KR101468161B1 - System for testing a pouch - Google Patents

Abstract

According to the present invention, a pouch test system includes: a spout receiving section where a spout fixated to a test pouch is inserted and received; an air nozzle unit which includes a nozzle selectively lifted and lowered toward the spout of the pouch received in the spout receiving section, and injects air into the pouch through the spout; a moving plate where the spout receiving section and the air nozzle unit are disposed and fixated; a driving unit which drives the moving plate to be lifted and lowered; and a tank disposed for the pouch lowered by the moving plate to be immersed in water. In a case where air is supplied with the spout-attached pouch immersed in the tank in the presence of an adhesion error in the pouch itself or a part where the pouch and the spout are attached to each other; the air flows out, air bubbles are generated in the tank, and a pouch defect can easily be found with the naked eyes. Accordingly, the risk of outside content leakage or contaminant infiltration from the outside can be checked; that is, the state of the pouch can easily be checked with the naked eyes.

Description

[0001] SYSTEM FOR TESTING A POUCH [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a pouch test system, and more particularly, to a pouch test system which can easily test whether a pouch containing a drink such as juice or ice cream is in a poor state.

Drinks such as juice and carbonated beverage are usually used in poultry bottles, glass bottles or cartons. Poultry bottles, glass bottles or cartons take up space as much as they are after they are used. There were many limitations.

In order to overcome these limitations, in recent years, there has been an increase in the supply of beverages filled in the pouches.

The pouch is less bulky after consuming the inner drink, so it takes up less space in collecting and collecting, so that more pouch can be recycled and separated, and the shape of the pouch can be changed to some extent, And it is convenient to carry it in a bag or a bag.

1 is an exploded perspective view for explaining the pouch.

1, the pouch P is composed of a spout S so that the pouch P is thermally fused to the upper surface of the pouch body P1 and the pouch body P1 and injects the beverage into the inside of the pouch body P1 or sucks the beverage by the user . A thread is formed in the spout (S) so that the cap (C) can be screwed.

The pair of front and rear films of the pair of front and rear films are thermally welded to each other to seal the spout S and the pouch body P1 in a state that the spout S is inserted therein, The joint surface of the pouch body P1 itself and the pouch body P1 and the spout S is sealed so that the contents contained therein are prevented from leaking to the outside.

At this time, in order to check whether the sealing of the completed pouch (P) is bad, an operator visually inspects or injects air to check whether air is leaking from the palm or the hand.

However, in the case of inspecting the sealing state manually as described above, the worker must inspect each one with the naked eye or the senses, so that the inspection work becomes long and accurate inspection can not be performed.

Therefore, the beverage can be filled in the sealed state. In this case, there is a problem that the beverage contained in the beverage flows out to the outside. In addition, the beverage may be contaminated by the external contaminant flowing into the pouch P A problem arises.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a system for automatically and easily inspecting a sealed state of a finally produced pouch.

According to another aspect of the present invention, there is provided a pouch test system comprising: a spout seating unit including a seating part to which a spout fixed to a pouch to be tested is inserted; An air nozzle unit including a nozzle unit for selectively moving upward and downward to the spout side of the pouch seated in the spout seating unit and injecting air into the pouch through the spout; A moving plate on which the seat portion and the air nozzle unit are installed and fixed; A driving unit for moving the moving plate up and down; And a liquid tank installed so that the pouch lowered by the moving plate is contained in the water.

In this way, if air is supplied by immersing the pouch in which the spout is adhered in the liquid tank, if there is a poor adhesion at the portion where the pouch itself and the pouch and the spout are adhered, if air is leaked, air bubbles are easily formed in the liquid tank. . Therefore, it is possible to visually check the state of the pouch, that is, to check whether the contents contained therein are leaked to the outside or external contaminants can be introduced into the inside.

The nozzle portion is elastically supported on the spout side.

As a result, when the nozzle unit is moved to the spout side of the pouch, damage to the spout or breakage of the contact portion of the pouch and the spout can be prevented by the elastic force.

And a water level sensor disposed on the side of the air nozzle unit of the moving plate.

Thereby, even if the water level stored in the liquid phase is not precisely adjusted, it is possible to automatically detect whether the pouch is contained in the liquid phase by the water level sensor and satisfies the test environment. In other words, it is not necessary to visually check whether the pouch is contained in the liquid of the liquid phase, and it is not necessary to adjust the liquid level accurately in accordance with the descending stroke of the predetermined pouch, So that it is possible to automatically provide an accurate test environment.

The driving unit may further include: a driving source; And a screw bar rotated by the driving source to form a screw thread, wherein the moving plate is screwed to the screw bar and is moved up and down by rotation of the screw bar.

It is preferable to further include a lift limit switch and a fall limit switch for detecting a lift limit and a lift limit of the moving plate.

Thereby, not only the pouch can be automatically moved into the liquid of the liquid bath, but also the upper and lower limits of the pouch movement can be limited, thereby preventing the liquid from being broken or the system being damaged by the malfunction.

In addition, it is preferable that at least two seating portions are provided.

