JP2012514565A - Air-filled packaging material - Google Patents

Abstract

The present invention relates to an air-filled packaging material, and more particularly, to an air-filled packaging material that makes it easier to inject air and more reliably guarantees sealing of the injected air. To this end, the present invention provides an air cell that acts as a buffer against external pressure, an air injection passage through which air is injected from the outside, a communication passage that connects the air injection passage and the air cell, and air that is filled And a sealing means for preventing backflow of the air.

Description

  The present invention relates to an air-filled packaging material, and more particularly, to an air-filled packaging material that makes it easier to inject air and more reliably guarantees sealing of the injected air.

  The present invention relates to an air-filled packaging material, and more particularly, to an air-filled packaging material that makes it easier to inject air and more reliably guarantees sealing of the injected air.

  In general, when various products are transported or stored, the products are packaged on the outer surface of the products using various packaging materials in order to minimize damage.

  Recently, in order to realize the cushioning properties of such a packaging material, a synthetic resin film is applied to the outside of the packaging material, a plurality of air cells are added, and air is injected into the packaging material. Air-filled packaging materials with improved buffering properties are widely known.

  However, the performance of such conventional air-filled packaging materials greatly depends on the degree of completion of the check valve for injecting air into the plurality of air cells for sealing. The material of the valve was very complicated, and the work process was complicated.

  The present invention has been made in view of the circumstances as described above, and does not require a high-quality check valve and has an object to simplify the manufacturing process of an air-filled packaging material.

  Moreover, even if one side or some of the air cells of the plurality of air cells are damaged, the present invention can continuously maintain the cushioning packaging function without affecting the sealing performance of the remaining air cells. The object is to provide an air-filled packaging material.

  In order to achieve the above object, an air-filled packaging material of the present invention is formed by separating an upper sheet and a lower sheet, and has at least one air cell that acts as a buffer against external pressure, So that air can be injected from the upper sheet and the lower sheet by adhering the upper sheet and the upper part of the air cell, and one side of the air injection path for air inflow from the air injection path The other side is connected to the air cell so that the other side is connected to the air cell for discharging air to the air cell, and the communication path is formed by being separated by adhesion of the upper sheet and the lower sheet, and Synthetic resin provided inside the communication path between a portion connected to the air injection passage for air inflow into the air cell and a portion connected to the air cell for air discharge To provide an air-filled packaging material comprising a V-shaped sealing means formed by folding back the over bets.

  One of the above-mentioned communication passages is added in parallel with each air cell, and an air injection portion for injecting air through the air injection passage at the upper portion thereof supplies air to the air cell main body at the lower end of the communication passage. It is a structure with an air discharge part.

  Therefore, after injecting air into each air cell, various sealing means for preventing air backflow between the air inlet and the air outlet of the communication path can be added.

  According to the present invention as described above, it is possible to quickly and easily fill a large number of air cells through a communication path using a single air injection path. In addition, since the simultaneous sealing means can be formed in the process of adhering the upper sheet and the lower sheet to form the air cell without going through a separate complicated process for forming the sealing means. It is very economical and efficient compared to the method.

  Further, according to the present invention, since the sealing means can maintain the sealed state of each of the plurality of air cells, even if some of the air cells are damaged, the sealing performance of the remaining air cells is not affected. Therefore, the buffering packaging function can be maintained.

  Furthermore, if the shape of the air cell is adjusted, it can be used by being folded into a three-dimensional form such as a box form instead of simply a flat form cushioning filler. The time required for the process can be shortened.

It is a schematic perspective view for demonstrating the air filling type packaging material by one Example of this invention. It is a disassembled perspective view for demonstrating the air filling type packaging material by one Example of this invention. It is a plane sectional view for explaining an air filling type packaging material by one example of the present invention. It is sectional drawing in alignment with the AA of FIG. 1 for demonstrating the air-filling type packaging material by one Example of this invention. It is a plane sectional view for explaining an air-filling type packaging material according to another embodiment of the present invention. It is a plane sectional view for explaining an air-filling type packaging material according to another embodiment of the present invention. It is a plane sectional view for explaining an air-filling type packaging material according to another embodiment of the present invention.

Hereinafter, an air-filled packaging material according to an embodiment of the present invention will be described in detail with reference to the drawings.
The air-filled packaging material of the present invention is formed by bonding the upper sheet 10 and the lower sheet 20, and the upper sheet 10 The lower sheet 20 is bonded. Hereinafter, elements formed by being separated by bonding the upper sheet 10 and the lower sheet 20 will be described in detail.

FIG. 1 is a schematic perspective view illustrating an air-filled packaging material according to an embodiment of the present invention, and FIG. 2 is a diagram illustrating an air-filling packaging material according to an embodiment of the present invention. It is a disassembled perspective view.
1 and 2, the air-filled packaging material of the present invention includes an air cell 100, an air injection passage 200, and a communication passage 300.

