlet openings are provided with a flow passage, a valve seat and a locking element with a spring loaded diaphragm for regulating the opening of the valve, the diaphragm is clamped at its outer edge between the two parts of the valve body and forms with the latter a pressure chamber and a backpressure chamber in which With respect to the axis between the inlet and outlet openings of the valve body, there is a central pipe passing through the diaphragm perpendicular to it and forming a part of the channel for flow, one end of the pipe is installed in an interference fit, and the valve seat is located on its other end with the possibility of forming a valve opening with a locking element, characterized in that the backpressure chamber is connected by a pipe connection to the point of measurement of the pressure of the coolant in the installation with the possibility of exposure to the specified pressure on the diaphragm, a pressure chamber responsive to pressure from one of the valve bores on the outer surface of the central pipe control sleeve mounted movably in the axial direction of the pipe slidably to provide relative movement between the tube and the diaphragm and between the pipe and the housing.  2. The valve controlled by the diaphragm according to claim 1, characterized in that the central pipe at one end is fixedly mounted in the housing with a seal between it and the housing and has a control sleeve directed along its outer side, which is connected to the diaphragm and to the locking element .  3. The valve controlled by a diaphragm, according to paragraphs. 1 and 2, characterized in that the control sleeve has a flange for forming a diaphragm plate.  4. The valve controlled by the diaphragm according to claim 3, characterized in that the holder of the locking element is attached to the control sleeve, having through holes for the locking element.  5. The valve controlled by a diaphragm, according to paragraphs. 2-4, characterized in that the spring surrounds the central tube and is sandwiched between the control sleeve and the emphasis built into the housing.  6. The valve controlled by the diaphragm according to claim 1, characterized in that the central pipe is movably mounted in the valve body and connected to the diaphragm, and the locking element holder is provided with through holes for the locking element and is movable along the axis of the housing and is held by the spring surrounding the center tube against the hard stop.  7. The valve controlled by the diaphragm according to claim 6, characterized in that the central pipe has an external flange on which the spring rests and to which the diaphragm is attached.  8. The valve, controlled by a diaphragm, according to claim 6 or 7, characterized in that the holder of the locking element has an inner flange on which the spring rests and whose inner circumference guides the central pipe.  9. The valve controlled by a diaphragm, according to paragraphs. 1-8, characterized in that in the valve body near the locking element is mounted rotatably mounted on the outside of the adjustment rod, which has a profiled surface, so that during rotation it biases the locking element.  10. A valve controlled by a diaphragm according to claim 6 or 9, characterized in that the profiled surface forms a hard stop for the holder of the locking element.  11. The valve, controlled by a diaphragm, according to claim 9 or 10, characterized by a pin pressed into the valve body, which interacts with the thrust surface on the adjustment rod in order to limit the angle of rotation.

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