JP4037088B2 - Gas cylinder device and liquid dispensing device using the gas cylinder device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a gas cylinder device formed as a replaceable cartridge and a liquid dispensing device using the gas cylinder device.
[0002]
2. Description of the Related Art Conventionally, there is a small gas cylinder formed so as to be replaceable as a cartridge. This gas cylinder is used in a beverage pouring device that supplies a beverage such as beer, for example, and introduces carbon dioxide gas from a carbon dioxide gas cylinder through a gas hose into a tank containing the beverage. Thereby, the beverage in the tank is poured out from the spout connected to the conduit through the conduit in the tank by the pressure of carbon dioxide gas.
[0003]
As shown in FIG. 7, the liquid pouring device 80 using a replaceable gas cylinder as such a cartridge introduces a high-pressure gas, which is attached with a carbon dioxide cartridge cylinder 81 and discharged from the carbon dioxide cartridge cylinder 81, into the tank. Pressurizing unit 83, a tank 85 into which a liquid such as a beverage enters, carbon dioxide gas is introduced, and the tank 85 is inserted into the tank 85, and the carbon dioxide gas is introduced into the tank 85. A liquid pipe 86 serving as a flow path for liquid ejected from the inside, and an operation unit 90 provided with an opening / closing lever 89 that is continuous with the liquid pipe 86 and opens and closes the spout 88 for discharging the liquid.
[0004]
The pressurizing unit 83 for introducing the high-pressure gas into the tank is provided at one end of the cartridge adapter 91 to which the carbon dioxide cartridge cylinder 81 is attached, and the high-pressure gas discharged from the carbon dioxide cartridge cylinder 81 is constant. And a pressure regulator 92 such as a pressure reducing valve for lowering the pressure. A carbon dioxide cartridge cylinder 81 for supplying high-pressure carbon dioxide gas into the tank 85 is mounted by being inserted into one end side of a cartridge adapter 91 serving as an adapter with the liquid dispensing device 80.
[0005]
The cartridge adapter 91 has a gas flow path formed therein, and an open needle with one end of the gas flow channel facing the tip. Therefore, when the carbon dioxide cartridge cylinder 81 is attached to the cartridge adapter 91, the opening is opened by the opening needle, and the carbon dioxide in the cylinder is released into the cartridge adapter 91 through the gas flow path formed in the opening needle. Is done.
[0006]
A pressure regulator 92 is attached to the cartridge adapter 91 on the side opposite to the side where the carbon dioxide cartridge cylinder 81 is attached. The pressure regulator 92 reduces the carbon dioxide gas released from the carbon dioxide cartridge cylinder 81 into the cartridge adapter 91 to a constant pressure. The pressure regulator 92 is connected to a gas pipe and supplies carbon dioxide gas adjusted to a constant pressure into the tank 85.
[0007]
When the pressure of carbon dioxide gas is applied to the surface of the liquid in the tank 85, the liquid in the tank 85 ascends the liquid pipe 86 inserted into the tank 85 and reaches the spout 88. The liquid is poured by opening the spout 88 with the opening / closing lever 89.
[0008]
[Problems to be solved by the invention]
However, in the liquid dispensing apparatus described above, the opening of the carbon dioxide cartridge cylinder 81 is closed before use, and when the cartridge adapter 91 is mounted, it is opened by the opening needle. For this reason, once the carbon dioxide cartridge cylinder 81 is attached to the cartridge adapter, it cannot be removed until the filled gas is used up. If the cartridge adapter 91 is mistakenly removed, it is very dangerous because high-pressure gas is blown out from the opening at once. Further, when a fingertip or the like touches the opened opening, there is a risk of frostbite due to the heat of vaporization when the liquefied carbon dioxide filled in the cylinder is vaporized.
[0009]
Further, once the carbon dioxide cartridge cylinder 81 is attached to the cartridge adapter 91 and then removed from the cartridge adapter 91, all of the filled carbon dioxide gas is released, so that the remaining carbon dioxide gas can be reused. There wasn't.
[0010]
Further, the carbon dioxide cartridge cylinder 81 is ejected from the opening when the opening is damaged by accidental dropping or the like, even before being attached to the cartridge adapter 91, and the cylinder jumps out. In addition to the risk of frostbite, the carbon dioxide cartridge cylinder 81 cannot be reused.
[0011]
Accordingly, the present invention provides a gas cylinder device formed to be replaceable as a cartridge that can be safely removed and reused even once attached to a liquid extraction device or the like, and a liquid extraction device using the gas cylinder device The purpose is to do.
[0012]
[Means for Solving the Problems]
In order to solve the above-described problems, a gas cylinder device according to the present application includes a cylinder whose opening is sealed and filled with compressed gas, a sharp body that perforates the opening and closes the opening, and the above A holding body that holds the sharpened body at one end facing the opening of the cylinder and has a coupling portion to which a cylinder opening and closing member is coupled to the other end, and in which a flow path of gas ejected from the cylinder is formed; An urging member that urges the holding body toward the opening of the cylinder by being mounted on the holding body, a cylinder storage section in which the cylinder is fixed and stored, and the holding body are stored in a freely movable manner. The holding body storage portion is continuous through the communication hole and formed on the holding body. Joint And a storage body having an opening formed so that one end of the gas flow path faces outward, and the holding body is moved to the other end side by a cylinder opening / closing member coupled to the coupling portion, The opening of the cylinder closed by the sharp body is opened.
[0013]
The liquid dispensing apparatus according to the present application includes a liquid tank filled with a liquid, a liquid pipe that sends the liquid filled in the liquid tank to the outside of the tank, and a liquid that is continuous with the liquid pipe and flows through the liquid pipe. A pour-out portion for pouring out, a cylinder filled with compressed gas and filled with compressed gas, and a sharp body that forms a perforation in the opening and closes the opening by being thrust against the perforation And holding the sharp body at one end facing the opening of the cylinder and a cylinder opening / closing member at the other end Joint to be joined A holding body in which a flow path of gas ejected from the cylinder is formed, and a biasing member that biases the holding body toward the opening side of the cylinder by being attached to the holding body, The cylinder storage section in which the cylinder is fixed and stored, and the holding body storage section in which the holding body is stored so as to be movable up and down are continued through the communication hole, Formed on the holder Joint And a gas cylinder device provided with a storage body formed with an opening that faces one end of the gas flow path to the outside, a cartridge adapter including the cylinder opening and closing member, and the gas cylinder device mounted thereon, and continuous with the cartridge adapter A gas pipe for flowing the gas ejected from the cylinder into the liquid tank, and the cylinder opening / closing member inserted into the cartridge adapter, and operating the cylinder opening / closing member to open / close the cylinder. And an operation part for opening and closing the liquid pipe, and by operating the operation part, Join to joint The cylinder opening / closing member thus moved is moved to the other end side to open the opening of the cylinder closed by the sharp body, and gas is ejected, and the liquid pipe is opened to allow the liquid in the tank to be poured. It is poured out from the outlet.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, a gas cylinder apparatus to which the present application is applied and a liquid dispensing apparatus using the gas cylinder apparatus will be described in detail with reference to the drawings. As shown in FIG. 1, the gas cylinder apparatus 1 includes a carbon dioxide cartridge cylinder 3 filled with carbon dioxide, a holding body 4 that holds a sharp body that opens the carbon dioxide cartridge cylinder 3, and a carbon dioxide cartridge cylinder. 3 and a housing 5 for housing the holding body 4.
