JP4897037B2 - Cleaning method and cleaning apparatus for beer server - Google Patents

Description

  The present invention is a method and apparatus for automatic water washing without using a mixer for passing water to a beer server. Unlike conventional water flow methods that regulate both water and gas pressures, a method and apparatus for simultaneously passing water and washing in a beer server by forming a gas-liquid mixed-phase flow of water and gas using only the gas pressure. It is about.

Conventionally, water is passed to the beer server in order to quickly drain the used beer residual liquid to the outside of the server. The water passing method is to pressurize the inside of the mixing tank with carbon dioxide and use the pressure of the gas inside the mixing tank. There is a method and apparatus for passing the water through the server. (Patent Document 1)
As a further method of improving this device, in order to do this automatically, a mixer and to adjust the pressure and gas pressure, pressure regulating (pressurization, decompression) method of providing a valve is known. (Patent Document 2)

JP 2000-142893 (Japanese Patent Application No. 10-322979) JP 2007-308172 A

Conventionally, water flow to the beer server is used to quickly drain the remaining beer liquid to the outside of the server, and the water flow method is to pressurize the water injection tank with carbon dioxide gas and gas pressure to fill the water inside the water injection tank. There is a way to pass water through the server.
In these operations, when tap water is used, the pressure of the tap water varies depending on the conditions of the server installation place. Therefore, it is necessary for a person to be present and manually adjust the balance between the water pressure and the gas pressure (Patent Document 1).
Moreover, in order to improve this operation and automatically perform water flow, a method and an apparatus are known in which a pressure regulating (pressurizing and depressurizing) valve is provided to balance water pressure and gas pressure (Patent Document 2).
Even in this case, if the pressure difference between the gas pressure and the water pressure is large depending on the installation conditions of the server, it is necessary to adjust the pressure visually or manually. In addition, there is a problem that it is necessary to install a backflow valve and a fully automatic system has not been established, and there is a problem that individual differences in operation technology cannot be resolved.

The method for cleaning a beer server according to the present invention supplies beer at the gas pressure by supplying carbon dioxide gas through a beer head 2 that is detachably attached to the mouth of the beer barrel into a beer barrel that stores beer. Is a cleaning method for cleaning the inside of the pipe 5 of the beer server that transports and pours the beer from the beer barrel through the beer head 2, and the water injection tank 1 stores the water for cleaning. By supplying carbon dioxide gas through the beer head 2 that is detachably attached to the mouth portion 12, the gas pressure is provided at the lower portion of the water pipe 9 disposed in the water injection tank 1 in a substantially vertical direction. By injecting water into the water pipe 9 from the opening 13 formed, and by feeding carbon dioxide gas into the water pipe 9 from the pores 11 provided in the upper part of the water pipe 9 To form a gas-liquid mixed phase stream comprising water and carbon dioxide gas in the said water passage pipe 9, further gas-liquid multiphase flow, and supplying into the pipe 5 of the beer server through the beer head 2.
Moreover, the cleaning apparatus for a beer server according to the present invention supplies a carbon dioxide gas into a beer barrel that stores beer through a beer head 2 that is detachably attached to the mouth of the beer barrel, thereby providing a gas pressure thereof. A beer server for transferring and pouring beer from the beer barrel through the beer head 2 and washing the pipe 5 of the beer server, the water pouring tank 1 for storing the washing water, and the water pouring tank 1 A water pipe 9 that communicates with the pipe 5 of the beer server via the beer head 2, which is arranged in a substantially vertical direction inside and is detachably attached to the mouth portion 12 of the water injection tank, and through the beer head 2. A carbon dioxide gas passage (not shown) penetrating from the mouth 12 of the water injection tank 1 for receiving the supply of carbon dioxide gas into the water injection tank 1, In the lower part of the water pipe 9 is provided an opening 13 for injecting water into the water pipe 9 by the gas pressure of the carbon dioxide gas supplied through the beer head 2. In addition, a pore 11 for feeding carbon dioxide gas into the water pipe 9 by the gas pressure of the carbon dioxide gas is provided, and the water press-fitted from the opening 13 in the water pipe 9 and the water A gas-liquid mixed phase flow formed from carbon dioxide gas fed from the pores 11 is supplied into the pipe 5 of the beer server through the beer head 2.

According to the cleaning method and apparatus of the beer server of the present invention , gas and water are mixed and mixed into a gas-liquid mixed phase flow without adjusting the pressure by providing pores 11 in the upper part of the water pipe 9 provided in the water injection tank 1. the work is, always can be automatically passed through the multiphase flow in the beer server pipe 5 at a constant level.

