DE1301678B - Valve for taking gas from pressurized gas containers - Google Patents

Description

1 2

The invention relates to valves for the removal of the, valves of the type set out above also for

Gas from pressurized gas containers with a device to make other uses suitable to to automatically keep the pressure constant in the case of gas cylinder valves of the last-mentioned type

Supply line, especially for Druckgasbehäl- easier control of the gas flow from the

ter with pierceable cap. 5 pressurized gas containers and an unintentional

In the event of a release of gas and thus gas losses, as shown in the published documents

of the German patent application Sch 7919 XII / 47g.

known pressure reducing valve is a valve tappet In the sense of solving this problem is a valve by a compression spring and by the one in the pressure to remove gas from pressurized gas containers with gas container prevailing pressure tightly against an io of a device for automatic keeping constant Valve seat pushed. At the pressure-remote, due to the pressure in the supply line, in particular The end of the plunger protruding through the valve seat is the end of the plunger for pressurized gas containers with a pierceable cap a coaxial actuation pin to the measure of the invention characterized in that the passed through a membrane and with this cylindrical housing interior through an intermediate fixed connected is. For the purpose of opening the valve, 15 is walled in a gas outlet chamber and in a gas die Bias of one of these actuating pin against expansion chamber is separated by at least the valve tappet pressing further, the first-one channel are connected to one another, and that the called compression spring counteracting compression spring gas expansion chamber on the partition wall adjustable by means of a threaded knob so that the opposite side of one of the housing springs The valve tappet is limited by the actuating pin of the piston, which slides tightly against the wall, of the one nem valve seat is pushed away. As soon as the piercing pin is open, its tip with the into the system valve of the pierced opening in one of the membrane delimiting wall of the gas container th and connected to a supply line by a spring acting on the piston in Pressure chamber prevailing pressure on a certain opening direction acted upon valve forms and th value has risen, the diaphragm urges the one opposite to that of the gas expansion chamber Actuating pin away from the valve stem so that the side of the piston communicates with the atmosphere can move back into the closed position. that is.

A similar pressure reducing valve is also made of the The advantage achieved with the invention consists mainly

German patent 820 356 known, which in the end is special in the fact that due to the special con

In addition, there is always only one in the supply line structure of the valve according to the invention

overpressure occurring in the external atmosphere as much gas from the pressurized gas container to the

Has sphere venting safety valve. Supply line can flow as actually

These known pressure reducing valves, however, are required so that normal

no undesired overpressure occurs for a specific purpose of use

accordingly limited area of application and suitable 35 ^{can and thus also no gas} unnecessarily

For example, do not allow the outside atmosphere to be released in the case of gas cylinder valves,

one in the German patent 1191 642. An embodiment of the invention is in the

The type of pressure increase described in the supply drawing is shown in more detail below

line to prevent the pressure-relief described. The drawing shows this preferred one

gas into the outside atmosphere. 40 embodiment schematically in axial section in

These last-mentioned gas cylinder valves are used in conjunction with an only partially, likewise

Connection with pressurized gas containers with a puncture-wise depicted extraction device, which at

Barer cap used and have a can filled with beer or other liquids

can be fastened by means of a compression spring in the direction from.

Closing cap away spring-loaded piercing pin, 45 The valve housing 2 of this extraction device, the tip of which holds the cap opening pierced by it, has a voltage only partially shown in the drawing in the rest position. As soon as the bore 4, in which an axially displaceable piercing pin is arranged by means of a manual actuation device main valve body 6, which is released in the device, it is withdrawn under the action of the drawing, not shown, lower end to the control compression spring from the cap opening, so tion the liquid flow through a valve housing, also not shown, in the drawing so that the gas from the pressurized gas container is used, can flow to the supply line. Since the gas that is in turn the liquid flow from the upper pressure gas container has a relatively high pressure when it is immersed in a container, it is not easy to set the handpipe in a withdrawal line or a dispensing pipe actuating device so that the pressure 55 is controlled into it. The displacement of the main valve body 6 with the gas from the pressurized gas container takes place by means of a supply line provided in the drawing, not via a handle or the like, which is not shown.
permissible value increases. If the supply line, the valve housing 2 has a hub-like device, has a safety valve, as is the case with the projection 8, which also projects into the German patent 1191642 mentioned in the housing interior 10, the latter in a gas outlet chamber 12, if known Danger that a gas expansion chamber 14 and a reference pressure of this safety valve opens more often than intended chamber 16 is divided. An outlet 13 of the gas outlet and thereby unintentionally discharged gas is let out chamber 12 with the above the liquid and is lost. mirror of the above, not shown in the drawing

Similar free space provided in the liquid container, which also has this disadvantage

Gas cylinder valves are also linked from the UK.

