KR20180023648A - Nozzle assembly - Google Patents

Abstract

The present invention relates to a nozzle assembly of an injector for injecting liquid contents. The nozzle assembly of an injector for injecting liquid contents includes a nozzle lifting unit allowing air (or nitrogen) to be sucked or injected into the injection nozzle injecting liquid contents to a container. When the container is initially placed on the injector nozzle assembly, the nozzle lifting unit blocks a contents inlet and makes the inside of the container vacuous by using suction pressure of air. Next, the nozzle lifting unit is closed and the contents inlet is opened, so the liquid contents are easily injected into the vacuous container. After the contents are injected into the container, the nozzle assembly blocks the contents injector and supplies predetermined air (or nitrogen) to the container, so a space larger than the space required to accommodate the contents can be secured in the container. Therefore, even though the expanded container when the injector nozzle assembly is separated from the container is temporarily contracted, the nozzle assembly of an injector for injecting liquid contents can prevent the contents from overflowing and a working space from being contaminated.

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 injecting air (or nitrogen) into an injector nozzle for injecting liquid contents (e.g., Chinese medicine, When the container is first mounted on the nozzle assembly, the nozzle lifting body cuts off the contents injection port, and at the same time, the inside of the container is evacuated by the suction pressure of the air. Then, while keeping the nozzle lifting body in the closed state, So that the liquid contents can be smoothly injected into the vacuum container. On the other hand, after the contents are completely injected into the container, the nozzle lifting body again blocks the contents injection port and a certain amount of air (or nitrogen) So that a clearance larger than a space required for accommodating the contents in the container can be ensured, Who is to remove the injector nozzle during the expansion assembly from the container via the container relates to the liquid contents filled injector nozzle assembly in which even a temporary contraction in preventing full of content.

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 shrinks in its original shape, and the contents in the container are overflowed through the inlet. As a result, 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 an apparatus and a method for injecting air into an injector nozzle for injecting liquid contents into a container, When the container is first loaded, the nozzle lifting body cuts off the contents injection port, and at the same time, the interior of the container is evacuated by the suction pressure of air. Next, the nozzle lifting body is kept closed, After the injection of the contents into the container is completed, the nozzle lifting body again blocks the content injection port and supplies a predetermined amount of air (or nitrogen) into the container, So that a larger clearance than the space required for the injector nozzle assembly A vessel separate from the vessel when inflated who will have the purpose to temporarily provide an injector nozzle assembly for filling the liquid contents to prevent the contents overflowing even shrinkage.

According to an aspect of the present invention, there is provided an injector nozzle assembly for filling liquid-phase contents, comprising: a nozzle body coupled to a driving unit having an actuator at an upper end; An injection tube coupled to a lower end of the nozzle body and having an inlet tube for injecting liquid contents and an injection tube connected to an inlet of the vessel; A connection part for fixing the nozzle body to the injection tube body; A lifting body positioned inside the nozzle body and being lifted and lowered by the driving unit; Wherein the inlet tube is connected to the lifting body and is lifted and lowered by the lifting body, and when the container is placed in the injection tube, the injection tube of the injection tube is blocked while the inside of the container is evacuated, The injection tube of the injection tube is opened while the injection tube of the injection tube is opened when the predetermined amount of the liquid content is injected into the container and the injection tube of the injection tube is closed when the injection of the liquid content is completed, A nozzle ascending / descending member for injecting air or nitrogen into the interior of the container so as to secure a clearance larger than a space required for the container; And a nozzle lifting / lowering body which is configured to pass through the nozzle lifting body, wherein when the injection lifting body is shut off by the nozzle lifting body, the flow path in the nozzle lifting body is opened, A control rod for blocking a flow path in the nozzle lifting body when the injection tube is opened by a sieve; As shown in FIG.

The injection tube may include: a first tubular part forming the inflow pipe into which the liquid content flows; A first watertight member and a water milling unit positioned at an upper end of the first tube unit and contacting the nozzle elevator; A nozzle unit coupled to a lower opening of the first tubular body and forming the injection tube; A cover part coupled to the first tubular part together with the nozzle part; .

In addition, an auxiliary tubular body is coupled to the outer peripheral surface of the first tubular body, and a second watertight member is formed on the inner surface of the auxiliary tubular body to contact the outer peripheral surface of the first tubular body.

The lifting body may include a first through hole through which the actuating body of the driving unit can be moved, a second through hole through which the control rod can move, It is a structure.

The nozzle ascending / descending member may include a nozzle body accommodated in the accommodating space of the ascending / descending body and fixed through a fixing body, wherein the nozzle body ascends and descends by the ascending / descending body; And the air in the container is sucked into the inflator when the container is first placed in the inflator, and the inside of the container is evacuated A first nozzle unit for injecting air or nitrogen into the container at the completion of injecting a predetermined amount of the liquid content into the container; And a second nozzle unit which is connected to the outer circumferential surface of the first nozzle unit so as to shut off the injection tube of the injection tube when air is sucked from the container through the first nozzle unit or air or nitrogen is injected into the container, A second nozzle unit for opening the injection tube; And a second nozzle unit that is disposed between the first and second nozzle units and is compressed by the second nozzle unit when the liquid content is injected into the container and is returned to the second nozzle unit when the liquid content injection is blocked by the container An elastic part to be restored; .

In addition, a hanging groove is formed at an inner end of the nozzle body, and a staple protrusion is formed on an outer circumferential surface of the second nozzle unit, and both ends of the elastic portion are fixed to the stapling groove and the staple.

A first inclined contact slope portion and a second inclined contact slope portion are formed at the inner tip of the nozzle portion and a first inclined contact portion which contacts the first inclined contact slope portion and seals the injection tube of the nozzle portion is formed at the tip of the second nozzle portion, And a second inclined contact surface is formed at the tip end of the control rod to open the inner flow path of the second nozzle portion while contacting the second inclined contact slope portion.

As described above, according to the present invention, the nozzle lifting body for sucking in air or for filling air (or nitrogen) is injected into the injector nozzle for injecting the contents of the liquid phase into the container, The injection port is shut off and at the same time the inside of the container is evacuated by the suction pressure of the air, and then the contents inlet is opened while keeping the nozzle lifting body in the closed state so that the liquid contents are smoothly injected into the evacuated container After the injection of the contents into the container is completed, the nozzle lift member again blocks the content injection port and supplies a certain amount of air (or nitrogen) into the container, thereby providing a margin larger than the space required for accommodating the contents in the container Allowing space to be secured, thereby expanding the injector nozzle assembly as it is removed from the vessel While preventing the container is full, even if temporary contracts in the content would you expect the effect to prevent the work area from contamination.

1 is an exploded view showing the structure of a nozzle assembly according to an embodiment of the present invention.
FIG. 2 is an assembled cross-sectional view showing a state in which an air or nitrogen flow path of a nozzle lifting body is opened in a state in which a nozzle lifting body and a control rod of a nozzle assembly are lowered to shut off an injection tube according to an embodiment of the present invention.
FIG. 3 is a cross-sectional view showing a state in which a nozzle up-and-down member and a control rod of a nozzle assembly are raised to inject liquid contents into a container through an injection tube according to an embodiment of the present invention.

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

FIG. 1 is an exploded view illustrating the structure of a nozzle assembly according to an embodiment of the present invention. FIG. 2 is a cross-sectional view illustrating a structure of a nozzle assembly according to an embodiment of the present invention. FIG. 3 is a cross-sectional view illustrating a state in which the nozzle up-and-down member and the control rod of the nozzle assembly are raised to inject the contents of the liquid phase into the vessel through the injection tube. Fig.

