DE2341858B1 - Valve with closure piece operated via a membrane - Google Patents

Description

The invention relates to a valve with a diaphragm actuated by a pressure medium Closure piece, with the membrane in the case of pressure load in the edge area by a molded surface fixed to the housing and supported in the central area by a support plate which is movable with it and can be supported on the housing is, in particular electromagnetically controlled solenoid valve with a floating held Membrane edge.

A valve of this type is known (DT-Gbm 1 718 812), in which the closure piece and the support plate are penetrated by a nozzle whose opening facing away from the valve seat together with an am Armature of an electromagnet attached closure piece form an auxiliary valve. Besides, the Provide the membrane with a throttle opening. When the auxiliary valve is closed, the inlet pressure acts through the throttle opening to the entire top of the membrane, so that the main closure piece is firmly on the seat is held. If, on the other hand, the auxiliary valve is opened, the discharge pressure prevails above the membrane. The force of the inflow pressure prevailing outside the valve seat now predominates. the The diaphragm is raised and the main valve opens. With this pressure load, the membrane lays itself down with it its edge to an inclined shaped surface of the housing and with its support plate attached to the middle part a predetermined path also on the housing.

Here, however, the following problem arises: In the closed position is the part of the membrane lying between the circumference of the support plate and the edge bracket unsupported. As soon as it is exposed to the pressure load, it arches until it is partially up rests against the mold surface. This is particularly the case with membranes, the edge of which is lighter Mobility is not firmly clamped and can therefore move in the radial direction. The ones with a frequent Deformation associated with bulging leads to a corresponding reduction in service life the membrane. This point is particularly important if the membrane is exposed to an aggressive medium, z. B. refrigerant, and for this reason the material of the membrane is not arbitrary, z. B. with regard to its deformation properties, can be selected. It is also not possible to use the To increase the diameter of the support plate, thereby reducing the free membrane area that arches through could downsize. Because then the specified stroke could no longer be achieved without that To deform membrane material too much.

It is already known (CH-PS 401 615) to stiffen the membrane with a spring washer, which is shown in the middle between the support plate and the membrane is clamped and the edge on the mold surface supports. This very cheap solution cannot be used if the deformation properties of the membrane material as little as possible, but at least not over the entire surface, through a resilient stiffening should be changed. '

Furthermore, a hand-operated valve is known (US-PS 2,388,988), in which the membrane in both the open as well as in the closed position of the valve on a central support plate and one of these surrounding, relative to her movable support ring rests. The bottom of the support ring is, as well as the shaped surface fixed to the housing in the edge area of the membrane is rounded; between the support plate, the support ring and the housing therefore result in gaps into which the material of the membrane can penetrate can. The support plate engages with a radial inner flange in a circumferential groove of the support plate. the Groove has a larger width than the inner flange. When the support plate is adjusted in the opening direction by means of a handwheel, one side wall takes the Groove the support ring up to a housing-fixed stop surface with, while the other side wall of the groove to Driving the support ring in the opposite direction is used.

Then there is an older proposal (DT-OS 2 239 973), according to which a pressure medium-operated Diaphragm valve a folding or cramping of the diaphragm in the gap between the housing and a Support plate by a cylindrical collar ring with rounded side surfaces that can move freely on the support plate should be prevented. There is no support on the housing because it does not have a shaped surface has, and no support on the collar, because it can move freely.

There is also a control valve with a pressure medium operated one Membrane (DT-OS 1 808 649), which has a number of concentric support rings on a Force transmission member acts in the form of a contact plate. In the middle of the membrane there is a support plate, which can be moved by means of an actuator. The support plate and the support rings each have an outer flange with which they grip under an inner flange of the externally adjacent part. Ever The more the support plate is removed from the contact plate, the more support rings there are from the contact plate picked up. In this way, the effective membrane area is applied to the surface of those support rings limited that are still in engagement with the contact plate.

The invention is based on the task of a Ventilj of the type described at the outset, that is, while maintaining the molded surface fixed to the housing at the edge and one

in the middle of the support plate, to indicate in the case of excessive deformation of the membrane during of the stroke and in the end position is prevented.

This object is achieved according to the invention in that between the mold surface and the support plate at least one that is movable relative to its neighboring parts, one that complements the molded surface that is fixed to the housing in the end position Inclined surface having support ring is arranged, which is after a shorter path than the support plate is supported on the housing and is coupled along its path to the support plate to take it along.

In this construction, the interposed support ring ensures that an impermissible arching of the membrane area outside the support plate is avoided. This happens once by that the support ring has a defined end position by resting on the housing, which corresponds to the desired membrane shape can be chosen. On the other hand, it is ensured during the movement of the support ring, that he cannot evade too quickly due to the coupling with the support ring, so always a certain one the deformation of the membrane is still beneficial positional relationship to the support plate. Since the If the support ring is moved in synchronism with the support plate, a two-phase, deformation of the membrane preventing any bulging. In the first phase the deforms Area outside the support ring, in the second phase the area below the support ring. The fixed to the housing The sloping surface of the support ring, which is complementary to the mold surface, provides a continuous contact surface for the membrane securely in the open position, so that there are spaces between the support parts and a corresponding There is no bending stress. That the membrane is not flat in the closed position of the valve rests on the support ring, is irrelevant, since the membrane in a pressure medium-operated valve End position is relieved.

In the simplest case, the driving coupling consists of a stop on the support plate and an in Opening direction acting driver on the support ring. The forces acting on the support ring are thereby Derived on the support plate, so that the locking piece can be lifted off the seat more quickly able.

The lowest stress on the membrane results when the form surface that is fixed to the housing is complementary Inclined surface of the support ring is part of a spherical surface.

The invention is illustrated below with reference to preferred exemplary embodiments in the drawing explained in more detail. It shows.

F i g. 1 shows a partial cross section through a valve according to the invention with a support ring and.

F i g. 2 shows the arrangement of a second support ring in a schematic representation.

In Fig. 1 illustrates a valve housing which consists of a lower part 1 and an upper part 2, the are placed on top of one another with the interposition of a seal 3. A main valve seat 4 is also located on the lower part 1 appropriate. Outside the seat 4 is the inflow space 5. The outflow space 6 is inside the seat.

The inflow space 5 is delimited by a membrane 7. This is freely floating with its edge 8 between an edge 9 of the upper part 2 and a clamping element 10 held. In the middle carries the membrane a closure piece 11 cooperating with the seat 4. The central part of the membrane is supported by a support plate 12 covered. A clamping body 13 tensions the closure piece 11, the membrane 7 and the support plate 12 between a clamping surface 14 and an outwardly deformed flange 15. The clamp body 13 has a central nozzle bore 16, the upper end 17 of which as a seat of an auxiliary valve with a Closure piece 18 cooperates, which is carried by the armature 19 of a solenoid valve. The latter two Parts are only indicated by dashed lines.

The upper part 2 has a shaped surface 20 on the edge for contacting the membrane edge and further inside one Contact surface 21 for supporting the support plate 12 and a support ring 22. This support ring 22 is located between the support plate 12 and the mold surface 20. It in turn has an inclined surface 23 for the system the membrane, which in the end position shown on the right is a continuation of the molding surface 20 to form a Forms spherical surface section. The support plate 12 has a stop 24 with which a driver 25 of the Support ring 22 cooperates. The support plate and the support ring are located in a pressure chamber 26, which is above a throttle opening 27 in the membrane 7 is connected to the inflow space 5.

When the auxiliary valve is closed, that is, when the closure piece 18 of the magnet armature 19 touches the valve seat 17 closed (on the left in FIG. 1), there is pressure in the pressure chamber 26 because of the connection via the throttle opening 27 of the same pressure as in the inflow chamber 5. Therefore, the membrane is pressure balanced outside the valve seat 4, while the part lying within the valve seat cross-section through the support saddle 2, the closure piece 11 and the body 13 is sufficiently stiffened. If now, by lifting the locking piece 18, the If the auxiliary valve is open, the pressure from the pressure chamber 26 via the nozzle channel 16 builds up proportionally quickly, as the resistance of this nozzle channel is much smaller than that of the throttle opening 27. As a result, the pressure in the pressure chamber 26 drops to a value which is slightly below the access pressure lies. As a result, the central part of the membrane 7 is loaded downwards, while the outside of the seat 4 lying part of the membrane is strongly pushed upwards. This is the one between the outer circumference The part of the membrane 7 lying on the plate 12 and the edge 9 is additionally supported by the support ring 22. There this is supported by the driver 25 and the stop 24 on the support ring 12, the assignment of the remains Support ring 22 and the support plate 12 initially received. The force acting on the support ring 22 serves to reduce the Lifting the support plate and thus the locking piece 11 from the seat 4. As a result, initially only the part of the membrane lying below the molding surface 20 is deformed. When the support ring 22 on the contact surface 21 strikes, the support plate 12 moves further upwards. Now the one below is deforming of the support ring 22 lying part of the membrane. When the support plate 12 reaches its end position (on the right in Fig. 1) has reached, the result is an almost continuous spherical segment shape Support surface for the membrane.

More than one support ring can also be provided. In Fig. 2 is a diaphragm 7 with a support plate 12 schematically illustrated above a valve seat 4. Between the mold surface 20 and the support plate 12 are two support rings 28 and 29 are provided. Like the support plate 12, they have a common contact surface 30 assigned. The support ring 28 has a driver 31 which cooperates with a stop 32 on the support ring 29. This has the already mentioned driver 25, which has a stop 24 on the support plate

cooperates.

When the membrane is loaded from below from the inflow space 5, the three support parts move 28, 29 and 12 initially together until the support ring 28 strikes the contact surface 30. Then moves the support ring 29 moves together with the support plate 12 until it strikes the contact surface 30. Finally, it moves only the support plate 12 remains. The deformations of the membrane 7 can be kept correspondingly low will.

1 sheet of drawings

Claims (2)

Patent claims: 1. Valve with one actuated by a pressure medium via a membrane, centered on the membrane arranged closure piece, the membrane in the case of pressure load in the edge area by a fixed to the housing Form surface and in the middle area by a movable with it, can be supported on the housing Support plate is supported, in particular with an electromagnetically controlled solenoid valve membrane edge held in a floating manner, characterized in that between the mold surface (20) and support plate (12) at least one movable relative to its neighboring parts, one in the end position support ring (22; 28,29) which complements the shaped surface (20) fixed to the housing (23) is arranged, which is supported on a shorter path than the support plate on the housing and longitudinally his way with the support plate is coupled to take it along. 2. Valve according to claim 1, characterized in that the driving coupling consists of a stop (24) on the support plate (12) and one in the opening direction acting driver (25) on the support ring (22).