JP2002193392A - Pressure regulating apparatus for fluid to be supplied - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a pressure regulating apparatus for a fluid to be supplied, in which not only automatic regulation for pressure but also manual regulation for it is made possible. SOLUTION: In the pressure regulating apparatus, a hollow chamber is divided into a chamber A and a chamber B on the upper and lower sides of a valve cone (3). A heat-sensitive spring (5) whose spring constant varies according to temperatures of a second fluid in a pipe (2) is mounted in the chamber A communicating with ambient air, thereby resiliently supporting the valve cone (3) on the side of the chamber A. A spring (6) repulsive against the heat-sensitive spring in the chamber A, is provided between the valve cone (3) on the side of the chamber B and a lower main body portion (13), whereby an intermediate main body portion (12) and the valve cone (3) are constituted so as to be engageable with and disengageable from each other, and the chamber B is further divided into chamber B1 and B2 at an engaging/disengaging part. An inlet (7) for a first fluid is provided in the chamber B1, a flow passage (8) leading to a mounting part of a cover (4) is provided in the chambers B2, and in addition to the engaging/disengaging part, an openable short circuit passage (9) for allowing the chamber B1 to communicate with the chamber B2 is provided.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an apparatus for adjusting the pressure of a supplied fluid, and more particularly to an apparatus for adjusting the pressure of a supplied fluid.
The present invention relates to a pressure adjusting device suitable for supplying carbon dioxide gas to a draft beer storage barrel.

[0002]

2. Description of the Related Art Carbon dioxide is dissolved in draft beer stored in a barrel in advance. When draft beer is sold, carbon dioxide is further supplied to the barrel to extrude draft beer, and the draft beer is passed through a server to a low temperature. And distribute to mugs. Here, a carbon dioxide gas pressure adjusting device is provided between the carbon dioxide gas storage tank and the draft beer storage barrel, and adjusts the pressure of the carbon dioxide gas according to the temperature of the draft beer.

[0003] That is, it is desirable that the carbon dioxide dissolved in the draft beer is a fixed amount. If the supply pressure of the carbon dioxide is not appropriate, the dissolved amount of the carbon dioxide changes, and the draft of the draft beer introduced into the mug through the server is changed. The taste is not constant. Further, when the storage barrel is replaced due to consumption of draft beer, the temperature of the draft beer in the storage barrel changes greatly. Therefore, unless the supply pressure of the carbon dioxide gas is appropriately adjusted, the taste of the draft beer is not further constant. .

Under these circumstances, various devices have been proposed which can automatically adjust the gas pressure when supplying carbon dioxide gas into a draft beer storage barrel (for example, Japanese Patent Application Laid-Open Nos. 7-76398 and 7-132994). Gazette, JP-A-8-303
623). According to these pressure adjusting devices, it is not necessary to adjust the gas pressure each time depending on the temperature of the draft beer, the carbon dioxide gas dissolved in the draft beer is maintained at a constant amount, and the taste of the draft beer brought into the mug through the server is kept constant. It can be.

[0005]

However, when draft beer is almost completely left in the storage barrel, or immediately after replacement of the draft beer storage barrel, if draft carbon dioxide is not supplied at an appropriate gas pressure or higher, draft beer is not supplied. May not be able to be pushed out properly to the server. In addition, in insane circumstances, such as leaving draft beer storage barrels in the scorching sun for a long time, the operating temperature limit of the heat-sensitive spring used for automatic pressure adjustment may be exceeded. In some cases, it cannot be extruded.
In these cases, draft beer may be wasted, so there is room for further improvement.

Accordingly, the present invention is a further improvement of the conventional pressure adjusting device, and particularly requires a pressure higher than the pressure of carbon dioxide gas appropriate for the temperature of the draft beer stored in the barrel. It is an object of the present invention to provide a supply fluid pressure regulator capable of extruding draft beer toward a server even when the draft is out of an automatic adjustment range.

[0007]

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and its gist is that a main body constituting a hollow chamber, a pipe penetrating the hollow chamber,
It consists of a valve cone externally inserted into a pipe and a cover fixed to one end of the pipe to open and close the hollow chamber. The hollow chamber is divided into an A chamber and a B chamber above and below the valve cone, and A is connected to the atmosphere. A heat sensitive spring whose spring constant changes according to the temperature of the second fluid in the pipe is mounted on the chamber to resiliently support the valve cone on the chamber A side, and the valve cone on the chamber B side and the lower main body are connected to each other. A spring which repels the heat-sensitive spring in the room A is provided between the valve body and the intermediate body so as to be detachable from the valve cone.
A pressure regulating device partitioned into _one chamber and B ₂ chamber, wherein B ₁
The inlet of the first fluid is provided on the chamber, a flow path leading to the mounting portion of the cover into _two chambers B provided and, apart from B from the release attachment part
A _first chamber and a B ₂ rooms are those of the pressure regulating device of the feed fluid in which a short-circuit path opened and closed for communicating.

Preferably, the hollow chamber is divided into a chamber A and a chamber B by a diaphragm mounted between the upper main body and the intermediate main body, and a seal ball is provided in the short circuit path. The present invention relates to a pressure control device for a supply fluid which is inserted and a short circuit path can be freely opened and closed by a thumb screw provided in an intermediate main body.

[0009]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention is an apparatus for automatically adjusting the supply pressure of a first fluid according to the temperature of a second fluid. Using a spring made of bimetal or the like (coil spring, disc spring, etc.), the temperature of the second fluid is sensed, and the valve cone extrapolated to the pipe is displaced in the axial direction due to a change in the spring constant or shape. The supply pressure of the first fluid is automatically adjusted by the separation between the main body and the valve cone.

Here, usually, the chamber A in which the heat-sensitive spring is mounted and the chamber B in which the first fluid flows are divided by a diaphragm or an O-ring mounted on the valve cone, but the sliding resistance of the valve cone is reduced. It is preferable to use a diaphragm because it can be made smaller. Further, the valve cone, by dividing into the compartment portion of the mounting portion of the diaphragm or O- rings and B ₁ rooms and B ₂ rooms can be easier sliding of the valve cone. In addition,
The nozzle formed in the main body in the chamber B and the valve seal provided on the valve cone can be detached from each other so that the chambers B ₁ and B ₂
And a chamber, but on the contrary, a valve seal on the body side,
The nozzle may be provided on the valve cone side.

As described above, according to the present invention, the supply pressure of the first fluid is automatically adjusted in accordance with the temperature of the second fluid. If applied, carbon dioxide (first fluid) at an appropriate pressure automatically according to the temperature of draft beer (second fluid) in the storage barrel
Is supplied. Therefore, in this application example, the amount of carbon dioxide dissolved in the draft beer is kept substantially constant, so that the taste of the draft beer itself is always constant.

In addition, there is a feature that the heat-sensitive spring does not directly contact the second fluid, and the heat-sensitive spring functions without being affected by the properties of the second fluid at all.
For example, when supplying carbon dioxide gas (first fluid) into the draft beer storage barrel, the pressure of the supplied carbon dioxide gas (first fluid) is increased by the operation of the heat-sensitive spring accompanying the temperature change of the draft beer (second fluid). It is adjusted automatically and accurately.

Further, for example, if a draft having a complicated shape such as a spring is present in the flow path of draft beer, the problem that carbon dioxide gas in draft beer is easily separated due to turbulence caused by the presence of the spring, When the component crystallizes and adheres to the flow channel, there is a problem that it is difficult to remove and clean the component. However, in the present invention, since the heat-sensitive spring providing the pressure adjusting function does not come into contact with the draft beer (the second fluid), the device has no such disadvantage. By installing an auxiliary spring in parallel with the heat-sensitive spring, it is possible to supplement the operation of the valve cone, which is not sufficient with the heat-sensitive spring alone, and to automatically adjust the pressure of the supplied carbon dioxide more accurately. Becomes

Since the temperature of the draft beer (the second fluid) is transmitted to the heat-sensitive spring via the pipe, the pipe preferably has a high thermal conductivity and a small thickness. For example, stainless steel, aluminum, copper, iron, or the like is used according to the fluid used.

The above is the normal pressure adjustment operation when the apparatus of the present invention is applied to the supply of carbon dioxide into a draft beer storage barrel. Under special circumstances, such as when a draft beer storage barrel is left in the scorching sun for a long time immediately after the barrel is replaced, it becomes impossible to appropriately push draft beer toward the server unless carbon dioxide is supplied at high pressure. May occur. Therefore, in such a situation, it is desirable that the automatic adjustment function for appropriately reducing the pressure of the carbon dioxide gas (first fluid) can be canceled.

Therefore, in the present invention, in preparation for such a situation, a short-circuit path is provided which can supply the first fluid without reducing the pressure without passing through the automatic adjustment function unit. That is,
Automatic adjusting function unit as described above, for example, configured by partitioning the _first chamber and the B ₂ rooms B by Hanaregi a valve seal with the formed nozzle and the valve cone to the body portion, the release besides wear part is keep to form a short circuit path from the _first chamber B into _two chambers B. Naturally, this short-circuit path is normally closed, and can be opened only when the supply pressure of the first fluid is not reduced.