[0015]
The carbon dioxide cartridge cylinder 3 is filled with liquefied carbon dioxide in a substantially cylindrical metal casing. The carbon dioxide cartridge cylinder 3 has an opening 7 on one end side of the metal casing. The opening 7 is covered with a lid body 8 to prevent ejection of carbon dioxide in the metal casing. In addition, the opening 7 is closed when the perforation 8a is formed by the sharp body 10 held by the holding body 4 described later, and the sharp body 10 is thrust into the perforation 8a.
[0016]
In such a carbon dioxide gas cartridge cylinder 3, carbon dioxide gas is ejected from the perforations 8 a of the lid body 8 by pulling up the pointed body 10 protruding from the lid body 8. Further, in the carbon dioxide cartridge cylinder 3, the sharpened body 10 is thrust into the perforation 8a, whereby the opening 7 is closed and the ejection of carbon dioxide is prevented.
[0017]
As shown in FIG. 2, the holding body 4 that holds the sharp body 10 and opens and closes the carbon dioxide gas cartridge cylinder 3 is formed in a substantially convex shape in cross section, and is projected to the lid body 8 of the carbon dioxide gas cartridge cylinder 3. A sharp body 10, a flange portion 15 to which an urging member 14 that urges the holding body 4 toward the carbon dioxide cartridge cylinder 3 is engaged, and a gas serving as a flow path for carbon dioxide gas filled in the carbon dioxide cartridge cylinder 3. A cylinder opening / closing member 13 that opens and closes the carbon dioxide cartridge cylinder 3 in combination with the flow path 11 and the holding body 4. Joining part 12 to be joined And have.
[0018]
A sharp body 10 that closes the lid 8 of the carbon dioxide cartridge cylinder 3 protrudes from the bottom surface portion 4 a of the holding body 4, and the sharp end 10 a is protruded from the lid 8 of the carbon dioxide cartridge cylinder 3. Thereby, the sharp body 10 opens the perforations 8a in the lid body 8 and closes the perforations 8a to prevent the carbon dioxide gas filled in the carbon dioxide cartridge cylinder 3 from flowing out.
[0019]
A flange portion 15 is formed at an end portion of the holding body 4 facing the carbon dioxide cartridge cylinder 3. A biasing member 14 such as a compression spring that biases the holding body 4 is brought into contact with the flange portion 15. The urging member 14 is inserted into the holding body 4, and the holding body 4 is housed in a housing 5 to be described later, so that one end is brought into contact with the inner wall of the housing 5 and the other end is attached to the flange portion 15. Abutted. Thereby, the urging member 14 urges the holding body 4 toward the opening side of the carbon dioxide cartridge cylinder 3.
[0020]
A gas flow path 11 through which carbon dioxide gas ejected from the carbon dioxide cartridge cylinder 3 flows is formed on the outer surface 4 c of the holding body 4 and the outer peripheral portion of the flange portion 15. The gas flow path 11 is constituted by a concave groove formed in the outer surface 4 c of the holding body 4 and the outer peripheral portion of the flange portion 15 from the bottom surface portion 4 a to the upper surface portion 4 b of the holding body 4. In the gas flow path 11, the pointed portion 10 a of the pointed body 10 is pulled out from the perforation 8 a, and the carbon dioxide gas ejected by opening the lid 8 of the carbon dioxide cartridge cylinder 3 is the lower surface portion 4 a of the holding body 4. To the upper surface portion 4b.
[0021]
The coupling portion 12 through which the cylinder opening / closing member 13 is inserted is formed in a substantially hollow cylindrical shape on the upper surface portion 4 b of the holding body 4. The coupling portion 12 is formed with a thread groove 16 into which an after-mentioned cylinder opening / closing member 13 is screwed, for example, on an inner peripheral wall. The thread groove 16 is Joint 12 is formed on the inner peripheral wall of 12 and screwed with a cylinder opening / closing member 13 formed with a thread.
[0022]
When the holding body 4 having the above-described configuration is housed in the housing 5, the lid body 8 of the carbon dioxide cartridge cylinder 3 and the lower surface portion 4a on which the sharp body 10 is formed face each other. Since the holding body 4 is urged toward the carbon dioxide cartridge cylinder 3 by the urging member 14, the sharp body 10 perforates the lid body 8 and the pointed end 10a is protruded into the perforation 8a, and the carbon dioxide cartridge cylinder. 3 is closed.
[0023]
And, when the gas cylinder device 1 is attached to a cartridge adapter such as a liquid dispensing device, the holding body 4 Connecting part 12 Is coupled to a cylinder opening / closing member 13 provided on the cartridge adapter side. When the holding body 4 is urged by the cylinder opening / closing member 13 against the urging force of the urging member 14 to the side opposite to the carbon dioxide cartridge cylinder 3, the pointed end portion 10 a of the sharp body 10 is pulled up from the lid body 8. Therefore, carbon dioxide gas can be ejected. The ejected carbon dioxide gas flows through the gas flow path 11 formed on the outer surface 4 c of the holding body 4 and the outer peripheral portion of the flange portion 15, and then flows to the upper surface portion 4 b side of the holding body 4. Further, when the urging force of the cylinder opening / closing member 13 is released, the holding body 4 is urged toward the carbon dioxide cartridge cylinder 3 by the urging force of the urging member 14, and the sharp end 10a of the sharp body 10 is moved to the carbon dioxide cartridge cylinder. 3 is thrust into a perforation 8a formed in the lid body 8, and the ejection of carbon dioxide gas is stopped.