  The air cell 100 is preferably formed by being separated by adhesion of the upper sheet 10 and the lower sheet 20 so that a buffering action against pressure from the outside can be performed.

  The air injection passage 200 serves to inject (inflow) air from the outside. More specifically, it serves as an inflow passage for external air so that air can flow into the air cell 100 and be filled.

  The communication passage 300 may serve as a connection passage so that the external air injected through the air injection passage 200 can flow into the air cell 100.

Therefore, one side of the communication passage 300 is connected to the air injection passage 200 (one side of the communication passage 300 connected to the air injection passage 200 is referred to as a communication passage air injection port 310), and It is desirable that the other side is formed to be connected to the air cell 100 (the other side of the communication passage 300 connected to the air cell 100 is referred to as a communication passage air discharge port 320).
The communication passage 300 is preferably formed (added) in parallel along the side surface of the air cell 100.

FIG. 3 is a plan sectional view for explaining an air-filled packaging material according to an embodiment of the present invention.
Referring to FIG. 3, the air-filled packaging material of the present invention is formed by separating the air cell 100 by bonding the upper sheet 10 and the lower sheet 20, and the air cell 100 is based on the plane cross-sectional view shown in FIG. 3. An air injection passage 200 is formed in the upper portion of the air cell, and the air cell 100 and the air injection passage 200 are connected to each other through the communication passage 300.

  Accordingly, the external air that has flowed through the air injection passage 200 flows into the communication passage 300 through the communication passage air inlet 310 of the communication passage 300, and the external air that has flowed into the communication passage 300 is The inside of the air cell 100 is filled by discharging to the air cell 100 through the communication passage air discharge port 320 of the communication passage 300 formed by being connected to the air cell 100.

In addition, the air-filled packaging material according to one embodiment of the present invention includes a sealing unit 400.
Referring to FIG. 2, the sealing means 400 of the air-filled packaging material of the present invention allows air to smoothly flow into the air cell 100, and after the air cell is filled with air, It plays a role in preventing leakage to the outside.

  More specifically, in the air-filled packaging material of the present invention, external air flows in through the air injection passage 200, and the external air that flows in flows into the air cell 100 through the communication passage 300 and is filled. At this time, after the air flows into the air cell 100, the sealing means 400 is preferably formed in the communication passage 300 so that the filled air does not leak.

  In order to fulfill such a role, the sealing means 400 is provided between a communication passage air inlet 310 formed on one side of the communication passage 300 and a communication passage air outlet 320 formed on the other side. It is desirable to be provided.

  The sealing means 400 having the above-described role is made of a synthetic resin material sheet and is formed inside the communication path 300. The direction of the air injection path 200 is bent, and the direction of the air cell 100 is After the V-shaped sheet 410 spread between the upper sheet 10 and the lower sheet 20, the upper sheet 10 and the lower sheet 20 are bonded together in the process of bonding the upper sheet 10 and the lower sheet 20 together. It is formed.

Accordingly, the sealing unit 400 is positioned between the upper sheet 10 and the lower sheet 20 without performing separate thermal bonding, and is formed by a single bonding process.
The action of the sealing means 400 formed by the V-shaped sheet 410 will be specifically described as follows.

FIG. 4 is a cross-sectional view taken along the line AA of FIG. 1 for explaining an air-filled packaging material according to an embodiment of the present invention.
Referring to FIG. 4, the external air that has flowed in through the air injection passage 200 flows into the communication passage 300 through the communication passage air inlet 310 of the communication passage 300, and the external air that has flowed into the communication passage 300 For example, the sealing means 400 provided in the interior 300 flows to the communication passage air discharge port 320 of the communication passage 300 connected to the air cell 100 by a V-shaped sheet 410. More specifically, the external air flowing into the communication path 300 easily moves between the sheet 410 and the inner wall of the communication path 300 according to the form of the sheet 410.

  The external air that has flowed to the communication passage air discharge port 320 flows into the air cell 100 and fills the air cell 100. When the filling into the air cell 100 is completed, the external air that continuously flows into the air cell 100 from the outside flows backward, and the back flowing external air flows into the V-shaped sheet 410 of the sealing means 400. Accordingly, the V-shaped sheet 410 spreading in the direction of the air cell 100 is further expanded, and the V-shaped sheet 410 forms the inner wall of the communication path 300 (that is, the communication path 300 is formed). The upper sheet 10 and the lower sheet 20) that are in close contact with each other, and the backflowing air is controlled to escape to the outside.

As a result, the air-filled packaging material of the present invention does not require a separate performing operation for preventing the filled air from escaping outside after the filling is completed by the operation of the sealing means 400. That is, the sealing unit 400 serves as a check valve.
In other words, since the sealing means 400 serves as a check valve, the sealing means 400 can serve as a packaging material having a buffer function without performing a separate operation for holding the filled air. become.

