JPS59501260A - In-container liquid gas supply device - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] Device that supplies waste to liquid in a container Technical field The present invention supplies dregs to a liquid in a container having a dregs feeding capacity, especially for the production of carbonated beverages. related to a device for The top of the container is provided with an inlet for introducing liquid into the container.

Background technology For example, to make carbonated drinks on a small scale at home, add carbonated water to the water in the bottle. Devices are known for supplying flavoring agents with flavoring agents (sweeteners). this To produce such a drink, first fill a bottle with water to the specified level, Then it is necessary to keep a tight grip on the device, which feeds the carbonate into the water. There is. From step 1, remove the bottle from the apparatus and add flavoring. Then the drink You can no longer inject the class into a container for drinking.

In particular, it is necessary to use a different bottle that matches the shape and size of the machine used in the summer. In addition to being relatively complex, the carbonated beverage manufacturing method described above has other problems and safety concerns. There is a danger to When using a standard bottle, add 1. et al. It is difficult to make a good seal because the height of the container may change to a large width.

Additionally, the bottles may not only be of uneven product quality, but may also be damaged by previous use or transportation. Do not apply pressure to the bottle you retrieved, as it may have been damaged. There is danger involved. Moreover, in the case of the known device, the pressure is increased without filling with liquid. There is a risk of serious injury if the bottle ruptures as the force may be applied 3 There is sex. Known devices also allow the bottle to be overfilled with liquid and not enough charcoal to fill the liquid. There is a possibility that there is no way to supply acid scum. Liquid (carbonic acid) in the container In order to effectively supply the scum, there must be a space above the surface of the liquid where the scum can be compressed. is necessary.

Carbon dioxide is introduced into the liquid in a container fixed to the device, and the carbonated liquid is poured into the container. It is also suggested that the liquid be poured directly into the class. The device is also relatively complex and in some respects the device is not safe. For example, this With such known devices, there is one possibility of pressurizing empty containers. Sara(ko, container(ko) Liquid may begin to evacuate from the container while the pressure is still high.

A device of the type described in Introduction 1, which does not have the above-mentioned disadvantages, or a device of the type described in the Sweten patent of the applicant It is described in Application No. 8103281-5.

Purpose of invention The main object of the present invention is that the liquid inlet of the container can be immediately The above-mentioned patent application will automatically close with At this point, the device of the present invention allows the inlet of the container to It is characterized by the provision of a closing device that automatically closes the inlet in conjunction with supply. do. For example, in such an implementation, an old additional capacity for supplying the carbonate scum is used. There is no need for manual operation of the device. Such additional manual operations are often forgotten . Additionally, such embodiments; in which the inlet is normally open and do not allow liquid to flow into the container; It is easy to inject into the body and pour the liquid from the container.

In a preferred embodiment, the movement of the closing device to its closed position is by a waste flow. Start it. In this regard, the closing device is located in front of the outlet of the waste pipe and closes the cap. The device is suitably connected to a device that is operated on a gas flow. The closing device can be swiveled (suspended) When the above-mentioned closing process begins due to the waste flow, the waste increases in the container. It is preferable to seal the inlet in response to pressure. At such a working pH, the pressure within the container will be high (11) and the sealing effect will be impaired. The fruit is expensive. In addition, the closing device automatically fills as soon as the pressure in the container is released. Open the mouth and inject and drain liquid into and out of the container without any trouble. Ru.

To prevent the container from becoming pressurized when the liquid in the container does not reach the specified liquid bottom level. The device in front of the waste M discharge port is designed to supply liquid to the container or to a predetermined level. The closing movement of the closing device occurs when the scum dripped out by the body is supplied to the container. It is interesting that the government has started the process.

EMBODIMENT 1 OF THE INVENTION Thus, for this purpose, the apparatus comprises a liquid-1 l) The waste flow can pass until it is closed by the liquid when it reaches the predetermined level. It is possible to provide a hole that allows for In other embodiments, the weight of the device is , it is possible to move the waste flow or the device only when the buoyant force of the liquid acts on the device. It's something like this.

In yet another embodiment, the device is mechanically secured when removed from the container. , released by the action of the liquid on objects cooperating with the filtration device.

Next, the present invention will be explained in detail with reference to exemplary embodiments shown in the attached drawings. Brief description of the diagram Figure 1 (This is a diagram of the beverage mold making apparatus at the stop position of the first addition of the present invention.

