DE1456306A1 - Relieved valve for breathing equipment, especially for diving equipment - Google Patents

Description

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Because the opening force for the valve is essentially constant and is low, e in pressure winder only required a small membrane, while so far A minimum size was necessary in order to withstand the fluctuations in the reduced pressure in to keep within acceptable limits.

The invention is to be explained in more detail below using an exemplary embodiment. The accompanying drawings show: FIG. 1: a relieved valve in section with soft elastic. Schem arranged on the housing sealing ring Fig. 2: Another embodiment, according to FIG. 1 with hard. elastic sealing ring arranged on the valve closure body Fig. 3: a valve is relieved in section with soft elastic. shear sleeve around the valve closure body and its guide Fig.4a: the interchangeability of the sealing surface of the valve valve. Connection body with that of the housing Fig.4b: another embodiment according to Fig. 3 'Pig, 5a: a partial section of Fig, 1 or 2 with a concave. formed sealing surface of the valve closure body and with a curved and vertically upwardly guided actuator. Fig. 5e: a partial section of Fig. 1 or 2 with a valve closure body, the upper surface of which is concave and the lower surface of which is convex, which is provided with through holes arranged around the undrilled center and connected to several curved actuators, Fig. 5d: a partial section of Fig. 3 or 4t whose valve closure body is designed as a pierced ball or has biconvex surfaces and in which ex. centrally an actuator is located, FIG. 6 the mode of operation of a valve according to FIGS. 1 to 5, the valve closure body of which is conical on one side. is formed and the multi-armed actuator acts on a membrane, Fig. 7 shows an application example of a valve according to Fig. 1 to 6 in a diving regulator or pressure reducer open pot-like body is formed and into which the 2reßluft flows in from below. The valve closure body 4 is located in the valve housing 1 and is axially displaceable in the valve housing 1 and is equipped with an actuator 9. The essential feature of this valve closure body is that it is provided with a through hole for the purpose of pressure relief. The lower end face of the valve closure body 4 can be sealed off from the housing 1 with the aid of a sealing ring 5. The sealing ring 5 is clamped with its outer edge in the housing 1 and with its inner edge either on the valve closure. body 4 attached or glued or only stored on this removable. The preferably conical end face of the valve closure body 4 rests on the housing base 2 on a sealing washer 3 of the housing 1 and seals there.

The actuator 9 , which is positively connected to the valve closure body 4, protrudes through an outlet opening 13 located below the Geiläusebodens 2, several such openings or bores can be arranged in the housing base 2 for the air outlet, the sealing ring 5 is designed as a soft rubber ring and prevents the ingress of air between the valve housing 1 and the valve closure body 4 and at the same time enables an axial displacement of this valve closure body 4. A spring 6 presses against the valve closure body 4 and holds it in the upper closed position Air filter 7 is arranged and is used to regulate the spring tension of spring 6.

In the other embodiment shown in FIG. 2, the sealing ring 11, which is designed as a hard rubber ring, is arranged on the lower end face of the valve closure body 4 with the aid of screws and a washer 12. The housing 1 is here equipped with an inwardly directed conical valve seat 10, p on which the sealing ring 11 presses from below. The rubber must be so hard-elastic that it does not lie around the valve seat 10, but nevertheless lies tightly. This sealing ring 11 or, as a result, also the valve closure body 4 is constantly slightly pretensioned by the compression spring 6 when the valve is closed. The force acting on the sealing ring 11 will be less than 1% of the force acting when the valve is not relieved. When the valve is open, air may of course also escape from the ring 11. If a ball is used for the seal, it can lie loosely on the upper end face of the valve closure body 4. The housing base 2 is then of course arranged higher. The valve is opened by actuating the actuator 9 in the axial direction towards the air filter 7.

FIG. 3 shows a balanced valve in section with soft elastic sleeve to the valve closure body and its Führung4, According to FIG. 3, the valve made of a downwardly open cup-shaped Ventilgebäuse 1, In dieseia housing 1 is mounted on a housing-fixed arm 14 a by this arm 14 is arranged from below closed guide bushing 15 . The valve closure body 4 partially protrudes into this guide bushing 14. -weisetjedoch at a distance. In the guide bush 15 there is also a compression spring 6. The guide bush 15 and the valve closure body 4 are surrounded by a flexible sleeve 5, for example by a rubber hose. The valve closure body 4 surrounds with its r conical upper end face an outlet opening 13 arranged in the housing base 2 and seals the housing 1 via the sealing disk 3 arranged in the housing base 2 as a function of the compression spring 6.