[0024]
As shown in FIG. 4, between the sharp body 10 of the holder 4 and the carbon dioxide cartridge cylinder 3 described above, as shown in FIG. 4, the sharp edge portion 10a of the sharp body 10 is prevented from blurring when inserted into the perforation 8a. The guide member 18 may be provided. The guide member 18 is disposed in a communication hole that communicates the first and second storage portions of the housing 5 to be described later, and an insertion hole through which the sharp body 10 is inserted is formed substantially at the center. By disposing the guide member 18, the gas cylinder device 1 is configured such that the sharp body 10 is guided by the guide member 18 and is always vertically projected to the lid body 8, and the sharp body 10 is shaken by an external impact, Gas can be prevented from leaking from the perforations 8a of the lid 8 without facing the lid 8 perpendicularly.
[0025]
Further, the urging member 14 that urges the holding body 4 toward the carbon dioxide cartridge cylinder 3 has the sharp end 10a of the sharp body 10 inserted into the carbon dioxide cartridge cylinder 3 through the hole 8a of the lid 8 in the cylinder. The holding body 4 is urged at a pressure larger than the pressure pressed by the filled carbon dioxide gas. That is, the sharp body 10 held by the holding body 4 is not pushed out of the perforation 8a by the gas pressure in the cylinder even when the sharp body 10 is pushed into the carbon dioxide cartridge cylinder 3 from the perforation 8a of the lid 8. Therefore, the gas cylinder device 1 is attached to the cartridge adapter, and the carbon dioxide gas filled in the carbon dioxide cartridge cylinder 3 is prevented from leaking before the holding body 4 is operated by the cylinder opening / closing member.
[0026]
The housing 5 for housing the carbon dioxide cartridge cylinder 3 and the holding body 4 is formed of a substantially cylindrical body in which a housing portion for the carbon dioxide cartridge cylinder 3 and the holding body 4 is formed by a thermoplastic resin such as ABS resin. The housing 5 is formed to be separable in the vertical direction, is formed on the upper end side, and is connected to the upper storage 20 and an upper storage 20 in which an engaging portion that engages with a cartridge adapter such as a liquid dispensing device (not shown) is formed. The lower housing 21 constituting the lower end side of the housing 5 is formed.
[0027]
The upper storage 20 has an engagement portion 22 formed at the tip, and is coupled to a cartridge adapter such as a liquid dispensing device. For example, the coupling portion 22 is formed with a screw thread, and the screw thread is screwed into a thread groove formed in the cartridge adapter, thereby coupling the housing 5 to the cartridge adapter. The upper storage 20 has an upper surface 20a formed with carbon dioxide gas that has passed through the gas flow path 11 of the holding body 4 facing the liquid pouring device and an opening 23 that serves as an entrance hole for the cylinder opening and closing member 13. Yes. In the upper storage 20, the lower end side of the engaging portion 22 is expanded in accordance with the shape of the carbon dioxide cartridge cylinder 3 to be stored. In addition, the upper storage 20 is formed with a connecting portion 24 that is connected to the lower storage 21 on the inner periphery on the lower end side. In the lower storage 21 connected to the upper storage 20, a connection portion 25 connected to the lower end side of the upper storage 20 is formed on the outer periphery on the upper end side. The connecting portions 24 and 25 are formed with screw grooves that are screwed together, and the housing portions 5 are integrated by screwing the connecting portions 24 and 25 together. Further, the lower storage 21 has an inclined portion 26 formed on the lower end side, and a bottom surface portion 20 b that is flattened continuously from the inclined portion 26.
[0028]
In the housing 5, the upper storage 20 and the lower storage 21 are combined to form a first storage portion 29 for storing the carbon dioxide cartridge cylinder 3 and a second storage portion 30 for storing the holding body 4. The The first and second storage portions 29 and 30 are continuous by the communication hole 31. The communication hole 31 faces the opening 4 of the carbon dioxide cartridge cylinder 3 stored in the first storage unit 29 to the holding body 4 stored in the second storage unit 30. Then, the sharp body 10 held by the holding body 4 through the communication hole 31 is pushed up to the lid body 8 of the carbon dioxide cartridge cylinder 3, and the carbon dioxide filled in the carbon dioxide cartridge cylinder 3 is received by the holding body. 4 gas flow paths 11.
[0029]
The first storage portion 29 for storing the carbon dioxide cartridge cylinder 3 is formed to be approximately the same size as the carbon dioxide cartridge cylinder 3, and a substantially circular rubber packing 32 is disposed at the lower end portion 29a. The carbon dioxide cartridge cylinder 3 is housed in the first housing portion 29, and the upper housing 20 and the lower housing 21 are connected so that the rubber packing 32 is brought into contact with the bottom surface. Shaking is prevented.
[0030]
The second storage portion 30 that stores the holding body 4 is formed to be slightly larger in the vertical direction than the holding body 4. In addition, the communication hole 31 described above is formed on the lower end side of the second storage unit 30, and an opening 23 through which carbon dioxide gas flows to the liquid pouring device side is formed on the upper end side. Both the communication hole 31 and the opening 23 are formed with a diameter smaller than that of the second storage portion 30. Therefore, the holding body 4 stores the sharp body 10 toward the opening 7 side of the carbon dioxide cartridge cylinder 3, so that only the sharp end 10 a of the sharp body 10 contacts the lid body 8 of the carbon dioxide cartridge cylinder 3. Has been. In addition, the second storage portion 30 has one end where the biasing member 14 inserted into the holding body 4 faces the flange portion 15 at the inner peripheral wall near the opening 23 formed on the upper end side of the second storage portion 30. It is in contact. Thereby, the holding body 4 is urged downward by the urging member 14 in the second storage portion 30.
[0031]
In the housing 5, the opening 23 is sealed with a sealing member 27 when the upper storage 20 is not engaged with the cartridge adapter. The sealing member 27 includes a circular sealing plate 27a formed to be approximately the same size as the upper surface portion 20a of the upper storage 20, and a protruding portion 27b formed so as to rise from the sealing plate 27a. This sealing member 27 prevents the carbon dioxide gas in the carbon dioxide cartridge cylinder 3 from leaking before the gas cylinder device 1 is attached to the cartridge adapter, and the second housing that is exposed to the outside through the opening 23. Dust and the like are prevented from entering the portion 30.
[0032]
Such a sealing member 27 is mounted on the upper surface portion 20 a of the upper storage 20 by fitting the protruding portion 27 b into the opening 23. Accordingly, the sealing member 27 restricts the protrusion 27b from coming into contact with the upper surface portion 4b of the holding body 4 and the holding body 4 from moving in the direction of arrow D in FIG. The carbon dioxide gas can be prevented from leaking.