1 to 3, an injector nozzle assembly for filling a liquid with contents according to an embodiment of the present invention includes a nozzle body 10, an injection tube 20, a connecting portion 30, an elevating body 40, A nozzle ascending / descending member 50, and a control rod 60. As shown in Fig.

The nozzle tube 10 has a driving unit 11 having an actuating member 11a at its upper end.

The injection tube 20 is coupled to the lower end of the nozzle tube 10 and includes an inlet tube t1 for injecting liquid contents and an injection tube t2 for coupling to the inlet 101 of the vessel 100 And includes a first pipe portion 21, a first watertight member 22, a water mill 23, a nozzle portion 24, and a cover portion 25.

The first tubular portion 21 is formed with the inflow pipe t1 through which liquid contents flow.

The first watertight member 22 and the water mill 23 are positioned at the upper end of the first tubular portion 21 so as to be brought into contact with the nozzle ascending / descending member 50.

The nozzle unit 24 has the injection tube t2 and is coupled to the lower opening of the first tubular unit 21. [

The cover portion 25 is configured to be coupled and fixed to the first tubular portion 21 together with the nozzle portion 24 through a fastening member (e.g., bolts, screws, etc.).

The auxiliary pipe member 70 is coupled to the outer circumferential surface of the first pipe member 21 and the second watertight member 70 contacting the outer circumferential surface of the first pipe member 21 is formed on the inner surface of the auxiliary pipe member 70 71 are formed.

The connection unit 30 is configured to fix the nozzle body 10 and the injection tube 20 together.

The lifting body 40 is located inside the nozzle tube 10 and is configured to be lifted and lowered by the driving unit 11. [

The lifting body 40 is provided with a first through hole d1 for allowing the actuating member 11a of the driving unit 11 to move, And a through hole (d2) is formed at the lower end thereof to form a letter storage space (A).

The nozzle ascending / descending member 50 is coupled to the ascending / descending body 40 and ascended and descended by the ascending / descending body 40. The nozzle ascending and descending member 50 injects the injection tube 20 The inside of the vessel 100 is evacuated by sucking the air in the vessel 100 while shutting off the tube t2 and when injecting a predetermined amount of the liquid content into the vessel 100, (t2) of the injection tube (20) is closed and the space (t2) of the injection tube (20) is blocked while the space The nozzle body 51, the first and second nozzle portions 52 and 53, and the elastic portion 54. The nozzle body 51 is formed of a resin material.

The nozzle body 51 is accommodated in the storage space A of the lifting body 40 and is fixed through the fixing body 51a so that the nozzle body 51 is lifted and lowered by the lifting body 40. [

The first nozzle unit 52 extends from the nozzle body 51 and forms a connection tube body 52a for the inflow of air or nitrogen or the discharge of the air, The air in the container 100 is sucked into the container 100 when the container 100 is filled with a predetermined amount of the liquid content into the container 100, Nitrogen is injected.

Although not shown in the drawing, a device for supplying air or nitrogen or a device for sucking air is selectively connected to the connection tube 52a.

The second nozzle unit 53 is coupled to the outer circumferential surface of the first nozzle unit 51 in such a manner that the second nozzle unit 53 can vertically move up and down. The air is sucked from the container 100 through the first nozzle unit 52, The injection tube t2 of the injection tube 20 is blocked when air or nitrogen is injected into the injection tube 100 and the injection tube t2 is opened when the liquid content is injected.

The elastic part 54 is disposed between the first and second nozzle parts 52 and 53 and is compressed by the second nozzle part 53 when the liquid content is injected into the container 100 And to return the second nozzle unit 53 when the injection of the liquid content into the container 100 is interrupted.

A hooking protrusion 53a is protruded from an outer circumferential surface of the second nozzle unit 53 and both ends of the elastic portion 54 are formed in the inner surface of the nozzle body 51, And is hooked and fixed to the latching groove 51b and the latching protrusion 53a.

