KR101733274B1 - Nozzle assembly - Google Patents

Abstract

The present invention discloses an injector nozzle assembly for filling liquid-phase contents, and the present invention is characterized in that a nozzle for filling air (or nitrogen) is formed in an injector nozzle for injecting liquid contents into a container, The air filling nozzle is kept in a closed state, but after the injection of the contents into the container is completed, the air filling nozzle blocks the contents injection port and supplies a certain amount of air (or nitrogen) into the container, It is possible to secure a clearance larger than the space required for accommodating the contents therein and to prevent the contents from being overflowed through the injection port even if the container expanded temporarily when the injector nozzle assembly is separated from the container, .

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a nozzle-

The present invention relates to an injector nozzle assembly, and more particularly, to an injector nozzle assembly for injecting air (or nitrogen) into a container (stout pack) The air filling nozzle keeps the air filling nozzle in a closed state and after the injection of the contents into the container is completed, the air filling nozzle blocks the contents injection port and supplies a certain amount of air (or nitrogen) into the container, A space larger than a space required for accommodating the contents in the container can be ensured so that the contents can be prevented from being overflowed even when the container expanding when the injector nozzle assembly is separated from the container is temporarily contracted To a liquid injector nozzle assembly for filling a liquid.

In general, the spout pouch type container is constituted of a bag-shaped body, a discharge pipe, and a rotary stopper coupled to the discharge pipe so that the contents (e.g., Chinese medicine, beverage, etc.) A certain amount of the contents is injected into the container in a state where the injector nozzle of the injection device is coupled to the injection port of the container, as in No. 10-0538048 (dated December 21, 2005).

However, in the conventional injector nozzle for injecting the liquid content into the container, when the contents are injected through the injection port of the container, the container is inflated and the injector nozzle is separated from the injector of the container after the injection of the contents is completed , The expanded container temporarily contracts in its original shape, and the contents in the container are overflowed through the injection port. As a result, there is a problem that the work space is contaminated.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above-mentioned problems occurring in the prior art, and it is an object of the present invention to provide a nozzle for filling air (or nitrogen) with an injector nozzle for injecting liquid contents into a container, But after the injection of the contents into the container is completed, the air filling nozzle blocks the contents injection port and supplies a certain amount of air (or nitrogen) into the container, It is possible to secure a clearance larger than the space required for the following, thereby preventing contamination of the work space while preventing the contents from being overflowed through the injection port even if the container expanded temporarily when the injector nozzle assembly is separated from the container A liquid injector nozzle assembly for injecting liquid contents Will.

According to an aspect of the present invention, there is provided an injector nozzle assembly for filling a liquid with contents, comprising: a first body coupled to an actuator and raised and lowered by a cylinder; A second tube coupled to a lower end of the first tube; A third tubular body facing the second tubular body at a predetermined distance and forming a rod portion for guiding up and down movement of the second tubular body; An injection tube coupled to the third tube and having an inlet tube for injecting liquid contents and an injection tube connected to an inlet of the vessel; And an air supply pipe is connected to the outer surface of the injection tube body. When a predetermined amount of the liquid content is injected into the second and third tube bodies and the injection tube body by the container, And the air inlet pipe is lowered by the actuator when the predetermined amount of the liquid content is injected into the container, so that a clearance larger than a space necessary for accommodating the contents in the container is secured, And an air injection unit for injecting a predetermined amount of air (or nitrogen)
An actuating member is coupled to the first tubular body in order to regulate the height of the air injecting portion, which is controlled to be raised and lowered by the actuator,
Wherein an upper extension of the air injection tube is formed by water milling so that the upper expansion part of the air injection tube is closely attached to the inner wall surface of the injection tube by the water milling,
And an upper watertight packing so as to block the air induction hole when the air inlet tube rises,
Wherein the air injection unit is connected to a lower portion of a connection pipe to which one end is connected to the actuating member and includes an air injection pipe for opening the air supply pipe when it is lifted by the actuator and for blocking the air supply pipe when it is lowered ; And an air supply pipe for introducing air (or nitrogen) supplied from the air supply pipe into the interior of the container through the inside of the air supply pipe when the air supply pipe is lowered, An air induction hole for guiding air (or nitrogen); A second spring coupled to an outer circumferential surface of the air injection tube and compressed when the actuator is lowered and providing a restoring force when the actuator is lifted; .

