CN219807025U - Aluminum foil bag package system is gone into to polaroid - Google Patents

Abstract

The utility model discloses a polaroid packaging system for an aluminum foil bag. The polaroid aluminum foil bag packaging system comprises: POF heat shrink bag packagine machine, POF heat shrink bag setting machine, POF heat shrink bag shrink stove, aluminium foil bag packagine machine. The POF heat-shrinkable bag packaging machine, the POF heat-shrinkable bag setting machine, the POF heat-shrinkable bag shrinking furnace and the aluminum foil bag packaging machine are sequentially arranged. The POF heat-shrinkable bag packaging machine is used for realizing the POF heat-shrinkable bag packaging step of the polaroid stacking. The POF thermal shrinkage bag setting machine is used for realizing the POF thermal shrinkage bag setting step of the polaroid stacking. The POF thermal shrinkage bag shrinkage furnace is used for realizing the POF thermal shrinkage bag shrinkage step of the polaroid stacking material. The aluminum foil bag packaging machine is used for realizing the aluminum foil bag packaging step of polaroid stacking. The utility model has the beneficial effects that: and the automatic packaging quality of the polaroid entering the aluminum foil bag is improved.

Description

Aluminum foil bag package system is gone into to polaroid

Technical Field

The utility model relates to automatic packaging of a polaroid, in particular to a packaging system for a polaroid into an aluminum foil bag.

Background

At present, two modes of entering an aluminum foil bag into a polaroid exist: first, traditional manual packaging: and (5) manually packaging the polaroid stacked material by using a cross film by an operator, and placing the polaroid stacked material into an aluminum plastic bag for vacuumizing and sealing after packaging. The disadvantage is that it is labor-intensive, less efficient, and the operator may touch the polarizer stack, possibly causing damage to the membrane. Second, more advanced automated packaging: the packaging system is provided with a POF heat-shrinkable bag packaging machine, a POF heat-shrinkable bag shrinking furnace and an aluminum foil bag packaging machine, so that the polaroid stacked materials are sequentially placed in the POF heat-shrinkable bag and the aluminum foil bag. The defects are that: the packaging process of the POF heat shrink bag packaging machine can cause the problem that the polaroid stacking material is irregular, and the automatic packaging quality is affected.

Disclosure of Invention

The utility model aims to solve the problem of low automatic packaging quality of the existing polaroid, and provides a novel polaroid packaging system for entering an aluminum foil bag.

In order to achieve the above object, the present utility model has the following technical scheme: a polarizer-in-aluminum foil pouch packaging system, comprising: POF heat shrink bag packagine machine, POF heat shrink bag setting machine, POF heat shrink bag shrink stove, aluminium foil bag packagine machine. The POF heat-shrinkable bag packaging machine, the POF heat-shrinkable bag setting machine, the POF heat-shrinkable bag shrinking furnace and the aluminum foil bag packaging machine are sequentially arranged. And sequentially passing the polaroid through the POF heat-shrinkable bag packaging machine, the POF heat-shrinkable bag setting machine, the POF heat-shrinkable bag shrinkage furnace and the aluminum foil bag packaging machine. The POF heat-shrinkable bag packaging machine is used for realizing the POF heat-shrinkable bag packaging step of the polaroid stacking. The POF thermal shrinkage bag setting machine is used for realizing the POF thermal shrinkage bag setting step of the polaroid stacking. The POF thermal shrinkage bag shrinkage furnace is used for realizing the POF thermal shrinkage bag shrinkage step of the polaroid stacking material. The aluminum foil bag packaging machine is used for realizing the aluminum foil bag packaging step of polaroid stacking.

As a preferred scheme that the polaroid enters the aluminum foil bag packaging system, the POF heat-shrinkable bag setting machine is provided with a stacking conveying belt, a lifting platform, a positioning front gear, a transfer mechanism and a positioning rear gear, wherein the stacking conveying belt extends along the front-rear direction, the stacking conveying belt is used for conveying polaroid stacks of the POF heat-shrinkable bags, the lifting platform is positioned above the stacking conveying belt, the positioning front gear, the transfer mechanism and the positioning rear gear are arranged on the bottom surface of the lifting platform, and the positioning rear gear is moved forward through the transfer mechanism, so that the positioning front gear and the positioning rear gear are set together to form the polaroid stacks of the POF heat-shrinkable bags.

As a preferable scheme of the polaroid entering the aluminum foil bag packaging system, the transfer mechanism comprises: the lifting platform comprises a fixed sliding rail and a movable sliding block, wherein the fixed sliding rail extends along the front-back direction, the movable sliding block and the fixed sliding rail form a sliding pair, the fixed sliding rail is fixed on the lifting platform, and the positioning rear rail is fixed on the movable sliding block.

As a preferred scheme that the polaroid enters the aluminum foil bag packaging system, the POF heat shrinkage bag setting machine is further provided with a lifting air cylinder, wherein the lifting air cylinder is fixed and positioned above the lifting platform, the air cylinder shaft of the lifting air cylinder is downwards arranged, and the air cylinder shaft of the lifting air cylinder is fixedly connected with the lifting platform.

