JP4082715B2 - Valve ring for double valve - Google Patents

Abstract

A valve ring (2) is used in a double valve (1) for a pressure container (4) serving for distributing a liquid, e.g. beer, under pressure of a gas, e.g. CO<2>. In open condition, the double valve has a gas passage (7) between a valve seat (8) in the valve and a valve face (9) in the valve ring, and a liquid passage (10) between a valve plug (11) and a valve-ring seat (12) in the centre opening (13) of the valve ring. The valve can be closed partly by pushing the valve face of the valve ring to abut on the valve seat under the influence of a first compression spring, partly by pushing the valve plug to abut on the valve-ring seat under the influence of a second compression spring. The valve ring comprises an elastomeric first ring (25) and a solid second ring (26) fixed on the outside of first ring along a part of the surface of this ring. The connection between the two rings is made sure by a purely mechanical engagement which, contrary to conventional valve ring surface joinings, is indifferent to the strong chemicals and high temperatures used in cleaning the container and its valve between each casking.

Description

The present invention is of the type used in a pressure vessel for dispensing a liquid such as beer, for example, under pressure of a gas such as CO ₂ , in the open state around the valve ring. It relates to a valve ring for closing a double valve having a gas passage and a liquid passage through the central opening of the valve ring.
Transportable pressure vessels are widely used, for example, for the distribution of beverages such as beer that are served in a canteen in a cafeteria. When the container is used, the valve is usually attached with a coupling head for connection to a pressure cylinder or cartridge enclosing a pressure gas such as CO ₂ and a barrel plug for extracting the beverage. The coupling head is a spindle for opening the valve by moving the grip.
In order to keep the beverage fresh during transport and storage, it is necessary to maintain the atmospheric pressure, so the valve must always be closed and completely airtight. Conventional valve rings are therefore made of an elastomeric material, for example rubber, which can be elastically deformed so as to abut against the gas passage and the liquid passage, respectively, under the influence of at least one compression spring.
For safe sealing, the valve ring operates with a relatively large force that the elastomeric material can hardly absorb without buckling of the ring, which tends to leak gas and / or liquid passages, It can be assumed that can be pushed out of its position in the valve.
The elastomeric material of conventional valve rings is therefore reinforced by a plate-like reinforcing ring of strong and hard material such as stainless steel. A fixative is applied to the ring at the time of manufacture and cast together in an integrated unit with the elastomeric material.
Usually, part of the reinforcing ring is completely embedded in the elastomeric material, while the other part, when opened, absorbs the load from the connecting head spindle, thereby preventing damage to the soft elastomeric material. In order to have a free surface.
During each barreling, the pressure vessel and the valve are integrally cleaned with a strong detergent at a very high temperature of around 130 ° C. In many cases, this harsh treatment will degrade the fixative between the elastomeric material and the hard material, and in particular will separate the two materials at these locations where the surfaces of the two materials migrate to each other. It was. Any cracks generated in this way will gradually open and the valve ring will no longer be able to keep the gas and liquid passages completely airtight.
The object of the present invention is to provide a valve ring that can withstand damage to repeated cleaning processes in which strong detergents and high temperatures of the kind described in the opening paragraph are used.
A novel and unique feature according to the present invention to achieve this objective is that the valve ring is fixed around the first ring along the first ring of elastomer and part of the surface of the first ring. And a hard second ring. The second ring, acting as a reinforced ring, is not simply bonded to the elastomeric material by surface bonding as in the case of conventional valve rings, but by a purely mechanical fit between the two materials. Combined. Mechanical mating can withstand strong chemicals and even high temperatures.
The second ring is advantageously secured outside the first ring along the region outside the effective sealing surface of the valve ring so that the valve ring can effectively keep the valve airtight. .
The mechanical fit between the elastomeric material and the hard material, when viewed in one section at the inner and outer peripheral edges, respectively-when the tangent to the inner side of the second ring forms an angle of 90 degrees or less, and the first It will be particularly durable when the elastomeric material of the first ring is prestressed under the peripheral portion of the second ring and / or in a region at least including the region of that portion.
The second ring can itself act as a reinforced ring to the valve ring, but the hard and durable valve ring is made of a hard material, such as stainless steel, completely or partially In addition, there is also a third ring embedded in the first ring.
Preferably, the third ring is completely embedded within the elastomeric material, but the inner peripheral edge extends to or beyond the material surrounding the opening of the elastomeric ring. In this regard, the inner peripheral portion of the second ring is beaded around the inner peripheral portion of the third ring, thereby further ensuring a fit between the second ring and the elastomeric material.
The third ring further has holes on both sides of the ring to form a bridge between the elastomeric materials so that the elastomeric material stays together even if the bond between the third ring and the elastomeric material is broken. Can have.
The invention also relates to a method for producing a valve ring of the above-mentioned type of elastomer ring with a fixed second ring and an embedded third ring. A novel and unique feature of this method is that, according to the present invention, the third ring is made of a metallic material such as stainless steel, the fixing agent is applied to the third ring, and the first ring is a rubber The second ring is made of a metal material such as stainless steel, and the second ring at least partially squeezes the elastomeric material of this ring, such as The inner peripheral edge of the third ring is beaded and fixed on the first ring.
The invention will now be described in detail by way of non-limiting example and with reference to the accompanying drawings.
FIG. 1 is a sectional view of a double valve with a valve ring according to the present invention.
FIG. 2 shows a rigid reinforcement ring for implantation in the valve ring shown in FIG.
FIG. 3 shows the reinforcing ring shown in FIG. 2 embedded within an elastomeric material that forms the elastomeric portion of the valve ring.
FIG. 4 shows the finished valve ring with a rigid clamping ring clamped to the outside of the elastomeric portion of the valve ring.
FIG. 5 shows a conventional valve ring.
FIG. 1 shows a double valve 1 with a valve ring 2 according to the invention. The valve is releasably mounted in a connecting piece 3 welded to a transportable pressure vessel 4 whose only piece is shown in the figure.