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A first spring that is compressed by the second tube when the liquid content is injected into the vessel and provides a restoring force for lifting the second tube by a restoring force when the injection of the liquid content into the vessel is blocked, Respectively.

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In addition, an inclined contact surface portion is formed at the inner tip of the injection tube body, and an inclined contact surface is formed at the tip of the air injection tube body to seal the injection tube of the injection tube while contacting the inclined contact slope portion.

In addition, a tip end of the air injection tube is connected to a watertight member which hermetically closes the injection tube while being in contact with the inner tip of the injection tube.

The inclined contact surface may be formed at an inner end of the injection tube body. The tip of the air injection tube body may include an inclined contact surface for initially sealing the injection tube of the injection tube while contacting the inclined contact slope portion, And a watertight member for secondarily sealing the injection tube while being in contact with the tip.

As described above, according to the present invention, a nozzle for filling air (or nitrogen) is formed in an injector nozzle for injecting liquid contents into a container. While injecting the contents into the container through the nozzle, the air filling nozzle is kept in a closed state. After the injection of the contents is completed, the air filling nozzle blocks the contents injection port and supplies a predetermined amount of air (or nitrogen) into the container, while allowing a space larger than the space required for accommodating the contents in the container So that even when the container expanded when the injector nozzle assembly is separated from the container is temporarily contracted, it is possible to prevent contamination of the work space while preventing the contents from overflowing through the injection port.

FIG. 1 is a cross-sectional schematic view showing a state in which injection of liquid contents into a container is blocked and air (or nitrogen) is injected through an injector nozzle assembly to which an air injection tube having an inclined contact surface is applied according to a first embodiment of the present invention, Degree.
FIG. 2 is a schematic cross-sectional view and a partial enlarged view showing a state in which a liquid content is injected into a vessel through an injector nozzle assembly to which an air injection tube having an inclined contact surface is applied according to a first embodiment of the present invention. FIG.
FIG. 3 is an enlarged schematic cross-sectional view showing a state in which liquid contents are injected into a container through an injector nozzle assembly to which an air injection tube having an inclined contact surface and a watertight member is applied, according to a second embodiment of the present invention.
4 is a cross-sectional schematic view showing a state in which injection of liquid contents into a container is blocked and air (or nitrogen) is injected through an injector nozzle assembly to which an air injection tube having an inclined contact surface and a watertight member is applied, according to a second embodiment of the present invention Enlarged view.
FIG. 5 is an enlarged schematic cross-sectional view showing a state in which liquid contents are injected into a vessel through an injector nozzle assembly to which an air injection tube having a watertight member is applied according to a third embodiment of the present invention. FIG.
FIG. 6 is an enlarged schematic cross-sectional view showing a third embodiment of the present invention in which injection of liquid contents into a container is blocked and air (or nitrogen) is injected through an injector nozzle assembly to which an air injection tube having a watertight member is applied.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.

FIG. 1 is a cross-sectional schematic view showing a state in which injection of liquid contents into a container is blocked and air (or nitrogen) is injected through an injector nozzle assembly to which an air injection tube having an inclined contact surface is applied according to a first embodiment of the present invention, FIG. 2 is a schematic cross-sectional view and a partial enlarged view showing a state in which a liquid content is injected into a container through an injector nozzle assembly to which an air injection tube having an inclined contact surface is applied according to a first embodiment of the present invention.

