DE1861332U - VALVE. - Google Patents

Description

PA 570 038H. 9.62

2348-60 / Dr.Sd / Eo.

(Ι ν. Press-are Controllers Ltd *

and St.W. Hoskins -

convention date: Sept. 25, 1959)

Ι · Υ # Pressure Controllers ltd ·, Iorth feltham, Middlesex, England, and Mr. Stanley William Hoskins, Southall,

Middlesex, England.

Valve

The invention "relates to valves for liquids and has the aim of specifying a construction for such a valve that is "particularly simple, particularly easy to manufacture and is particularly easy to take apart for repair purposes, for replacing individual parts and for cleaning purposes is valuable »

The invention is characterized by a hollow valve body with inlet opening, outlet opening and a valve chamber lying between these two openings through a flexible membrane that cruer to the direction of liquid flow or the gas stream is mounted in the valve chamber and has an opening in its center; and through one in the valve chamber arranged stop, so that the membrane can rest against the stop and thereby its central opening is closed. The invention can be according to either of the two at will

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in the following described embodiments can be realized.

According to one of these embodiments, the attachment consists of the central part of a solid partition which passes through the valve chamber quex to the flow of liquid or gas and has one or more openings in a zone surrounding said central part. The arrangement is such that under the pressure of the liquid flow or gas flow, the membrane lifts off this partition so that the opening or openings in it are exposed.

The membrane can move into the position in which it closes the opening or openings in the partition, either move by virtue of their own elasticity, whereby the membrane is pretensioned accordingly in order to move into said To pass over the viewing position. However, the membrane can also move into the closed position under the pressure of the liquid acting on it move · So this pressure acts from the outlet port of the valve on the membrane in the forbidden direction of flow. After all, the membrane can also both by its own Elasticity than being moved into the closed position by the fluid pressure mentioned "

The movement of the diaphragm in the direction of the outlet opening of the valve can be achieved by a second solid partition which the Valve chamber penetrated transversely to the sighting of the liquid flow, · This second solid partition possesses

* - 3 -

one or more openings for the flow of liquid to pass through.

The aforementioned partition walls can be curved concavely in the direction of the membrane, as is shown in the following with reference to the first of the following the two exemplary embodiments to be described will be explained

According to the second embodiment of the invention Valve, the stop consists of the movable element of a control valve that allows the liquid to enter the valve chamber dominated from the inlet opening · This control valve is therefore between the membrane and the inlet opening »

In a construction of the latter type there are two connection points or shut-off points for the flow of liquid or gas in the forbidden direction. One exists at the contact point of the flexible membrane on the movable element of the control valve and the other on the seat surface of this movable element on the valve body “So it's a double one Protection against the backflow of the liquid in the forbidden direction created.

As in the case of the membrane in the first of the two mentioned embodiments, the membrane in the second Embodiment are either moved into the closed position by their own elasticity or this closed position under the Take the pressure of the liquid in the forbidden direction of flow or for both reasons

The control valve mentioned preferably has an approximately

mushroom-shaped moving part. This movable hawker consists thus on a head part and a shaft, this head part being in the closed position of the test valve on the valve seat rests in the valve body and the shaft is the! guide of the moving iDeils accomplished in the valve body.

With this form of the control valve, the shaft slides in a bore in the housing which is located between the inlet opening and the valve chamber of the entire unidirectional valve is located and the stem is provided with one or more Durehrittsöffntmgen provided, which the connection between the inlet opening and the valve chamber

For the purpose of making these passage openings, the shaft can be provided with a constriction

In Pig. 1 to 3 the first embodiment is illustrated 1 shows an axial section through the valve and shows the membrane in its rest position or Closed position, while FIG. 2 illustrates a cross section along the section plane 2-2 in FIG. Fig. 3 shows another one Axial section through the valve with that position of the membrane in which the valve releases the flow of liquid.

FIGS. 4 to 8 illustrate the second embodiment, where Fig. 4 is again an axial section through the valve and the membrane in its undeflected position, which again the The closed position of the valve can be seen ". The control valve is accordingly also in its closed position" Fig. 5 shows a longitudinal section through the valve in the bent out

Position of the membrane in which the movable element of the control valve has left its valve seat. In this situation the The membrane and in this position of the control valve the flow of liquid is released. Pig 6 shows an upward view the membrane; and Fig. 7 is a side view, partly in section the movable element of the control valve. Mg 8 Figure 8 shows a cross section along the cutting plane 8-8 in Mg · 7.

According to fig. 1 to 3 an inlet opening 1, an outlet opening 2 and a valve chamber are axially to one another in the valve housing 3 attached, all of which have a circular cross-section.

