DE2300240A1 - VALVE CONTROLLING DEPENDING ON A PRESSURE REDUCTION - Google Patents

Description

Valve that controls depending on a pressure reduction.

The invention relates to a valve for controlling the flow of a flowable Medium according to the pressure reduction, which in particular with a gas or other Flux container can be applied.

In particular, the invention relates to a valve which controls the flow of a flowable medium by automatically blocking the free flow according to the pressure reduction controls below a predetermined value in the system. A well-known valve related to gas containers becomes usually opened and closed by hand. It has often happened that the valve cock is wanted or something happens to be open, especially if the contents of the container are unlikely to cause the Air pollutes, so oxygen, carbon dioxide. What is harmful, however, is its endeavor to remove unclean outside air, Allow dirt, steam, oil components, etc. to enter the container through the open valve. As a result of these contaminants mixed in this way, the supplied fluid medium is subject to the risk of deterioration.

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or degradation. When very pure gas is required the container must be thoroughly cleaned with water and dried. After this Empty the containers are collected by consumers to remove the inside of foreign matter clean. In addition, the air remaining on the inside must be removed, which is done after the cleaning work either by substitution or by connection to an induced draft. So it must Significant amounts of time and labor are expended during preparation, resulting in decreased Profitability and increased costs result.

The invention aims to remedy the aforementioned disadvantages. A first object of the invention is the creation of a valve that regulates the flow of the flowable medium according to the Pressure drop below the. automatically locks a predetermined value, the system against the intrusion is protected from contamination in the container, even if the valve tap is slightly open.

Another main object of the invention is that the valve has a relative easy expansion and great reliability, with the problem of increased cost and hazard the public does not exist.

Another important object of the invention is a valve that is smaller and more manageable Dimensioning, which can be used with known manual valves, without space in the inlet and outlet of a container to claim.

Another object of the invention is to provide a valve with a minimum of effort to sealing arrangements or precautions against the

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Valve chamber, eliminating the need for lubrication in the seal assemblies that would otherwise unexpected inconveniences from mixing the lubricant or fumes from it with the flowable medium can occur in the system, with a frictional resistance due to the sealing elements, such as by sealing rings, which could otherwise interfere with the operation of the valve.

Other objects and advantages of the invention will become apparent from the following description, the Drawings and the appended claims.

The valve according to the invention comprises a valve body with valve chamber ^ which for the flowable Medium has an inlet at one end and an outlet at the opposite end, a first, im Upstream section slidably arranged moving part with a hole in the direction of displacement, a second portion of the valve chamber slidably disposed in the downstream portion Moving part, a first spring in the upstream part to act on the back of the moving part and a second section located in the downstream section has the second moving part rear bearing spring, wherein the first and second moving parts are held in mutual, sealed engagement by the first and second springs the second moving part a bypass on the outside of the sealing plane between the first and the second moving part, and a stop stop for at least one of the first and second moving parts is provided.

The drawing illustrates two exemplary embodiments of the invention.

Fig. 1 shows a longitudinal section through a valve according to the invention.

Fig. 2 shows a perspective reproduction äea itils according to claim 1 exploded into individual parts recognize.

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FIG. 3 shows a longitudinal section through the valve shown in FIG. 1 in FIG Working position to let out the flow of flowable medium.

FIG. 4 illustrates a longitudinal section through the valve according to FIG. 1 in the working position for refilling a container. Fig. 5 is a longitudinal section through a another embodiment of the valve according to the invention.