Figures 2-4 are other parts of the pressure vessel that form part of the equipment shown in Figure 1, a cross-section of a leprosy case. It is a diagram.

5-7 are schematic top views of still another embodiment of the pressure vessel from FIGS. 1; FIG.

Figures 8-10 are schematic cross-sectional views of embodiments of pressure vessels.

Description of preferred embodiments of the invention Figure 1: The device shown is a rotatably mounted frame serving as a working device. Case (1) with (2) is provided. The case goes to the phone (3) and The pipe (5) encloses the various housings (4) connected to the casponobe. liquid injected It is introduced into the eight vessel (4) through the port (6). The liquid was connected to the pipe (5) The nozzle (7) is pressurized after the liquid reaches the liquid level. The liquid is For this purpose, screw the valve mechanism (9) connected to the gas phone (3) with a nail (8). Pressure is applied by pressing down on the lid (2) which is configured to open. Nail ( 8) There is a spring (10) around the 6, and when the spring is not driven, the lid is corrected. keep it in position.

The inlet (6) facilitates filling the container with water and prevents the container (4) from being overfilled. The funnel-shaped part (11) prevents Therefore, a given amount (volume) of empty Air (12) is always present on the surface of the liquid. This space filled with air (12) A waste removal pipe (3) extends from the valve and leads to an overpressure and waste removal valve (16). There is. In the position shown, one arm (17) of the angled lever allows the valve body to be removed. It is sealed and pressed against the valve seat. The other arm of the vinegar. The arm (17) is pressed against the valve body by one arm (17) of the spring member. It is being The spring member has a second arm (20) attached to the valve stem (21). ing. The arms (19, 20) of the spring member try to open, and the upper part of the valve i (16) Apply a force in the direction to give downward tension to the square (22). Reference number (23) is shown Refers to a spring tongue that does not work in the position. To the tank (23)/<-(25) It is therefore mounted on a shaft (24) that can be rotated. The axis (24) is It also has a drive finger (26).

The inlet (6) is a flap valve (27) whose drive part (28) is located just before the nozzle (7). It can be closed with . Reference number (29) surrounds inlet (6) 01J refers to Reference number (30) indicates that a glass or other object can be placed on it when pouring a drink. Points to the plate that can be used.

To absorb carbonate scum into water and pour carbonated water into a glass using the above device, follow the steps below. take the top. Lift the lid (2) and fill the container (4) to the level above the nozzle (7). Fill with water.

The bottom box (22) is kept closed by spring arms (20).

When the water reaches the selected level, close the lid (2) and push it from the position shown in Figure 1. Lower it. This valve opens the valve (3) to the gas phone, and the carbon dioxide flow flows through the nozzle ( 7). This flow or jet of carbon dioxide gas is driven by the drive (28) , which causes the flap valve (27) to close. complete with flap valve Closing occurs as a result of an increase in pressure within the container (4).

Thus, according to this embodiment of the invention, by supplying carbonate to water, The container closes automatically, so no extra manual intervention is required to close the container. stomach.

This embodiment also includes the fact that the cell (27) is normally open and uses a larger water inlet. It has the advantage of being able to

When filling the container with water, the water is deflected to the negative side (this side) by the flap valve (27), The air in the container (4) can easily escape from the container through the opposite side of the inlet (6). can.

When the pressure of carbon dioxide gas in the container (4) reaches a predetermined value, the valve (16) closes the spring The action of the arm (19) opens against the action. This should not supply any more gas. - can be notified by an acoustic signal indicating that the lid (2) is released. . When discharging water from the container, turn the lever arm (25) clockwise to release the drive lever. The finger (26) opens the valve (16) and at the same time the spring tongue (23) opens the outlet valve (2). 2) Open it. In this regard, the spring tongue (23) extends to the bottom valve (22). The force is applied only when the valve (16) opens and the pressure inside the container drops to a predetermined value. It's big enough to open. This therefore means that the water will drain from the container without any problems. This means that water will not be discharged from the container until the pressure inside the container is reduced to a lower pressure.

At this time, the flap valve (26) is opened again and the required amount of air flows into the container and the water can be poured into glasses and other containers without any inconvenience. Flavoring (sweetener) is added to the water in the glass. can be added and stirred.

In the illustrated embodiment, the above-mentioned closing motion: a shet or stream of carbon dioxide Since the inlet (6) is started by will be closed. Alternatively, the valve (27) is injected by an increase in pressure within the container (4). It is also possible to close the inlet (6).

