JP2013180812A - Cushioning material - Google Patents

Abstract

PROBLEM TO BE SOLVED: To propose an air-filled cushioning material having high cushioning effect, capable of being freely designed in conformity with the shape and weight of a commodity, facilitating filling of air and efficient packaging, having a simple structure, and capable of being inexpensively supplied.SOLUTION: An air-filled cushioning material is provided with an air chamber therein, wherein sealing surfaces of an outer surface film and an inner surface film are disposed opposite each other to seal a peripheral edge. The sealing surfaces of outer surface film edge parts overhanging from edge parts of the inner surface film are disposed opposite each other to form a fin seal part, and upper and lower edge parts are thereby annularly formed. The air chamber is divided into a plurality of laterally long small air chambers in communication with each other by air chamber horizontal seal parts alternately directed inward from a right peripheral edge seal part and a left peripheral edge seal part. Air is charged into all of the small air chambers by blowing the air from an air blowing port provided at one place of the peripheral edge seal part, and the air blowing opening is then tightly sealed.

Description

  The present invention relates to a cushioning material used to protect a product from impact when transporting a product that is easily damaged, and more particularly, a pneumatic buffer in which an air chamber is formed by bonding two films and enclosing air. Regarding materials.

  As a cushioning material using air cushioning properties, a thin synthetic resin film tube in which air is sealed and a sealing portion is provided at regular intervals to form a connected balloon is known. Since these cushioning materials can be very low in cost per volume, they are used for applications such as filling a space in a box containing products.

  However, just filling the gaps in the box with cushioning material may cause the product to move toward the outside of the box depending on the shape and weight of the product, and a sufficient protective effect cannot be expected. .

  In order to fully protect the product, it is necessary to surround the outer periphery of the product itself with a cushioning cushioning material and fix it so that it does not come off.

  The rust-proof packaging bag described in Patent Document 1 is formed by laminating an outer layer sheet having an impact buffering function and an inner layer sheet containing a vaporizable rust preventive agent, and adhering the peripheral portion, and air between the outer layer sheet and the inner layer sheet. A rust-proof packaging bag provided with a layer.

  The rust-proof packaging bag described in Patent Document 1 is intended to pack metal parts that are easily rusted, and the outer layer sheet is mainly intended to suppress the volatilization of the vaporized rust preventive contained in the inner layer sheet. Therefore, the main purpose is not to sufficiently inflate the air layer between the inner layer sheet and the outer layer sheet to exhibit a cushioning effect.

  For this reason, the rust-proof packaging bag described in Patent Document 1 does not have a mechanism for filling a sufficient amount of air so that air does not leak, and the air chamber is only one space. The function as a buffer material to protect was not sufficient. In addition, there is no particular problem when the product is small, but if the product becomes large and the weight increases, it becomes difficult to regulate the movement of the product, resulting in a problem that the packaging finish becomes very large. It was.

  The buffer packaging bag described in Patent Document 2 solves the above-mentioned problem, and can be filled with air from one place in all the sealed bag portions that are continuously divided in the lateral direction. The air filled in the portion is made of a cushioning material made of a synthetic resin film sheet configured such that each sealed bag portion independently maintains a sealed state so as not to escape from the sealed bag portion. The sealing bag part is folded in the length direction so that the cylinder is cylindrical, and the end parts of the cushioning material in the folding direction are joined together by welding, and the sealing bag part located at both end parts aligned in the horizontal direction has air In the filled state, the buffer packaging bag is characterized in that the diameter is larger than that of the sealed bag portion positioned therebetween.

  The buffer packaging bag described in Patent Document 2 has a large number of sealed bag portions filled with air, and each sealed bag portion is provided with a check valve in order to prevent the air filled therein from leaking. Yes.

JP 2010-215280 A Japanese Patent Laid-Open No. 2003-118773

  The buffer packaging bag described in Patent Document 2 includes a plurality of independent air chambers, a mechanism capable of simultaneously filling each air chamber, and a reverse for each air chamber in order to prevent the air from leaking. Since it is a structure provided with a stop valve, it is structurally complicated and must be expensive.

  The problem to be solved by the present invention has a high buffering effect, can be freely designed according to the shape and weight of the product to be protected, can be easily filled with air, and can be packaged efficiently. A pneumatic cushioning material that has a simple structure and can be supplied at low cost is proposed.

