JP5333028B2 - Filling apparatus and filling method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To fill a container with a liquid and to substitute gas while the inside is sealed. <P>SOLUTION: A filling nozzle 11 has a double-tube structure consisting of an inner nozzle 11b connected to a liquid feeding means 4, and an outer nozzle 11a connected to a gas feeding means 12. A filling apparatus 2 includes a temporarily closing means 6 for closing a space between an opening part of a container and the outer nozzle by holding an opening part 1c of the container 1 between the outer nozzle and itself, and a sealing means 7 provided below the outer nozzle and the temporarily closing means to seal the opening part while a lower part of the temporarily closing means is below the closed part. The liquid feeding means and the gas feeding means fill the container with a liquid and gas while the temporarily closing means closes a space between the opening part and the outer nozzle. The sealing means seals the opening part of the container while the liquid feeding means and the gas feeding means fill liquid and gas, respectively. <P>COPYRIGHT: (C)2011,JPO&amp;INPIT

Description

  The present invention relates to a filling apparatus and a filling method, and more particularly to a filling apparatus and a filling method for sealing a container after filling a flexible container with a liquid and supplying a necessary gas into the container.

Conventionally, there has been known a medical infusion bag using a flexible container. The container is filled with a liquid such as a drug, and nitrogen gas or the like is used to prevent the drug from deteriorating. Active gas is enclosed.
As a filling device for filling a liquid into such a container, a liquid supply means for inserting a filling nozzle into the opening of the container and supplying the liquid to the container, and a filling nozzle for inserting the filling nozzle into the opening of the container There has been known one provided with a gas supply means for supplying a required gas and a sealing means for sealing the container (Patent Document 1).
According to this filling apparatus, when the liquid supply means fills the bag-like container with the liquid and the gas supply means supplies the required gas to the container, the sealing means seals the opening of the container. It is supposed to be.

Japanese Utility Model Publication No. 58-24707

However, in the case of the filling device disclosed in Patent Document 1, it is necessary to move the container from the liquid filling position to the gas replacement position, and the outside air touches the liquid in the filled container. There was a problem that it could not be used.
In view of such a problem, the present invention provides a filling apparatus and a filling method capable of filling a liquid and replacing a gas in a state where the inside of the container is sealed.

In other words, the filling apparatus according to claim 1 includes a liquid supply means for inserting a filling nozzle into an opening of a flexible container and filling the liquid, and a required gas by inserting the filling nozzle into an opening of the container. In a filling apparatus comprising a gas supply means for filling the container and a sealing means for sealing the container,
The filling nozzle is connected to either the liquid supply means or the gas supply means, and is connected to the other one of the liquid supply means and the gas supply means, and an outer nozzle inserted from above into the opening of the container. And the inner nozzle provided inside the outer nozzle,
A provisional closing means for closing the gap between the opening of the container and the outer nozzle by sandwiching the opening of the container with the outer nozzle;
The sealing means is provided below the outer nozzle and the temporary closing means, and seals the opening below the portion where the temporary closing means is closed,
The liquid supply means and the gas supply means are filled with the liquid and gas in a state where the temporary closing means closes a gap between the opening of the container and the outer nozzle,
The sealing means seals the opening of the container in a state where the liquid supply means and the gas supply means are filled with liquid and gas.

A filling apparatus according to a second aspect is the filling apparatus according to the first aspect, wherein the liquid supply means is connected to the inner nozzle, the gas supply means is connected to the outer nozzle, and the inner nozzle and the outer nozzle are connected. Provided with a moving means for relatively moving up and down,
With the moving means lowering the tip of the inner nozzle to the inside of the container than the tip of the outer nozzle, the liquid supply means supplies the liquid from the inner nozzle,
The sealing means seals the opening of the container near the lower end of the outer nozzle in a state where the moving means raises the tip of the inner nozzle.

The filling device according to claim 3 is the filling device according to claim 1 or 2, wherein the gas is connected to the outer nozzle or the inner nozzle together with the gas supply means, and discharges the gas inside the container. Discharging means, liquid flow measuring means for measuring the flow rate of the liquid by the liquid supplying means, gas flow measuring means for measuring the flow rate of the gas by the gas supplying means and the gas discharging means, the liquid supplying means, and the gas supplying means And a control means for controlling the gas discharge means,
With the temporary closing means closing the gap between the opening of the container and the outer nozzle, the control means fills the container with the gas by the gas supply means, and further supplies the liquid with the liquid supply means in this state. At the same time, the gas in the container is discharged by the discharge means,
The liquid flow rate measuring unit measures the liquid filling amount from the liquid flow rate supplied by the liquid flow rate measuring unit, and the gas flow rate measuring unit is configured to measure the gas supply amount filled in the container by the gas supply unit and the gas discharge amount. The amount of gas filling in the container is measured from the amount of gas discharged by the means.