Patent specification 1,043,818 known. In a cylinder bore of the hub-like an

The object of the invention is to be achieved

3 4

Has recess in which a ball 20 is located on the end wall 56 of the guide piece 80

and a ball base 22 made of elastic or is made of elastic by means of a ring 62 resilient material. The ball 20 acts material existing sleeve 64 supported, which in with a cam curvature 24 of the Hauptventilkör- a substantially cylindrical cavity 66 of the pers 6 together in such a way that when the 5 piston 40 is displaced it protrudes. Between the ring 62 and Main valve body 6 with reference to the drawing, the plate spring 48 is clamped in a compression spring 68, upwards or downwards, the plunger part 18, which also has the piercing pin 44 and the piston 40 of FIG if the guide piece 80 is displaced axially but in the horizontal direction, it pushes away. The compression spring will practice. O-rings 28 and 30 and a bushing 26 68 is in the axial direction over its greatest length form corresponding seals. io surrounded by the sleeve 64. One through the

The gas outlet chamber 12 and the channel 70 leading through the gas expansion piston 40 connects the chamber 14 via a narrow channel 34 with a cavity 66 with the gas expansion chamber 14.
other connection, which is through an intermediate wall 32. The reference pressure chamber 16 has a channel

which is in the form of a sealing gasket 72 with the outside atmosphere. If the cuff has a protruding, circular gas flowing into the cavity 66, a differential pressure acts on the sealing bead 36 in a flow-tight manner on the ring-shaped sleeve 64 in the radial direction, the shaped end face of the hub-like extension 8 and through which an outer edge 74 of this sleeve stroder collar-shaped cuff edge 38 rests against the cylinder wall of the cavity cylinder wall of the housing interior 10, 66 is pressed so that the compressed gas cannot escape into the so that this cuff edge 38 can escape in a corresponding outside atmosphere,
corresponding pressure difference between the gas expansion The outlet chamber 12 is via a diaphragm at 76

chamber 14 and the gas outlet chamber 12 tightly against the matically shown safety valve with the outside die Wall of the housing interior 10 pressed atmosphere connectable.

will. The channel 34, of which several also exist. In the rest position shown in the drawing

can be seen, the only gas connection 25 of the valve according to the invention is the tip 78 between the expansion chamber 14 and the outlet of the piercing pin 44 by the axial forces of the chamber 12. Compressed ball support 22 and the elastic

In the interior of the housing 10, a plate spring 48, which is bent by the gas extensively, is in a flow-tight manner expansion chamber 14 from the reference pressure chamber 16 the opening edge of the Öfftrennender formed by itself Piston 40 is arranged, which is pressed against the compressed gas container cap 60 at an axial voltage of 30. Displacement flows through an O-ring seal 42. The pressures in the gas outlet chamber 12 are here slides along the housing wall in a leak-proof manner. One and the gas expansion chamber 14 as well as in that The cylinder attachment of the piston 40 is with a sliding fit in the space above the liquid level of the with Bore of the hub-like extension 8 inserted. Ob- pressurized gas supplied container to which the Entwohl the piston 40 is attached to the plunger part 18 not 35 receiving device, each of the same size, is mechanically connected, it is due to this normal If, for example, beer is made from a beer can

so that these two parts are to be taken over by them, then the main agent, inwardly directed forces each valve body 6 are moved upwards. At this be moved together. Upward movement are the plunger part 18 and the

In the piston 40 is a piston 40 along the axis of the 4 ° through which it is relaxing hub-like extension 8 axially displaceable through compression spring 68 with respect to the drawing entsprestoßstift 44, the tip 78 of which pushes through the cam curve 24 of the main valve body the closure cap 60 of a pressurized gas container 6 is shifted to the left. At the beginning of the Verters, For example, a pressurized gas cartridge 46 is used, sliding these parts is the tip 78 of the Durchdie Carbon dioxide with relatively high pressure 45 push pin 44 through the elastic ball base 22 contains. and the deflected disc spring 48 continues to

The radial ter contact adjacent to the piercing pin 44 on that in the pressurized gas container cap 60 extending surface of the piston 40 is held by a formed valve seat. After a short annular recess two radially annular displacement of these parts, however, is the ball sockets 49 and 50. The disc spring 48 is in the un- 50 position 22 relieved and the disc spring 48 is no longer tensioned state in the plane of the stop 50, bent elastically, so that now the continuous it then moves each abutment pin 44 together with the piston 40 on the stop 49 is when on the piercing pin 44 one axially and the tip 78 out of the pressurized gas container cap displacing and thereby pulling back the ball base 22, so that the pressurized gas container now pushes together as well as the disk spring 48 elastically 55 more carbon dioxide flow out and through the opening bending axial force is exerted. 58 into the cavity 66 and from this via the