1 and 2, an injector nozzle assembly for filling a liquid with contents according to an embodiment of the present invention includes a first tube body 10 to which an actuator 11 is coupled and which is raised and lowered by a cylinder, A second tubular body 20 coupled to the lower end of the first tubular body 10 and a rod portion 31 facing the second tubular body 20 and spaced apart from the second tubular body 20 and guiding the up and down movement of the second tubular body 20 An inlet tube 41 coupled to the third tube 30 and injecting the liquid content therein and an injection tube 42 coupled to the inlet 101 of the vessel 100. [ An air supply pipe 60 and an air injection unit 70 are further included in the injector nozzle assembly including the injection tube 40 in which the air supply pipe 40 is formed.

The first spring 32 is coupled to the outer circumferential surface of the rod 31 and the first spring 32 compresses the second liquid 20 by the second tubular body 20 when the liquid content is injected into the container 100. [ And the second tubular body 20 is raised by a restoring force when the injection of the liquid content into the container 100 is interrupted.

The actuating body 50 is configured inside the first tube body 10 and configured to adjust the height of the air injecting portion 70 so as to ascend and descend by the actuator 11.

The air supply pipe 60 is formed on the outer surface of the injection tube 40. The air supply pipe 60 is connected to a device for supplying air or nitrogen though not shown in the drawing.

The air injecting portion 70 is formed inside the second and third tubes 20 and 30 and the injection tube 40. When the predetermined amount of the liquid content is injected into the vessel 100, The injection pipe 42 is opened and the injection port 42 is closed by the actuator 11 upon completion of the injection of a predetermined amount of the liquid content into the container 100, A predetermined amount of air (or nitrogen) supplied from the air supply pipe 60 is injected into the container 100 so that a clearance larger than a space required for accommodating the contents is secured. 71, an air induction hole 72, and a second spring 73. As shown in Fig.

The air injection tube 71 is coupled to a lower portion of a connection pipe 74 to which one end is connected to the actuator 50. The air supply pipe 60 is opened when the actuator 11 is lifted by the actuator 11, A water mill 75 is formed on the upper end of the air injection tube 71 and the air injection 75 is formed by the water milling 75, The upper end of the tubular body (71) is closely attached to the inner wall surface of the injection tube (40).

An upper watertight packing 76 is provided at a lower portion of the connecting pipe 74 to which the one end is connected to the operating body 50 to block the air induction hole 72 when the air inlet tube 71 is lifted up. do. The upper watertight packing 76 is located on the upper side of the moving region of the air injection tube 71 and is closely attached to the upper inner wall surface of the injection tube 40.

The air introducing hole 72 is formed at a lower portion of the connecting pipe 74 and is located close to the upper end of the extending portion of the air injecting tube 71. When the air injecting tube 71 is lowered, And the air (or nitrogen) supplied from the supply pipe 60 is supplied to the inside of the container 100 through the inside of the air injection tube 71.

The second spring 73 is coupled to the outer peripheral surface of the air injection tube 71 and is compressed when the actuator 11 is lowered to provide a restoring force when the actuator 11 is lifted.

At this time, an inclined contact slope part 43 is formed at the inner tip of the injection tube 40, and the tip of the air injection tube 71 contacts the inclined contact slope part 43, And an inclined contact surface 71a for sealing the pipe 42 is formed.

1, a liquid content supply unit (not shown) is connected to the inflow pipe 41 of the injection tube 40, and the liquid content supply unit The apparatus for supplying air (or nitrogen) to the air supply pipe 60 formed on the outer peripheral surface of the injection tube 40 is connected to the injection port 101, The first and second tubes 10 and 20 are repeatedly lifted and lowered from the driving of the cylinder according to the container 100 to be sequentially charged.

At this time, the second tubular body 20 is moved up and down along the rod portion 31 of the third tubular body 30, and the first spring 32 coupled to the rod portion 31 moves up and down along the rod portion 31 of the third tubular body 30, The second tubular body 20 can be smoothly moved up and down by providing a restoring force to the second tubular body 20 when the first tubular body 20 descends.