According to a fourth aspect of the present invention, the filling nozzle is inserted into the opening of the flexible bag-shaped container to fill the liquid, and the filling nozzle is inserted into the opening of the container to be required in the container. In the filling method of filling the gas and then sealing the opening of the container,
An outer nozzle that supplies either the liquid or the gas and is inserted into the opening of the container from above, and an inner side that supplies either the liquid or the gas and that is provided inside the outer nozzle. Consisting of a nozzle and
After the outer nozzle is inserted into the opening from above and the gap between the opening of the container and the outer nozzle is closed, the container is filled with liquid and gas by the outer nozzle and the inner nozzle, and then the container is opened. The opening is sealed below the outer nozzle while the gap between the portion and the outer nozzle is closed.

A filling method according to claim 5 is the filling method according to claim 4, wherein the liquid is supplied from the inner nozzle, the gas is supplied from the outer nozzle, and the inner nozzle and the outer nozzle are relatively moved up and down. To be movable,
In a state where the tip of the inner nozzle is lowered into the container with respect to the tip of the outer nozzle, liquid is supplied from the inner nozzle,
Thereafter, the opening of the container is sealed in the vicinity of the lower end of the outer nozzle with the tip of the inner nozzle raised.

The filling method according to claim 6 enables the gas inside the container to be discharged by the outer nozzle or the inner nozzle that supplies the gas,
With the gap between the opening of the container and the outer nozzle closed, supply gas to the container to fill the gas, and measure the amount of gas supplied to the container,
Thereafter, by further supplying the liquid to the container, the gas pushed out of the container by supplying the liquid is discharged, and at that time, the filling amount of the liquid is measured from the flow rate of the liquid supplied to the container, and the liquid Measure the amount of gas expelled by
The filling amount of the gas in the container is measured from the gas supply amount and the gas discharge amount.

  According to the first aspect of the invention, liquid and gas are filled in a state where the opening of the container is closed by the outer nozzle and the temporary closing means, and the sealing means seals the opening under the outer nozzle. Therefore, liquid filling and gas replacement can be performed with the inside of the container sealed.

  According to the second aspect of the present invention, the inner nozzle provided in the liquid supply means fills the liquid while the inner nozzle is lowered into the container with respect to the outer nozzle. Can be prevented from adhering to the opening, and sealing failure by the sealing means can be prevented.

According to the invention of claim 3, the gas discharging means is adapted to inflate a flexible container by previously filling the inside of the container with a gas, and in that state the liquid supply means Since the liquid is supplied, the liquid supplied from the filling nozzle is prevented from splashing on the inner wall of the container and adhering to the opening, and the sealing failure due to the sealing means is prevented.
Further, the container is closed by the temporary sealing means, and when the liquid is supplied to the container, the gas filled with the liquid is pushed out. The gas is discharged by the gas discharging means. .
The liquid and gas filling amounts can be made constant by measuring the liquid and gas filling amounts by the liquid flow rate measuring means and the gas flow rate measuring means. Even if it exists, the shape can be made constant by the liquid and gas with which it filled, for example, the reliability of the scale attached to the container can be obtained.

  According to the fourth aspect of the invention, liquid filling and gas replacement are performed in a state where the gap between the opening of the container and the outer nozzle is closed, and then the opening is sealed. Liquid filling and gas replacement can be performed in a sealed state.

  According to the fifth aspect of the present invention, by filling the liquid with the inner nozzle protruding into the container relative to the outer nozzle, the splashed liquid adheres to the opening of the container. Can be prevented and sealing failure can be prevented.

According to the seventh aspect of the present invention, since the flexible container is inflated by previously filling the inside of the container with the gas, and the liquid is supplied in this state, the liquid supplied from the filling nozzle is not in the container. It prevents liquid from splashing on the inner wall and adhering to the opening, thereby preventing sealing failure of the opening.
In addition, since the gap between the opening of the container and the outer nozzle is closed, when the liquid is supplied to the container, the gas filled with the liquid is pushed out. It is discharged through a nozzle.
Since the filling amount of the liquid and gas in the container can be made constant by measuring the filling amount of the liquid and gas, even if it is a flexible container, its shape is determined by the filled liquid and gas. For example, the reliability of the scale on the container can be obtained.