The control rod 60 passes through the first and second nozzle units 52 and 53 constituting the nozzle ascending / descending member 50. The control rod 60 moves upward and downward by the operating rod 11a of the driving unit 11, When the injection tube t2 is shut off by the nozzle lifting body 50, the flow path in the nozzle lifting body 50 is opened and the injection tube t2 is moved by the nozzle lifting body 50 And the inner flow path in the nozzle ascending / descending member 50 is blocked when the nozzle is opened.

The first inclined contact surface portion 24a and the second inclined contact surface portion 24b are formed at the inner tip of the nozzle portion 24 and the first inclined contact surface portion 24b is formed at the tip of the second nozzle portion 53. [ And a first inclined contact surface 53b for sealing the injection tube t2 of the nozzle unit 24 while being in contact with the second inclined contact surface portion 24a is formed at the tip of the control rod 60, And a second inclined contact surface (61) for opening the flow path of the second nozzle part (53) while being in contact therewith.

1 to 3, a liquid content supply unit (not shown) is connected to the inflow pipe t1 of the injection tube 20 at first, While a device for sucking air (or nitrogen) is connected to the connection tube 52a of the first nozzle part 52 included in the nozzle lifting body 50, When the removed container 100 is sequentially injected into the nozzle unit 24 included in the injection tube 20, the lifting body 40 is moved from the driving of the driving unit 11 according to the container 100, It is repeatedly descending and rising.

At this time, when the lifting body 40 is lowered, the first nozzle part 52 of the nozzle lifting body 50 coupled to the lifting body 40 descends while compressing the elastic part 54, The second nozzle unit 53 coupled to the outer circumferential surface of the first nozzle unit 52 is also lowered when the first nozzle unit 52 is lowered and the second nozzle unit 53 is formed at the tip side of the second nozzle unit 53 The first inclined contact surface 53b comes into contact with the first inclined contact sloped portion 24a formed at the inner end of the nozzle portion 24 included in the injection tube 20 and stops to descend, The inlet tube t1 formed in the nozzle body 21 of the injection tube 20 is shut off and the injection tube t2 connected to the injection port 101 of the vessel 100 through the inlet tube t1 is closed, Thereby preventing the contents of the liquid phase from being introduced.

The driving unit 11 is driven at the upper end of the nozzle tube 10 in a state where injection of liquid contents is blocked as described above and the actuating unit 11a is lowered The actuating member 11a descends the control rod 60 passing through the first and second nozzle units 52 and 53 included in the nozzle lifting body 50. [

The control rod 60 is continuously lowered until the second inclined contact surface 61 formed at the tip thereof contacts the second inclined contact slope portion 24b formed at the inner tip of the nozzle portion 24, So that the internal flow path of the first and second nozzle units 52 and 53 through which the control rod 60 penetrates is opened.

That is, the connection tube 52a of the first nozzle part 52 can communicate with the injection port 101 of the container 100. [

When the suction device connected to the connection tube 52a through the hose or the like is operated, the air in the container 100 from the operation of the suction device is discharged to the inside of the second nozzle part 53, 1 nozzle 52, the inside of the container 100 can be evacuated. As shown in FIG.

Next, a driving unit 11 provided at an upper end of the nozzle tube 10 is driven to connect the elevating body 40 with the air tube (or nitrogen) The first and second nozzle units 52 and 53 included in the nozzle elevating and lowering body 50 are also moved upward together with the elevation of the lifting body 40. As a result, The inlet tube t1 formed in the nozzle body 21 included in the nozzle body 21 is opened.

The nozzle unit 24 of the injection tube 20 is connected to the injection port 101 of the container 100 to be injected and is supplied with a predetermined amount of liquid to be introduced through the inlet tube t1 of the injection tube 20, The contents can be filled in the container 100 which is evacuated through the injection tube t2 of the injection tube 20 and the injection port 101 by a predetermined amount.

At the time when a predetermined amount of the liquid content is filled in the vessel 100 through the injection port 101, the driving unit 11 coupled to the upper end of the nozzle body 10 is driven.