The device described above is extremely simple to use and the sunan block ( 31), then insert the internal unit containing the liquid container into the case. It is easy to replace Kashonbe (3) because you can wait for it and replace it with a gas pump. be. In this way, the gas cylinder can be easily replaced without using any tools. Ru. The above device is also simple in design and relatively inexpensive to manufacture.

FIG. 2 schematically shows another embodiment of the closure device in the liquid container (4). for simplicity The valve (22) at the bottom is shown schematically, and the mechanism for removing waste from the container and the mechanism for discharging liquid from the container are shown schematically. Not shown.

However, this mechanism may be the same as that in FIG.

The embodiment of Figure 2 is designed to eliminate the danger associated with pressurizing the liquid container (4) from It is.

For this purpose, the nozzle (7) of the drive arm (28) together with the valve (27) (6) ) A hole with a piece of pipe attached is provided opposite the mouth of the pipe. In the illustrated embodiment The pipe section is open (larger) at the end.

If you try to press the container (4) before the liquid level reaches the nozzle (7), , the shet or flow of gas passes freely through the pipe (33) before the valve (27). Do not start the closing movement described above. This is shown in FIG.

On the other hand, as shown in Fig. 4, if the liquid container is at a level higher than the position of the waste nozzle (7), When filled with liquid up to the point, the pipe section (33) is filled with liquid. Then The caschet acts on the arm (28) and begins to close the valve (27). The valve is a container ( 4) Eventually closed due to the increasing gas pressure inside.

FIG. 5 schematically shows another embodiment of the liquid container. As in the previous case, the valve (27) cannot open until the level of liquid reaches the nozzle (7). Regarding this point The drive shaft (28) has a lower part in the form of an inverted cup (34). The weight of this cup The amount by which the valve is closed is moved only by the caschet. See Figure 7.

FIG. 8 shows yet another embodiment of the device for closing the valve (27). In this example When the drive arm (28) is released from the hook, the valve is closed as shown in Figure 10. The first one is started by Kasunoenoto.

can do. This also applies to the pipe placed in front of the nozzle in Figure 2. The same applies to the arrangement shape of the section (33).

Other principles for closing containers in response to the liquid level within the container can also be applied. . For example, in a container, an object whose movement is controlled by the level of the liquid closes the mouth. It is possible to provide an opening through which debris can escape. Or e A device should be provided to mechanically prevent the inlet from closing until the book reaches the desired level. It comes with me.

However, in all embodiments, after reaching a predetermined level (further can be provided. This relates to the ability to make different amounts of beverages. This is of crucial importance.

Fig, 2 Fig, 4 Fig, 5 196 Fig, 7 international search report

Claims (1)

[Claims] l　It has a waste pipe (5) that releases gas inside the container, and also has a gas pipe (5) at the top that guides the liquid into the container. A device for supplying gas to a liquid in a container (4) having an inlet (6) for entering the liquid, the device comprising: The injection port (6) is automatically connected to the injection port (6) as gas is supplied to the container (4). A device characterized in that it is provided with a dynamically closing closing device (27). 2 The closing movement of the closing device (27) is initiated by the force of the waste flow introduced into the container. 2. A device according to claim 1, characterized in that the device is adapted to be 3. The closing device (27) is located in front of the outlet of the waste pipe (5) and controls the operation of the discharged gas flow. It is connected to the device (28; 33; 34) that has come to be used. A device according to claim 1 or 2, characterized in that: 4 The closing device (27) is rotatably suspended, and the closing movement is caused by the waste flow. to seal the inlet in response to the increasing gas pressure in the container (4) after the 4. A device according to claim 3, characterized in that the device is configured such that: 5 The device (28; 33; 34) in front of the outlet of the gas pipe (5) is supplied to said container, the container (4) is filled with liquid to a predetermined level. Claim 1, characterized in that the closing action of the closing device (27) is started only when it takes a moment. The device according to item 3 or 4. 6. The device (28; 33) includes a Provided with a port through which the waste flow can pass until the port is closed by liquid. 6. The device according to claim 5, characterized in that: 7 The weight of the device (34) is such that the lifting force of the body also acts on the device. characterized in that the gas flow is such that it cannot affect the device; The device according to claim 5. 8. The device (28) is mechanically fastened when the container (4) is opened, and the fastening device (35) is released as a result of the action of a liquid on the body (37) cooperating with said fastening device. 6. A device according to claim 5, characterized in that the device is adapted to: