DE2523845B1 - Two stage pressure reducing valve for bottled gas - ensures that any leakage from main stage is blocked by second stage poppet held rigidly against seat by lever - Google Patents

Abstract

A reducing valve for use with bottled gas supplies has a main high pressure stage backed up by a reducing stage in such a way that any leakage from the main stage is prevented from passing to output by the reducing stage seal. The main stage poppet (7) is spring biased (6) against the seat and is opened by axial movement of a central stem (31) by rotation of an eccentric by a lever (46). Gas passes through orifices (9) to a high pressure chamber (10) sealed by a diaphragm (11). Movement of the central stem actuates a rigid lever (19) that carries a pivotted pin (16) operating the second stage poppet (12). Reduced pressure builds up in the control chamber (30) formed between two diaphragms (11, 40).

Description

For the assembly it is useful if according to a further feature for the embodiment of the invention of

Control lever has a pin that is inserted into one end of the spring protrudes, while the other end of the spring from the also having a pin Support part is held. The driver arm can also be a limit stop for the control lever or for its upper end to ensure that the control lever and the driver arm form a virtually rigid unit in one pivoting direction, while in the opposite pivoting direction a compliance between them Elements consists of a limited change in the angle of the driver arm compared to the joystick.

A simple production results when the driver arm according to a development of the invention at least on its joint part a box or U-shaped Profii and engages around the upper end of the control lever, with the stop can be formed by an end profile end of the driver arm and advantageous to the profiled joint part of the driver arm a flat part with forked Connected end that between guide elements of the operating linkage Shank loosely gripped.

In terms of construction, it is also advantageous if the spring is essentially is arranged parallel to the flat part, which can have stiffening ribs for example, can consist of extensions of side cheeks of the joint part, between which the spring is located. Another embodiment of the invention provides that the driver arm is the spring, in particular designed as a compression spring at least partially encloses and / or to secure their position during assembly Strips, guide walls or the like. Has. The storage of the compression spring in the rigid The driver arm allows a very convenient assembly.

An important embodiment of the invention is that the The driver arm is a one-piece molded part, in particular a plastic injection-molded part, This is just as economical as it is precise with a tool created once can be produced in large quantities.

Furthermore, it is provided for a further development of the invention that at least the upper end of the control lever has flats that, for example, lead to the profile respectively.

Side cheeks of the driver arm run parallel or as contact surfaces for the spring on the one hand and for the limit stop of the control lever on the other hand can serve.

Another feature of the embodiment of the invention provides that at least the driver arm and the upper end of the control lever in the diaphragm-limited Chamber of the housing axially penetrated by the actuating linkage are arranged, so that the relevant control parts are exclusively in one room, which is in any case under greatly reduced pressure.

Assembly and function are also made easier when the chamber of the housing in addition to the pivot bearing one of the end-face termination of the driver arm Has shape-adapted surface, which may be used as a stop, guide or the like. serves.

According to a further embodiment of the invention it is provided that the chamber has a lower high pressure membrane facing the two valves as well has an upper low-pressure membrane and with the gas extraction connection via a Passage is fluidly connected through which the control lever protrudes, so that a two-stage reducing valve is formed. Instead of the well-known resilient connecting piece kes that is only within wide limits in practice, the connection takes place according to the invention of the low-pressure valve closure piece with the shut-off rod in such a way that the low-pressure valve closure piece in the closed position of the shut-off rod safety reasons with a precisely predictable pressure against the Low pressure valve seat is pressed, whereas the connection from control engineering Reasons is and remains rigid during the control process. Therefore affect those acting on the low-pressure valve closure piece, from pre-pressure, consumption pressure and power-dependent forces only the membrane to be used for control alone.

Furthermore, the housing can be a slip-on coupling in a manner known per se have, sealed by an annular seal against the valve body of the main valve his and above the latter breakthroughs for flow connection with the through the second valve have closable gas extraction connection. This construction facilitates handling, while it is useful for operation when the operating linkage in a manner known per se by means of an externally operable eccentric lever in an upper or switch-off position can be set.

An advantageous application of the invention is that the Chamber and / or the actuating linkage part of a firmly connected to the housing Pressure regulator is.

