DE1106136B - Membrane-controlled pressure reducing device for containers for compressed gases, liquids or the like. - Google Patents

Description

Diaphragm-controlled pressure reducing device for containers for compressed Gases, liquids or the like. The invention relates to a diaphragm-controlled pressure reducing device for containers for compressed gases, liquids or the like. In their housing with the membrane connected closure piece guided in a bore and against one located on the pressure medium supply seat is movable, on the one Side of the membrane is connected to the expansion chamber via a feed Pressure chamber is provided so that the pressure prevailing in the pressure chamber the Membrane acted upon on one side, while on the other side of the membrane a valve opening spring acts.

The known membrane-controlled pressure reducing devices for containers for compressed gases, liquids od. The like. To regulate the pressure of compressed Gases, e.g. B. carbonic acid, show when the compressed gas escapes from a Containers have serious disadvantages due to various construction details. These known pressure reducing devices have one in the passage pipe between the supply line and expansion chamber arranged closure piece, which via a special lifting rod or is directly connected to an elastic membrane. Here is the membrane loaded on the one hand by a spring, the tension of which is adjustable while it on the other hand, acted upon by the pressure in the pressure chamber located on this side that is provided with the expansion chamber via a separate one in the housing Passage is connected.

Because when regulating the pressure compressed CO2 gas as a result of too sudden Expansion slightly when passing through the known pressure reducing devices Icing in the vicinity of the stopper or blockage of the passages is possible, one already has pressure reducing devices with a constant cross section Supply line built. Attempts have also been made to enlarge the cross-section behind the closing piece, which was laid in the supply line, or by arranging a venturi at the narrowest passage point the risk of To reduce icing or freezing. Pressure reducing devices are also included the advantage of easy interchangeability of the individual housing components and those, in which expansion chamber and pressure chamber by one located outside the housing Line are connected, became known.

Another disadvantage if the gas to be controlled is C. 02 is the contact between the liquid gas and the rubber membrane, which occurs in the expansion chamber when the expansion chamber and drain line do not are separated, and is extremely detrimental to the membrane. The rubber membrane becomes hard and brittle under the influence of liquid C 02 gas, which then leads to malfunctions the pressure reducing device and can lead to dangerous overpressures.

The above-mentioned deficiencies are eliminated by the present invention, according to the invention by the closure piece with its seat in the over their entire Length of the same cross-section having feed line for the compressed medium is arranged at a distance from its confluence with the expansion chamber. With special The advantage is the expansion chamber and the valve housing in separable, replaceable housing parts provided, and expansion chamber and vacuum chamber are connected to one another by a connecting line located outside the housing parts tied together. According to the invention, the connection line with the expansion chamber and connected to the pressure chamber by a stopper, each one to the Pass through the ends of the connecting line formed annular chamber and with this through a cross hole are connected.

The subject of the invention is shown on the basis of one in the drawing Embodiment explained. The pressure reducer is connected to bottle B, which is provided with a main tap R and a known outlet attachment A. In the Outlet attachment A is screwed in a side view T-shaped housing part 1, whose Bore 2 in the same axial direction as that of the outlet attachment A of the bottle runs and which forms the beginning of the supply line, which in the drawing by F is denoted and extends in a perpendicular to the bore 2 drilling 3 continues. The bore 3 merges into a bore 10 of a housing part 5, which is screwed into part 1 with thread 4. In a recess 6 is a tubular Piece 7 is used and is screwed onto the thread 5 'via the collar 8 Union nut held with the interposition of a sealing ring 9.

The bore 10 of the component 5 and the bore 11 of the piece 7 run in the same direction as the bore 3 and with the same diameter as this.

A seat 2 'is at the transition from the bore 2 to the bore 3 for the Closure piece 12 present. The free end of the piece 7 protrudes into an opening 13 the expansion chamber 17, which is formed by a cylindrical housing 14 and cover 15 and 16 is formed with sealing rings 15 'and 16'.

In the cover 15 is in a threaded hole 18 of the connecting piece of the Housing of a cock 19 screwed, on the opposite side a connection 20 for connection to the line leading to the consumption point is located.

The cover 16 has a threaded bore 21 into which a sealing plug 22 is screwed, which has two parts 23 and 24 with different external diameters.

The expansion chamber 17 is located above the bore 26 of the plug 22 connected to a manometer M and to the pressure chamber of the pressure reducer. That The manometer is screwed into the threaded portion 26 'of the bore 26. On the part 23 of the plug 22 the annular connection 25 is a curved one Connection line 27 mounted. The inner diameter of the annular connector 25 is larger than the outer diameter of the part 23, and it is so between the two parts a free annular space, which by means of a in the part 23 perpendicular for the bore 26 provided transverse bore 29 the connection between the expansion chamber and the connecting line 27 produces. Seals 25 'between connection 25 and corresponding mating surfaces 28 and 16 ″ seal this group.

The other end of the connecting line also has an annular one Terminal 30 and is pushed onto a plug 31 in the cylindrical Port 35 of a cover 36 is screwed. The plug 31 has a bore 32, which is connected to the annular space 30 'by a transverse bore 33. The waterproofing this group is secured by seals 34. In the connecting piece 35 is a bore 36 ', which has the same diameter as the bore 32. The cover 36 is with the threaded connection part 37 is screwed into the outer end 40 of the housing part 1.