In the housing interior 10, a guide piece channel 70 has passed into the gas expansion chamber 14 80 screwed in, which can have a hollow cylinder part 52. The clear width of the channel 34 is so small that and an end wall 56 having a central opening that of the gas expansion chamber 14 above it opening 58, through which the latter the tip 78 60 channel in the gas outlet chamber 12 leading Gasdes Puncture pin 44 is throttled towards the flow with a little radial play and as a result protrudes through to the KoI. The pierceable cap 60 at 54 ben 40 acts a differential pressure. With the flow-tight Supported pressurized gas container 46 is set supply of pressurized gas from the pressurized gas arranged that they are in the axial direction of the container 46, this pressure increases until the with the opening 58 and the tip 78 covers, so that 65 force of the prevailing in the gas expansion chamber 14 relative axial displacement of the piercing pressure equal to the atmospheric pressure prevailing in the reference pin 44 in relation to the pressurized gas container 46 of the pressure chamber, the sen cap 60 is pierced by the tip 78. Force of the compression spring 68 and that of the pressure

of the pressurized gas container 46 on the tip 78 of the piercing pin 44 composing the force Counterforce is or overcomes this counterforce, whereby the piston 40 and consequently also the Piercing pin 44 to be moved to the right until the tip 78 of this piercing pin from the Compressed gas container 46 throttles or completely interrupts the gas flow flowing out, as shown in the drawing is shown.

The arrangement according to the invention therefore results in an excessive outflow of gas from the pressurized gas container 46 prevented even when the main valve 6 is open. When the one in the gas expansion chamber 14 prevailing pressure drops below a certain value and the main valve then always is still open, then overcome the piston 40 pushing to the left in relation to the drawing Forces the force exerted on it by the pressure prevailing in the gas expansion chamber 14, whereby the tip 78 is withdrawn again from the pressurized gas container cap 60 and thus into the cavity 66 gas can flow in again, whereupon this process is repeated. However, if the one in the Gas outlet chamber 12 and thus also that in the relevant liquid container or the relevant The pressure in the can above the liquid level rises above a predetermined value, then the safety valve 76 opens and releases gas to the outside atmosphere.

If the removal of beer from a beer can, for example, is to be ended, the The main valve body 6 is moved downwards again with respect to the drawing, as a result of which its cam curvature 24 the tip 78 of the piercing pin 44 tightly again in the manner described above is pressed against the opening edge of the pressurized gas container cap 60.

In valves according to the invention, the delivery of pressurized gas from a pressurized gas container is accordingly automatically throttled according to the overpressures occurring in a gas expansion chamber or completely prevented.

Claims (7)

Claims: 45 1. Valve for withdrawing gas from pressurized gas containers with a device for automatic Keeping the pressure in the supply line constant, especially for pressurized gas containers with a pierceable cap, characterized in that the cylindrical housing interior (10) is separated by an intermediate wall (32) into a gas outlet chamber (12) and into a gas expansion chamber (14) which are connected to one another by at least one channel (34), and that the gas expansion chamber on its side opposite the partition wall from one to the housing wall tight sliding piston (40) is limited, which carries a piercing pin (44), the tip (78) with the opening pierced in the wall of the gas container (46) through an opening on the piston acting spring (68) forms the valve acted upon in the opening direction and that of the gas expansion chamber opposite side of the bulb is connected to the atmosphere. 2. Valve according to claim 1, characterized in that at least the neck part of the pressurized gas container (46) in a guide piece (80) attached to the valve housing (2) in a flow-tight manner it is added that also serving to pierce the pressurized gas container cap (60) Tip (78) of the piercing pin (44) through an opening (58) formed in this guide body protrudes. 3. Valve according to claim 2, characterized in that on the piercing pin (44) after externally protruding component (48) made of resilient material is attached, which is attached to one of the Tip (78) of the piercing pin remote stop (50) of the piston (40) is resiliently supported. 4. Valve according to claim 3, characterized in that for the component (48) made of resilient Material another stop (49) on the piston (40) to limit the relative movement between the piston and the piercing pin (44) is provided. 5. Valve according to claim 3 or 4, characterized in that the component consists of resilient Material has the shape of a spring ring or a plate spring (48). 6. Valve according to claim 5, characterized in that said compression spring (68) is supported on the spring ring or the plate spring (48). 7. Valve according to one of claims 2 to 6, characterized in that said guide piece (80) which holds one end of a sleeve (64) made of elastic material, which at least holds said compression spring (68) over its largest longitudinal area that also surrounds this sleeve in a cavity (66) of the piston (40) protrudes and with its outer edge (74) with the wall of this The cavity has contact or is in close contact with it, and that the one located outside this sleeve Space with the side of the piston connected to the outside atmosphere. 1 sheet of drawings