FI66066C - TRYCKREDUCERINGSVENTIL - Google Patents

Description

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Patent- och registrerttyrelaen 7 AmMom uttefd eeh ticl-skri * · »pubNcand 30.04.04 (32) (33) (31) Pyy *« * 7 «tuolkaua — BagM prtorfcM 22.01.75 Switzerland-Switzerland (CH) 761/75 ( 71) R. Nussbaum & Co. AG., MetalIgiesserei und Armaturenfabrik, Martin - Disteli-Str. 26, A600 Olten 1, Switzerland-Switzerland (CH) (72) Kurt Martin, Sissach, Switzerland-Switzerland (CH) (7 * 0 Oy Kolster Ab (54) Pressure reducing valveNi - Tryckreduceringsventΐ1

The invention relates to a pressure relief valve in which a valve seat, a closure body with valve rods, a diaphragm and a spring loading this partially form a unit projecting into the valve housing and interchangeably attached thereto, a pressure relief valve with a a protruding and interchangeably attached unit having an annular portion having a valve seat within it, which portion is located near the edge of the opening of the housing inlet chamber and the outlet pressure chamber separating the partition opening and which portion is connected to the portion of the unit by rods spaced apart this unit is detachably and tightly attached to the opening in the outer wall of the valve housing, whereby the valve stem is guided only by the control parts belonging to the unit.

This pressure relief valve can be used especially in sanitary installations with one pressure relief valve per floor (or e.g. for every 2: 3066 apartment) for cold water supply and another pressure relief valve for hot water supply.

In a known pressure relief valve of the above-mentioned type (Austrian Patent Publication 279,986), the closure body (control member, valve body) is guided in a hollow-cylindrical, outwardly and inwardly projecting shoulder of the valve housing movably and provided with a guide pin. Such a sealing ring, which slides on one guide surface, is prone to wear and must be replaced from time to time, which means that the unit must be replaced. If foreign objects (eg sand grains) get between the guide surfaces and tear them apart or these surfaces will be damaged by corrosion, it will not be enough to repair the unit. In most cases, the valve housing must also be separated from the connection lines for replacement or repair with a new part. This is extremely undesirable, especially during installation under plaster. The valve housing has become complicated due to the shoulder.

The invention is based on the object of creating a valve of the above-mentioned type, the housing of which is simpler and which in practice is not subject to repairs, so that it does not need to be repaired in the event of disturbances.

According to the invention, this is achieved in that the guide parts are arranged inside a part of the unit attached to the housing opening, and that the through-holes lead through the annular part and in each case one rod to a space bounded on the side of the membrane pressurized from the outlet pressure chamber.

Other special features of the valve according to the invention appear from claims 2 and 3.

In the following, the object of the invention will be described in more detail by means of the application examples shown in the accompanying drawing. The drawing shows: Fig. 1 a longitudinal section of a pressure relief valve, Fig. 2 a cross-section according to line II-II in Fig. 1, Fig. 3 a longitudinal section of a partial modification of the replaceable unit of Fig. 1 and 2, Fig. 4 a longitudinal section instead of a valve h 3 6 60 66 closure plug, Fig. 5 partial longitudinal section of a partial modification of Figs. 1 and 2 with an angle valve housing, Fig. 6 partial longitudinal section of a modification of the valve of Figs. Fig. 8 is a section of Fig. 6 with centrally fitted inlet ports, Fig. 9 is a section along the line IX-IX in Fig. 8, Fig. 10 is a modification of Fig. 8 with an additional inlet valve that closes automatically when the replaceable unit is removed, and Fig. 11 is a sectional view of Figs. 1 and 2 valve with a sleeve and a cover plate for installation under the plaster.

The pressure relief valve according to Figures 1 and 2 consists of a valve housing 1 and a valve unit 2, which partially enters the hollow space of the housing 1 and is releasably connected to the housing.

The housing 1 has an inlet connection 3 with internal threads and an outlet connection 4 with internal threads. A partition wall 5 with an opening 6 is formed in the hollow space of the housing. The space above the partition wall 5 communicates with the inlet 3, with the outlet 4 of the space below the partition wall. The outer wall of the housing has an opening 7.