In addition, the air-filled packaging material according to the embodiment of the present invention may further include an embossed sheet 500.
Referring to FIG. 4, the embossed sheet 500 of the present invention plays an auxiliary role so that the sealing unit 400 can more effectively fulfill its role.

  More specifically, the embossed sheet 500 is provided inside the V-shaped sheet 410 of the sealing unit 400, and the upper sheet 10 that forms the communication path 300, in other words, the communication path 300, when air flows backward, It plays an auxiliary role so that the lower sheet 20 and the V-shaped sheet 410 can be in close contact with each other easily. That is, by providing the embossed sheet 500 inside the V-shaped sheet 410, the embossed sheet 500 plays a role of making the sheet 410 spread more smoothly by the backflowing air.

FIG. 5 is a plan sectional view for explaining an air-filled packaging material according to another embodiment of the present invention.
Referring to FIG. 5, the air-filled packaging material according to the present invention is configured such that the air pressure flowing from the outside and the air pressure flowing back into the air cell 100 flow back and forth through the width and structure of the communication path 300 connected to the air cell 100. In consideration of the difference, it can be formed into a narrow line width or a folded structure. Thereby, the air which flows backward after the air filling to the air cell 100 is completed can be suppressed to the maximum.

FIG. 6 is a plan sectional view for explaining an air-filled packaging material according to another embodiment of the present invention.
In the present invention, when the air cell and the communication path formed alongside the air cell are arranged in a straight line, if the air cell is filled with air, a phenomenon that the air cell is bent along the communication path may occur. In order to solve such a problem, the air cell 100 and the communication path 300 may be provided in a broken shape instead of a straight line. In this case, even if the air cell is filled with air, the flat shape can be maintained without the packaging material being bent or bent.

FIG. 7 is a plan sectional view for explaining an air-filled packaging material according to another embodiment of the present invention.
Referring to FIG. 7, the air-filled packaging material of the present invention bonds a part of the upper sheet 10 and the lower sheet 20 forming the air cell 100 in order to block the inflow of air to a part of the air cell 100. be able to. By using the packaging material according to the present invention, it is possible to manufacture and use a planar packaging material, and by placing six such planar packaging materials on each surface inside the packaging box, cushioning is possible. The effect can be achieved.

  However, for further convenience, it is desirable to use the packaging material by folding it into a box shape. However, since the air cell part filled with air is difficult to be easily folded or bent, the upper sheet and the lower sheet are bonded so that the folded or bent part is not filled with air. It is desirable to make it.

  As a result, if the air cell 100 is filled with air, the air cell 100 filled with the partially bonded portion (W) can be easily folded, and a variety of boxes such as boxes can be used. The air-filled packaging material of the present invention can be folded into a shape and used.

  Although the foregoing has been described with reference to preferred embodiments of the invention, those skilled in the art will recognize that the invention is within the scope and spirit of the invention as defined by the following claims. It will be understood that various modifications and changes can be made.

DESCRIPTION OF SYMBOLS 10 Upper sheet 20 Lower sheet 100 Air cell 200 Air injection path 300 Communication path 310 Communication path air injection port 320 Communication path air discharge port 400 Sealing means 410 Sheet 500 Embossed sheet

Claims (7)

One or more air cells formed by being bonded by bonding the upper sheet and the lower sheet, and acting as a buffer against external pressure;
An air injection path formed by being separated by adhesion of the upper sheet and the lower sheet so that air can be injected into the air cell from the outside through the communication path;
One side is connected to the air injection passage for air inflow, and the other side is separated by adhesion of the upper sheet and the lower sheet so as to be connected to the air cell for air discharge. A communication path formed by
A sealing means provided in a communication path between a portion connected to the air injection passage and a portion connected to the air cell so as to prevent backflow of air filled in the air cell; Air-filled packaging material.   The air-filled packaging material according to claim 1, wherein the communication path is formed in parallel along a side surface of the air cell.   The sealing means is bent in the direction of the air injection passage, and further a V-shaped sheet extending in the direction of the air cell is formed by being bonded between the upper sheet and the lower sheet. The air-filled packaging material according to claim 1.   The said sealing means is located between the said upper sheet | seat and the said lower sheet | seat, The said lower sheet | seat, the said sealing means, and the said upper sheet | seat are adhere | attached and formed. Air-filled packaging material.   The sealing means, which is the V-shaped sheet, further includes an embossed sheet provided inside the sealing means so that the sealing means, which is the V-shaped sheet, can be easily adhered to the upper sheet and the lower sheet when air flows backward. The air-filled packaging material according to claim 3.   The air-filled packaging material according to claim 1, wherein the air cell is formed in a bent shape.   A part of the upper sheet and the lower sheet forming the air cell are bonded so that the inflow of air is blocked to a part of the air cell and the air-filled packaging material can be bent. The air-filled packaging material according to claim 1.