[0033]
In the gas cylinder device 1 to which the present invention is applied, the sealing member 27 may be fitted into the opening 23 and the upper surface portion 20a of the upper storage 20 may be covered with a sealing member or the like. Thereby, the danger that the sealing member 27 will accidentally come off during transportation of the gas cylinder apparatus 1 etc. can be prevented.
[0034]
In the gas cylinder apparatus 1 having the above-described configuration, the holding body 4 is urged by the urging member 14 before being attached to the liquid dispensing apparatus or the like, and the lid body 8 of the carbon dioxide cartridge cylinder 3 has already been sharpened. 10 is perforated. In the gas cylinder device 1, since the pointed end portion 10 a of the sharp body 10 is protruded from the perforation 8 a of the lid body 8, the ejection of the carbon dioxide gas filled in the carbon dioxide cartridge cylinder 3 is stopped.
[0035]
The gas cylinder device 1 is attached to a liquid dispensing device or the like by connecting the cartridge adapter and the engaging portion 22. At this time, the gas cylinder device 1 Connecting part 12 Formed in Thread groove 16 And a cylinder opening / closing member 13 formed in the cartridge adapter. Since the cylinder opening / closing member 13 is normally urged downward, the gas cylinder apparatus 1 is configured so that the sharpened body 10 of the holding body 4 protrudes into the lid body 8 of the carbon dioxide cartridge cylinder 3 when mounted on the cartridge adapter. Standing up, carbon dioxide eruption is stopped.
[0036]
When the cylinder opening / closing member 13 is pulled up in the direction of arrow D in FIG. 1 against the urging force of the urging member 14, the holding body 4 coupled to the cylinder opening / closing member 13 is also pulled up in the direction of arrow D in FIG. . As a result, the pointed body 10 protruding from the lid 8 of the carbon dioxide cartridge cylinder 3 is also pulled out from the perforations 8a, and the carbon dioxide filled in the cylinder is ejected. The ejected carbon dioxide gas flows through the gas flow path 11 of the holding body 4 housed in the second housing portion 30, and is sent from the opening 23 of the housing 5 to the liquid pouring device side through the cartridge adapter.
[0037]
When the cylinder opening / closing member 13 is returned to the direction of the arrow D in FIG. 1, the holding body 4 coupled to the cylinder opening / closing member 13 is also urged in the direction of the arrow D in FIG. 1 by the urging force of the urging member 14. Is done. As a result, the pointed portion 10a of the sharp body 10 that has been pulled up from the lid body 8 of the carbon dioxide cartridge cylinder 3 is thrust into the perforation 8a and stops the ejection of the carbon dioxide gas filled in the cylinder.
[0038]
Further, since the holding body 4 is urged by the urging member 14 even when the gas cylinder apparatus 1 is detached from the cartridge adapter of the liquid dispensing apparatus, the pointed end portion 10a of the sharp body 10 is provided with the carbon dioxide cartridge cylinder 3 The carbon dioxide gas is prevented from being blown out from the cylinder because the perforation 8a is stuck to the lid body 8 and the perforation 8a is blocked.
[0039]
According to the gas cylinder apparatus 1 as described above, the lid body 8 of the carbon dioxide cartridge cylinder 3 is perforated by the sharp body 10 of the holding body 4 before being attached to the cartridge adapter, and the sharp end portion 10a of the sharp body 10 is provided. As a result, the perforation 8a is closed. Therefore, according to the gas cylinder apparatus 1, since the carbon dioxide gas is prevented from being ejected in the cylinder, the gas cylinder apparatus 1 can be safely removed without risk of gas ejection or frostbite due to heat of vaporization even after the cartridge adapter is once mounted. be able to.
[0040]
Moreover, according to the gas cylinder apparatus 1, even if carbon dioxide gas remains in the carbon dioxide cartridge cylinder 3 after being removed from the cartridge adapter, it can be reused by being attached to the cartridge adapter.
[0041]
Furthermore, according to the gas cylinder device 1, the holding body 4 is urged toward the carbon dioxide cartridge cylinder 3 by the urging member 14, so that the lid body 8 is perforated and closed by the sharp body 10, so that the cartridge adapter Even when the gas cylinder device 1 is dropped before being attached to the container, there is no danger of carbon dioxide gas jetting out of the cylinder or frostbite due to heat of vaporization and the like, and it can be handled safely.
[0042]
Next, the case where the gas cylinder apparatus 1 described above is used as a replaceable cartridge cylinder for the liquid dispensing apparatus will be described. As shown in FIG. 3, the liquid dispensing apparatus 40 is formed on a liquid tank 41 filled with a liquid and an upper surface portion of the liquid tank 41, receives carbon dioxide flowing from the gas cylinder apparatus 1, and flows it to the liquid tank 41. At the same time, it has a dispensing head 48 composed of a hollow casing for sending the liquid in the liquid tank 41 to the outside. The dispense head 48 includes a liquid pipe 42 serving as a liquid flow path in the liquid tank 41, a pouring part 43 that is continuous with the liquid pipe 42, and that dispenses liquid, and a gas cylinder device 1 that is used as a replaceable cartridge. The cartridge adapter 44 to be mounted, the gas pipe 45 that sends the carbon dioxide gas continuously ejected from the cartridge adapter 44 into the liquid tank 41, and the gas cylinder device 1 and the opening / closing portion 43 are operated to open and close the liquid. And an operation unit 46 for performing the operation.
[0043]
The liquid tank 41 filled with a liquid is composed of a container such as a barrel, and is filled with a liquid such as beer. In the liquid tank 41, a liquid pipe 42 for sending the liquid to the dispense head 48 is extended to the bottom. The liquid pipe 42 is continuous with the pouring portion 43 formed in the dispensing head 48, and the connecting portion 47 with the pouring portion 43 is opened and closed by the operation portion 46.
[0044]
The connecting portion 47 is formed in the dispensing head 48, and an outflow hole 42a through which the liquid in the liquid pipe 42 flows out is provided on one end side, and an inflow hole 43a of the extraction portion 43 is provided on the other end side. Further, in the connecting portion 47, a cock 51 of the operation portion 46, which will be described later, and a biasing member 60 that biases the cock 51 toward the inflow hole 43a are disposed.