As a preferred scheme of the polarizer-in-aluminum foil pouch packaging system, the aluminum foil pouch packaging machine includes: a bag opening station, a bag entering station and a vacuum sealing station.

Compared with the prior art, the utility model has the beneficial effects that: before the step of shrinking the POF heat-shrinkable bag of the polaroid stack, a POF heat-shrinkable bag setter for realizing the step of setting the POF heat-shrinkable bag of the polaroid stack is added, so that the uniformity of the polaroid stack is ensured, and the automatic packaging quality of the polaroid entering an aluminum foil bag is further improved.

In addition to the technical problems, features constituting the technical solutions and advantageous effects caused by the technical features of the technical solutions described above, other technical problems that the present utility model can solve, other technical features included in the technical solutions and advantageous effects caused by the technical features will be described in further detail with reference to the accompanying drawings.

Drawings

Fig. 1 is a schematic structural view of the present utility model.

Fig. 2 is a perspective view showing the structure of the POF hot shrink bag setter according to the present utility model.

Fig. 3 is a front view showing the structure of the POF thermal shrinkage bag setter according to the present utility model.

Fig. 4 is a side view showing the structure of the POF heat-shrinkable bag setter of the present utility model.

Fig. 5 is a schematic structural view of the aluminum foil bag packing machine in the present utility model.

Detailed Description

The utility model will be described in further detail below with reference to the drawings by means of specific embodiments. The description of these embodiments is provided to assist understanding of the present utility model, but is not to be construed as limiting the present utility model. In addition, the technical features of the embodiments of the present utility model described below may be combined with each other as long as they do not collide with each other.

Referring to fig. 1, a polarizer-in-aluminum foil pouch packaging system is shown.

The polaroid packaging system is used for sequentially placing polaroid laminated materials into the POF heat shrinkage bag and the aluminum foil bag.

The polaroid aluminum foil bag packaging system comprises: a POF heat-shrinkable bag packaging machine 1, a POF heat-shrinkable bag setting machine 2, a POF heat-shrinkable bag shrinking furnace 3, an aluminum foil bag packaging machine 4, and the like. The POF heat-shrinkable bag packaging machine 1, the POF heat-shrinkable bag setting machine 2, the POF heat-shrinkable bag shrinking furnace 3 and the aluminum foil bag packaging machine 4 are arranged in sequence. The polaroid sequentially passes through the POF heat-shrinkable bag packaging machine 1, the POF heat-shrinkable bag setting machine 2, the POF heat-shrinkable bag shrinking furnace 3 and the aluminum foil bag packaging machine 4. The POF heat-shrinkable bag packaging machine 1 is used for realizing the POF heat-shrinkable bag packaging step of the polaroid stacking. The POF heat-shrinkable bag setting machine 2 is used for realizing the POF heat-shrinkable bag setting step of the polaroid stacking. The POF thermal shrinkage bag shrinkage furnace 3 is used for realizing the POF thermal shrinkage bag shrinkage step of the polaroid stacking material. The aluminum foil bag packaging machine 4 is used for realizing an aluminum foil bag packaging step of polaroid stacking.

The POF heat-shrinkable bag packaging machine 1, the POF heat-shrinkable bag setting machine 2, the POF heat-shrinkable bag shrinking furnace 3 and the aluminum foil bag packaging machine 4 can be selected from the existing commercial devices.

In one embodiment, referring to fig. 2 to 4, the POF thermal shrinkage bag setter 2 may be designed by self-grinding by the applicant. The POF heat-shrinkable bag setting machine 2 is used for setting the polaroid stack material in the POF heat-shrinkable bag. The POF thermal shrinkage bag setter 2 includes a stacking conveyor 21, a lifting platform 22, a positioning front rail 23, a transfer mechanism 24, a positioning rear rail 25, and the like. The stack conveyor 21 extends in the front-rear direction. The stack conveyor 21 is used for conveying the polarizer stack. The lifting platform 22 is located above the stacking conveyor belt 21. The positioning front rail 23 is fixed on the bottom surface of the lifting platform 22. The transfer mechanism 24 includes: the sliding pair comprises a fixed sliding rail and a movable sliding block, wherein the fixed sliding rail extends along the front-back direction, and the movable sliding block and the fixed sliding rail form a sliding pair. The fixed slide rail is fixed on the bottom surface of the lifting platform 22. The positioning rear gear 25 is fixed on the movable slide block, and the positioning front gear 23 and the positioning rear gear 25 are arranged front and back. By controlling the movable slider, the positioning rear rail 25 can be shifted back and forth to change the back-and-forth distance between the positioning front rail 23 and the positioning rear rail 25.

Preferably, the POF thermal contraction bag setting machine 2 further has a lifting cylinder 26. The lift cylinder 26 is fixed and located above the lift platform 22. The lifting cylinder 26 is disposed with its cylinder axis down. The cylinder shaft of the lifting cylinder 26 is fixedly connected with the lifting platform 22. By controlling the lifting cylinder 26, the lifting platform 22 can be displaced up and down.