The first and second nozzle portions 52 and 53 of the nozzle lifting body 50 coupled to the lifting body 40 are also lifted down from the driving of the driving portion 11 So that they descend in cooperation with each other.

That is, when the lifting body 40 is lowered, the first nozzle part 52 of the nozzle lifting body 50 coupled to the lifting body 40 descends while compressing the elastic part 54, The second nozzle unit 53 coupled to the outer circumferential surface of the first nozzle unit 52 is also lowered when the first nozzle unit 52 is lowered and the second nozzle unit 53 is formed at the tip side of the second nozzle unit 53 The first inclined contact surface 53b comes into contact with the first inclined contact sloped portion 24a formed at the inner end of the nozzle portion 24 included in the injection tube 20 and stops to descend, The inlet tube t1 formed in the nozzle body 21 of the injection tube 20 is shut off and the injection tube t2 connected to the injection port 101 of the vessel 100 through the inlet tube t1 is closed, Thereby preventing the contents of the liquid phase from being introduced.

The driving unit 11 is driven at the upper end of the nozzle tube 10 in a state where injection of liquid contents is blocked as described above and the actuating unit 11a is lowered The actuating body 11a enters the accommodating space A of the lifting body 40 through the first through hole d1 provided in the lifting body 40 and is accommodated in the nozzle lifting body 50 The control rod 60 passing through the first and second nozzle units 52 and 53 is lowered.

The control rod 60 is continuously lowered until the second inclined contact surface 61 formed at the tip thereof contacts the second inclined contact slope portion 24b formed at the inner tip of the nozzle portion 24, So that the internal flow path of the first and second nozzle units 52 and 53 through which the control rod 60 penetrates is opened.

That is, the connection tube 52a of the first nozzle part 52 can communicate with the injection port 101 of the container 100. [

When the supply device connected to the connection tube 52a through a hose or the like is operated, air (or nitrogen) is injected into the interior of the container 100 filled with a certain amount of liquid content from the operation of the supply device The inside of the container 100 can be filled with the liquid necessary for accommodating the liquid content by the air (or nitrogen) injected into the container 100 through the nozzle portion 24 of the injection tube 20 Even if the expanded vessel 100 is temporarily contracted when the injection tube 20 is separated from the injection port 101 of the vessel 100, It is possible to prevent the contents of the liquid phase injected into the container 100 from overflowing to the outside of the container 100 through the injection port 101. [

That is, the second nozzle unit 53 included in the nozzle ascending / descending member 50 rises when the contents of the liquid phase are injected into the container 100 to open the inflow pipe t1 and the injection pipe t2, (T1) and the injection tube (t2) are prevented from communicating with each other while at the same time, the first and second nozzle units (52, 53) The control rod 60 passing through the inner surface of the container 100 opens the inner flow path of the first and second nozzle units 52 and 53 and descends to communicate with the injection port 101 of the container 100, The container 100 is inflated by allowing a certain amount of air (or nitrogen) to be injected into the container 100. When the inflated container 100 is temporarily contracted due to the separation of the infusion tube 20, (Or nitrogen) injected into the container 100 is supplied to the inside of the container 100, It will not do that overflows the outside.

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 nozzle body 11; The driving unit
11a; Actuator 20; Injection tube
21; A first tubular portion 22; The first watertight member
23; Number milling 24; The nozzle portion
24a; A first inclined contact surface portion 24b; The second inclined contact surface portion
25; A cover portion 30; Connection
40; A lifting body 50; Nozzle lifting body
51; A nozzle body 51a; Fixed body
51b; A hooking groove 52; The first nozzle portion
52a; A connector body 53; The second nozzle portion
53a; A staple projection 53b; The first oblique contact surface
54; Elastic portion 60; Control rod
61; A second inclined contact surface 70; Secondary tubular body
71; A second watertight member A; Storage space
d1; A first through hole d2; The second through-
t1; Inlet pipe t2; Injection tube
100; Container 101; Inlet