[0045]
The cock 51 is disposed in the connecting portion 47, and is an on-off valve 51a that opens and closes the inflow hole 43a, and a push that is faced to the upper part of the dispensing head 48 through the insertion hole 62 from the on-off valve 51a It consists of a shaft 51b. The on-off valve 51a is large enough to close the inflow hole 43a, and a rubber packing 61 is disposed so as to surround the inflow hole 43a. Accordingly, the rubber packing 61 can prevent the liquid from leaking to the dispensing portion 43 side, and the contact portion 47 and the on-off valve 51a are prevented from coming into direct contact with each other. Generation of foreign matter can be prevented. Further, the pressing shaft 51 b is disposed in an insertion hole 62 that is opened from the inflow hole 43 a of the connection portion 47 to the upper surface portion of the dispensing head 48. The other end of the pressing shaft 51 b opposite to the one end provided with the on-off valve 51 a faces outward from the opening 62 a of the insertion hole 62 formed in the upper surface side of the dispensing head 48. When the pressing shaft 51b is pressed by the pressing piece of the operation unit 46, the pressing shaft 51b is moved in the direction of arrow E in FIG. 3 to separate the opening / closing valve 51a from the inflow hole 43a and open the inflow hole 43a.
[0046]
The urging member 60 is formed of a compression coil spring or the like, and has one end abutting against the cock 51 and the other end abutting against the side wall of the connection portion 47 facing the on-off valve 51a. Thereby, the urging member 60 normally urges the cock 51 to the outflow hole 43a side to prevent the liquid from flowing out to the dispensing part 43 side.
[0047]
The connecting portion 47 is configured such that when the cock 51 is pressed toward the outflow hole 42 a by the operation portion 46, the inflow hole 43 a is opened, and the liquid that has risen through the liquid pipe 42 due to the gas pressure in the tank is poured out. To flow. In addition, when the cock 51 is released, the connecting portion 47 urges the cock 51 to the inflow hole 43a side by the urging member 60, closes the inflow hole 43a, and the liquid in the liquid pipe 42 is poured out. 43 is prevented from flowing to the side.
[0048]
The cartridge adapter 44 to which the gas cylinder device 1 is attached and receives the carbon dioxide gas ejected from the carbon dioxide cartridge cylinder 3 is formed with a hollow portion 49 with one end facing outward, and the outer side in the upper storage 20 of the housing 5 is formed. The mounting portion 50 to which the gas cylinder device 1 is mounted by the engagement of the formed engaging portion 22, the gas pipe 45 for sending the carbon dioxide gas ejected from the gas cylinder device 1 into the liquid tank 41, and the inside of the hollow portion 49 Of the holding body 4 stored in the second storage portion 30 of the housing 5. Connecting part 12 And a cylinder opening and closing member 13 coupled to the cylinder.
[0049]
In the mounting portion 50, an engaging portion 52 that engages with the engaging portion 22 of the upper storage 20 is formed by inserting the upper surface portion of the upper storage 20 of the housing 5 on the inner surface side of the hollow portion 49. . For example, the engaging part 52 is screwed with the engaging part 22 in which a thread groove is formed and a thread is formed. The mounting portion 50 has an abutting portion 53 rising from the inner side. The abutting portion 53 is abutted against the upper surface portion 20a via the rubber packing when the upper storage 20 is inserted.
[0050]
A gas pipe 45 for sending the carbon dioxide gas ejected from the gas cylinder device 1 into the liquid tank 41 is formed slightly inward from the abutting portion 53 of the hollow portion 49. The gas pipe 45 faces the liquid tank 41 from the hollow portion.
[0051]
A cylinder opening / closing member 13 which is coupled to the holding body 4 and opens / closes the carbon dioxide cartridge cylinder 3 is composed of a substantially rod-shaped body, and has one end portion. Connecting part 12 A coupling portion 54 that is inserted into the holder 4 and coupled to the holding body 4 is formed, and an engagement protrusion 55 that is engaged with an operation portion 46 described later is formed at the other end. The coupling portion 54 is formed with a screw thread, for example, and is screwed with the screw thread. Thread groove 16 Formed Connecting part 12 Combined with.
[0052]
The cylinder opening / closing member 13 is disposed in the hollow portion 49 so as to be movable along the longitudinal direction. The cylinder opening / closing member 13 is provided with a support member 56 that supports the cylinder opening / closing member 13 at a substantially middle portion and prevents the carbon dioxide gas from leaking out of the carbon dioxide cartridge cylinder 3. The support member 56 has substantially the same diameter as the hollow portion 49, and a rubber packing 57 is formed on the outer peripheral portion in the circumferential direction. The support member 56 slides in the hollow portion 49 along the inner wall.
[0053]
The cylinder opening / closing member 13 is inserted with an urging member 58 for urging the cylinder opening / closing member 13 outward on the inner side of the support member 56. The urging member 58 is, for example, a compression coil spring, and has one end in contact with the rear end portion of the support member 56 and the other end in contact with the inner side end portion of the hollow portion 49. Accordingly, the cylinder opening / closing member 13 supported by the support member 56 is urged outward of the hollow portion 49 by the urging member 58 as shown in FIG. ing. As a result, the gas cylinder device 1 is biased in the direction opposite to the arrow D in FIG. 1 where the holding body 4 closes the lid body 8 of the carbon dioxide cartridge cylinder 3 to prevent the carbon dioxide gas from flowing out.
[0054]
When the cylinder opening / closing member 13 is biased to the outer side of the hollow portion 49, the outer side end portion of the support member 56 is brought into contact with the abutting portion 53 via the rubber packing 59. At the same time, the opening 45 a of the gas pipe 45 opened in the inner peripheral wall of the hollow portion 49 is closed by the support member 56. Thereby, the gas pipe 45 can be shut off, and it is possible to prevent the carbon dioxide gas from being sent into the liquid tank 41 even when the carbon dioxide gas leaks out.
[0055]
Such a cylinder opening / closing member 13 is piston-driven in the longitudinal direction via an engagement protrusion 55 engaged with the operation portion 46. The cylinder opening / closing member 13 is pulled up inward of the hollow portion 49 by the operating portion 46, thereby pulling up the holding body 4 of the gas cylinder device 1 in the direction of arrow D in FIG. Thereby, as shown in FIG. 6, the liquid pouring device 40 opens the perforations 8a of the carbon dioxide cartridge cylinder 3 closed by the sharp body 10 of the holding body 4, and ejects carbon dioxide. The carbon dioxide gas that has flowed into the hollow portion 49 from the opening 23 of the housing 5 passes through the gas pipe 45 formed on the inner side of the mounting portion 50 and is sent into the liquid tank 41. At this time, since the rubber packing 57 is disposed on the outer peripheral portion of the support member 56 through which the cylinder opening / closing member 13 is inserted and supported, the support member 56 slides in the hollow portion 49. Therefore, the carbon dioxide gas that passes through the mounting portion 50 of the cartridge adapter 44 does not flow out inward from the support member 56, passes through the gas pipe 45, and is reliably sent into the liquid tank 41.