Thereby, it is possible to test a plurality of pouch sealing states by a single test operation, thereby shortening the testing process and time.

According to the pouch test system of the present invention as described above, when air is supplied by immersing the pouch in which the spout is adhered, if air is leaked in the pouch itself and in the portion where the pouch and the spout are adhered, When air bubbles are generated, it is easy to see whether the pouch is bad or not. Therefore, it is possible to visually check the state of the pouch, that is, to check whether the contents contained therein are leaked to the outside or external contaminants can be introduced into the inside.

Further, when the nozzle is inserted into the spout side of the pouch, damage to the spout or breakage of the contact portion of the pouch and the spout can be prevented by the elastic force.

Further, even if the water level stored in the liquid phase is not precisely adjusted, it is possible to automatically detect whether the pouch is immersed in the liquid phase by the water level sensor and meets the test environment. In other words, it is not necessary to visually check whether the pouch is contained in the liquid of the liquid phase, and it is not necessary to adjust the liquid level accurately in accordance with the descending stroke of the predetermined pouch, So that it is possible to automatically provide an accurate test environment.

In addition, not only the pouch can be automatically moved into the liquid of the liquid bath, but also the upper and lower limits of the pouch movement can be limited, thereby preventing the liquid from being broken or the system being damaged due to malfunction.

Further, it is possible to test a plurality of pouch sealing states by a single test operation, thereby shortening the testing process and time.

1 is an exploded perspective view for explaining a pouch,
2 is a front view of a pouch test system according to a preferred embodiment of the present invention,
3 is a side view of the pouch testing system shown in Fig. 2,
4A to 4C are views for explaining the operation of the pouch testing system shown in FIG.

Hereinafter, a pouch test system according to a preferred embodiment of the present invention will be described with reference to the drawings.

FIG. 2 is a front view of a pouch testing system according to a preferred embodiment of the present invention, and FIG. 3 is a side view of the pouch testing system shown in FIG. 2. FIG.

2 and 3, a pouch test system according to a preferred embodiment of the present invention will be described.

A pouch test system 100 according to a preferred embodiment of the present invention includes a spout seating unit 110, an air nozzle unit 120, a moving plate 130, a driving unit 140, and a basin 160.

The spout seating unit 110 includes a seating part 111 to which the spout S of the pouch P is forcibly inserted and fixed and fixed to a moving plate 130 to be described later, It moves up and down in conjunction with descending movement. According to a preferred embodiment of the present invention, a plurality of seating portions 111 are provided so that a plurality of pouches P can be tested at the same time. Although FIG. 3 shows that five seating portions 111 are provided, the seating portions 111 may be provided.

The air nozzle unit 120 includes a nozzle unit 121 inserted into the spout S of the pouch P and injecting air into the pouch P, a nozzle driving unit for driving the nozzle unit 121 to move up and down 123 and a pump (not shown) for supplying air to the nozzle unit 121.

According to the preferred embodiment of the present invention, the nozzle unit 121 can easily insert the pouch P into the spout S, and after the insertion, the nozzle unit 121 and the spout S are in close contact with each other, And is formed in a tapered shape so as not to be pulled out.

In order to prevent the spout S from being damaged or cracked due to a shock applied to the spout S or a pressure applied to the spout S when the nozzle 121 descends toward the spout S, S) side. As a result, the spout S is elastically moved toward the spout S while being moved elastically in the direction in which the nozzle 121 descends when it comes in contact with the spout S to minimize impact or pressure, The sealing state between the nozzle portion 121 and the spout S can be maintained more tightly.

The moving plate 130 is installed and fixed with the air nozzle unit 120 and the spout seating unit 110. The moving plate 130 is coupled to the air nozzle unit 120 and the spout seating unit 110, (110) is moved up and down.

The driving unit 140 includes a driving source 141 and a screw bar 143 which is rotated by a driving source and has a thread formed on an outer circumferential surface thereof. Is fastened to the moving plate 130 by a screw.

The driving source 141 rotates the screw bar 143 and the moving plate 130 screwed to the screw bar 143 is moved up and down according to the rotating direction of the screw bar 143.

The liquid tank 160 is provided below the spout seating unit 110 and stores liquid therein so that the pouch P fixed to the spout seating unit 110 descends by the moving plate 130, It is selectively locked down. Although not shown, the liquid tank 160 is preferably provided with an apparatus for draining the liquid inside or injecting liquid into the liquid tank 160.

According to a preferred embodiment of the present invention, the display unit displays the air pressure of the air injected through the nozzle unit 121, adjusts the air pressure of the air to be injected, and displays the status of the pouch testing system 100 at present. And a control unit 180 having a control unit 181.

In addition, it is preferable to independently connect pumps that supply air to the respective nozzle units 121 so that the air pressure can be independently controlled for each pouch. In this way, the proper air pressure for each pouch having different capacities as well as pouches having the same capacity can be independently So that it is possible to test pouches having various shapes, that is, capacity, at a time.

According to a preferred embodiment of the present invention, a water level sensor 150 is included.