Fig. 6 is a section along the line H-II in Fig. 5-

According to FIGS. 1 and 2, the valve body 1 has an extension 2 with an external thread J5 on. This thread is used to connect a not shown drain line for the flowing medium. Inside the extension an outlet or outlet passage 4 is relatively large Diameter provided which has an internal thread. In the base of the outlet 4 is a valve chamber 6 is provided, which leads to an inlet or a passage 7, which is not a reproduced container is connected. A valve seat 8 is arranged in the valve body 1. The thread 9 of the valve seat engages in the thread 5 of the outlet. The opposite The end of the valve seat 8 has a smaller outer diameter and an annular one Nut Io on the open end. In the groove there is a sealing ring 11, which is against the inner wall the valve chamber 6 is applied. In the middle of one end of the valve seat body there is a hole provided to allow flowable medium to pass through. Between the opening of the bore 12 and the outer

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With a reduced diameter end, a spring chamber 13 and a valve chamber 14 are provided. The valve seat body 8 has a seating surface or stop surface 16 in the upward direction, which has the shape of a projection as shown in FIG. The valve seat body 8 is inserted into the valve body 1, the threads 5 and 9 interlocking. The end face 15 of the valve seat body 8 is flat or flattened on the upward side of the system and takes up half the space of the valve chamber 6. The contacting surfaces between the valve seat body 8 and the valve chamber 6 are sealed in a suitable manner. In the interior of the chamber 6, a non-return valve 18 for the outflow is arranged displaceably, which has a rectangular profile and at the end of which a projection 19 is provided. The outflow check valve is fixed in the part of the smaller outer diameter of the valve seat body 8, in particular in the chamber 14 via the projection 19, which faces the upward chamber of relatively large diameter as an end face. In this arrangement, an opening 21 is provided between the flat side surface 2o of the check valve 18 and the inside of the chamber 14 of reduced diameter. In the opposite position, a counterpart in the check valve 22 is arranged displaceably in the valve chamber 6. The check valve is provided with a ring-shaped packing 24. The packing 24 rests against the projections 16 and 19. The cavity of the check valve 22 comprises a bore 25 and the chamber 17 of large diameter, which is mentioned above. In addition, the check valve 22 has a suitable number of grooves 26 in the outer surface. The grooves

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are provided or cut along the streamline of the flowable medium. An opening 32 is provided in the outer surface of the check valve 22 to match the inside with the outside connect to. The check valve is arranged so that the packing 24 on the projections ΐβ and 19 is present. The check valves 18 and 22 are under the action of the springs 27 and 28. The spring 28 has a lower tension or a lower restoring force than the spring 27. The spring 27 is located on a shoulder 29 of the interior 31 of the inlet passage 7 · The spring 28 is located between the check valve 18 and the inside wall 3o of the spring chamber 13. The Check valves l8 and 22 are held in tight contact with one another without a change in pressure and thereby prevent the fluid from flowing in the system.

The mode of operation of the exemplary embodiment shown in FIGS. 1 and 2 is as follows:

When the fluid pressure between the upstream chamber 17 and the downstream " .Lying chamber 14 is the same, the check valves 18 and 22 remain in sealing contact pressed against each other, as shown in FIG. Here, the pack 24 is located under the Effect of the spring 27 and 28 in close contact with the stop surface 16. This is the end of the shut-off of the system without the flow of fluid medium. If a non-reproduced hand tap is opened to remove high pressure medium from the To let containers into the upstream chamber 17 ', the weaker spring 28, we downstream is slightly after, wherein the stop surface 19 stands out from the pack 24. So can

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the flowable medium pass into the passage 21 and then into the outlet passage 12. if the hand tap is closed, the pressure in the upstream chamber is reduced 17. This has the consequence that the check valve 18 in the original position under the effect the spring 8 returns as shown in FIG. So the system is closed again and no flowable medium is flowing. If the hand tap is left open by accident or on purpose is, the check valve 18 is automatically under the action of the spring 28 according to the Drop in the liquid pressure closed, with no stream of flowable medium between the Inside and outside of the system.

When the container is to be filled with liquid via a liquid feed line 33 and the hand tap for the supply of liquid medium is open, so is first or initially flowable medium introduced into the downstream chamber 14, with the result that the Check valve 22 against the action of the spring 27 under the influence of the flowable medium high Pressure is pushed back through the bypass channel 21. So the flowable medium gets into the container via the grooves 26, the opening 32 / the upstream lying chamber 17 and finally passed through the inlet passage 7. After filling of the container with flowable medium, the hand tap is closed and the feed line 33 of the Outlet 4 removed, the downstream chamber 17 being depressurized, around the check valve via the spring 27 into the original

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position. In this way the system is closed.