[0056]
Further, the cylinder opening / closing member 13 is returned to the outer side of the hollow portion 49 by the operation portion 46, thereby releasing the tensile force applied to the holding body 4 of the gas cylinder device 1, and the urging force of the urging member 14 in FIG. Return to the opposite direction of arrow D. As a result, as shown in FIG. 5, in the liquid dispensing device 40, the sharpened body 10 of the holding body 4 closes the perforations 8 a formed in the lid body 8 of the carbon dioxide cartridge cylinder 3, thereby preventing carbon dioxide from being ejected To do.
[0057]
The above-described gas cylinder device 1 is detachably attached to the cartridge adapter 44 as described above. That is, as described above, in the gas cylinder device 1, the holding body 4 is urged toward the carbon dioxide cartridge cylinder 3 by the urging member 14, whereby the lid body 8 is closed by the pointed portion 10 a of the sharp body 10. Yes. Therefore, even when it is removed from the cartridge adapter 44, it can be safely removed without risk of frostbite due to ejection of carbon dioxide in the carbon dioxide cartridge cylinder 3 or heat of vaporization. Therefore, according to the liquid pouring device 40, the gas cylinder device 1 can be safely removed even when the use is stopped in a state where the carbon dioxide gas in the gas cylinder device 1 remains, and the gas cylinder device 1 is again connected to the main liquid. It can be reused in the dispensing device 40 and other devices equipped with a cartridge adapter.
[0058]
The operation part 46 for operating the cylinder opening / closing member 13 to open / close the lid 8 of the carbon dioxide cartridge cylinder 3 and operating the cock 51 to open / close the inflow hole 43a of the connecting part 47 is engaged with the cylinder opening / closing member 13. A rotary operation element 65 that engages with the protrusion 55 to rotate the cylinder opening / closing member 13, an extraction lever 66 that extracts liquid by rotating the rotation operation element 65, and an extraction lever 66 are provided. And a pressing piece 67 for pressing the cock 51 by lever operation.
[0059]
The rotary operation element 65 that engages with the cylinder opening / closing member 13 is formed in a substantially disk shape, and one end of a dispensing lever 66 is attached to the center of the disk surface. Further, the rotary operation element 65 is provided with an opening 65a that is curved in a substantially arcuate shape from the side edge of the board surface to the center of rotation. An engagement protrusion 55 formed at one end of the cylinder opening / closing member 13 is slidably inserted into the opening 65a. Then, the rotary operation element 65 is rotated by the dispensing lever 66 to slide the engagement protrusion 55 inserted through the opening 65a between the curved ends of the opening 65a.
[0060]
Thereby, the rotary operator 65 drives the cylinder opening / closing member 13 with a piston along the longitudinal direction of the hollow portion 49 according to the rotation.
[0061]
That is, as shown in FIG. 5, when the dispensing lever 66 is rotated upward, the engagement protrusion 55 of the cylinder opening / closing member 13 slides on the opening 65a and the side edge of the rotary operator 65. Located on the side edge. At this time, since the tensile force by the rotary operation element 65 is not applied to the engaging protrusion 55, the cylinder opening / closing member 13 is urged in the direction of the arrow D in FIG. 3 by the urging force of the urging member 58. Accordingly, the holding body 4 of the gas cylinder apparatus 1 is not subjected to the tensile force by the cylinder opening / closing member 13, and the sharp end 10 a of the sharp body 10 is punched into the lid body 8 of the carbon dioxide cartridge cylinder 3 by the biasing force by the biasing member 14. The ejection of the carbon dioxide gas can be stopped by thrusting into the provided perforation 8a.
[0062]
On the other hand, as shown in FIG. 6, when the dispensing lever 66 is rotated downward, the engagement protrusion 55 of the cylinder opening / closing member 13 slides on the opening 65 a and rotates around the rotation operator 65. Located in the vicinity. At this time, since the tensile force by the rotary operation element 65 is applied to the engaging protrusion 55, the cylinder opening / closing member 13 is pulled in the direction of arrow D in FIG. 3 against the urging force of the urging member 58. Therefore, the holding body 4 of the gas cylinder device 1 pulls the pointed end portion 10a of the sharp body 10 from the perforation 8a formed in the lid body 8 of the carbon dioxide cartridge cylinder 3 by the tensile force of the cylinder opening / closing member 13, thereby Release.
[0063]
As shown in FIG. 3, a pressing piece 67 provided on the dispensing lever 66 for pushing the cock 51 by a lever operation is formed to bulge to the lower surface side in the vicinity of the end of the dispensing lever 66 attached to the rotary operation element 65. Has been. The pressing piece 67 is positioned above the insertion hole 62 and faces one end of the pressing shaft 51 b of the cock 51 protruding from the insertion hole 62. Then, the pressing piece 67 presses the pressing shaft 51b of the cock 51 downward as the dispensing lever 66 is rotated downward. By pressing the pressing shaft 51b along with the rotation of the dispensing lever 66, the pressing piece 67 can move the opening / closing valve 51a of the cock 51 downward and open / close the inflow hole 43a.
[0064]
That is, as shown in FIG. 5, when the dispensing lever 66 is rotated upward, the pressing piece 67 is also positioned upward and separated from the pressing shaft 51 b protruding from the opening 62 a of the insertion hole 62. . Therefore, the cock 51 is urged in the direction of the opposite arrow E in FIG. 3 by the urging member 60 in contact with the on-off valve 51a, and the inflow hole 43a leading to the extraction portion 43 is blocked by the on-off valve 51a. Can be stopped.
[0065]
On the other hand, as shown in FIG. 6, when the dispensing lever 66 is rotated downward, the pressing piece 67 is also rotated downward and comes into contact with the pressing shaft 51 b protruding from the opening 62 a of the insertion hole 62. Is done. Then, the pressing piece 67 presses the pressing shaft 51b deeply as the dispensing lever 66 is rotated downward. Thus, the cock 51 is pressed in the direction of arrow E in FIG. 3 against the urging force of the urging member 60 in contact with the on-off valve 51a, and the on-off valve 51a is separated from the inflow hole 43a to be liquid. Can be extracted from the extraction unit 43.