Here, in order to make the short circuit path openable and closable, it is sufficient to add some valve mechanism. Although there is no particular limitation on the structure, a sealing ball is inserted into the short circuit path and provided on the main body. It is preferable to be able to open and close with a thumbscrew. This is because it can be housed in a small space that is structurally simple, and can be opened and closed by simply turning the thumb screw a little. In this case, not only can the first fluid be supplied without reducing the pressure, but also the first fluid can be supplied by turning the knob.
The fluid supply flow rate can also be manually adjusted.

[0018]

Hereinafter, preferred embodiments of the present invention will be described in more detail. FIG. 1 is a cross-sectional view showing an example of the supply fluid pressure adjusting device of the present invention (the cross-section differs between the left and right of the center line).
This is an example in which carbon dioxide gas is supplied to a draft beer storage barrel as a gas pressure adjusting device (carbon dioxide gas = first fluid, draft beer = second fluid). In the embodiment, the main body is physically divided into an upper main body (1 ₁ ), an intermediate main body (1 ₂ ), and a lower main body (1 ₃ ). There is no. Therefore, the main body (1 ₁ , 1 ₂ , 1 ₃ ) of the present invention includes an integral body,
Each symbol in that case means an upper side, an intermediate section, and a lower side.

As shown in FIG. 1, the main body (1 ₁ , 1 ₂ , 1
₃ ) constitutes a hollow chamber, and a pipe (2) penetrates the hollow chamber. The upper and lower portions of the valve cone (3) extrapolated to the pipe (2) are connected to the chambers A and B by the diaphragm (10) mounted between the upper main body (1 ₁ ) and the intermediate main body (1 ₂ ). And divided into rooms.

Here, the chamber A communicates with the atmosphere, and a heat sensitive spring (5) extrapolated to the pipe (2) is mounted in the chamber A to resiliently support the valve cone (3). I have. On the other hand, in the chamber B, the annular nozzle (1 _2a ) formed in the intermediate main body (1 ₂ ) and the flange (3 _a ) of the valve cone (3) opposed thereto are configured to be detachable. ₁
It is divided into a chamber and B ₂ rooms, entrance of carbon dioxide into _a chamber B (7)
And channel (8) is provided leading to the mounting portion of the cover (4) into _two chambers B provided with a. Note that the flange (3 _a) of the valve cone (3), a nozzle of the intermediate body portion (1 ₂₎ (1
_2a ), a valve seal (13) is provided, and a valve cone (3) on the chamber B side and a lower main body (1 ₃ ) are provided.
When the resilience of the spring (6) provided between them exceeds the heat-sensitive spring (5), the nozzle (1)
_2a ) and the valve seal (13) are in close contact (the state shown in FIG. 1).

The inlet (7) is supplied with a carbon dioxide gas reduced to a predetermined pressure from a carbon dioxide gas cylinder (not shown). The carbon dioxide gas flows into the inlet (7) through the nozzle ( _12a ) and the valve seal (13). B from only B ₁ rooms If you are separated from each other
It reaches _two chambers, and further passes through the flow path (8) to the mounting portion of the cover (4). When the cover (4) is open (the state shown in FIG. 1), carbon dioxide gas is supplied to a draft beer storage barrel (not shown) below the cover (4). In order to prevent backflow from draft beer storage barrels, check valves (1
4) is attached.

Draft beer in the storage barrel flows out of the upper part through the pipe (2) and is introduced into the mug through a server (not shown). At this time, the temperature of the draft beer is set in the room A by the heat-sensitive spring (4) via the pipe (2).
Is transmitted to Then, the spring constant or the shape of the spring changes according to the liquid temperature, whereby the force for pushing the valve cone (3) downward changes. On the other hand, the force by which the spring (6) pushes the valve cone (3) upward is constant.

[0023] Accordingly, or intermediate body portion (1 ₂₎ of the nozzle (1 _2a) and the valve cone (3) of the flange valve seal (13) provided in the (3 _a) and is in close contact in response to the temperature of the beer Since it is separated, the appropriate carbon dioxide gas pressure always acts in the storage barrel according to the temperature of the draft beer, and the carbon dioxide dissolved in the draft beer is maintained at a constant amount. As a result, the taste of the draft beer is constant. It becomes.

In the present invention, the above-mentioned intermediate main body (1 ₂ )
Short circuit (9)
Carbon dioxide gas flow from the _first chamber B into _two chambers B even. That is, as shown enlarged in FIG. 2, a short circuit path (9) in the sealing ball (11) is inserted, an intermediate body portion (1 ₂₎
The seal ball (11) opens and closes the short-circuit path (9) by the operation of the thumb screw (12) provided in.