Claims (7)

A nozzle body coupled to a driving unit having an actuating body at an upper end thereof;
An injection tube coupled to a lower end of the nozzle body and having an inlet tube for injecting liquid contents and an injection tube connected to an inlet of the vessel;
A connection part for fixing the nozzle body to the injection tube body;
A lifting body positioned inside the nozzle body and being lifted and lowered by the driving unit;
Wherein the inlet tube is connected to the lifting body and is lifted and lowered by the lifting body, and when the container is placed in the injection tube, the injection tube of the injection tube is blocked while the inside of the container is evacuated, The injection tube of the injection tube is opened while the injection tube of the injection tube is opened when the predetermined amount of the liquid content is injected into the container and the injection tube of the injection tube is closed when the injection of the liquid content is completed, A nozzle ascending / descending member for injecting air or nitrogen into the interior of the container so as to secure a clearance larger than a space required for the container; And
Wherein the nozzle lifting body is configured to pass through the nozzle lifting body and is lifted and lowered by the actuating body of the driving unit to open the flow path in the nozzle lifting body when the injection tube is shut by the nozzle lifting body, A control rod for blocking the flow path in the nozzle lifting body when the injection tube is opened; Wherein the liquid injector nozzle assembly comprises: The injection tube according to claim 1,
A first tubular portion forming the inflow tube into which the liquid content flows;
A first watertight member and a water milling unit positioned at an upper end of the first tube unit and contacting the nozzle elevator;
A nozzle unit coupled to a lower opening of the first tubular body and forming the injection tube; And
A cover part coupled to the first tubular part together with the nozzle part; And a nozzle for injecting the liquid into the nozzle. 3. The method of claim 2,
Wherein an auxiliary tubular body is coupled to an outer peripheral surface of the first tubular body and a second watertight member is formed on an inner surface of the auxiliary tubular body so as to contact the outer peripheral surface of the first tubular body. 3. The method of claim 2,
The lifting body may have a structure in which a first through-hole through which the actuating body of the driving unit is movable is formed at the upper end and a second through-hole through which the control rod is movable is formed at the lower end, Wherein the injector nozzle assembly comprises: 5. The nozzle lifting structure according to claim 4,
A nozzle body accommodated in the storage space of the lifting body and fixed through a fixing body, the lifting body being raised and lowered by the lifting body;
And the air in the container is sucked into the inflator when the container is first placed in the inflator, thereby evacuating the inside of the container, A first nozzle unit for injecting air or nitrogen into the container at the completion of injecting a predetermined amount of the liquid content into the container;
And a second nozzle unit which is connected to the outer circumferential surface of the first nozzle unit so as to shut off the injection tube of the injection tube when air is sucked from the container through the first nozzle unit or air or nitrogen is injected into the container, A second nozzle unit for opening the injection tube; And
And the second nozzle unit is disposed between the first and second nozzle units and is compressed by the second nozzle unit when the liquid content is injected into the container and is restored to return the second nozzle unit when the injection of the liquid content into the container is blocked Elastic part; And a nozzle for injecting the liquid into the nozzle. 6. The method of claim 5,
Characterized in that a hooking groove is formed in an inner end of the nozzle body and a hooking protrusion is formed on an outer circumferential surface of the second nozzle portion so that both ends of the elastic portion are hooked on the hooking groove and the hooking projection. The contents of the injector nozzle assembly for filling. 6. The method of claim 5,
A first inclined contact slope portion and a second inclined contact slope portion are formed at an inner end of the nozzle portion,
Wherein a tip end of the second nozzle portion forms a first inclined contact surface that contacts the first inclined contact slope portion to seal the injection tube of the nozzle portion,
Wherein a tip end of the control rod forms a second inclined contact surface which contacts the second inclined contact slope portion and opens the internal flow path of the second nozzle portion.

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