The level sensor 150 is installed on the moving plate 130 on the side of the spout seating unit 110 so that when the moving plate 130 descends and the pouch P is soaked with the basin 160, do. The installation position of the water level sensor 150 is installed such that the pouch P can be sufficiently locked in the water of the basin 160.

Even if there is a change in the amount of the liquid stored on the liquid tank 160 by the water level sensor 150, the pouch P can be locked into the liquid in accordance with the amount of liquid stored in the liquid tank 160, The pouch P can be locked at a predetermined depth regardless of whether the pouch P is locked or not, thereby providing a constant test environment.

In other words, if the lifting and lowering strokes of the moving plate 130 are set to be constant, the liquid on the basin 160 must be always maintained in accordance with the lifting and lowering strokes so that maintenance and management are difficult and inconvenient. When the liquid surface on the liquid tank 160 is low, the lowering stroke of the moving plate 130 is correspondingly long, so that the pouch P can be optimally locked on the liquid. When the liquid surface on the liquid tank 160 is high, The lowering stroke of the moving plate 130 is shortened, so that the pouch P can be optimally locked onto the liquid.

It is preferable to further include a lift limit switch 171 and a fall limit switch 173 so as to limit the upper limit and the lower limit stroke length of the moving plate 130.

When the movable plate 130 is detected by the limit switches 171 and 173 by the lift limit switch 171 and the fall limit switch 173, the rotation of the screw bar 143 by the drive source 141 is stopped It is possible to prevent the movement of the system 100 and breakage of the liquid tank 160 by preventing further movement.

The operation of the pouch test system 100 according to the preferred embodiment of the present invention will be described with reference to FIGS. 4A to 4C.

4A, the pouches P are forcibly inserted and fixed in the seating part 111 in the initial setting state, that is, the moving plate 130 is elevated, and the nozzle driving part 123 is driven to move the nozzle part 121, Is inserted into the spout (S) of the pouch (P).

4B, the air injected from the nozzle unit 121 is filled into the pouch P through the spout S, so that the pouch P is inflated. As shown in FIG. 4C, The moving plate 130 screwed to the screw bar 143 is lowered and the air nozzle unit 120 fixed to the moving plate 130 and the spout mounting unit 110 And the pouch P is submerged in the liquid on the basin 160. As a result,

At this time, when the pouch P is sealed in the water on the basin 160, if the pouch P is in a poor sealing state, the air escapes into the poor pores and air bubbles are generated, It is possible to recognize that it is defective.

On the other hand, when the sealing state of the pouch P is normal, it can be recognized that there is no defect if the air bubble can not be visually confirmed.

When the driving source 141 rotates the screw bar 143 in the opposite direction when the state check signal is inputted through the control unit 180, the moving plate 130 is moved upward to rotate the air nozzle unit 120 and the spout The seat unit 110 is lifted to the state shown in FIG. 4A and the pouch P to be newly tested is forcedly inserted into the seat portion 111 after the tested pouch P is forcibly released from the seat portion 111, And then a test operation for confirming the sealing state of the pouch P is performed through the same process.

On the other hand, it is also possible to set one cycle period for testing the pouch P, and to automatically change the pouch P when the cycle period is reached.

The sealing state of the pouch P can be easily and automatically confirmed by the above-described structure, so that more pouches P can be determined under the same conditions, and the pouch productivity can be improved remarkably.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be possible. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the above detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be interpreted as being included in the scope of the present invention .

100: pouch test system 110: spout seat unit
120: air nozzle unit 130: moving plate
140: drive unit 150: water level sensor
160: liquid tank 171: lift limit switch
173: Lowering limit switch

Claims (6)

A spout seating unit having a seat for receiving and seating a spout fixed to a pouch to be tested;
An air nozzle unit including a nozzle unit for selectively moving upward and downward to a spout side of the pouch to be seated in the seating part and spraying air to the pouch through the spout;
A moving plate on which the spout seating unit and the air nozzle unit are installed and fixed;
A driving unit for driving the moving plate to move up and down; And
And a liquid tank installed so that the pouch lowered by the moving plate is contained in the water,
In the nozzle unit,
And is elastically supported on the spout side. delete A spout seating unit having a seat for receiving and seating a spout fixed to a pouch to be tested;
An air nozzle unit including a nozzle unit for selectively moving upward and downward to a spout side of the pouch to be seated in the seating part and spraying air to the pouch through the spout;
A moving plate on which the spout seating unit and the air nozzle unit are installed and fixed;
A driving unit for driving the moving plate to move up and down; And
And a liquid tank installed so that the pouch lowered by the moving plate is contained in the water,
And a water level sensor disposed on the side of the moving plate on the side of the air nozzle unit. The method according to claim 1,
The driving unit includes: a driving source; And a screw bar rotated by the driving source to form a screw thread,
Wherein the moving plate is screwed to the screw bar and is moved up and down by rotation of the screw bar. 5. The method of claim 4,
Further comprising a lift limit switch and a fall limit switch for detecting a lift limit and a lift limit of the moving plate. The seat according to claim 1,
Wherein at least two pouches are provided.

Images