The valve housing consists of two approximately plate-shaped or cup-shaped cylindrical parts 4 and 5, which form the valve chamber 3 enclose and which have two cylindrical lugs 6 and 7 with external thread, in which the inlet opening 1 and the outlet port 2 are attached. The two parts or halves 4 and 5 of the valve housing are connected to one another by screws 8 tied together·

The inlet opening and the outlet opening 1 and 2 open into the valve chamber 3 via the conical channels 9 and 10 · between the plate-shaped housing halves 4 and 5, an arrangement consisting of the active parts of the valve is inserted, which consists of a flexible membrane 11 and two solid partitions is constructed. One of these partitions is between the membrane 11 and the inlet opening 1 and the other between this membrane and the outlet opening 2. Between the active parts

of the valve and the "two housing halves 4 and 5" are located see two more sealing rings 12 and 15 · The inner surfaces of the Form plate-shaped depressions in the "two G-ehäusehllften" mutually facing gripping surfaces on which the sealing rings 12 and 13 rest and thus the active parts of the Hold the valve firmly.

The membrane 1t is circular and has an opening 14 »in its center.

The partition walls are also circular, and each partition consists of a sand part 15 or 16 and from a middle part 17 and 18. Both partition walls are concave on their side facing the membrane.

The middle part 18 of the partition is on the outer side provided with a central opening 19, while the partition on the inlet side of the membrane is closed in its center Part 20 which is surrounded by an entrance zone in which a series of openings 21 is made. This several times The pierced inlet zone is thus located between the central part 20 and the end part 15. The openings in the inlet zone are as shown in FIG. 2 can be recognized, attached to concentric events * One could but also arrange these openings in a different way, for example in the form of mutually concentric slots, which are connected to the closed central part 20 by radial webs and are connected to the end part 15.

According to fig. 1 and 2, the arrangement is made so that the Membrane due to its elasticity in its rest position on the

Middle part 20 of the right! Partition wall rests, so that the Openings 21 to be closed · If however in the inlet opening When the valve is exposed to a higher fluid pressure, the membrane bends into the position shown in fig * 3 and the liquid passes through the openings 21 in the right partition wall and through the central opening 14 of the membrane and the Central opening 19 of the left partition wall therethrough. According to fig. 3, the left partition also serves as a stop for the Diaphragm and thereby also relieves the diaphragm from excessive mechanical stresses caused by the liquid pressure

The embodiment shown in Figures 4-8 shows a housing with an inlet opening 25 and outlet opening 26 and a valve chamber 27, all of which have a circular cross-section.

The housing again consists of two halves, each in the Entirely labeled A and B are · Half A consists of a cylindrical block 28 to which you see a cylindrical tube 29 connects · The interior of this cylindrical tube 29 represents the inlet opening 25. The tube 29 has an internal thread for connection to a pipe supplying the liquid in question · Half B also consists of a cylindrical one Block 30 and a neck cylinder 31, which surrounds the outlet opening 26 and with an internal thread for connection is provided on a pipeline. The two halves A and B are firmly held together by screws 32.

The valve chamber 27 is through the space between the end face 33 of the right housing half B or the block 30 and

a frustoconical recess 35 in the block 28 of the housing half A formed * The face 33 surrounds the mouth of a frustoconical channel 36 in the block 30 and is about a cylindrical channel 37 connected to the outlet port 26.

In the cylindrical block 28 of the housing half A you see a cylindrical bore 38 »which at the left end of a frustoconical seat 39 for the head part 40 of the movable Element of a control valve begins · In addition to the head part 40, this movable element also has a shaft 41, which consists of one piece with the head part 40. This control valve, which was already mentioned above, blocks the Inlet opening 25 opposite the valve chamber 27, however permeable in the reverse sighting.

The movable element 40, 41 of the control valve is moved to the right by the stop of a collar 42 limited to an annular shoulder 45. The collar 42 is in a hat attached to the circumference of the shaft as shown in FIG. 7 let in.

The liquid flows from the inlet opening 25 in the direction of the valve chamber 27 through the interior of the shaft 41 through. From this shaft it enters a hat 48 located on the circumference of the shaft via openings 47. This hat 48 is located directly behind the contact surface of the valve head 40. In this construction, the fluid path is in the direction to the right opens immediately when the moving

Liehe element 40, 41 lifts off the seat 39. This movement of the control valve can already be caused by the fluid pressure coming from the left

The valve chamber is located across the flow of liquid 27 a membrane 49 which, according to FIG. 6, has a circular ring shape, i.e. has an opening 50 in its center. The membrane 49 is coaxial with the movable element 40, 41 of the control valve and the arrangement is such that the control valve is closed when the elastic membrane is in the rest position or blocking position. This position of the membrane and thus this position of the control valve is illustrated in! ig * 4 The zone of the membrane 49, which immediately surrounds its central opening 50, lies on a circular ring surface, which is enclosed by the conical surface 52 of the head part 40, so that the central opening 50 is also closed.