Further features and details that design the invention and their advantages emerge from the following description of exemplary embodiments on the basis of the drawing. 1 shows an axial sectional view of an inventive Reducing valve in the switch-off position, FIG. 2 an axial sectional view of the valve from F i g. 1 in the on position, FIG. 3 is an enlarged detail of a sectional view with essential control parts of a reducing valve according to the invention, FIG a front view of a control lever with articulated driver arm, F i g. 5 a Side view of the elements of FIG. 4 and 6 a plan view and FIG. 7 shows a bottom view of the elements of FIG. 4 or 5 including one between them effective compression spring.

The in Fig. 1 and 2 shown reducing valve 1 according to the invention has a housing 2, which by means of a slip-on coupling 3 on the body of a main valve 4 can be attached, which via a threaded connection 5 with a pressurized gas container, e.g. a propane or butane bottle. In the central passage of the Valve body is a valve spring 6, which the valve piece 7 on the valve seat too burdened. A ring seal 8 ensures a pressure-tight connection to the attached one Housing 2, which has openings 9 which lead to a high pressure chamber 10, which is closed by a high pressure membrane 11. A side outlet of the high pressure chamber 10 is completed by a second valve 12, the closure piece 13 within a gas extraction connection 14 is movable to a limited extent. From the gas duct of the connector 14, a passage 15 leads to one located above the high pressure membrane 11 Chamber 30. The passage 15 is penetrated by a control lever 16 which is in the housing 2 is pivotably mounted in a pivot bearing 17. The control lever 16 also has a joint 18 on which a rigid driver arm 19 is attached, the Joint part 20 receives a compression spring 21 and continues through a flat part 22. From Fig. 4 to 7 it can be seen that the flat part 22 has stiffening ribs 23 can, which can be formed by extensions of the side walls 24 of the joint part 20.

The flat part 22 has a forked end 28 which has a shaft 37 an actuating rod engages on both sides and attached between the latter Flanges 38,39 is slidably guided. The lower end of the shaft 37 has a widened approach 36, the inside of a coaxial recess of the upper End of a plunger or pin penetrating the high-pressure membrane in a pressure-tight manner 31 is performed, with a collar 35 serving as an upper stop. Sitting upstairs the shaft 37 continues in a switching rod 41, which passes through a low-pressure membrane 40, which is supported with respect to the housing 2 by a control spring 44.

At the top of the flange 39, the low-pressure membrane 40 is also held by a diaphragm valve spring 43 which is supported on a collar 42.

The upper, remote end of the shift rod 41 protrudes into a nose 45 of the housing 2, which is traversed transversely by a switching pin 47 of an eccentric lever 46 is. If the eccentric lever 46 points in the opposite direction to the gas extraction connection 14 Direction, the switching pin 47 holds the actuating linkage 41/37/36/31 in the upper or switch-off position (Fig. 1), during which to the gas extraction connection 14 turned over eccentric lever 46 releases the operating linkage so that the lower The end of the plunger 31 comes to rest on the valve piece 7 and it is in this switched-on position (F i g. 2) lifts from his seat.

The rigid driver arm 19 is coupled to the actuating linkage, which supports the compression spring 21 in its hinge part 20, which is the upper end of the Control lever 16 loaded with constant spring tension.

A stop 26 ensures that with a downward movement of the forked The end 28 of the control lever 16 is carried along and pivoted about its pivot bearing 17 is so that the locking piece 13, in which it is the lower end of the control lever 16 engages, lifts from the seat of the second valve 12. It can be seen from Fig. 2 that in this position both the main valve 4 and the secondary valve 12 are open is, with an already reduced pressure in the high-pressure chamber 10 and in the chamber 30 has formed about the pressure of consumption. This is done by the low-pressure diaphragm 40 and the control spring 44 outgoing force of the control lever 16 pivoted so far that that the desired final pressure via the passage 15 in the compensation chamber 30 sets automatically and precisely. If the plunger 31 is now moved upwards as a result, that when the eccentric lever 46 is switched off, the shift rod 41 is pulled up with the flanges 38, 39, the frictional connection between the The plunger 31 and the valve piece 7 are interrupted. This attaches to the seat of the main valve 4 and closes it with it. At the same time, the forked end 28 of the driver arm also becomes 19 of the shift rod 41 and the flanges 38, 39 are also raised. Swiveled in the process the control lever 16, whereby the locking piece 13 to the seat of the second valve 12 creates. As will be explained below, the effects in the driver arm 19 mounted compression spring 21 the closing pressure with which the locking piece 13 on his Seat is pressed. on this provides a tight seal for the high-pressure space 10 guaranteed even if the main valve 4 leaks for any reason should.