The mentioned 2rinzip can be varied in such a way that instead of the Guide bush 15 a counter pin is used with the same diameter having valve closure body 4 surrounded by a flexible sleeve 5 is. Both, d. H. the guide bush 15 and in the valve closure body 4 protruding part of this are interchanged in their function and such a form travel up so that they run into one another. Instead of the sealing washer 3 can also be a valve cone placed on the valve body 4 can be used. Furthermore can the flexible sleeve 5 either around the valve closure body 4 or on the guide bushing 15 or both. It is fastened by means of clamps 16 or by vulcanization.

The back pressure is balanced through the through hole arranged in the valve closure body 4. The conical upper end face 18 of the valve closure body 4 is only lost to the back pressure. The stroke of the valve can be kept small by enlarging the outlet opening 13 or by choosing a larger valve. Furthermore, the thickness of the flexible sleeve 5 and the displacement must be adjusted to one another, so that the sleeve 5 is not damaged by pressure and is not trapped.

The sleeve is not deformed by the high pressure because of the pressure forces act on all sides.

The force required to open the valve must be sufficient to overcome the friction on the clamp 16 and to elastically deform the sleeve 5 . If the cylinder pressure is high, a small valve stroke is sufficient.The advantage of using this valve for diving equipment is that any amount of air, regardless of the pressure of the storage container and the diving depth, can be taken from a small regulator with the lowest breathing resistance, when used in known pressure reducers is sufficient it is possible to use very small diaphragms without fluctuations in the downstream pressure occurring.

In Fig. 4 a part of FIG. 3 is shown in section, but the shape of the sealing surface on the upper part of the housing is interchanged with that of the valve closure body is.

In Fig. 4b, the valve is also shown in section, also here are the valve housing 1, the housing base 2, the. Sealing washer 3, the valve closure body 4, the flexible compression spring 6, the outlet opening 13, the housing arm 14, the guide bush 15, the clamp, 16, which can be vulcanized, for example is made, the through hole 17 and the conical upper end face 18 of the valve closure body 4 is shown. To get good opening properties and the upper diameter must also achieve a tight closure of the vontile the conical shield surface 18 of the valve closure body 4 larger than be the lower outer diameter of the valve body. Is the top diameter equal to the lower diameter of the valve closure body, one obtains a complete Relieved valve, but that is unfavorable and so floats. With variation of this The closing or opening pressure can be adjusted or varied in diameter. Fig. 5 a shows part of Fig.l to 4 with a plan. convex Valve closure body 4,9 with a curved actuator 9 non-positively or positively connected is. The actuator 9 protrudes through the conical opening 13 of the housing bottom 2, which is here non-circular or oval.

5 b shows the housing base 2, the sealing surface of which is a concave surface is formed and on which the Vontile closure body 4 acts.

FIG. 5 c is also a part in particular of FIG. 2.

The valve closure body 4 is designed here as a concave-convex plate and has several through-holes arranged around its center. drilled Duxchg, -tngslöcher 17. The actuator 9 is attached in the center of the valve closure body 4 and designed as a double lever. Attr- this double lever is a disk 19 which is connected to the actuator 9. This plate 19, which is a diaphragm and can be exposed directly or indirectly to the water, is easier to find and operate by the diver if necessary. It can be designed as a rubber membrane, for example, so that the relieved valve is automatically opened and closed as a function of the breaths (Fig. 6 and 7). The openings 13 are here also formed conically outwards, so that a relieved tilt valve is created. FIG. 5d particularly shows FIG. 2. The valve body 1 is easier to manufacture due to the straight valve closure surface 20. A valve closure body 4 rests on this closure surface 20, which is made of a hard elastic material and a biconvex flat or lens bildg which is drilled through centrally, in which the curved actuator (or a straight one) is arranged eccentrically.

In Fig. 6, the operation of a valve according to the invention is shown in a part of a diving regulator or pressure reducing valve. The actuator 9 here acts on a membrane 21 and is direct or via one or more Lever or a lever transmission connected to this. The actuator 9 is here rigidly connected to the valve closure body 4. The sealing surface of the valve closure body 4 is designed as a cone and acts on a sealing ring, which is essentially the Sealing ring 5 corresponds) but can be hard or soft elastic or hard. The plate 19 can be designed as a membrane, preferably as a rubber membrane.

In Fig. 7 an embodiment, in particular of the valve closure body 4, according to FIGS. 1 to 6 is shown, which is installed in a diving device controller or a pressure reducing valve. According to this figure, the valve closure body 4 is arranged centrally in a rubber membrane or clamped firmly and tightly, and at the same time axially adjustable with the aid of a screw 23. The valve closure body 4 is held and guided here only by the membrane 22. The membrane 22 is also inserted into a housing and with the aid of a pot-like screw. or clamping cover 24 klemmbat. The adjusting screw 23 is arranged in this cover 24. It is of course possible to arrange the valve according to the invention or in particular the valve closure body 4 several times or as often as there are diaphragms and / or valve or regulator stages in a diving regulator or pressure reducing valve. According to FIG. 2, the valve closure body 4 seals two sealing surfaces at the same time. The production here is not very easy. For this reason, the valve closure body 4 can be adjusted with the aid of the adjusting screw 23. The invention can of course also be used for other devices, for example for pneumatic regulation and control purposes, and in particular where valves are required that must be easy to open or close .