The schematic of the filling apparatus concerning a present Example. The figure explaining operation | movement of a sealing means. The figure explaining operation | movement of a filling apparatus.

The illustrated embodiment will be described below. FIG. 1 shows a filling device 2 for filling a flexible container 1 such as a medical bag with a liquid such as a medicine.
The container 1 is formed in a bag shape by heat-sealing the outer peripheral portions of two flexible resin sheets, and a connection port 1a that can be connected to an infusion circuit is liquid-tight at the left and right ends in the figure. A scale 1b for checking the remaining amount of liquid is printed on the side surface.
Moreover, the opening part 1c which is not heat-sealed is formed in the illustration upper part of the container 1, The said filling apparatus 2 is filled with the liquid through this opening part 1c.
Further, the container 1 is filled with an inert gas such as nitrogen gas or carbon dioxide gas in a space not filled with the liquid in order to prevent deterioration of the filled medicine.
Here, if the container 1 is filled with a predetermined amount of liquid and inert gas, respectively, the flexible container 1 can be kept in a certain shape, thereby ensuring the reliability of the scale 1b. Is possible.

The filling device 2 includes a gripper 3 that holds the container 1, a liquid supply unit 4 that supplies liquid to the container 1, a gas replacement unit 5 that replaces air in the container 1 with an inert gas, and the container 1. A temporary closing means 6 for temporarily closing the opening 1c of the container and a sealing means 7 for heat-sealing the opening 1c of the container 1 by heat sealing.
A container 1 manufacturing apparatus and a cleaning / sterilizing apparatus (not shown) are provided upstream of the filling device 2, and an opening 1 c of the container 1 sealed by the sealing means 7 is provided downstream of the filling device 2. Further, a reseal device and a caser for sealing are provided.
The gripper 3 is moved in the horizontal direction by a conveyor (not shown), and holds the connection ports 1a provided at both ends of the container 1 so that the opening 1c is held upward.
In place of the gripper 3, for example, a hook-shaped holding member may be used, or a guide may be provided along the transport direction, and transport may be performed while maintaining the state where the opening 1c faces upward. . Moreover, it may replace with the said conveyor and may convey with a rotary table, for example.

The liquid supply means 4 is configured to send a predetermined amount of liquid by a liquid flow rate measurement means (not shown), and the supplied liquid is supplied to the container 1 by a filling nozzle 11 provided above the gripper 3 via a pipe 4a. It is designed to be filled.
The gas replacement means 5 includes a gas supply means 12 for supplying an inert gas, a gas discharge means 13 for discharging the gas in the container 1, and three-way switching between the gas supply means 12 and the gas discharge means 13. It comprises a valve 14 and a gas flow rate measuring means 15 provided on the downstream side of the three-way valve 14, so that the inert gas or gas is supplied to or discharged from the container 1 by the filling nozzle 11 via a pipe 5a. It has become.
The filling nozzle 11 has a double pipe structure comprising an outer nozzle 11a inserted from above into an opening 1c opened at the top of the container 1 and an inner nozzle 11b provided inside the outer nozzle 11a. Yes.
The inner nozzle 11b is connected to the liquid supply means 4 via a pipe 4a, and the outer nozzle 11a is connected to the gas replacement means 5 via a pipe 5a.

The filling nozzle 11 is moved up and down by a moving means (not shown), and is provided so as to be able to move in the horizontal direction following the gripper 3, and the moving means moves the inner nozzle 11b up and down relative to the outer nozzle 11a. It is supposed to let you.
When the moving means lowers the filling nozzle 11 and inserts the outer nozzle 11 a into the opening 1 c of the container 1, the tip of the outer nozzle 11 a is a heat sealed portion adjacent to the opening 1 c of the container 1. It stops at about half the height of the vertical width.
The moving means projects the tip of the inner nozzle 11b downward from the tip of the outer nozzle 11a when the liquid is filled, and raises the inner nozzle 11b to be stored in the outer nozzle 11a after filling.

FIG. 2 shows a schematic perspective view of the temporary closing means 6 and the sealing means 7, which are provided so as to move up and down and move horizontally with the filling nozzle 11 by the moving means.
The temporary closing means 6 is composed of two temporary closing members 6aa provided so as to sandwich the container 1 and driving means (not shown) for bringing the temporary closing member 6a into and out of contact with each other.
Each temporary closing member 6a is formed slightly longer than the opening 1c of the container 1, and a semicircular recess 6b is formed in the center of the temporary closing member 6a so as to have the same diameter as the outer diameter of the outer nozzle 11a.
Further, as shown in FIG. 1, the lower surface of the temporary closing member 6a is positioned at such a height that the tip of the outer nozzle 11a slightly protrudes downward, and the heat sealing adjacent to the opening 1c of the container 1 is performed. The upper half of the stop is closed.

