DE1064306B - Gas pressure regulator and gas cylinder valve - Google Patents

Description

GERMAN

Gas cylinder valves are known whose regulating elements and valves are detachable from one another Components are housed. The gas cylinder valves are designed as non-return and safety valves at the same time. The gas cylinder valves are provided with a loose plunger that protrudes into the valve seat and the connection between the actual Control element and the valve manufactures. The plunger is attached to his by a guide washer centered at the top. The plunger is also provided with a shoulder that will fall out once Prevented from the valve and on the other hand to serve in the event of an impermissible increase in pressure in the LPG bottle - the z. B. can occur due to an increase in temperature - the closing cone from To push off the valve seat if the entire valve insert is contrary to the inadmissible pressure increase Force of the safety spring is pressed outwards. With slip-on regulators, the valve housing is on his Provide the outer surface with a ball groove into which the ball coupling of the plug-in controller engages. Since that Control member and the valve components are arranged in detachable components, which are often against each other are replaced, there is the disadvantage that the setting of the controller causes difficulties, since an absolutely exact dimensional accuracy of the adjustment components can practically not be achieved. This is Significant for the reason that the controller only works after the two components have been connected, for example by plugging it on. Getting the right amount poses a particular difficulty the distance from the tip of the plunger to the center of the ball groove, the other end of the plunger being in The valve seat must lie firmly against the closing cone. In the previously known version, this dimension determined by a special measuring device. If there is a deviation from the prescribed level is detected, the plunger must be exchanged for one of the appropriate length. this happens in such a way that a large number of plungers of different lengths with minor deviations are in stock is held. If a gas cylinder valve is to be equipped with the plunger, it will be like this proceeded that initially a so-called normal slide is used. Then that will be the case Clearance determined and then the ram of the appropriate length to be installed is selected. Finally will Measure again whether the prescribed distance has been observed. This method has several Disadvantage. They are cumbersome to use. A large number of tappets must be used both during manufacture the gas cylinder valves as well as at all filling stations of the gas cylinders are stored, thus unusable Gas cylinder valves that have become gas pressure regulators and gas cylinder valves after their repair

Applicant:

Drägerwerk, Heinr. & Bernh. Dräger,
Lübeck, Moislinger Allee. 53/55

can be made functional again. For example, after replacing the elastic Sealing material of the valve and the tappet can also be replaced.

Furthermore, a spring-loaded control valve for high-pressure gas bottles or the like with the control of the \ ^ valve plate mediating shaft of the type described at the beginning has become known, in which the valve stem, which is loosely resting with its lower end on the valve plate, preferably in its upper part in one with the Valve housing releasably connected guide part is axially guided and limited in its upward movement. The shaft guide part can be guided in a part detachably connected to the valve housing, inserted into it and held in its position by a further part detachably connected to the valve housing. A spring can be supported against the first-mentioned part, which in a known manner presses an insert in a bore of the valve housing against a shoulder of the valve housing, this insert serving to guide the valve disk together with its spring. Furthermore, the stem guide part can form a stroke limiter for the collar of the valve stem. It is also known that the end of the valve stem resting on the valve disk widens conically towards the Λ ^ εηίίΙίεΠεΓ, while the part forming the valve seat tapers in its cross section towards the valve disk so that the bearing surface of the shaft clears when the valve is closed Cross-section of the valve fills. The valve disk can also accommodate a valve seal in a cup-shaped recess. In this known device, a shaft of a suitable length is selected as in the case of the designs described at the beginning. It will be able to \ ^r entils permanently installed all parts except the valve stem, the cup-shaped guide member and the screw cap and

909 609/247

secured by a screw sleeve. With the help of an appropriate teaching, a valve stem becomes more suitable Length selected, each of the valve stem and the cup-shaped guide part used and should be taken out again, if necessary, in order to replace the valve stem with one of other length to replace. After selecting the valve stem of a suitable length, the Screw cap screwed in. This valve design has the disadvantages already mentioned at the beginning cumbersome assembly of the valve. Furthermore, a variety of plungers must be used in both the Manufacture of the gas cylinder valve as well as being stockpiled during the repair, so that it has become unusable Gas cylinder valves can be made functional again after their repair.

It is also a pressure reducing valve with a valve cone secured against rotation by a guide pin known whose valve housing ■ consists of several firmly connected to one another by screwing Part consists. A membrane is clamped in the housing, which acts on a longitudinal direction via a lever mechanism Slidably mounted intermediate piece acts. A screw is screwed into this, which can be used for any Extension or shortening of the intermediate piece is used and which rests against a valve stem. At its other end, this carries the valve cone, which in the closed position rests against a valve crater. The valve stem is under the action of a spring pressing in the opening direction. The previously known The valve forms a closed unit that can be inserted into a gas line. The previously known The valve is not designed in such a way that it consists of two separate components that can be joined together, which can be exchanged for other components of the same type.

. There is also a pressure reducer, in particular for high-altitude breathing apparatus, known in which the loading spring the control diaphragm is supported on a part which is relaxed when this connection part is loosened Gas discharging line moved so far in the housing of the pressure reducer that the loading spring is relaxed and thereby the inlet valve controlled by the membrane for dias high tension Gas is closed continuously. The loading spring of the control diaphragm can be attached to a into the housing of the pressure reducer protruding stub of the connecting part of the expanded gas Support the outgoing line. In the control diaphragm can be applied to the valve spindle of the inlet valve adjustable stop part, e.g. B. an adjusting screw can be used. This valve is also in housed in a housing, which is firmly connected to each other by screwing from several Sharing consists. The valve also forms a closed component that is connected to a pressure line is. This valve is not designed so that it consists of two separate couplings There are components that can be exchanged for components of the same type.

It is also used in the manufacture of pressure reducing valves generally also known to screw a valve tappet to the valve cone associate. However, this is not an adjustable connection that is used to adjust a Valve is used, which by the optional coupling of two 'can be coupled with each other, against other components replaceable components is formed.

The invention seeks to avoid the disadvantages of the valves described above. The invention . relates to a gas pressure regulator in which the valve of the regulator is housed in a separate component which is connected to a pressurized gas storage container or a pressurized gas line, while other- on the other hand, the valve-actuating control diaphragm is housed in a further component that is used for For the purpose of interchangeability, it is connected to the first component such that it can be easily coupled, the control membrane in the coupling state of both components

ίο one arranged in the component containing the valve The plunger acts on the movable valve component. The invention consists in that the valve tappet is self-locking and adjustable by screwing is connected to the movable valve component and that this is secured against rotation. The invention has the advantage that when assembling the component in which the movable Ventilbäuteil is housed, the adjustment is significantly simplified. It is enough after screwing in check the correct position of the valve tappet by means of a gauge. If the plunger does not have the correct position, the difference that has yet to be compensated can be read off from the teaching and the plunger can be brought into the correct position by turning it accordingly. The assembly is thereby considerably simplified. The installation time is; shortened. In addition, it is no longer necessary to keep a larger number of tappets available. Due to the self-locking screw connection an unintentional shortening or lengthening of the plunger is prevented. To this end, this can be done on the closing cone arranged elastic sealing material rest on the plunger. It can elastic sealing material can be connected to the closing cone by gluing or vulcanizing. That elastic material, which is in contact with the plunger, prevents unintentional adjustment of the plunger.

In order to secure the valve cone against twisting, it can be fitted with one or more be provided with guide surfaces to prevent rotation. As a counterpart to the guide surfaces a disc inserted into the bore of the valve cone is used.

In order to enable simple adjustment of the plunger, it is expediently provided at its upper end with a transverse pin for rotating the plunger. This cross pin can also serve to open the valve in the event of an excessive increase in pressure. For this purpose, a stop known per se is arranged at a distance from the cross pin in the cylinder valve, the distance being dimensioned such that the movement of the valve tappet is inhibited after the valve closure part has been lifted briefly. In the drawing, an embodiment of the invention is shown schematically, namely shows
Fig, I a longitudinal section,
Fig. 2 a section along the line 7.-7 ..
The valve consists of one component A, which is firmly connected to the bottle , for example, and a component B arranged above it, which can be coupled to the lower component A. Component B can be exchanged for any other similar component. It contains a control membrane a, which acts via an intermediate piece b in the coupled state on the tappet 7 of part A, which will be explained in detail later. To attach part A , snap-in balls c are used, which snap into the groove 11 in the coupling position and which hold both parts A and B in a certain position to one another. Forms in the coupled position

the membrane a the control membrane through which the valve housed in part A is controlled.

