NL8300721A - Shut=off valve e.g. for laboratory appts. - has sealed plunger axially movable to open by vacuum via flexible diaphragm at one end - Google Patents

Abstract

The pneumatically actuated shut-off valve comprises a cylindrical housing (1) with inlet (2) and outlet (3) and containing a plunger (4) which carries at least one gas-tight sealing ring (5,6) and is axially movable to open or shut one housing opening (3) with its end. The other end of the plunger sealingly (12) extends through an opening in a flexible diaphragm (11) which forms a wall portion of a chamber (10) arranged over that end. This chamber has a connection (16) for a switchable vacuum source whilst the opposite side of the diaphragm communicates (17) with atmosphere.

Description

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University of Groningen in Groningen.

Pneumatically operated tap 5

In equipment of the most diverse type, in which two rooms are connected to each other by means of a connecting pipe, it is usual, if the connection has to be alternately closed or opened, to place a tap in the connection. Very many constructions and materials have been proposed for such taps, adapted to the desired purpose and the nature of the substances flowing from one space to another space through the conduit.

For many purposes, especially in laboratory equipment, taps have been proposed which are largely made of glass, because it is resistant to a wide variety of substances. Although not limited thereto, the invention is particularly intended for use with such glass taps.

An aspect that is of great importance with taps is the easy operability during opening and closing. Obviously, this aspect weighs very heavily if a tap has to be opened or closed frequently. Such a situation arises, for example, in laboratory equipment for series analysis, including isotope research. Especially for these applications, the demand for (possibly automated) remote control of the crane has arisen. A simple faucet (see Fig. 1 in the article "• glass o-ring faucet", Polytechnical Magazine, edition Mechanical Engineering 29, 1974, no. 14) with a pierced conical tap that rotates in a house with an inlet and an outlet - opening, is not suitable for this purpose because the operation requires relatively much force and the movement is a rotation.

In the same article, a number of so-called plunger valves are also described, consisting of an elongated cylindrical housing and an elongated plunger movable therein in the longitudinal direction, at least one annular gastight seal being located between the housing and the plunger.

8300721 g t - 2 -

The one (first) end of the plunger can open or close an opening in the housing during its longitudinal movement. With these described taps, both the housing and the plunger consist of glass. The sealing is effected by mixing 5 o-rings arranged in the creases of the plunger. Sealing occurs either by an o-ring mounted on the plunger or by an o-ring placed in the housing. The movement of the plunger in the longitudinal direction is effected by a knob or a toggle. The knob consists of an internally threaded sleeve which screws around an external thread provided on the housing.

The described plunger valves require considerably less force than the valves with a conical tap. Moreover, since the movement is rectilinear, pneumatic operation can take place quite easily. Such a pneumatically operated tap is described in "International Journal of Applied Radiation and Isotopes, Volume 32 pp. 679 to 680".

In the valve described in this article, the rectilinear movement of the plunger is effected by a cylinder containing a piston coupled to the plunger.

The movement can be brought about by supplying compressed air to the cylinder. Since it is desirable for safety reasons that the valve closes, or at least does not open 78, if the operating force, that is to say the pressure drops, a spring has been fitted which closes the valve at all times, unless pressure is applied in the pneumatic cylinder. Without considerable technical provisions, such as levers and the like, this can only be realized if the compressed air is supplied to the compressed air cylinder on the piston rod side. Therefore, the piston rod, which forms the connection of the piston to the plunger of the tap, must be passed through a gastight discharge.

This leads to extra friction. Partly due to this friction, in this construction, the static friction of the drive mechanism is large relative to the friction of the plunger of the tap itself. As a result, the piston moves suddenly after admission of the compressed air. Especially when the entire construction of the tap section is made of glass, this sudden movement can lead to breakage. Also, the shock effect when the tap is just opened leads to some leakage along the 5 actual seals of the tap o-rings.

Another drawback of this known construction is that the piston rod has a precisely defined direction of movement due to the required gastight passage. Since the plunger of the tap also has a precisely fixed direction of movement, measures must be taken to connect the two parts together in such a way that some play is possible. Absolutely accurate alignment of the heather movements is practically impossible to achieve. In the known crane, therefore, a mobile coupling element is arranged between the crane plunger and the piston rod, whereby some play in the radial direction is possible. It has been found that in practice this radial play nevertheless leads to some axial play, which further enhances the above-mentioned shock effect when the tap is opened.