The unit 2 has an annular part 8 screwed into the opening 7 in the outer wall of the housing 1 and sealed with a ring seal 9. The unit 2 comprises a valve seat 10, a closure body 11 with a valve stem 12, a diaphragm 13 and a helical spring 14 loading it. to a part 15, the outer surface of which is in the opening 6 of the inner partition wall 5 of the housing space and sealed thereto by means of a sealing ring 16. The annular portion 15 is connected to the portion 8 by spaced rods 17. Through holes 18 lead through the annular portion 15, each through one rod 17 and through the portion 8 from above to the space 19 enclosed by the membrane 13 (in the example shown, the outer portion of the annular portion 15 is and formed in one piece with part 8). The valve stem 12 is fixedly connected to a piston 20 which is movably guided in a guide sleeve 21 of 60066 and which is secured against rotation. The guide sleeve 21 is screwed to the part 8. The hollow cylindrical sieve 22 acting as a filter is against the rods 17 on its underside and rests on the part 8 and the annular part 15 on the one hand. The outer edge of the membrane 13 is tightened between the part 8 and the hollow cylindrical part 23 of the housing 2. The part 23 is screwed to the part 8 with left-hand threads and is further secured with a pin so that it does not disengage from the part 8 screwed into the opening 7 with right-hand threads, especially when unscrewing the unit 2 from the opening 4, but also does not disengage from the part 8. The jacket portion 23 has a hexagon 24 formed on the outer surface and inner circumferential brushes 25 at the outer end, which have a toothed cross section. The cover 26 protecting the outer end of the spring 14 has a shoulder 27 with outer toothed circumferential brushes which engage the brushes 25 like counter-hooks. As a result, the cover 26 can be inserted into the jacket part 23, after which it can no longer be removed. In order to obtain different prestressions with springs with different spring constants, spacer rings 28 are placed between the protruding edge of the cover 26 and the outer front surface of the sheath part 23.

In order to control the valve only by the pressure reduced by the valve and acting on the diaphragm 13, a second diaphragm 29 is arranged on the closure body 11 and connected to the valve stem 12 as well as from the outer edge to the sleeve 12. This second diaphragm 29 is in the closed valve position 21 against the subpage. The outer diameter of the surface loaded by this second membrane 29 (valve inlet pressure) is equal to the inner diameter of the seat 10. This ensures that the valve inlet pressure on the second diaphragm 29 and the closure body 11 connected by the valve stem 12 causes two opposite equal forces and thus has no effect on the control event, without it being necessary to dimension the loaded surface of the first diaphragm 13 much. greater than the surface of the closure body 11 loaded by the inlet pressure.

Since in use of the valve the part of the fluid immediately adjoining the second diaphragm 29 is somewhat away from the flow path passing from the inlet 3 through the filter screen 22 between the rods 17 and 5 through the annular space between the seat 10 and the closure 11, the pressure acting on the second diaphragm 11 should follow the closure 11 changes in effective pressure only in slow motion. To prevent this, a funnel-shaped flow piece 30 is provided, the larger opening of which abuts the second diaphragm and the smaller opening surrounds the valve stem 12 at some distance. In this case, the smaller opening is affected by suction, which causes the pressure on the second diaphragm 29 to be similarly dimensioned. monitors changes in the flow pressure acting on the closure body 11 practically immediately.

The valve unit 31 illustrated in Fig. 3 can be used instead of the unit illustrated in Fig. 1 together with the housing 1 or in connection with the housings illustrated in Figs. 5 to 9. This unit 31 has a cover 32 with serrated cross-sectional circumferential sets on the outside, spaced from the outer end of the sheath part 23 to support the outer end of the spring 14. The valve stem 12 is movable through the central opening 33 of the cover 32 and is provided at the free end with a shoulder 34 which moves in the cavity 35 of the plug 36 in a limited axial manner. The plug 36 is screwed into the sheath portion 23 and has an outer and an inner hexagon 37 and 38 for engagement with a key. By screwing the plug 36 partially from the jacket portion 23, the valve can be brought into the closed position and secured thereto, while the bottom surface of the cavity 35 is raised so as to engage the shoulder 34 to press the closure body 11 against the valve seat 10. In this way, the valve can be closed by the unit 31 (regardless of the pressure conditions) if desired, for example to make repairs to the parts connected to the outlet side of the valve, for which an additional shut-off valve has hitherto been necessary.

According to Fig. 4, instead of unit 2 or 31 (Fig. 3), a screw plug 39 is screwed into the opening 7 (Fig. 1 and 2) of the valve housing 1. This screw plug is used when the plant in which the described valve is installed is tested with overpressure (so-called "extrusion"). ), which is substantially higher than the inlet pressure setpoint for which the valve is rated. Until now, in such cases, the pressure relief valves had to be removed and replaced with short pieces of pipe shoes. Not only was this cumbersome, but testing 6 6066 thus did not extend to the line connections of the pressure relief valves.

Valve housing 1 (Figs. 1, 2 and 4) qn in external and internal shape like a standard straight valve. However, the valve housing may also be an angle valve housing 40 according to Fig. 5, which has the external and internal shape of a conventional angle valve and the outlet connection of which is described by reference numeral 41.

Figures 6 to 9 show valves of the type described above, but with sockets 42 or 47 having a plurality of outlet connections 42 to 46 in Figures 6 and 7 or 48 to 51 (inlet connection 52) in Figures 8 and 9.

In the valve embodiments described so far, in order to change the valve unit to another, the shut-off valve in the inlet line must first be closed. Fig. 10 illustrates an embodiment of the present pressure relief valve in which, at the inlet of the hollow space of the valve housing, a second valve seat 53 is provided on a abutment surface 54 remote from the hollow space. The second closure body 55 is under a second spring 56 which tends to keep this closure 55 open position. However, the part 57 fixedly connected to the valve unit (otherwise corresponding to unit 2 or 31) presses the piston 58 of the closure body 55 and holds the body against the action of the spring 56 in the open position. The threads of the opening of the valve housing 47 and the external threads of the unit part adhering thereto have such an axial length that when the unit is unscrewed from the opening 7, the second closure 55 first presses tightly against the second seat 54 and only then the unit disengages from the opening 7. It is not necessary to remove the unit first. a shut-off valve in the inlet line of the pressure relief valve. Otherwise, the valve housing of Figure 10, such as Figures 8 and 9, has one inlet port 52 and a plurality of outlet ports 48 ... 51.

According to Fig. 11, for example, a valve made as in Figs. 1 and 2 is provided with a sleeve 59 which engages in the part projecting from the valve housing of the valve unit for installation under plaster. At the outer end of Hollein 59, a cover plate 60, the inside of which is shaped to receive the closure plug 39 described in connection with Figure 4, can be reliably used to close the opening briefly if the valve unit is out of order and spare parts are not immediately available and the plant should be operated without pressure reduction.

Claims (5)

7 6 6066 A pressure relief valve, wherein the valve seat (10), the closure body (11) with the valve stems (12), the diaphragm (13) and the spring (14) loading it form a unit (2) protruding into the valve housing (1) and replaceably attached thereto, having an annular part (15) with a valve seat (10) inside, which part (15) is located near the edge of the opening (6) of the inlet pressure chamber and the outlet pressure chamber (5) separating the housing (1) and which part (15) is at a distance connected to a part (8) of the unit (2) by means of matched rods (17), to which part (8) this unit (2) is detachably and tightly fixed to the opening (7) of the outer wall of the valve housing (1), whereby the valve stem (12) is guided guide parts (20, 21) belonging only to the unit (2), characterized in that the guide parts (20, 21) are arranged inside the part (8) of the unit (2) fixed to the housing opening (7), and that the through holes (18) lead to the annular part (15) and in each case one rod (17) ka into a space (19) bounded on the side of the membrane (13) which is pressurized from the outlet pressure chamber. A valve according to claim 1, having an inlet pressure to compensate for the force acting on the closure body (11), only a second diaphragm (29) loaded by the inlet pressure, fitted between the first diaphragm (13) and the closure body (11) and fixedly connected to the valve stem (12) ), characterized in that the guide parts (20, 21) which guide the valve stem (12) are arranged between two diaphragms (13, 29) fixedly connected to the valve stem (12) and which slide directly against each other. A valve according to claim 1 or 2, comprising an outer housing jacket (23) surrounding the spring (14) and a spring (14) supporting the spring (14) in a hollow cylindrical part of the housing jacket (23), characterized in that the lid (14) 32) spaced from the outer end of the hollow cylindrical jacket portion (23) attached thereto, the valve stem (12) passes through the opening (33) of the movable cover (32) and its free end is provided with a stop (34) limited to the hollow cylindrical in the cavity (35) of the plug (36) screwed to or on the jacket part (23) so that the closure body (11) can be pressed against the valve seat (10) by means of the screw movement of the plug (36) (Fig. 3). 9 6. O 6 6