When the second tubular body 20 is moved up and down repeatedly, the injection tube 40 is connected to the injection port 101 of the container 100 to be injected, A predetermined amount of liquid contents to be introduced through the injection tube 41 and the injection port 101 of the injection tube 40 can be filled in the container 100. [

At the time when a certain amount of the liquid content is filled through the injection port 101 into the container 100, the actuator 11 located in the first tube 10 is driven.

The air induction hole 72 formed at one end of the air injection tube 71 is formed by descending the air injection tube 71 included in the air injection part 70 from the descent of the actuator 11, The air (or nitrogen) supplied through the air supply pipe 60 is positioned in the air supply pipe 60 formed in the injection tube 40 and flows through the air induction hole 72 .

At this time, the air injection tube 71 is lowered by the actuator 11 to block the inflow pipe 41 of the injection tube 40, and at the same time, the inclined contact surface 71a formed at the tip thereof The injection tube 42 of the injection tube 40 is closed while contacting the inclined contact slope portion 43 formed at the inner tip of the injection tube 40, Thereby preventing the contents from being injected.

Next, the air (or nitrogen) guided into the air injection tube 71 is injected into the interior of the container 100 through the air injection tube 71, (Or nitrogen) injected into the vessel 100 through the vessel 100 causes the inside of the vessel 100 to expand so as to secure a larger clearance than the space required to accommodate the liquid content, The contents of the liquid phase injected into the vessel 100 are injected through the injection port 101 even if the vessel 100 which has expanded is temporarily contracted when the injection vessel 40 is separated from the injection port 101 of the vessel 100 So that it can be prevented from overflowing to the outside of the container 100.

That is, the air injection tube 71 is lifted by the actuator 11 to open the inflow pipe 41 and the injection pipe 42 when injecting the liquid content into the container 100, A predetermined amount of air (or nitrogen) is injected into the container 100 after the inlet pipe 41 and the injection pipe 42 are shut off while being lowered by the actuator 11, The container 100 is inflated by injecting the inert gas into the container 100 and when the inflated container 100 is temporarily contracted due to the separation of the infusion tube 40, The contents are not overflowed to the outside by a certain amount of air (or nitrogen) injected into the container 100.

The air introducing hole 72 is formed in the air introducing tube 71 and communicates with the inside of the container 100 through the inside of the air introducing tube 71 when the air introducing tube 71 is lowered. (Or nitrogen) to the inside of the air injection tube 71 so as to inject the air (or nitrogen) supplied from the supply pipe 60.

The second spring 73 is coupled to the outer circumferential surface of the air injection tube 71 and is compressed when the actuator 11 is lowered to provide a restoring force when the actuator 11 is lifted.

At this time, an inclined contact slope part 43 is formed at the inner tip of the injection tube 40, and the tip of the air injection tube 71 contacts the inclined contact slope part 43, An inclined contact surface 71a for sealing the pipe 42 is formed.

3 and 4 show a second embodiment of the present invention in which the tip of the air injection tube 71 contacts the inclined contact slope 43 of the injection tube 40, A sloping contact surface 71a for primarily sealing the injection tube 42 and a watertight member 71b for sealing the injection tube 42 while contacting the inner tip of the injection tube 40 are formed simultaneously.

That is, in the second embodiment of the present invention, the air injection tube 71 included in the air injection portion 70 is lowered by the actuator 11 to inject a certain amount of air (or nitrogen) into the interior of the container 100 The inlet tube 41 of the injection tube 40 is sealed and the inclined contact surface 71a of the injection tube 42 is brought into contact with the inclined contact slope portion 43 so that the primary sealing is performed. And a watertight member 71b made of an O-ring. The same reference numerals as in the first embodiment of the present invention are denoted by the same reference numerals, and a duplicate description thereof will be omitted.