In this known construction, the pneumatic operating cylinder is also screwed onto the actual crane housing.

This would theoretically make it possible to operate the tap manually by turning the entire actuator around the screw thread. In practice, however, this is practically impossible because the pneumatic operation takes place with compressed air. Hoses are required for this purpose which are resistant to pressure and such hoses are known to be very rigid. Moreover, since the compressed air has to be supplied to the side of the operating cylinder in order to get under the piston, manual operation is virtually impossible. Wen would first have to disconnect the compressed air line, which creates a risk of breakage and in case of emergency, whereby fast manual operation is absolutely necessary.

In a oneumatically operable crane according to the invention, the drawbacks listed above are largely eliminated and additional advantages are obtained which will be explained hereinafter.

8300721 - 4 -

A pneumatically operated tap according to the invention consists of an elongated cylindrical housing and an elongated plunger movable therein, wherein at least one annular gas-tight seal is located between the housing and the plunger and the one (first) end of the plunger the longitudinal movement thereof can open or close an opening in the housing, respectively, and is characterized in that the second end of the plunger extends gastight through an opening of a flexible membrane which is a wall part of a chamber situated above the second end of the plunger in which the pressure can be lowered via a connection provided for this purpose and the side of the membrane facing away from the chamber is in communication with the outside air.

Preferably, the second end of the plunger located in the chamber is widened in a dish-shaped manner; this dish-shaped widening rests on the membrane. This ensures a good contact between the membrane and the plunger.

In a special embodiment of a tap according to the invention, the membrane has an upright rim on the chamber side which rests against the dish-like widening of the plunger. This improves the gaseous seal between the plunger and the membrane.

In order to prevent too much bending of the membrane in the chamber, in a preferred embodiment, a flat ring, for example metal or plastic, which ring rests entirely on the membrane on one side, is arranged between the dish-shaped widening of the plunger and the membrane. and on the other side only on the outer edge of the dish.

When the pressure in the chamber is reduced, the membrane will bend inwards because it is in communication with the outside air on the side facing away from the chamber. The plunger is taken along and the tap is opened. If the pressure in the chamber is then brought back to normal atmospheric pressure, for example, the membrane will return to its original position by its own spring force, thereby taking the plunger with it and closing the tap.

8300721, * ψ - 5 -

Since the membrane must be very flexible in order to be able to realize a sufficient movement in the longitudinal direction of the plunger, the restoring force exerted by the membrane cannot be particularly great. In order nevertheless to effect an absolute closure of the tap upon removal of the negative pressure, in a preferred form of the present invention, a compression spring is located between the second end of the tap and the opposite part of the chamber.

In a particularly advantageous embodiment of a kraan3 tap according to the invention, the membrane on the outer edge is enclosed in a gastight manner between the edge of the chamber and a support body resting on the body of the tap. This support body contains at least one channel that ends on the one hand under the membrane and on the other hand opens into the open air. The ka-mar and the support body are preferably coupled together by means of a threaded connection.

The support body is preferably threaded to the end of the valve body. This threaded connection makes it possible to operate the tap with the 2Q hand. Since the pneumatic operating part of a crane according to the invention is actuated by vacuum, flexible connection cables can be used. When rotating the pneumatic operating part, such flexible hoses present virtually no difficulties 25 ορ; this is in particular the case when, according to a preferred embodiment of a tap according to the invention, the connection of the chamber through which the pressure in the chamber can be lowered, for instance a hose tail, lies on the side remote from the tap housing and in its axis. ;. When the pneumatic operating part is rotated 3Q, the vacuum hose will only be twisted but not bent in spirals around the operating element, as is the case with the known tap using compressed air.

Operating a tap according to the invention by means of pressure reduction, for instance by connection to a vacuum line, has in itself the advantage that the taps can be used in those establishments, for example 8300721-6 - laboratories, where usually a vacuum line is present due to the need to perform various chemical operations or analyzes in evacuated vessels.

The invention will now be elucidated with reference to a drawing of an embodiment of a tap according to the invention, wherein both the tap housing and the plunger are made of glass.