Part A is constructed as follows: The valve seat 1 has an attachment 16 with which it slides in the bore of this bottle housing 2. The valve seat is pressed in a known manner by the safety spring 3 against the sealing ring 4. The spring 3 is supported on its other side against stop 3 α.

The closing cone 5 is provided with an internal thread 6 into which the plunger 7 is screwed. The elastic seal 8, which is preferably made of liquid gas-resistant plastic, is secured against rotation in the closing cone 5, for. B. by gluing or vulcanizing. The inner bore of the seal 8 is designed so that the plunger 7 is held in its position after it has been screwed into the locking cone 5 so that it cannot be inadvertently rotated. It is screwed in with a special key that engages the Ouerstift 9 of the plunger 7. The distance from the tip 10 of the plunger 7 to the center of the ball groove 11 on the housing 2, which must be observed for all gas nipple valves of this type, can thus be easily achieved without. Replace the ram to be adjusted. The storage of plungers in different lengths is therefore switched off. Hence the possible confusion of only slightly \ ^r in length oneinander different ram falls away. This is a great advantage for the liquid gas filling stations, which monitor the gas cylinder valves themselves and repair them if necessary.

To secure the locking cone 5 against twisting, the lower end of the locking cone shaft is with Provided guide surfaces 12 which slide in a matching guide disk 13. The guide disk 13, in turn, acts as an anti-twist device an approach 14 ,. which lies in one of the four longitudinal slots 15 of the shaft 16.

The cross pin 9 in the tappet 7 also serves as a stop for the tappet when the safety valve is blown off. If the pressure increase in the liquid gas cylinder is inadmissible, the entire valve insert is counteracted the force of the safety spring 3 is pressed upwards, then the cross pin 9 comes shortly before reaching of the blow-off pressure on the flat surface 17 of the upper closure part 18 to the stop. So that will then the closing cone 5 is held in this position, and the valve seat 1 becomes with a further increase in pressure lifted off, so that the gas can flow out through the annular gap that then arises. When the pressure drops the safety spring 3 and the closing spring 19 push the parts back into their original position.

The closing cone 5 with the seal 8 is pressed by the closing spring 19 against the valve seat 1, the closing spring 19 being supported against the guide disk 13.

Claims (6)

Patent claims: 1. Gas pressure regulator in which the regulator valve is housed in a separate component which is connected to a pressurized gas storage container or a pressurized gas line, while, on the other hand, the control diaphragm which actuates the valve is housed in a further component is, which is easily coupled to the first component for the purpose of interchangeability is, the control diaphragm in the coupling state of both components via one in the the valve-containing component arranged tappet acts on the movable valve component, characterized in that the valve stem (7) is self-locking and adjustable by screwing is connected to the movable valve component (5) and that this prevents rotation is secured. 2. Gas cylinder valve according to claim 1, characterized in that the on the closing cone arranged elastic sealing material rests against the plunger. 3. Gas cylinder valve according to claim 1 and 2, characterized in that the elastic sealing material is connected to the locking cone by gluing or vulcanizing. 4. Gas cylinder valve according to claim 1 to 3, characterized in that the valve cone shaft is provided with one or more guide surfaces that secure it against rotation. 5. Gas cylinder valve according to claim 1 and 4, characterized in that for guiding the valve cone a disc inserted into the bore of the shoulder of the valve seat is used. 6. Gas cylinder valve according to claim 1 to 5, characterized in that the plunger at his upper end is provided with a cross pin for rotating the plunger and 'that at a distance from A known stop is arranged in the cylinder valve cross pin, the distance is dimensioned so that after briefly lifting the valve closure part, the movement of the valve stem is inhibited. Considered publications:
German patent specifications No. 241 604, 682 675,
992, 694 225, 717 043, 829 844, 832 369. 1 sheet of drawings © 909 609/247 8.59