In one embodiment, referring to fig. 5, the aluminum foil bag packing machine 4 may be of applicant's self-grinding design. The aluminum foil pouch packing machine 4 includes: a bag opening station 41, a bag entering station 42, a vacuum sealing station 43 and the like. The bag opening station 41 is used for realizing the opening step of the aluminum foil bag. The bagging station 42 is used to implement the polarizer placement step. The vacuum sealing station 43 is used to implement the sealing step of the polarizer.

The packaging method of the polaroid in-aluminum foil bag packaging system comprises the following steps:

and (3) packaging the POF heat-shrinkable bag of the polaroid laminated material: the polarizer stack is placed in the POF heat-shrink bag by the POF heat-shrink bag packing machine 1.

Setting the POF heat shrinkage bag of the polaroid lamination material: setting the polaroid stack material in the POF heat-shrinkable bag by the POF heat-shrinkable bag setting machine 2: step S21, placing the polaroid stack material on the stack material conveying belt 21, wherein the stack material conveying belt 21 drives the polaroid stack material to move forward below the lifting platform 22; step S22, moving down the lifting platform 22 so that the positioning front gear 23 is in front of the polaroid stack and the positioning rear gear 25 is behind the polaroid stack; step S23, the stacking conveyor belt 21 continues to drive the polaroid stack to move forward, so that the polaroid stack abuts against the positioning front rail 23; and S24, controlling the movable sliding block to move forward the positioning rear gear 25, so that the positioning rear gear 25 props against the polaroid stack, and finishing the setting of the polaroid stack by the positioning front gear 23 and the positioning rear gear 25.

And (3) a step of shrinkage of the POF heat shrinkage bag of the polaroid lamination material: and (3) shrinking the POF heat-shrinkable bag through the POF heat-shrinkable bag shrinkage furnace 3, so that the POF heat-shrinkable bag tightly wraps the polaroid stack.

And (3) packaging an aluminum foil bag with a polaroid laminated material: and placing the polaroid stacked material placed in the POF heat shrinkage bag in the aluminum foil bag through the aluminum foil bag packaging machine 4. After the completion, the product flows backward and is taken manually.

It is easy to see that before the step of shrinking the POF heat-shrinkable bag of the polaroid stack, a POF heat-shrinkable bag setter for realizing the step of setting the POF heat-shrinkable bag of the polaroid stack is added, so that the uniformity of the polaroid stack is ensured, and the automatic packaging quality of the polaroid entering the aluminum foil bag is further improved.

The foregoing has outlined rather broadly the more detailed description of the utility model in order that the detailed description thereof that follows may be better understood, and in order that the present utility model may be better understood. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (5)

1. A polarizer-in-aluminum foil pouch packaging system, comprising: the packaging machine comprises a POF heat-shrinkable bag packaging machine, a POF heat-shrinkable bag setting machine, a POF heat-shrinkable bag shrinkage furnace and an aluminum foil bag packaging machine, wherein the POF heat-shrinkable bag packaging machine, the POF heat-shrinkable bag setting machine, the POF heat-shrinkable bag shrinkage furnace and the aluminum foil bag packaging machine are sequentially arranged, the POF heat-shrinkable bag packaging machine is used for realizing a POF heat-shrinkable bag packaging step of polaroid stacking, the POF heat-shrinkable bag setting machine is used for realizing a POF heat-shrinkable bag setting step of polaroid stacking, the POF heat-shrinkable bag shrinkage furnace is used for realizing a POF heat-shrinkable bag shrinkage step of polaroid stacking, and the aluminum foil bag packaging machine is used for realizing an aluminum foil bag packaging step of polaroid stacking.

2. The packaging system for the polaroid entering aluminum foil bags according to claim 1, wherein the POF heat-shrinkable bag setting machine is provided with a stacking conveying belt, a lifting platform, a positioning front gear, a transferring mechanism and a positioning rear gear, the stacking conveying belt extends along the front-back direction, the stacking conveying belt is used for conveying polaroid stacks of the POF heat-shrinkable bags, the lifting platform is located above the stacking conveying belt, the positioning front gear, the transferring mechanism and the positioning rear gear are arranged on the bottom surface of the lifting platform, and the positioning rear gear is advanced through the transferring mechanism, so that the positioning front gear and the positioning rear gear are set together to the polaroid stacks of the POF heat-shrinkable bags.

3. The polarizer-in-aluminum bag packaging system of claim 2, wherein the transfer mechanism comprises: the lifting platform comprises a fixed sliding rail and a movable sliding block, wherein the fixed sliding rail extends along the front-back direction, the movable sliding block and the fixed sliding rail form a sliding pair, the fixed sliding rail is fixed on the lifting platform, and the positioning rear rail is fixed on the movable sliding block.

4. The polarizer-in-aluminum foil bag packaging system according to claim 2, wherein the POF thermal shrinkage bag setter further comprises a lifting cylinder fixed above the lifting platform, wherein a cylinder shaft of the lifting cylinder is arranged downward, and wherein the cylinder shaft of the lifting cylinder is fixedly connected with the lifting platform.

5. The polarizer-in-aluminum foil pouch packaging system of claim 1, wherein the aluminum foil pouch packaging machine comprises: a bag opening station, a bag entering station and a vacuum sealing station.