Channels 38 in the cover 36 connect the bore 36 'to the pressure chamber 39, passing through the walls of the lid 36 and through a membrane 41 - preferably made of rubber - is limited, the edges of which between cover 36 and end 40 of the housing part 1 are clamped. The membrane 41 is fixed to the closure piece 12 by discs 42 and 43 connected between a nut 44 and a support on the corresponding End of the closure piece 12 are attached.

Between the ends of the housing part 1 are lateral, symmetrical slots arranged about its axis. On the part of the housing part 1, which is adjacent to the outlet extension A of the bottle, is a cylindrical extension 45 with External thread, in the interior of which a bore 46 with a closure piece 12 appropriate diameter is provided. An internally threaded ring 47 is on screwed this approach and clamped a spring between it and the disc 43.

The device according to the invention works as follows: The gas is located in the liquid state in the bottle B generally under a pressure of 50 kg. When the valve R is opened, the liquid gas penetrates into the bore 2 and flows through the bores 3, 10 and 11, the cross-section of which is calculated so that a relaxation of the gas in the channel itself cannot take place. This relaxation rather takes place only in the chamber 17, from where the expanded gas after opening of the tap 19 flows to the point of consumption.

From the expansion chamber, the gas also flows to the pressure gauge and through the connecting line 27 into the pressure chamber 39, where the gas has a pressure exerts on the membrane 41 and thereby against the pressure of the spring 48 the closure piece 12 is actuated.

In order to avoid the formation of eddies, the flow of the liquid gas would slow down, the gas must be released before it enters the expansion chamber 17 can be prevented. So there is no throttling due to the actual pressure medium supply line exercised. It is therefore clear that in every position of the locking piece its part that comes into contact with the gas flow must not act as a throttle. It is also clear that in normal operation the plug is practically non-existent protrudes into the supply line, but remains in the open position.

However, if the pressure in the expansion chamber is the normal working pressure, for the system and especially the spring 48 and the position of the locking piece are designed, exceeds, the membrane 41 will deform under the overpressure and the closure piece 12 approach its seat 2 'and the bore 2 in whole or in part close.

The seat 2 'is arched to ensure that it closes as best as possible Walls provided so that the contact between the seat and the end of the closure piece takes place on a line and not in a contact area.

The closure piece 12 is made of stainless steel and is therefore not subject to any changes if C 02 is touched for a longer period of time. The housing part 1 in which the seat 2 'is provided is made of brass, aluminum bronze or one another metal that is referred to as "soft" in relation to that of the locking piece 12 can be; the contact of this soft metal with the stainless steel of the The ram ensures - if necessary - an absolutely tight closure of the bore 2. The controller responds extremely quickly, so that the supply line is closed before the overpressure becomes dangerous.

When opening the passage from hole 2 to 3 by pulling back of the closure piece, this passage forms a throttle in for a short time the line, and the liquid gas can already relax in the bore 3, so that a gaseous phase forms in it. However, this phase lasts only that A fraction of a second and the controller will immediately return to normal.

It can be seen that the device according to the invention is advantageous Can be used for bottles with C 02 under pressure, since freezing is prevented, so that the device increases safety. The inventive Device implemented in the manner described above allows great performance in relation to their dimensions. Thus the known type of device allows to regulate the output up to 6 kg in 12 seconds.

It should also be noted that the embodiment according to the invention for the Relaxation of all gases and liquids can be used while known Pressure reducers are mostly intended either for liquids or for gases.

It should be noted that changes in shape or details compared the embodiment described above, which are within the scope of the invention are possible.

Claims (3)

PATENT CLAIMS: 1. Diaphragm-controlled pressure reducing device for containers for compressed gases, liquids or the like, in the housing of which a closure piece connected to the diaphragm is guided in a bore and can be moved against a seat on the pressure medium supply line, with one on one side of the diaphragm a pressure chamber connected to the expansion chamber is provided so that the pressure prevailing in the pressure chamber acts on the diaphragm on one side, while a valve opening spring acts on the other side of the diaphragm, characterized in that the closure piece (12) with its seat (2 ') is arranged in the supply line (F) for the compressed medium, which has the same cross section over its entire length, at a distance from its opening into the expansion chamber (17). 2. Pressure reducing device according to claim 1, characterized in that the expansion chamber (17) and the valve housing (1) Provided in separable, replaceable housing parts and expansion chamber and pressure chamber via a connecting line located outside the housing parts (27) are interconnected. 3. Pressure reducing device according to claim 1 and 2, characterized in that the connecting line (27) is connected to the expansion chamber (17) and the pressure chamber (39) by a respective stopper (22, 31), each one at the ends of the connecting line (27) through the annular chamber (30 ') or (25 ") formed and are connected to this by a transverse bore (29 or 33). Considered publications: German Patent No. 966 423; Austrian Patent No. 164 697, 156 543; Swiss Patent No. 161379; British Patent No. 405 050; U.S. Patent No. 1212 879, 1 172 596, 1166358.