According to FIGS. 5 and 6, the valve body 51 has a bore 43 at one end Internal thread, which is connected to the outlet of a container. At the other end the valve body has an external thread 44 for connecting a pipe, not shown on. On the inside, the same end has a bore 45 of relatively large diameter with internal thread. In the bottom of the bore there is a valve chamber 46, which is a smaller one Has diameter than before. The valve chamber 46 has an annular shape Groove 47 in its center. The valve chamber 46 and the threaded bore 42 stand via a flowable medium introducing bore 48 in connection, which a shoulder 49 for a spring 69. A protruding snap ring 5o is located in the groove 47 as Stop for an outflow check valve 57 »on that will be entered into. A valve stop 51 has an external thread 52 which is in engagement with the internal thread of the bore 45. An end portion 53 has a smaller diameter than the diameter of the valve chamber 46. The end face of part 53 has an outlet or outlet passage 55 via a downstream chamber 54 leading opening. aside from that the end portion 53 has a suitable number of openings 56 in the outer surface. A little down from that openings 56, a packing 62 is provided against the valve body 41. The stop 51 is in the Bore 45 screwed in, so that the end portion 53

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smaller diameter of the valve chamber 46 faces face to face. The check valve 57 has a suitable number of grooves 58 in its outer surface, which both serve for the inlet as well as the outlet of the flowable medium or liquid. An end of the check valve 57 has a shoulder 59 for holding a spring 70. The opposite Side is provided with a recess 60 for receiving a pack 6l. Between the stop 50 of the valve chamber 46 and the bearing body 51, the check valve 57 is displaceable face-to-face arrangement with the packing facing the inlet passage 48 arranged for the flowable medium. An inflow check valve 63 has a protruding end 67 and is secured in the annular groove 64 with a sealing ring 68 equipped. The check valve 63 is between the limit stop 5o on the valve chamber 46 and the passage 43 for the inlet of the liquid arranged displaceably. The passage 43 has a protruding end 67 which rests against the packing 61 of the check valve 57. The contact surfaces between the check valve 63 and the inner wall of the valve chamber 46 are effectively sealed by the sealing ring 68. The check valve 63 is below the action of the spring 69 on the shoulders 49 and 66, which in the direction of the outlet passage 55 acts until the valve 63 rests against the stop 50. The spring 70 is slightly smaller Tension or slightly lower restoring force than the spring 69 and is located between the

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- Io -

Shoulder 59 of the check valve 57 and the bore 54. The check valve 57 is below the action of the spring 7o against the check valve 6j5 * with the packing 6l against the protruding end 67 of the check valve 69 rests in order to block the bore 65 or close. In the present case, the valve body 41 is with the liquid outlet 42 of the not shown container and screwed to a liquid outlet line, which is not is connected via the thread 44.

The operation of the valve according to FIGS. And 6 is as follows.

In Fig. 5, the arrangement is shown in a position in which the check valves 57 and 65 at between the downflow part and the Upward flow part of the same pressure touch each other or are located in a sealing system. In this In this case, no liquid flow can occur in the system. When a hand tap is opened to liquid from the container into the system, the upstream chamber becomes underneath set high pressure, the weaker spring 7o is moved back, so that the check valve 57 from the check valve 63 is free. The consequence of this is that the pressure fluid or the pressure medium from the container through the upstream located chamber 71 * the central bore 65, the Chamber 72, port 56, downstream chamber 54, and outlet passage 55 flows and finally flows out of the threaded bore 45.

When the hand tap is closed, the pressure in the intermediate bore 65 drops and returns the spring 7o to its original position.