Further details of the structure are in particular from FIG. 3 can be seen which the load on the high pressure membrane 11 by a diaphragm spring 33 can be seen, on the one hand on a membrane plate 32 and on the other hand is supported on a support part 34, which like the high pressure membrane 11 on the circumference is held in the housing 2. It can also be seen from FIGS. 3 to 7 that the control lever 16 can be provided with flats 29, 29 ', 29 "at least on its upper part, so that it forms a kind of square between the side walls 24 of the joint part 20 is guided in the driver arm 19. The compression spring 21 can be on caps 27, 27 'between the control lever 16 and the bell-shaped support part 34 sit on which they are supported approximately parallel to the direction of movement of the locking piece 13. Alternatively the compression spring 21 can also act directly on the locking piece 13 and so this load together with the control lever 16 when - as indicated by dashed lines the compression spring 21 by a stop 50 inside the gas extraction connection 14 is held. The driving arm 19 can then be designed to be even simpler in terms of construction.

The joint 18 is expediently formed by a tubular rivet, which both the side cheeks 24 and the control lever 16 traversed transversely. The swivel bearing 17 of the control lever 16 can be arranged on a housing part next to the passage 15 be, to which an inclined surface 48 connects.

It is of particular importance that the control lever 16 has two pivot points are present, which one after the other at different pressures or operating forces be effective. This gives the control lever 16 the function of a threshold switch, which both in one direction of actuation (namely when the rod is moving downwards) as well as in the opposite direction of actuation (upward movement of the flanges 38, 39) allows a two-stage pivoting of the end positions of the locking piece 13 on the one hand and the driver arm 19 on the other hand depends. Namely, the control lever has 16 under the tension of the compression spring 21, the closure piece 13 on the seat of the second valve 12 pressed, so the driver arm 19 can still around the joint 18 further upwards swivel (Figs. 1 and 3). This allows actuation of the linkage z. B.

in such a way that the main valve 4, 7 and the secondary valve 12 to different Points in time can be opened or closed. There is also a compensation path available for cases in which greater movement can or should take place. It is important that the closing force acting on the closure piece 13 of the second valve 12 constant and independent of the actuating force to be applied to the linkage.

For operation, it is advantageous to provide a switching eccentric, according to FIG. 1 and 2 consists of an eccentric lever 46 with a switching pin 47, which is outside the axis of the shift rod 41 inside the nose 45 of the housing 2 is guided, preferably in an eccentric slot guide, so that the head 49 of the switching rod 41, which is provided with a recess at the upper end, by folding it over of the eccentric lever 46 can be set on the nose 45 (Fig. 1). In this The switch-off position is the Low pressure membrane 40 under the full Tension of the springs 43 and 44. The control spring 44, however, moves the low-pressure diaphragm 40 downwards as soon as the eccentric lever 46 is turned into the on position (Fig. 2), so that the head 49 of the shift rod 41 is released and the latter from the flange 39 can be taken down.

Claims (26)