This type of transportable container is used to dispense beverages such as CO ₂ pressurized beer, cola, soft drinks and wine. However, the container only differ by gas and CO _2, can be used for many other liquids. The container need not be transportable and can be stationary.
Double valves can be formed as shown, but there are many other designs for such double valves. Accordingly, the embodiment shown in FIG. 1 is used only to illustrate the present invention in the following description, and the structure is well known, so only the outline will be described.
The valve mainly consists of a valve body 5 and a riser tube 6 which is movably mounted in the body and only part of which is shown. The left side of the figure shows the valve in the open position, and the right side shows the valve in the closed position. The valve ring 2 is also shown enlarged in FIGS.
When the valve is opened, a gas passage 7 exists between the valve seat 8 in the valve body 5 and the valve surface on the valve ring 2 as shown on the left side of the figure. Furthermore, there is a liquid passage 10 between the valve plug 11 and the valve ring seat 12 in the central opening 13 of the valve ring. When the valve is closed, as shown on the right side of the figure, the riser 6 is moved together with the valve ring 2 by the first compression spring 14 until the valve face 9 of the valve ring abuts the valve seat 8. The Thereby, the gas passage 7 is closed. At the same time, the valve plug 11 is moved by the second compression spring 15 so as to abut the valve ring seat 12 and thereby also close the liquid passage 10.
When the container 4 is used, the valve 1 is releasably attached to a coupling head (not shown) with a movable tubular spindle 16 whose bottom portion is visible in FIG. The spindle suppresses the valve plug 11 and the valve ring 2 at the bottom part thereof, and operates both of the grips (not shown) on the connection head so that the valve opens when the spindle moves downward in the figure. Are separated from their seats 8;
During operation, the gas is supplied to the double valve and container via a coupling head connected to a pressure cylinder or cartridge (not shown) containing pressurized gas. Similarly, the liquid is led out through a double valve and a coupling head tubular spindle 16 which is connected to a barrel plug at an extraction site (not shown).
The spindle 16 and the two compression springs 14 and 15 apply a force to the valve ring 2 to buckle the flat elastomeric ring so as to leak from the valve. Therefore, it is necessary to reinforce the elastomer ring with a hard ring such as stainless steel.
Such reinforcement can be seen in FIG. 5 which shows a conventional valve ring 17 composed of an elastomer ring 18 and a rigid ring 19. In connection with the manufacture of this valve ring, the hard ring 19 is coated with a fixative to ensure that the surfaces of the two materials are bonded together. The rigid ring 19 is then embedded in the material of the elastomeric ring 18 by the tongue 20, while the second part 21 of the rigid ring extends along the surface of the opening 22 of the elastomeric ring. This second part 21 serves to absorb the compressive force of the connecting spindle 16 when the valve is opened. The relatively soft material of the elastomer ring 18 is not strong enough to withstand this load itself.
The above-described structure of the valve ring 17 means that the surfaces of the two rings 18; In practice, it has been found that the surface bond between the elastomer and the hard material deteriorates during each barreling due to the harsh treatment that the valve ring undergoes when it is cleaned with high chemicals and high temperatures. . Thus, surface bonding between the two materials will not allow the two materials to remain tightly bonded together for long periods of time, causing cracks in the transitions 23 and 24, which are May lead to leakage.
The above-mentioned drawbacks of the conventional valve ring are eliminated by the special structure of the valve ring according to the invention shown in FIGS.
This valve ring, also shown in FIG. 1, comprises an elastomeric first ring 25, a rigid second ring 26 and a rigid third ring 27. The valve ring is manufactured as follows.
The third ring 27 shown in FIG. 2 is punched out of a plate such as stainless steel and surface-treated with a fixing agent. In the illustrated example, the ring is provided with a larger number of holes 28.
In FIG. 3, the third ring 27 is then embedded in the elastomeric material of the first ring 25, which can be generally vulcanized rubber. The elastomer on the two faces of the third ring is interconnected with an elastomeric material that forms a bridge through the hole 28 in the third ring to strengthen the bond between the first and third rings. The In the embedded state, the inner peripheral edge of the third ring extends to the central opening 13 of the valve ring.
The second ring 26 is also punched out of, for example, a stainless steel plate. As shown in FIG. 4, the second ring is then secured to the first ring 25, and in the illustrated case, its inner peripheral portion 30 is the first ring to firmly secure the second ring to the first ring. It is beaded around the inner peripheral edge 29 of the third ring.
Here, the valve ring 2 is designed so that the third ring does not extend freely into the central opening 13 of the valve ring and the inner peripheral edge of the second ring is within the framework of the invention. It should be noted that it can also be arranged to be simply fixed in the elastomeric material of the ring.
Here, the connection between the first and second rings is not due to surface bonding, as in the case of conventional valve rings, which are deteriorated by chemicals and heat. And pure chemical mechanical insensitivity to the chemicals and strong heat used during cleaning of the valve.
The second ring is preferably secured over the first so that the elastomeric material is compressed at least at the inner and outer peripheral portions 30 and 31 of the second ring. Thus, the fit between the two rings 25 and 26 is strengthened so that the compressed elastomeric material is clamped to the rigid second ring.
As shown in FIG. 4, the tangent line forms an angle α less than 90 degrees inside the second ring, at its peripheral portions 30 and 31, respectively. Thereby, the second ring can be engaged and interlocked with the first ring. When the fittings are interlocked in this way, the two rings 25 and 26 are not likely to break or only break due to substantial tensile forces that do not actually occur.
In the embodiment of the valve ring according to the invention shown in FIGS. 2, 3 and 4, the inner peripheral edge is embedded in the elastomeric material of the first ring 25 and beaded on the inner peripheral edge portion 30 of the second ring 26. There is a third ring 27 sealed at portion 29. The second and third rings 26 and 27 are each combined to reinforce the elastomer ring 18 and at the same time of the conventional valve ring 17 which must absorb the load of the connecting head spindle 16 when the valve is opened. Performs the same job as the hard ring 19.
In a second embodiment according to the invention, there is only a second ring 26 which in this case alone reinforces the elastomeric first ring 25 and serves to absorb the load on the spindle 16 when the valve is opened. . This structure is particularly simple and inexpensive.
In the above description, the second ring is fixed to the first ring and simultaneously compresses the elastic material. In order to make the connection between the two rings more secure, the second ring can advantageously be coated with a fixing agent and glued or vulcanised on the first ring.