5 and 6 illustrate a third embodiment of the present invention in which the tip of the air injection tube 71 is in contact with the inner tip of the injection tube 40 to seal the injection tube 42 And the watertight member 71b are combined.

That is, in the third embodiment of the present invention, the air injection tube 71 included in the air injection unit 70 is lowered by the actuator 11 to inject a certain amount of air (or nitrogen) into the interior of the container 100 The inlet tube 41 of the injection tube 40 is closed and the injection tube 42 is closed by a watertight member 71b made of an O-ring. Hereinafter, the first and second The same portions as those in the embodiment are denoted by the same reference numerals, and redundant description thereof will be omitted.

While the present invention has been described in connection with the accompanying drawings, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that such changes and modifications are within the scope of the claims.

10; A first tube 11; Actuator
20; A second tubular body 30; Third tube
31; A rod section 32; The first spring
40; Injection tube 41; Inlet pipe
42; Injection tube 43; Inclined contact
50; Actuator 60; Air supply pipe
70; An air injection unit 71; Air injection tube
71a; An inclined contact surface 71b; Watertight member
72; An air induction hole 73; The second spring

Claims (7)

A first tubular body to which an actuator is coupled and which is raised and lowered by a cylinder; A second tube coupled to a lower end of the first tube; A third tubular body facing the second tubular body at a predetermined distance and forming a rod portion for guiding up and down movement of the second tubular body; An injection tube coupled to the third tube and having an inlet tube for injecting liquid contents and an injection tube connected to an inlet of the vessel; And an air supply pipe is connected to the outer surface of the injection tube body. When a predetermined amount of the liquid content is injected into the second and third tube bodies and the injection tube body by the container, And the air inlet pipe is lowered by the actuator when the predetermined amount of the liquid content is injected into the container, so that a clearance larger than a space necessary for accommodating the contents in the container is secured, And an air injection unit for injecting a predetermined amount of air (or nitrogen)
An actuating member is coupled to the first tubular body in order to regulate the height of the air injecting portion, which is controlled to be raised and lowered by the actuator,
Wherein the upper extension of the air injection tube is formed with water milling so that the upper expansion part of the air injection tube is closely attached to the inner wall surface of the injection tube by the water milling,
And an upper watertight packing is provided at a lower portion of a connection pipe connected to the actuating body so as to block the air induction hole when the air inlet tube rises,
The air-
An air injection pipe coupled to a lower portion of a connection pipe to which one end is connected to the actuating body and configured to open the air supply pipe when the actuator is lifted by the actuator and to block the air supply pipe when the actuator is lowered ; (Or nitrogen) is injected into the air inlet tube to inject air (or nitrogen) supplied from the air supply tube into the inside of the container through the inside of the air inlet tube when the air inlet tube is lowered, An air induction hole for guiding air; A second spring coupled to an outer circumferential surface of the air injection tube and compressed when the actuator is lowered and providing a restoring force when the actuator is lifted; And a nozzle for injecting the liquid content. delete The method of claim 1, wherein the outer peripheral surface of the rod portion is compressed by the second tubular body when the liquid content is injected into the container, and provides a restoring force for raising the second tubular body by a restoring force when blocking the injection of the liquid content into the container Wherein the first spring is engaged with the first spring. delete [3] The apparatus according to claim 1, wherein an inclined contact surface portion is formed at an inner tip of the injection tube body, and an inclined contact surface is formed at the tip of the air injection tube body to seal the injection tube of the injection tube, Wherein the liquid injector nozzle assembly comprises: 2. The injector nozzle assembly for injecting liquid contents according to claim 1, wherein a front end of the air injection tube is coupled with a watertight member which hermetically closes the injection tube while contacting the inner tip of the injection tube. [2] The apparatus according to claim 1, wherein an inclined contact surface portion is formed at an inner tip of the injection tube body, a tip end of the air injection tube body contacts an inclined contact slope portion, And a watertight member for secondarily sealing the injection tube while contacting the inner tip of the injection tube.

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