Claims (1)

Patent claims: 1. Relieved valve for breathing apparatus, especially for diving apparatus, characterized in that an axially displaceable valve closure body (9) provided with a through hole and an actuator (9) is provided in a cup-like valve housing (1), which is preferably open at the bottom, and which is open on one side. 4) is arranged whose lower end face with the aid of a sealing ring (5; 11) towards the housing (1) is sealable: #i whose preferably # L # nisch trained the upper end face is in close contact with the housing base (2) and the actuator (9) of which protruded through an outlet opening (13) located below the housing base (2) 2. Relieved valve for breathing apparatus, in particular for diving apparatus according to claim 19, characterized in that the sealing ring (5; 11) is a soft rubber ring on the housing (1) or is arranged as a hard rubber ring on the valve closure body (4), 3. Relieved valve for Atemgerätg in particular for diving equipment according to claims 1 and 2, characterized in that the valve closure body (4) is arranged on a part of the soft rubber ring (5) and is axially displaceable by this . 4. Relieved valve for Atemgeräteg in particular for diving equipment, according to claim 1 to 3, characterized in that in the lower end face of the housing (1) 'an air filter (7) is arranged. 5. Relieved valve for breathing apparatus, in particular for diving apparatus according to claims 1 to 49, characterized in that (instead of the sealing washer (3) a ball lying loosely on the upper end face of the valve closure body (4) is used In particular for diving equipment according to claims 1 to 59, characterized in that the valve closure body (4) arranged and pierced through a valve casing (1) which is open downwards and is pot-shaped on an arm (14) fixed to the casing, with its guide bushing closed by the arm (14) (15), in which it partially protrudes at a distance and in which there is a compression spring (6), is surrounded by a flexible sleeve (5) which has an outlet opening (13) arranged in the housing base (2) with its conical upper end face 7. Relieved valve for breathing apparatus according to Claims 1 to 69, characterized in that the function of the guide bushing (15) mi t that part of the valve closure body (4) protruding into it is interchangeable or that instead of the guide bushing (15) a counter pin of the same size corresponding to the valve closure body (4) is arranged »8, relieved valve for breathing apparatus according to claims 1 to 7, characterized in that instead of the soft elastic sleeve (5) a rubber hose is used. 9. Relieved valve for breathing apparatus according to claim 1 to, characterized in that the Ventilversöhlußkörper (4) 9 has a central through hole (17) and / or several through holes preferably arranged around the undrilled center, as a one or two-sided curved body made of metal or hard-elastic material is formed, 'has at least one straight or a simple or melu-fold at an angle curved actuator (9) which is arranged centrally or eccentrically in this body, 10. Relieved valve for breathing apparatus according to claim 1 to 92, characterized in that the Sealing surface (s) of the valve (1) or of the valve closure body (4) is (are) designed as a curved or curved surface (s). 11. Relieved valve for breathing apparatus according to claim 1 to 10, characterized in that the valve closure body (4) is designed as a biconvex, biconcave, plano-concave, plano-convex, concave-convex or convex-concave body. 12. Relieved4s valve for breathing apparatus according to claim 1 to 11, characterized in that the valve closure body (4) or the actuator (9) is connected to at least one membrane of a pressure reducing valve or diving apparatus regulator, 13 »Relieved valve for breathing apparatus according to claim 1 to 129 characterized that the plate (19) itself is designed as a membrane, for example as a rubber membrane, so that the relieved valve automatically opens or closes depending on the breaths. 14. Relieved valve for breathing apparatus according to claim 1 to 139, characterized in that the valve closure body (4) is axially adjustable and is arranged in or on a membrane. 15 »Relieved valve for breathing apparatus according to claims 1 to 14, characterized in that the valve or in particular the valve closure body (4) is used as often as there are membranes and / or valve or regulator stages. 16. Relieved valve for breathing apparatus according to claims 1 to 159, characterized in that the valve closure body (4) seals two sealing surfaces at the same time. 17. Relieved valve for breathing apparatus according to claim 1 to 169 characterized in that the valve closure body (4) is firmly spun into a membrane, for example in the center, and is preferably only guided and held by this. 18. Relieved valve for breathing apparatus according to claim 1 to 179, characterized in that the membrane (22) is inserted into a housing and clamped or held with the aid of a clamping device (24) Clamping device an adjusting screw (23) is arranged. 19. Relieved valve for breathing apparatus according to claim 1 to 18, characterized in that the sealing surface (s) of the valve closure body (4) or the valve (1) is conical (are) *