  As means for solving the above-mentioned problems, the invention according to claim 1 is characterized in that the sealing surface of the outer surface film and the sealing surface of the inner surface film are opposed to each other, the peripheral edge is sealed, and the air chamber is interposed between the two films. The upper and lower end portions of the outer surface film protrude from the end portions of the inner surface film, and the sealing surfaces of the protruding outer film end portions face each other. The air chamber is formed into an annular shape by forming a portion, and the air chamber is formed of a plurality of horizontally long and communicated small portions by an air chamber horizontal seal portion that alternately goes inward from the right peripheral seal portion and the left peripheral seal portion. Air is blown after all the small air chambers have been filled by blowing air from an air blowing port which is divided into air chambers and is an unsealed portion provided at one location of the peripheral seal portion. A buffer material, characterized in that the hermetic seal of the mouth.

  The cushioning material according to the present invention is a pneumatic cushioning material in which the sealing surfaces of the outer film and the inner film face each other, the peripheral edge is sealed, and an air chamber is provided between the films. As a cushioning material that protects the product to be surrounded by an air layer by putting the product in a ring and blowing air, because it is formed in an annular shape by forming a joint seal part with the faces facing each other The function of is demonstrated.

  In addition, the air chamber is divided into a plurality of horizontally long small air chambers by the air chamber horizontal seal portion alternately inward from the right peripheral seal portion and the left peripheral seal portion, so the horizontal seal portion is adapted to the shape of the product. By setting the position, it is possible to easily customize the shape of the product. Moreover, since these several small air chambers are connected, all the small air chambers can be inflated by blowing air from one place.

  The invention according to claim 2 is the cushioning material according to claim 1, wherein an air introduction path from the air blowing port to the first small air chamber is bent in an L shape. is there.

  According to a third aspect of the present invention, the air chamber horizontal seal portion where the air introduction path opens to the first small air chamber has an acute-angled sword shape, and the seal width is larger than that of other seal portions. The shock absorbing material according to claim 1 or 2, wherein a wide sword-shaped seal portion is formed.

  The cushioning material according to the present invention is manufactured by sealing two films of an inner surface and an outer surface, and does not use any pipe or check valve for introducing air, so that it can be manufactured at a low cost.

  Also, since it is molded in an annular shape, it can be attached to the product with a simple operation of placing the product in a ring and inflating it. Furthermore, by designing the position of the air chamber horizontal seal portion according to the product, it is possible to obtain an optimum shape for the product.

  A simple operation of sealing and sealing the air blowing port after all the small air chambers are filled with air by blowing air from the air blowing port which is an unsealed portion provided at one place of the peripheral seal portion. Since the cushioning material is completed, packing work can be performed efficiently.

  In the invention according to claim 2, when the air introduction path from the air blowing port to the first small air chamber is bent in an L shape, the air introduction path is naturally formed by wrinkles of the film by blowing air. The internal air will not escape immediately after the blowing nozzle is removed. For this reason, it becomes easy to do an air-sealing seal. The effect is that the air chamber horizontal seal portion where the air introduction path opens to the first small air chamber has a sharp sword shape at the tip, and a sword-shaped seal portion whose seal width is wider than other seal portions. In some cases it becomes even more pronounced.

FIG. 1 is a perspective view showing an embodiment of a cushioning material according to the present invention. FIG. 2 is a schematic cross-sectional view showing the X-X ′ cross section of FIG. 1. FIG. 3 is an explanatory plan view showing a state before the buffer material according to the present invention is formed in an annular shape.

Hereinafter, the cushioning material according to the present invention will be described in detail with reference to the drawings.
FIG. 1 is a perspective view showing an embodiment of a cushioning material according to the present invention. FIG. 2 is a schematic cross-sectional view showing the XX ′ cross section of FIG. 1. FIG. 3 is an explanatory plan view showing a state before the buffer material according to the present invention is formed in an annular shape. This will be described below with reference to these drawings.

  The cushioning material (1) according to the present invention is a pneumatic cushioning material in which the sealing surfaces of the outer film (2) and the inner film (3) are opposed to each other, the periphery is sealed, and an air chamber is provided between the films. In the outer film (2), the upper and lower end portions protrude from the end portion of the inner film (3), and the sealing surfaces (16) are formed with the seal surfaces of the protruding outer film end portions facing each other. By forming, it is formed into an annular shape.