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The check valve 57 returns to the original sealing position against the check valve 63. This completely eliminates the flow of liquid in the system. If the hand tap remains open, be it on purpose or accidentally, the check valve 57 is brought into sealing contact with the check valve 63 as the pressure of the fluid medium in the container drops below a certain value which is determined by the tension of the spring 7o is given, the flow of the flowable medium in the system being completely abolished. When a high-pressure fluid medium feeding line 33 to the threaded. Outlet 4-5 of the valve body is connected and the hand tap is opened to refill the container, the liquid is initially introduced into the downstream chamber or cell 72 via the threaded bore 45, the outlet passage 55 and the downstream chamber 5 ^ initiated, the check valve acting against the tension of the spring 69 in the upstream direction. On the other hand, the check valve 57 is prevented from moving forward by the limit stop 5o, and the check valves 57 and 63 are separated to form a gap therebetween. The supplied flowable medium is thus able to flow through the intermediate bore 65 and the inlet passage 48 in order to finally be introduced into the container. When the filling is completed, the pressure of the flowable medium in the downstream cell 72 drops below the restoring force of the spring 69 and becomes the non-return

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valve 63 in sealing contact with the check valve 57 brought by the spring 69, the liquid flow in the system stops.

The valve unit shown in Fig. 1 as the first example is in one body executed with the liquid container. But it can also be a separate unit. The valve unit, shown in Figs. 5 and 6? The second embodiment is a separate one Model, which can also form part of the container. Optionally can both valves are combined with the inlet of a hand tap for the container.

From the above it follows that the liquid flow in the system is effected in both directions until the check valves are automatically closed according to the pressure drop of the liquid in the system below the predetermined value, the contents of the container being free from harmful effects of air and dirt , oil, steam and other foreign matter.

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Claims (1)

Claims. / Ou ( 1. ^ Corresponding to a pressure reduction schlier ßendes valve, characterized by a valve body having a valve chamber with a Inlet for flowable medium at one end and an outlet for flowable medium on at the opposite end, a first slidable in the upstream section the moving part arranged in the valve chamber, the one provided in the direction of displacement Has passage for the flowable medium, and a second, in the downstream located portion of the valve chamber includes slidably disposed moving part; a first arranged in the upstream section, the first moving part behind the spring; a second slidably disposed in the downstream section, the second Moving part behind the spring, the first and the second moving part under the action of the first and second spring are in sealing contact i position, the second moving part has a j leave for flowable medium on the outside of the sealing plane between the first and second Has moving part and limit stops for stopping at least one of the moving parts. 2, valve according to claim 1, characterized in that both moving parts with a pack are equipped with respect to the countermoving part. 3. Closing according to a pressure reduction Valve, characterized by a valve body with an inlet for flowable Medium at one end and an outlet for flowable medium at the other end valve 303832 <Ό399 tilkairaner; a first, movable in that upstream valve chamber portion arranged moving part, which one having a first fluid passage in the direction of displacement; a second, movable moving part disposed in the downstream portion of the valve chamber; one first spring arranged in the upstream section behind the first moving part; a second, in the downstream one. Section of the valve chamber behind the second Moving part arranged spring; a pack arranged on one of the two moving parts for the system of the other moving part, the first and the second moving part by the action the first and second springs are held in tight contact; the second moving part a liquid passage which can be shut off by the first moving element 1 comprises a second liquid passage is provided on the first moving part on the outside of the sealing planes between the first and between the second moving part; where the first spring has a greater tension (restoring force) than the second spring and a the movement against the first moving part limiting stop is provided. . 4. Valve according to claim 1 and 2, characterized in that the limiting stop from a snap ring protruding from an inside groove in the valve chamber for optional Interrupt or terminate the movement of the moving parts is provided. 5. Valve according to claim 1 to 4, characterized in that; ¹ · that the valve body forms part of a hand-operated outlet valve for a container. 309832/0399 6. Valve according to claim 1 to 4, characterized in that the valve body is part of the inlet of a manually operated valve for a container. 309832/0399