The sealing means 7 is composed of two sealing members 7a provided so as to sandwich the container 1, and a driving means (not shown) for bringing the sealing member 7a into contact with and separating from each other. Each is formed slightly longer than the opening 1 c of the container 1.
The sealing means 7 is provided below the temporary closing means 6 so as not to interfere with the outer nozzle 11a, and seals the lower half of the heat sealing portion adjacent to the opening 1c of the container 1. It is supposed to be.
And the sealing member 7a heated by the heating means which is not shown in figure mutually approaches, and the opening part 1c of the container 1 is heat-sealed, and the opening part 1c of the container 1 is heat-sealed.

Hereinafter, operation | movement of the filling apparatus 2 which has the said structure is demonstrated using FIG. 2 and FIG.
First, a container 1 manufactured and sterilized by a container 1 manufacturing apparatus and a cleaning / sterilizing apparatus (not shown) is supplied to a filling apparatus 2 by a gripper 3. At this time, the container 1 is in a state in which the opening 1 c faces upward by the gripper 3, and some air is contained inside the container 1.
When the gripper 3 reaches below the filling nozzle 11, the moving means lowers the filling nozzle 11, and inserts the outer nozzle 11a into the opening 1c of the container 1 from above.
At this time, the temporary closing member 6a of the temporary closing means 6 and the sealing member 7a of the sealing means 7 are separated from each other, and the outer nozzle 11a is inserted into the opening 1c, thereby opening the container 1 The part 1c will be located between the recessed part 6b of the temporary closure member 6a and the said outer side nozzle 11a (FIG. 2 (a)).
When the outer nozzle 11a is inserted into the opening 1c of the container 1, the temporary closing means 6 of the sealing means 7 is actuated to bring the temporary closing member 6a closer to each other and between the outer nozzle 11a. The opening 1c of the container 1 is sandwiched, whereby the container 1 is sealed by the temporary closing means 6 (FIG. 2 (b)).
At this time, the inner nozzle 11b protrudes downward with respect to the outer nozzle 11a by the moving means.

When the temporary closing means 6 seals the container 1 in this way, the gas supply means 12 of the gas replacement means 5 fills the container 1 with an inert gas. At this time, since the container 1 contains air, the container 1 is in a state where an inert gas and air are mixed.
Next, the gas replacement means 5 operates the three-way valve 14 and the gas discharge means 13 discharges the gas in the container 1. Thereby, the container 1 will be in the state which resin films contact | adhered and internal space disappeared.
When the gas in the container 1 is exhausted in this way, the gas replacement means 5 operates the three-way valve 14 again, supplies the inert gas to the container 1 by the gas supply means 12, and inerts the inside of the container 1. It is filled with gas (FIG. 3A).
At this time, the gas flow rate measuring means 15 measures the flow rate of the inert gas and measures the filling amount of the inert gas filled in the container 1. Here, as an example, the container 1 is filled with 500 ml of inert gas.

When the container 1 is filled with the inert gas in this way, the liquid supply means 4 supplies the liquid to the container 1 while the temporary closing means 6 keeps the container 1 sealed, and at the same time the gas replacement means 5 Exhausts the inert gas in the container 1 (FIG. 3B).
Specifically, the liquid supply means 11 supplies a predetermined amount of liquid measured by the liquid flow rate measurement means to the container via the inner nozzle 11b.
At this time, the inner nozzle 11b protrudes into the container 1 from the tip of the outer nozzle 11a, and since the container 1 is swelled in advance by the inert gas, the liquid discharged from the inner nozzle 11b is splashed by the liquid splash. It does not adhere to the vicinity of the opening 1c of the container 1 so that the heat sealing failure by the sealing means 7 is prevented.
In addition, since the temporary closing means 6 seals the container 1, the inert gas in the container 1 is pushed out by the supplied liquid, so that the gas discharge means 13 has the same amount of liquid as the liquid to be filled. The active gas is discharged.
Specifically, for example, when the liquid supply means 4 is filled with 400 ml of liquid in the container 1 previously filled with 500 ml of inert gas, the gas flow rate measurement means 15 is discharged by the gas discharge means 13. Measure the active gas.
When the gas flow rate measuring means 15 detects that the amount of inert gas discharged from the container 1 has reached 400 ml, which is the same as the liquid filling amount, the control means detects the amount of liquid filling by the liquid supply means 4. Regardless of whether it reaches 400 ml, the three-way valve 14 is closed to stop the discharge of the inert gas.
That is, since the gas discharge means 13 discharges 400 ml of inert gas from 500 ml of inert gas filled in the container 1 by the gas supply means 12, the container 1 is filled with 100 ml of inert gas. Thus, the filling amount of the inert gas can be accurately recognized by the gas flow rate measuring means 15.