Claims: 1. Reducing valve with a guided in its housing Actuating linkage for the closing element of a main valve, which is attached to a pressurized gas container attached and downstream of which a second valve is located in a gas extraction connection, its locking piece with the operating linkage by a control lever with play is coupled, which is pivotably mounted in a diaphragm-limited chamber of the housing is, d a d u r c h characterized that the control lever (16) with a rigid driver arm (19) is articulated and loaded by a spring, the direction of force at least runs approximately parallel to the direction of movement of the closure piece (13). 2. Reducing valve according to claim 1, characterized in that the The joint (18) of the driver arm (19) crosses a control lever (15) Has hollow rivet. 3. reducing valve according to claim 1 or 2, characterized in that that the joint (18) of the driver arm (19) above the pivot bearing (17) of the control lever (16) is arranged. 4. reducing valve according to claim 3, characterized in that the Spring (21) on the control lever (16) at approximately the same distance above the joint (18) attacks, which this has from the pivot bearing (17) located underneath. 5. reducing valve according to at least one of claims 1 to 4, characterized characterized in that the driver arm (19) and / or the spring (21) substantially engages perpendicular to the control lever (16) at its upper end. 6. reducing valve according to at least one of claims 1 to 5, characterized characterized in that the spring (21) supporting the control lever (16) and / or the support part (34) has a pin (27, 27 ') which protrudes into the spring (21). 7. reducing valve according to at least one of claims 1 to 6, characterized characterized in that the driver arm (19) has a limit stop (26) for the Has control lever (16) or for its upper end. 8. reducing valve according to at least one of claims 1 to 7, characterized marked. that the driver arm (19) at least at its joint part (20) has box-shaped or U-shaped profile and engages around the upper end of the control lever (16). 9. reducing valve according to claim 7 and 8, characterized in that that the stop (26) from an end profile end of the driver arm (19) is formed. 10. Reducing valve according to claim 8 or 9, characterized in that that on the profiled joint part (20) of the driver arm (19) a flat part (22) with a forked end (28) connected between the guide elements (38, 39) of the Actuating linkage whose shaft (37) engages loosely. 11. reducing valve according to at least one of claims 7 to 10, characterized in that the spring (21) is essentially parallel to the flat part (22) is arranged. 12. Reducing valve according to claim 10 or 11, characterized in that that at least the flat part (22) has stiffening ribs (23). 13. Reduction valve according to at least one of the Claims 1 to 12, characterized characterized in that the joint part (20) of the driver arm (19) side cheeks (24) has, between which the spring (21) is located. 14. Reducing valve according to claim 12 and 13, characterized in that that the stiffening ribs (23) are formed by extensions of the side cheeks (24). 15. reducing valve according to at least one of claims 6 to 14, characterized in that the driver arm (19), in particular as a compression spring formed spring (21) at least partially encloses. 16. reducing valve according to at least one of claims 1 to 15, characterized in that the driver arm (19) for securing the position of the spring (21) when they are assembled, webs (25), guide walls or the like. 17. Reducing valve according to at least one of claims 1 to 16, characterized in that the driver arm (19) is a one-piece molded part, in particular a plastic injection-molded part. 18. reducing valve according to at least one of claims 1 to 17, characterized in that at least the upper end of the control lever (16) is flat (29,29 ', 29 ") has. 19. Reducing valve according to claim 18 and at least one of the claims 7 to 17, characterized in that two parallel flats (29, 29 ') of the Control lever (16) the profile resp. Side cheeks (24) are adjacent. 20. Reducing valve according to claim 18 or 19, characterized in that that the spring (21) rests against a flat surface (29 ") of the control lever (16). 21. Reducing valve according to at least one of claims 1 to 20, characterized in that at least the driver arm (19) and the upper end of the Control lever (16) in the diaphragm-limited chamber (30) of the actuating linkage axially penetrated housing (2) are arranged. 22. Reducing valve according to claim 21, characterized in that the chamber (30) of the housing (2) next to the pivot bearing (17) and the end face of the driver arm (19) has shape-adapted surface (48). 23. Reducing valve according to claim 21 or 22, characterized in that that the chamber (30) has a lower high-pressure membrane facing the two valves (4, 12) (11) and an upper low-pressure membrane (40) and with the gas extraction connection (14) is flow-connected via a passage (15), which the control lever (16) protrudes through. 24. Reducing valve according to one of claims 21 to 23, characterized in that that the housing (2) has a slip-on coupling (3) in a manner known per se, sealed against the valve body of the main valve (4) by an annular seal (8) is and above the latter openings (9) for flow connection with the through the second valve (12) has closable gas extraction connection (14). 25. Reducing valve according to at least one of claims 21 to 24, characterized in that the actuating linkage (37, 31) is known per se Way by means of an externally operable eccentric lever (46) in an upper or Switch-off position can be determined. 