The liquid forming a gas-liquid mixed phase stream referred to herein is a liquid that can be used for foods such as tap water, refers to inert gases body available for food such as carbon dioxide or nitrogen gas to form a multiphase flow .

The present invention eliminates individual differences in operation and can be easily operated by anyone.
Furthermore, in the present invention, since the device structure is simple and the pressure adjustment operation used in the prior art is unnecessary, it is a simple device that can be operated by anyone without any individual differences in operation at restaurants and other sites. Workability at the eating and drinking spot (maintenance management is easy) can be improved. In addition, it is possible to reduce unit production costs, the operating costs.

It is explanatory drawing of one embodiment of this invention. It is a figure which shows the structure of one embodiment of the beer server washing | cleaning apparatus of this invention.

The contents of the present invention will be described with reference to FIGS.
1 is a gas-water mixed-phase water distribution apparatus for gas and water that passes through the beer server shown in FIG. 1, and includes a water injection tank 1, a beer head 2, a carbon dioxide gas pipe 3, a water supply pipe 4, a beer server pipe 5, A water supply piping solenoid valve 6, a control box 7, a water level detector 8, a water pipe 9, a carbon dioxide gas piping solenoid valve 10, a pore 11, a mouth portion 12, and an opening portion 13 are included.

The feed water pipe 4 constituting the apparatus, water injection tank 1 tap water is injected, this injection provided the water supply pipe solenoid valve 6 between the water injection tank 1 and the water supply pipe 4. The automatic opening and closing of the valve 6 is automatically controlled by the water level detector 8 and the control box 7 so that the liquid injected into the water injection tank 1 becomes a constant water level (constant volume).

A water pipe is attached in the water injection tank 1 of FIG. 2 and a pore 11 (may be a slit) of about 0.1 to 1.0 mm is opened in the upper portion thereof, and the upper portion in the water injection tank 1 is formed in the pore 11. Since gas such as carbon dioxide injected from the carbon dioxide gas pipe 3 is fed into the water injection tank 1 through the pores 11 (may be slits) into the water pipe 9 and passes through the water pipe 9. A gas-liquid mixed phase flow is formed by mixing with the stored water (liquid).
At this time, the gas pressure in the water injection tank 1 is 0.1 Mp (megapascal) to 0.5 Mp, the differential pressure of the water level of the water pipe 9 is 0.001 to 0.01 Mp, and the pores are about 0.1 to 1.0 mm. 11 (which may be a slit) has a resistance pressure of 0.001 to 0.01 Mp, and the differential pressure of the water level of the water pipe 9 is the gas pressure and the resistance pressure of the gas which flows through the pore 11 (may be a slit). Therefore, the gas pressure in the water injection tank 1 is 0.1 Mp to 0.5 Mp, and no pressure adjustment operation is required.

1. After the end of business, the lid (not shown ) attached to the top (mouth 12) of the washing tank (water injection tank 1) is removed, and the top (mouth: not shown ) of the beer barrel (not shown). beer head 2) is mounted to the cleaning tank head (mouth 12 of the water injection tank 1).
2. Press the water injection button to inject tap water into the water injection tank 1 . A signal is sent to the water supply piping electromagnetic valve 6 by the controller (control box 7) , and the electromagnetic valve 6 is opened to inject water into the water injection tank 1. (At this time, the water supply piping solenoid valve 6 is open. The carbon dioxide gas piping solenoid valve 10 is closed. The water level in the water injection tank 1 rises.)
At the end of injection, the water level detector 8 detects a constant water level and closes the water supply piping solenoid valve 6. (At this time, the water supply piping solenoid valve 6 and the carbon dioxide gas piping solenoid valve 10 are both closed. The water level in the water injection tank 1 is a fixed position.)
3. Gas is fed into the water injection tank 1. A signal is sent from the controller (control box 7) to the carbon dioxide gas piping solenoid valve 10 , the solenoid valve 10 is opened, and gas is fed into the water injection tank 1. (At this time, the water supply piping solenoid valve 6 is closed . The carbon dioxide gas piping solenoid valve 10 is open.)
4). Since the gas is fed into the water injection tank 1 and the water level in the tank 1 is pushed by the gas pressure , the water rises in the water pipe 9 and the gas is sucked from the pores 11 at the top of the water pipe 9. Mix with water to form a gas-liquid multiphase flow. (At this time, the water supply piping solenoid valve 6 is closed and the carbon dioxide gas piping solenoid valve 10 is open. The water level in the water injection tank 1 gradually decreases.)
5). This gas-liquid mixed phase flow is sent into the beer server pipe 5 to perform water flow and washing. After the water flow is completed, only the gas is fed in for about 60 seconds, and the water is discharged out of the beer server pipe 5 .
6). When fed only about 60 seconds of the gas of the ends, close the carbon dioxide gas pipe solenoid valve 10. (At this time, the water supply solenoid valve 6 is closed. The water level in the water injection tank 1 is 0.)
7). After completion of the water flow operation, the beer head 2 attached to the top (mouth 12) of the washing tank (water injection tank 1) is removed, and the beer head 2 is moved to the top of the beer barrel (mouth: not shown) . Installing.