[0066]
In addition, since the rubber packing 68 is disposed on the outer peripheral portion of the pressing shaft 51 b, the liquid flowing in from the inflow hole 43 a does not flow in before the rubber packing 68 but flows into the pouring portion 43.
[0067]
Such an operation unit 46 may adjust the flow rate of the liquid poured out from the dispensing unit 43 by restricting the rotation of the dispensing lever 66. That is, as shown in FIG. 3, the operation unit 46 projects the adjustment member 70 on the upper surface portion of the dispensing head 48, and contacts the pressing piece 67 by rotating the dispensing lever 66. The adjustment member 70 has an engagement hole 71 having a thread groove formed therein in the vicinity of the opening 62 a of the insertion hole 62, and a screw member that is screwed into the engagement hole 71 protrudes from the adjustment member 70. The adjustment member 70 can adjust the amount of protrusion from the dispense head 48 by rotating. Therefore, by adjusting the protruding amount of the adjusting member 70, the contact position between the pressing piece 67 and the adjusting member 70 can be determined, and the rotation amount of the dispensing lever 66 can be regulated.
[0068]
Therefore, the pressing amount of the pressing shaft 51b of the cock 51 by the pressing piece 67 is restricted, so that the opening / closing valve 51a is separated from the inflow hole 43a by a predetermined amount or less. For this reason, the flow volume of the liquid from the inflow hole 43a to the extraction part 43 can be adjusted.
[0069]
Further, the adjusting member 70 adjusts the gas flow rate from the gas cylinder device 1 by defining the amount of protrusion caused by the rotation according to the piston driving amount of the cylinder opening / closing member 13 by the rotary operation element 65. Also good. That is, the amount of protrusion from the dispensing head 48 by rotating the adjusting member 70 once is defined according to the length by which the holding body 4 is pulled by the cylinder opening / closing member 13, and the rotary operation element 65 by restricting the rotation of the dispensing lever. The amount of rotation and the amount of movement of the cylinder opening / closing member 13 may be adjusted. For example, when the adjusting member 70 is rotated once, the amount of rotation of the dispensing lever 66 and the amount of rotation of the rotary operator 65 are restricted, so that the cylinder opening / closing member 13 removes the sharpened body 10 of the holding body 4 from the carbon dioxide cartridge cylinder. The amount pulled up from 3 lid body 8 is adjusted to 5 mm.
[0070]
By providing the above configuration, the amount by which the sharp body 10 is lifted from the lid body 8 can be defined, and the gas flow rate can be easily adjusted. Further, when the pointed portion 10a of the sharp body 10 is protruded into the carbon dioxide cartridge cylinder 3 at a depth of 5 mm, the lifting amount of the sharp body 10 is set to 5 mm or less by the dispensing lever 66. The liquid pouring operation can be invalidated, and liquid pouring due to accidental touching of the pouring lever 66 can be prevented.
[0071]
Next, the operation of the liquid dispensing device 40 will be described. In the liquid dispensing device 40, the carbon dioxide gas cylinder device 1 is attached to the mounting portion 50 provided in the hollow portion 49 of the cartridge adapter 44. At this time, the holding body 4 of the gas cylinder device 1 is Connecting part 12 The cylinder opening / closing member 13 is inserted and screwed into the cylinder. Further, since the dispensing lever 66 is rotated upward, the cylinder opening / closing member 13 is urged toward the outer side of the cartridge adapter 44. Accordingly, the holding body 4 of the gas cylinder device 1 is urged in the direction of arrow D in FIG. 1 by the urging member 14 and closes the perforation 8a of the carbon dioxide cartridge cylinder 3.
[0072]
Further, since the on-off valve 51b is urged by the urging member 60, the inflow hole 43a of the connecting portion 47 that connects the pouring portion 43 and the liquid pipe 42 is closed by the on-off valve 51a.
[0073]
Next, when the pouring lever 66 is rotated downward, the engaging protrusion 55 is guided by the opening 65a of the rotary operator 65, and the cylinder opening / closing member 13 is pulled up in the direction of arrow D in FIG. At this time, since the holding body 4 of the gas cylinder device 1 is also pulled up in the direction of arrow D in FIG. 1, the pointed end 10 a of the sharp body 10 is pulled up from the perforation 8 a of the lid body 8. As a result, the carbon dioxide gas filled in the carbon dioxide cartridge cylinder 3 passes through the gas pipe 45 of the dispense head 48 via the gas flow path 11 and is jetted into the liquid tank.
[0074]
Further, the pressing shaft 51b of the cock 51 is pressed by a pressing piece 67 provided on the lower surface side of the dispensing lever 66, and the on-off valve 51a is urged in the direction of arrow E in FIG. Thereby, the inflow hole 43a formed in the connection part 47 of the liquid pipe 42 and the extraction part 43 is opened. And the liquid with which the liquid tank 41 was filled raises the liquid pipe 42 extended in the tank bottom face side by the pressure of a carbon dioxide gas, passes through the inflow hole 43a, and is poured out from the extraction part 43. .
[0075]
Next, when the pouring lever 66 is rotated upward, the pressure on the pressing shaft 51b of the cylinder opening / closing member 13 and the cock 51 is released. Therefore, the lid 8 of the carbon dioxide cartridge cylinder 3 is closed by the sharpened body 10 of the holding body 4, and the inflow hole 43a of the connecting portion 47 is closed by the on-off valve 51a. Thereby, the dispensing of the liquid filled in the liquid tank 41 is stopped.
[0076]
As described above, according to the liquid dispensing apparatus 40, the carbon cylinder cartridge cylinder 3 is closed when the liquid dispensing is stopped, so that the gas cylinder apparatus 1 can be safely removed from the cartridge adapter 44. Can be removed.
[0077]
Further, by adjusting the amount of protrusion of the adjustment member 70 from the dispense head 48 to regulate the amount of rotation of the dispensing lever 66, the lifting distance of the sharp body 10 that closes the lid 8 of the carbon dioxide cartridge cylinder 3 is adjusted. At the same time, the opening amount of the inflow hole 43a provided in the connecting portion 47 between the liquid pipe 42 and the extraction portion 43 by the on-off valve 51a can be adjusted, and the amount of liquid extraction can be regulated.