In the drawing, 1 the glass tap housing is provided with a drain pipe 2,3 respectively. In the valve housing 1, the plunger 4 is provided with sealing o-rings 5. At the bottom end of this plunger, o-ring 6 is located, which causes the actual sealing between 2 and 3. In the open position this o-ring is located approximately on the center line of the tube 2 and in the closed position as indicated in the drawing, when the plunger 4 is moved downwards, the o-ring 6 is pressed into the tube 3 and elastic deformation of the ring causes the closure. At the top, the crane housing 1 is provided with external screw thread 7. The support body 8 is screwed onto this screw thread. On the top side, the body 9 is screwed into the support body, which together with the support body forms a chamber 10. A membrane 11 is clamped between the bodies 8 and 9. This membrane is a flexible organ and consists, for example, of rubber or a synthetic resin. The plunger 4 protrudes through a central opening in the membrane and is closed there gastight. In order to improve the gastightness, the membrane in this embodiment has an upright edge 12. The plunger 4 is provided at the top with a dish-shaped extension 13. Between the dish 13 and the membrane 11 there is a flat ring 14; This prevents the membrane from bending too much when opening the tap. The ring preferably consists of metal, for instance brass, but under certain circumstances it can also be made of plastic or even glass. Numeral 15 denotes in the drawing a compression spring which, together with the spring force of the membrane, causes the downward movement of the plunger 4 when the negative pressure in chamber 10 is dropped or removed. This negative pressure is produced. 8300721 - 7 - "ψ" brought by connecting a connection 16 to a vacuum source. The membrane moves upwards due to its flexibility and takes the plunger 4 with it. 17 denotes a channel in the body 8 which ensures that the membrane can indeed move upwards through the vacuum prevailing in the chamber, since this channel is in communication with the outside air and ends under the membrane.

Where reference is made in the foregoing to a pneumatically operated crane, this also includes a vacuum-operated crane, while the principles underlying the invention are also applicable to a hydraulically operated crane.

31adei, February 25th 1983 8 3 0 0 71 1

Claims (13)

1. Pneumatically operated tap consisting of an elongated cylindrical housing and an elongated plunger movable therein in the longitudinal direction, wherein at least one annular gastight seal is located between the housing and the plunger and wherein one (first) end of the plunger during the longitudinal movement an opening thereof can open or close in the housing, characterized in that the second end 1G of the plunger extends gas-tightly through an opening of a flexible membrane which is a wall part of a chamber situated above the second end of the plunger in which the pressure can be reduced via a connection provided for this purpose and the side of the membrane remote from the chamber is in communication with the outside air 15. Pneumatically operated tap according to claim 1, characterized in that the first end of the plunger, which is located in the chamber, is widened in the form of a saucer and rests with this saucer on the diaphragm. Pneumatically operated tap according to claim 2, characterized in that the opening in the membrane on the chamber side is provided with an upright edge which rests against the dish. 4. Pneumatically operated tap according to claim 2 or 3, characterized in that between the membrane and the dish there is a flat ring which is entirely on one side on the membrane and on the other side only on the outer edge of the dish. peace. 5. Pneumatically operated tap according to claim 1, 2, 3 or 4, characterized in that a compression spring is located between the second end of the plunger and the opposite part of the chamber. 6. Pneumatically operated tap according to claim 1, 2, 3, 4 or 5, characterized in that the membrane is enclosed on the outer edge in a gastight manner between the edge of the chamber and a support body resting on the housing, in which support body at least one channel that ends on the one hand under the membrane and on the other hand opens into the open air. 8300721 - 9 - Pneumatically operated tap according to claim 6, characterized in that the chamber and the supporting body are coupled to one another by a threaded connection. Pneumatically operated tap according to claim 6 or 7, 5, characterized in that the supporting body is attached to the end of the tap housing with a threaded connection. 9. Pneumatically operated tap according to claim 1, 2, 3, 4, 5, 5, 7 or 8, characterized in that the connection of the chamber, via which the pressure in the chamber can be lowered, 10. at the the valve body is turned away and in its axis. 10. Pneumatically operated tap according to claim 1,2, 3, 4, 5, 6, 7, 8 or 9, characterized in that both the housing and the plunger consist of glass. Pneumatically operated tap according to one or more of the preceding claims, characterized in that the annular seals between the tap housing and the plunger are o-rings which are located in grooves of the plunger. Pneumatically operated tap according to one or more of the 20 preceding claims, characterized in that the first end of the plunger is provided with an o-ring located in a groove of the plunger with which an opening in the housing is closed. can be opened optionally. 13. Apparatus for carrying out analyzes in series, provided with a pneumatically operable tap according to one or more of the preceding claims. 8300721