判定：ガス／水の混合割合 ◎＝３、○＝２、△＝1、×＝1以下
From a gas such as carbon dioxide injected from the carbon dioxide gas pipe 3 in FIG. The formation state of the gas-liquid mixed phase flow mixed with the water (liquid) sucked into the water pipe is as follows.
A water pipe 9 is attached in the water injection tank 1 of FIG. 2, and a pore 11 (may be a slit) of about 0.1 to 1.0 mm is opened in the upper portion thereof, and the upper portion in the water injection tank 1 is formed in the pore 11. Since a gas such as carbon dioxide injected from the carbon dioxide gas pipe 3 is fed into the water pipe 9, the gas is sucked into the water pipe 9 through the pores 11 (may be slits) and the water injection tank 1 passing through the water pipe 9. A gas-liquid mixed phase flow is formed by mixing with water (liquid) stored in the inside.

(Table 1)
Results of gas-liquid mixed-phase flow formation test between carbon dioxide and water

Judgment: Gas / water mixing ratio ◎ = 3 、 ○ = 2 、 △ = 1 、 × = 1 or less

Conventional beer server cleaning techniques are: 1. Conventional water washing method; CO ₂ and none of the water of the governor pressure system method high equipment costs, annual maintenance costs also becomes larger, dealing with beer, it becomes a thing annual maintenance costs also large in the restaurant or the like, the problem is this reduction in expenses In addition, there is a need for a device that can be easily and hygienically operated by anyone who does not need the skills of a store clerk for hygiene management.
There are 1 million beer servers in Japan and 15 million in the world, and the annual maintenance cost of equipment costs can be greatly reduced.
Table 2 shows a comparative example of the present invention and the conventional method regarding the device cost and the annual maintenance cost.

(Table 2)
Comparison example of construction cost maintenance cost with conventional technology

1 Water injection tank 2 Beer head
3 CO2 gas piping
4 Water supply piping
5 Beer server piping
6 Water supply piping solenoid valve
7 Control box
8 Water level detector
9 Water pipe
10 Carbon dioxide gas piping solenoid valve
11 pores
12 mouths
13 openings

Claims (2)

  By supplying carbon dioxide gas through a beer head that is detachably attached to the mouth portion of the beer barrel, the beer is transferred from the beer barrel through the beer head with the gas pressure. A cleaning method for cleaning the inside of a pipe of a beer server to be dispensed, wherein carbon dioxide is passed through the beer head that is detachably attached to a mouth of the water injection tank in a water injection tank that stores water for cleaning. By supplying gas, water is pressed into the water pipe from the opening provided in the lower part of the water pipe disposed in the water injection tank in a substantially vertical direction by the gas pressure, and the water pipe By feeding carbon dioxide gas into the water pipe from the pores provided in the upper part of the gas, thereby forming a gas-liquid mixed phase flow consisting of water and carbon dioxide gas in the water pipe, and The method of cleaning beer server, characterized in that the gas-liquid mixed flow, fed into the pipe of the beer server through the beer head.   By supplying carbon dioxide gas through a beer head that is detachably attached to the mouth portion of the beer barrel, the beer is transferred from the beer barrel through the beer head with the gas pressure. A cleaning device for cleaning the inside of a pipe of a beer server to be dispensed, a water injection tank for storing water for cleaning, and a substantially vertical direction disposed in the water injection tank, at the mouth of the water injection tank From a mouth of the water injection tank for receiving a supply of carbon dioxide gas into the water injection tank through the beer head, and a water flow pipe communicating with the pipe of the beer server through the beer head that is detachably attached A carbon dioxide gas passage penetrating inside is provided, and a lower part of the water pipe is formed by a gas pressure of carbon dioxide gas supplied through the beer head. An opening for injecting water into the water conduit is provided, and an upper portion of the water conduit has pores for injecting carbon dioxide gas into the water conduit by the gas pressure of the carbon dioxide gas. A gas-liquid mixed-phase flow formed from water injected from the opening and carbon dioxide gas fed from the pores in the water pipe is provided in the pipe of the beer server through the beer head. A cleaning device for a beer server, characterized by being supplied inside.

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