When the filling of the liquid and the filling of the inert gas is completed in this way, the moving means moves the inner nozzle 11b upward to retract inside the outer nozzle 11a, and then the sealing means 7 moves the container 1 The opening 1c is thermally sealed (FIGS. 2C and 3C).
Thereafter, the temporary closing means 6 and the sealing means 7 are detached from the container 1, and the moving means moves the filling nozzle 11 upward to cause the outer nozzle 11 a to be detached from the opening 1 c of the container 1.
Here, in the opening 1c of the container 1, the portion above the portion where the sealing means 7 is heat-sealed is not yet heat-sealed. Therefore, this container 1 is conveyed to the main sealing device provided on the downstream side of the filling device 2, and the remaining part is heat sealed by the main sealing device.
Note that the sealing means 7 may be raised by the moving means, and the remaining portion that has not been heat sealed may be heat sealed by the sealing means 7.

According to the filling device 2, the temporary closing means 6 fills the container 1 with a liquid and replaces it with an inert gas while the opening 1 c of the container 1 is sealed. It is possible to prevent air from entering as much as possible.
Further, since the container 1 is filled with the liquid and the inert gas is supplied and discharged while the temporary closing means 6 seals the opening 1c of the container 1, the liquid and the inert gas are measured and this is measured. Accurate filling is possible, and in the container 1 having flexibility as in this embodiment, the reliability of the scale 1b can be increased.
Furthermore, in the above-described embodiment, the inert gas is filled in the container 1 containing air in advance, and then this is discharged once, and then the inert gas is filled again to fill the liquid and discharge the inert gas. It is like that.
Thereby, it is possible to fill the liquid without touching the air in the container 1, and it is also possible to fill a drug that dislikes oxygen.

As for the gas replacement means 5, the gas supply means 12 and the gas discharge means 13 are switched by the three-way valve 14 in the above embodiment, but the gas supply means 12 and the gas discharge means 13 are respectively directly connected to the outer nozzles. You may connect to 11a.
In this case, the amount of inert gas filled in the container 1 is provided in the same manner as in the above embodiment by providing a gas flow rate measuring means in each of the pipes connecting the gas supply means 12 and the gas discharge means 13 and the outer nozzle 11a. Can be accurately recognized.
As described above, the gas replacement means 5 may have another configuration as long as the inert gas can be supplied to and discharged from the container 1. For example, the gas discharge means 13 is simply passed through the gas discharged from the container 1. It is good also as an electromagnetic valve which accept | permits, or a tube pump which serves as said gas supply means and gas discharge means.
When the gas replacement means is a tube pump, the rotation direction of the motor can be switched to supply gas and discharge gas, and the discharge amount and discharge speed of the inert gas can be controlled. The inert gas can be discharged from the container 1 in accordance with the filling amount and filling speed of the liquid by the liquid supply means 4.
Further, in the above embodiment, the flow rate supply means 4 is connected to the inner nozzle 11b and the gas replacement means 5 is connected to the outer nozzle 11a. However, this may be reversed.
In this case, the liquid is discharged from the outer nozzle 11a, and the opening of the inner nozzle 11b is surrounded by the discharged liquid. In this case, the inert gas inside the container 1 cannot be discharged by the inner nozzle 11b. There is a fear.
Therefore, a lid for preventing the liquid from being discharged from a part of the opening is provided at the opening of the outer nozzle 11a, and a communication hole with the inner nozzle is formed in the liquid discharged from the outer nozzle 11a. desirable.
Moreover, when it is set as such a structure, it is not necessary to make the said inner nozzle 11b protrude below with respect to the outer nozzle 11a, and omits the structure which moves the outer nozzle 11a and the inner nozzle 11b relatively by the said moving means. it can.