As soon as the control valve opens, the pressurized liquid passes the seat 39 into the Valve chamber 27 so that you can see the diaphragm 49 from the head part lifts off and the central opening 50 of the membrane is thus released. The liquid can then through the cylinder space 37 in enter the outlet opening 26 The arrows in Fig. 5 indicate this liquid flow *

The membrane 49 is moved back into the closed position shown in FIG. 4 by its own elastic forces * at the same time the control valve is closed. It should also be noted that the membrane 49 on its outer

10 -

A liquid layer forms between the frustoconical edge zones 53 and 54 of the housing halves A and B is clamped.

Finally, it should be noted that "regarding the constructive details still largely τοη in the Embodiments shown in the drawings may be deviated from can »These deviations refer in particular to the Shape of the valve chamber, the shape and location of the inlet and Outlet openings, on the shape of the membrane, on the shape of the Partition walls in the embodiment according to Fig * 1 to 3 and on the shape of the control valve in the embodiment of Fig. 4 to 8.

Claims (1)

PJL570038-U.M I «ί ^« JI ^{υ ν} " - 11 - talks 1. Valve, characterized by a hollow valve body (4, 5, A, B) with an inlet opening (1, 25), Outlet opening (2, 26) and valve chamber (3, 27) J through a flexible membrane (11, 49), which transversely to the Ilüssigkeitsriehtung or (alignment is located in the valve chamber and has a central opening j through one on the inlet side the valve chamber located Ansehlag opposite the Central opening of the membrane, against which the membrane rests and thereby closes the valve. 2 valve according to claim 1, characterized in that that the Ansehlag is formed by the middle part (20) of a partition (17), which the Ventilkaramer (3) transversely to the direction of the liquid ^ flow and which in a zone surrounding the solid central part a or contains several openings (21), so that in the permitted flow direction through the liquid pressure or gas pressure the membrane is lifted from this partition and its openings are therefore exposed (Fig. 1-3). 3 »valve according to claim 2, characterized in that that the partition (17) in the direction of the membrane (11) is concave (Pig. 1 and 3) 4 valve according to claim 2 or 3, characterized «. 12 - shows that the movement of the membrane (11) in the direction to the outlet opening (2) is limited by a second solid partition (18) which is between the membrane and the outlet opening and one or more openings (19) has to allow the passage of the liquid in the To enable flow direction * 5, valve according to claim 4, characterized in that the second partition (18) of the membrane is concave Side turned, 6 · Valve according to one of Claims 2 to 5 »characterized in that the valve housing consists of two halves (4, 5), one half the inlet opening (1) and the other half the outlet opening (2) contains and that the membrane (11) together with the partition or the partition walls (17, 18) is clamped between two facing handle Iläohe of these housing halves. 7. Tentil according to claim 1, characterized in that that the stop consists of the movable element (40, 41) of a control valve that allows the entry of the liquid into the valve chamber (27) from the inlet opening (25) and between the membrane (11) and the inlet opening lies" 8. Valve according to claim 7 »characterized in that that the control valve has a movable part, which consists of a head part (40) and a shaft (41) exists and that the movable part is guided through the shaft - 13 - ~ 13 - 9 valve according to claim 8, characterized in that dal the shaft (41) is guided in a bore (38) of the housing, which is located between the Valve chamber (27) and the inlet port (25) is located. 10. Yentil according to claim 9, characterized in that the shaft (41) has one or more Has passage openings (47) through which the inlet opening is provided at any time with a part of the for the shaft Bore (38) in the valve housing immediately behind the head part (40) of the movable element of the control valve is connected 11 valve according to claim 10, characterized in that that the shaft (41) is hollow, this hollow space on the end face facing away from the head part the shaft begins and in the form of a blind hole extends to just below the head part (40) and that one or several through openings (47) the wall of the shaft pass through and open into a hat (48) attached to the outer surface of the shaft just below the head part 12 · Valve according to one of claims 8 to 11, characterized characterized in that the valve seat (39) and the surface of the cooperating with the valve seat movable element (40, 41) are frustoconical. 13. Valve according to one of claims 8 to 12, characterized in that the stroke of movement of the movable element (40, 41) of the control valve by a - 14 Stop ring (42) "is limited" 14. Valve according to one of claims 7 Ms 13, characterized characterized in that the valve housing consists of two halves (4, 5, A, B) that in one half the inlet opening (1, 25) and the outlet opening (2, 26) in the other half and that the membrane (11, 49) is clamped between two facing grip surfaces of the two G-ehäusehälften. ■ »■ - · -« - ♦ '