[0078]
【The invention's effect】
As described above in detail, according to the gas cylinder apparatus to which the present invention is applied, the lid of the carbon dioxide cartridge cylinder is perforated by the sharpened body of the holding body before being attached to the cartridge adapter, and the sharpened The perforation is blocked by the tip of the body. Therefore, according to the gas cylinder device, the carbon dioxide gas in the cylinder is prevented from being ejected, so that it can be safely removed without risk of gas ejection or frostbite due to heat of vaporization even after being attached to the cartridge adapter. Can do. Further, according to this gas cylinder apparatus, even when carbon dioxide gas remains in the carbon dioxide cartridge cylinder after being removed from the cartridge adapter, it can be reused by being attached to the cartridge adapter. Further, according to this gas cylinder device, the holding body is urged toward the carbon dioxide cartridge cylinder by the urging member, so that the lid body is perforated and closed by the sharp body. Even if the gas cylinder device is dropped, the risk of frostbite due to the ejection of carbon dioxide gas or heat of vaporization in the cylinder can be safely handled.
[0079]
Further, according to the liquid dispensing apparatus to which the present invention is applied, the carbon dioxide cartridge cylinder is closed when the liquid dispensing is stopped, so that the gas cylinder apparatus can be safely removed from the cartridge adapter. be able to.
[0080]
In addition, by adjusting the amount of protrusion of the adjustment member from the dispense head to regulate the amount of rotation of the dispensing lever, the lifting distance of the sharp body that closes the lid of the carbon dioxide cartridge cylinder is adjusted, and the liquid by the on-off valve is adjusted. The opening amount of the inflow hole provided in the connection portion between the pipe and the extraction portion can be adjusted, and the liquid extraction amount can be regulated.
[Brief description of the drawings]
FIG. 1 is a cross-sectional view showing a gas cylinder apparatus to which the invention according to the present application is applied.
FIG. 2 is an exploded perspective view showing a holding body.
FIG. 3 is a cross-sectional view of a liquid dispensing apparatus to which the invention according to the present application is applied.
FIG. 4 is a cross-sectional view of a gas cylinder device in which a guide member is provided.
FIG. 5 is a cross-sectional view showing a liquid dispensing apparatus in which a lid of a carbon dioxide cartridge cylinder is sealed by an operation member.
FIG. 6 is a cross-sectional view showing a liquid dispensing apparatus in which a lid of a carbon dioxide cartridge cylinder is opened by an operation member.
FIG. 7 is a cross-sectional view showing a conventional liquid dispensing apparatus.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Gas cylinder apparatus, 3 Carbon dioxide cartridge cylinder, 4 Holding body, 5 Housing, 8 Lid body, 8a Drilling, 10 Sharp body, 10a Sharp end, 11 Gas flow path, 12 Joint , 13 Cylinder opening / closing member, 14 Biasing member, 15 Flange part, 16 Thread groove 20 Upper storage, 21 Lower storage, 22 Engaging portion, 23 Opening, 29 First storage portion, 30 Second storage portion, 32 Insertion hole, 32 Rubber packing, 40 Liquid dispensing device, 41 Liquid tank, 43 Dispensing part, 44 Cartridge adapter, 45 Gas pipe, 46 Operation part, 47 Connection part, 48 Dispense head, 49 Hollow part, 50 Mounting part, 51 Cock, 55 Engaging protrusion, 56 Support member, 65 Rotating operation element , 65a opening, 66 dispensing lever, 67 pressing piece, 70 adjusting member

Claims (7)

A cylinder whose opening is sealed and filled with compressed gas;
A sharp body that perforates the opening and closes the opening;
A holding body that holds the sharpened body at one end opposed to the opening of the cylinder and has a coupling portion to which a cylinder opening / closing member is coupled at the other end, and is formed with a flow path of gas ejected from the cylinder; ,
An urging member that urges the holding body toward the opening of the cylinder by being attached to the holding body;
The cylinder storage section in which the cylinder is fixed and stored, and the holding body storage section in which the holding body is stored so as to be movable up and down are continued through the communication hole, and the coupling section and the gas flow formed in the holding body. A storage body with an opening formed to face one end of the road outward,
The gas cylinder device that opens the opening of the cylinder closed by the sharp body by moving the holding body to the other end side by a cylinder opening / closing member coupled to the coupling portion.   The gas cylinder apparatus according to claim 1, wherein the opening of the housing is sealed with a sealing member.   The gas cylinder device according to claim 2, wherein the sealing member is fitted into an opening of the housing body, and a projecting portion for restricting the movement of the holding body is projected. The gas cylinder apparatus according to any one of claims 1 to 3, wherein a guide member is interposed between the holding body and the opening of the gas cylinder.   The urging member urges the holding body with a pressure larger than a gas pressure filled in the cylinder that presses the sharp body facing the cylinder from the opening of the cylinder. The gas cylinder apparatus according to claim 1. A liquid tank filled with liquid;
A liquid pipe for sending the liquid filled in the liquid tank out of the tank;
A pouring part that is continuous with the liquid pipe and pours the liquid flowing through the liquid pipe;
A cylinder in which the opening is sealed and filled with compressed gas, a sharp body that forms a perforation in the opening and closes the opening by being thrust against the perforation, and is opposed to the opening in the cylinder A holding body that holds the pointed body at one end and a coupling portion to which a cylinder opening / closing member is coupled at the other end is formed, and is attached to the holding body. Accordingly, a biasing member that biases the holding body toward the opening of the cylinder, a cylinder storage section in which the cylinder is fixed and stored, and a holding body storage section in which the holding body is stored so as to be movable up and down are communicated. A gas cylinder device including a housing formed with an opening that is continuous through a hole and has a coupling portion formed on the holding body and an end of the gas channel facing outward;
A cartridge adapter provided with the cylinder opening and closing member, to which the gas cylinder device is mounted;
A gas pipe that is formed continuously with the cartridge adapter and flows the gas ejected from the cylinder into the liquid tank;
The cylinder opening / closing member inserted into the cartridge adapter is engaged, and the cylinder opening / closing member is operated to open / close the cylinder and to open / close the liquid pipe.
By operating the operation section, the cylinder opening / closing member coupled to the coupling section of the holding body is moved to the other end side, and the opening of the cylinder closed by the sharp body is opened to eject gas. A liquid dispensing device that opens the liquid pipe and pours the liquid in the tank from the dispensing section.   The liquid injection device according to claim 6, further comprising an adjustment member that restricts operation of the operation portion, wherein the adjustment member restricts opening and closing of the cylinder and / or opening and closing of the liquid pipe by the operation portion. Out device.

Images