DESCRIPTION OF SYMBOLS 1 Container 1c Opening part 2 Filling apparatus 4 Liquid supply means 5 Gas replacement means 6 Temporary closing means 7 Sealing means 11 Filling nozzle 11a Outer nozzle 11b Inner nozzle 12 Gas supply means 13 Gas discharge means

Claims (6)

A liquid supply means for inserting a filling nozzle into an opening of a flexible container and filling the liquid, a gas supply means for inserting a filling nozzle into an opening of the container and filling a required gas, and the container In a filling device comprising a sealing means for sealing,
The filling nozzle is connected to either the liquid supply means or the gas supply means, and is connected to the other one of the liquid supply means and the gas supply means, and an outer nozzle inserted from above into the opening of the container. And the inner nozzle provided inside the outer nozzle,
A provisional closing means for closing the gap between the opening of the container and the outer nozzle by sandwiching the opening of the container with the outer nozzle;
The sealing means is provided below the outer nozzle and the temporary closing means, and seals the opening below the portion where the temporary closing means is closed,
The liquid supply means and the gas supply means are filled with the liquid and gas in a state where the temporary closing means closes a gap between the opening of the container and the outer nozzle,
The filling device characterized in that the sealing means seals the opening of the container in a state where the liquid supply means and the gas supply means are filled with liquid and gas. The liquid supply means is connected to an inner nozzle, the gas supply means is connected to an outer nozzle, and a moving means for moving the inner nozzle and the outer nozzle relatively up and down is provided.
With the moving means lowering the tip of the inner nozzle to the inside of the container than the tip of the outer nozzle, the liquid supply means supplies the liquid from the inner nozzle,
2. The filling apparatus according to claim 1, wherein the sealing means seals the opening of the container in the vicinity of the lower end of the outer nozzle while the moving means raises the tip of the inner nozzle. . Gas discharge means connected to the outer nozzle or the inner nozzle together with the gas supply means, for discharging the gas inside the container, liquid flow rate measurement means for measuring the flow rate of the liquid by the liquid supply means, the gas supply means, A gas flow rate measuring means for measuring a gas flow rate by the gas discharge means, and a liquid supply means, a gas supply means, a control means for controlling the gas discharge means,
With the temporary closing means closing the gap between the opening of the container and the outer nozzle, the control means fills the container with the gas by the gas supply means, and further supplies the liquid with the liquid supply means in this state. At the same time, the gas in the container is discharged by the discharge means,
The liquid flow rate measuring unit measures the liquid filling amount from the liquid flow rate supplied by the liquid flow rate measuring unit, and the gas flow rate measuring unit is configured to measure the gas supply amount filled in the container by the gas supply unit and the gas discharge amount. 3. The filling apparatus according to claim 1, wherein the filling amount of the gas in the container is measured from the amount of gas discharged by the means. The filling nozzle is inserted into the opening of the flexible bag-like container to fill the liquid, and the filling nozzle is inserted into the opening of the container to fill the container with the required gas, and then the above In the filling method for sealing the opening of the container,
An outer nozzle that supplies either the liquid or the gas and is inserted into the opening of the container from above, and an inner side that supplies either the liquid or the gas and that is provided inside the outer nozzle. Consisting of a nozzle and
After the outer nozzle is inserted into the opening from above and the gap between the opening of the container and the outer nozzle is closed, the container is filled with liquid and gas by the outer nozzle and the inner nozzle, and then the container is opened. A filling method, wherein the opening is sealed below the outer nozzle while the gap between the portion and the outer nozzle is closed. While supplying liquid from the inner nozzle, supplying gas from the outer nozzle, further providing the inner nozzle and the outer nozzle so as to be relatively movable up and down,
In a state where the tip of the inner nozzle is lowered into the container with respect to the tip of the outer nozzle, liquid is supplied from the inner nozzle,
5. The filling method according to claim 4, wherein after that, the opening of the container is sealed in the vicinity of the lower end of the outer nozzle with the tip of the inner nozzle raised. With the outer nozzle or the inner nozzle supplying the gas, the gas inside the container can be discharged,
With the gap between the opening of the container and the outer nozzle closed, supply gas to the container to fill the gas, and measure the amount of gas supplied to the container,
Thereafter, by further supplying the liquid to the container, the gas pushed out of the container by supplying the liquid is discharged, and at that time, the filling amount of the liquid is measured from the flow rate of the liquid supplied to the container, and the liquid Measure the amount of gas expelled by
6. The filling method according to claim 4, wherein a filling amount of the gas in the container is measured from the gas supply amount and the gas discharge amount.

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