Claims (6)

Of the kind used for pressure vessels (4) for dispensing liquids such as beer, for example under pressure of a gas such as CO ² , open and around the valve ring (2) A valve ring for closing the double valve (1) having a gas passage (7) and a liquid passage (10) through the central opening (13) of the valve ring (2), wherein the valve ring (2) An elastomeric first ring (25) and a rigid second ring (26) clamped outside the first ring (25) along a portion of the surface of the ring (25), or partially, the valve ring you, characterized in that it comprises a third ring of rigid embedded in the first ring (25) and (27) (2). 2. The valve ring according to claim 1, wherein the second ring (26) is clamped to the outside of the first ring (25) along a region outside the effective sealing surface of the valve ring (2). (2). 3. A valve ring (2) according to claim 1 or 2 , characterized in that the inner peripheral edge of the second ring (26) is beaded around the inner peripheral edge of the third ring (27). The valve ring (2) according to any one of claims 1 to 3 , characterized in that the third ring (27) has one or more through holes (28). The first ring (25) is made of an elastomer such as rubber, and the second (26) and the third ring (27) are formed of a plate and made of a metal material such as stainless steel. The valve ring (2) according to any one of claims 1 to 4 . Of the kind used for pressure vessels (4) for dispensing liquids such as beer, for example under pressure of a gas such as CO ₂ , open and around the valve ring (2) A valve ring (2) for closing a double valve (1) having a gas passage (7) and a liquid passage (10) through a central opening (13) of the valve ring (2) The ring (2) comprises a rigid third ring (27) fully or partially embedded in the first ring (25);
The first ring (25) is a cast of elastic material such as rubber;
The second ring (26) is made of a metallic material such as stainless steel,
The third ring (27) is made of a metallic material such as stainless steel;
A fixative is applied to the third ring (27),
A first ring (25) is cast around a third ring (27) of elastomeric material such as rubber ;
- a second ring (26) compresses the elastomeric material of at least partially the first ring (25), the first ring inner periphery of the third ring (27) to bead (25) Fixed,
Granulation method made you, characterized in that.

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