[0025] Therefore, when supplying carbon dioxide gas at a pressure higher than the pressure corresponding to the temperature of the beer, by properly opening and closing the shunt passage (9), to supply remains directly B ₂ rooms without depressurizing the carbon dioxide If there is almost no draft beer left in the storage barrel, or if the draft beer storage barrel is left in the scorching sun for a long time immediately after replacing the draft beer storage barrel, the draft beer is pushed out to the server even under special circumstances. You can do it. Note that the thumbscrew (1
Since the degree of opening of the short-circuit path (9) can be changed by the adjustment of 2), manual adjustment may be performed so that draft beer is appropriately extruded.

[0026]

According to the present invention, the first fluid is controlled by the temperature of the second fluid.
The pressure of the fluid can be automatically adjusted, and
Since the pressure of the first fluid can be manually adjusted regardless of the state of the fluid, for example, when the pressure adjusting device of the present invention is used for supplying carbon dioxide gas to a draft beer storage barrel, the liquid temperature of the draft beer may be reduced. Accordingly, if the pressure of the carbon dioxide supplied thereto can be automatically adjusted, and if the carbon dioxide is supplied at a high pressure through the short circuit, the draft beer can be pushed out to the server under any circumstances.

[Brief description of the drawings]

FIG. 1 is a cross-sectional view showing an example of a pressure adjusting device for a supply fluid according to the present invention (the cross-section is different between left and right of a center line).
It is.

FIG. 2 is an enlarged cross-sectional view showing the vicinity of a short-circuit path of the pressure adjusting device shown in FIG.

[Explanation of symbols]

1 ₁ , 1 ₂ , 1 ₃ ‥ Main body 1 _{2 a} ‥ Nozzle 2 ‥ Pipe 3 ‥ Valve cone 3 _a ‥ Flange 4 ‥ Cover 5 ‥ Heat-sensitive spring 6 ‥ Spring 7 流体 First fluid inlet 8 ‥ Flow path 9 ‥ Short circuit path 10 Diaphragm 11 Seal ball 12 Thumb screw 13 Valve seal 14 Check valve A, B Hollow chamber

 ──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Moritasu Kamata 3-6-2 Nihonbashi Honcho, Chuo-ku, Tokyo Inside Bridgestone Flowtech Co., Ltd. (72) Inventor Soichi Kamiya 4-2-1, Ebisu, Shibuya-ku, Tokyo Inside Sapporo Beer Co., Ltd. (72) Katsuoki Kasai 1-1, Namiki Motomachi, Kawaguchi City, Saitama Prefecture Inside Sapporo Biels Co., Ltd. (72) Hiroshi Nakayama 1-1, Namiki Motomachi, Kawaguchi City, Saitama Prefecture Sapporo Biels Co., Ltd. F term (reference) 3E082 AA04 BB03 CC01 DD11 FF05

Claims (3)

[Claims] 1. A main body (1) constituting a hollow chamber.₁, 1_Two,
1_Three), A pipe (2) passing through the hollow chamber, and a pipe
Valve cone (3) extrapolated to (2) and pipe
(2) Cover fixed to one end to open and close the hollow chamber
(4), and the hollow chamber is located above and below the valve cone (3).
Is divided into room A and room B, and pie
The spring constant changes depending on the temperature of the second fluid in the pump (2).
Attach the heat sensitive spring (5)
And support the valve (3),
(3) and the lower body (1_ThreeBetween room A and room A
Provide a spring (6) that repels the spring (5)
Intermediate main body (1_Two) And valve cone (3) can be attached and detached
And the room B is further expanded by₁ Room and B_Two Room and
Pressure regulating device partitioned into₁ Chamber with the first fluid
Provide an entrance (7) and B _Two Room with cover (4)
A flow path (8) leading to the attachment portion is provided, and separate from the separation portion.
To B₁ Room and B_Two Openable and closable short circuit that communicates with the chamber
(9) A pressure adjusting device for a supply fluid, characterized in that:
Place. 2. A hollow chamber is divided into a chamber A and a chamber B by a diaphragm (10) mounted between an upper body (1 ₁ ) and an intermediate body (1 ₂ ). The supply fluid pressure adjusting device according to claim 1. 3. A sealing ball (11) is inserted into the short circuit path (9).
Into the main body (1 _TwoThumbscrew (12)
The short circuit (9) can be freely opened and closed by
The supply fluid pressure adjusting device according to claim 2.