26. Reducing valve according to at least one of claims 21 to 25, characterized in that the chamber (30) and / or the actuating linkage (37, 31) is part of a pressure regulator permanently connected to the housing (2). The present invention relates to a reducing valve with an in its housing guided actuating rods for the closing element of a main valve, the one attached to a pressurized gas container and the one in a gas extraction connection Second valve is downstream, the closure piece with the actuating linkage is coupled by a control lever with movement play, which is limited in a diaphragm Chamber of the housing is pivotably mounted. A fairly compact arrangement of this type is from the DT-Gbm 71 07 201 known. It enables the pressure to be reduced in a relatively wide range and operates a simple spring-loaded check valve with such a cross-section, that gas filling and removal can take place in a short time. A corresponding Dimensioning of the valve spring ensures an additional safety effect Overpressure in the gas tank. While such reducing valves have proven themselves in practice, there are still certain problems. So it is with the conventional reducing valves although a sufficient pressure reduction is possible, as z. B. for operated with bottled gas Cooking equipment, water heater, etc. is needed, but the control effect is such Devices inadequate for some uses. In addition, it builds up e.g. with one- or two-stage diaphragm control arrangements in the event of a leak in the main tank valve upstream of the second valve, an increased one Gas pressure on, so that the normally moderate counterforce of the latter valve is not more is sufficient to guarantee the tight seal. In addition, the pressure under which the gas in the container is in Subject to strong fluctuations depending on the ambient temperature. Therefore, attempts have been made to load the in particular as a bell crank trained control member of a strong compression spring the functioning of the second valve to secure. Here, however, it proves to be disadvantageous that this control lever compression spring is effective both during the control and during the switch-off process and their force must be overcome by the diaphragm control spring. It is also unfavorable that the frictional connection of this compression spring is effective in the actuating direction, so that a disproportionately large amount of force is required to open the valve at all to be able to operate. A similar arrangement of a reducing valve with two of each other independently acting steps according to DT-PS 11 30 659 sees one on the control lever Spring wire, which is coupled to the actuating linkage with play, but also a tight closure of the second valve in unfavorable conditions cannot be maintained and practically ineffective during the control process is. That as a connection of the low-pressure valve closure piece with the switch-off rod Serving resilient connecting piece presses the low-pressure closure piece in the closed position only within one from a safety point of view questionable large Scatter range against the low pressure valve seat. Furthermore, the resilient takes Connection piece that results from fluctuations in the form, consumption pressure and performance resulting from the first control stage, occurring during the control process changing forces acting on the low-pressure valve closure piece, depending on The preload varies from case to case. This will adjust the setting ratio between the membrane and the position of the low-pressure valve closure piece, the should be constant according to the rules of technology, adversely affected. The invention is based on these disadvantages mentioned to overcome the prior art with economical means and an improved To create a reducing valve of simple construction that is inexpensive to manufacture allows reliable operation with a large control range and safe Second valve closure guaranteed. In the case of a reducing valve, this task becomes the one mentioned at the beginning Art according to the invention solved in that the control lever with a rigid driver arm is articulated and loaded by a spring, the direction of force at least runs approximately parallel to the direction of movement of the closure piece. The coupling with the actuating linkage is therefore carried out by means of two Elements that are directly or indirectly related to each other. thanks to this extremely simple construction is achieved in a surprisingly effective way, that the during the control process in the gas withdrawal on the closure piece of the Second valve acting valve spring force in the closing moment due to the constant spring tension the control lever spring can be added. Without the actuation of the reducing valve would be made the least difficult, a sufficiently large clamping force is thereby under guaranteed under all circumstances. The characteristic of the loading spring is accurate predeterminable, so that, in contrast to the conventional technology, an exact calculation the effective spring forces is possible. Contributes to the efficient production of the reducing valve according to the invention an embodiment in which the joint of the driver arm is a control lever having transversely penetrating hollow rivet. If, according to a development of the invention, the joint of the driver arm Is arranged above the pivot bearing of the control lever, in particular in such Dimensioning that the spring on the control lever is approximately the same distance above the joint attacks, which this has from the pivot bearing located below, it results the important advantage of two pivot points, which at different pressures or Actuating forces take effect one after the other and the reducing valve give the function of a threshold switch, which will be explained in more detail. It is advantageous if the driver arm and / or the spring essentially engages perpendicular to the control lever at its upper end, so that the direction the force that creates the necessary preload on the control lever runs perpendicular to the direction of actuation of the linkage. Hence, it can be a complication do not occur during operation.