  The air chamber is divided into a plurality of horizontally long and communicated small air chambers (8) by an air chamber horizontal seal portion (11) alternately directed inward from the right peripheral seal portion (12) and the left peripheral seal portion (13). It is divided.

  After filling all the small air chambers (8) by blowing air from an air blowing port (6) which is an unsealed portion provided at one place of the peripheral seal portion, the air blowing port (6) The pneumatic cushioning material (1) is completed by hermetically sealing the air-sealed seal planned portion (17a) and forming an air-sealed seal portion (not shown).

  The shock-absorbing material (1) according to the present invention seals the peripheral edge of the two films of the outer film (2) and the inner film (3) facing each other, and a small air chamber (8) between the films. Since a special member other than a film is not used, the cost can be kept low.

  In addition, since the air chamber is divided by a plurality of air chamber horizontal seals (11), it is possible to design without waste according to the outer shape of the product to be protected, and to produce a cushioning material with a minimum of materials can do.

  In addition, since the cushioning material is formed in an annular shape in advance, the cushioning material can be packed by a simple operation of simply inserting a product into the interior and blowing in air. Furthermore, since a plurality of small air chambers (8) communicate with each other, all the small air chambers (8) can be inflated simply by blowing air from one air blowing port (6). The efficiency of is good.

  In the embodiment shown in FIG. 3, the air introduction path (7) from the air inlet (6) to the first small air chamber is bent in an L shape. When the air introduction path (7) is arranged in this way, when air is blown and the small air chamber (8) is inflated, wrinkles enter the film due to the asymmetry of the air introduction path (7), and the air introduction path ( 7) becomes easy to block. This means that even if the air nozzle is removed after the air is filled, the air does not escape immediately, and the air filling workability is improved.

  In the embodiment shown in FIG. 3, the tip of the air chamber horizontal seal portion of the portion where the air introduction path (7) opens to the first small air chamber has a sharp sword shape, and the seal width is larger than that of the other seal portions. A wide sword seal (15) is provided. By doing in this way, it becomes easy to generate | occur | produce the wrinkle of a film more strongly, and air filling workability | operativity improves.

  As the film used for the cushioning material (1) according to the present invention, various thermoplastic resin films can be used, and the size, shape, weight, and required impact resistance of the target product can be used. It is designed appropriately according to the degree.

  If the required level is not high, a single film of polyolefin resin such as polyethylene resin or polypropylene resin may be used. When the required level is high, a film having sufficient strength such as a polyester resin film or a polyamide resin film can be used. Furthermore, a laminate film obtained by bonding a polyolefin resin film as a sealant layer to these high-strength films can be used.

Furthermore, a gas barrier layer may be provided in the middle so that air does not escape even after long-term use. The outer film (2) and the inner film (3) do not necessarily have the same specification.
Hereinafter, the buffer material according to the present invention will be described more specifically based on examples.

  A polyester resin film having a thickness of 12 μm and a polyethylene resin film having a thickness of 40 μm were bonded together using an adhesive for dry lamination to prepare a laminate film. A laminate film of 220 mm × 420 mm as the outer surface film and 200 mm × 400 mm as the inner surface film is cut out, the polyethylene resin surface which is the sealant surface is opposed, the peripheral edge is sealed, and the air chamber is horizontal in a pattern as shown in FIG. A seal was provided. The seal width is about 5 mm, and the interval between the air chamber horizontal seal portions is about 50 mm. The width of the sword-shaped seal part was about 15 mm.

  The sealant surfaces of the outer surface film that protruded from the top and bottom were sealed to create a palm seal part, which was then formed into an annular shape. A cylindrical product having a diameter of 80 mm and a height of 140 mm was inserted into the ring, and an air nozzle was inserted into the air blowing port to fill with compressed air. Due to the action of the air introduction path bent in an L-shape and the sword-shaped seal portion, no air leakage occurred even when the air nozzle was removed. The air-sealing seal was sealed to seal the air in the cushioning material.

A cushioning material was prepared in the same manner as in Example 1 except that a nylon film having a thickness of 15 μm was used instead of the polyester resin film having a thickness of 12 μm, and the same products as in Example 1 were inserted for evaluation. did.

  In both cases, the cushioning material of Example 1 and the cushioning material of Example 2 were held almost evenly by the pressure of each air chamber, and did not move in the cushioning material.

DESCRIPTION OF SYMBOLS 1 ... Buffer material 2 ... Outer surface film 3 ... Inner surface film 5 ... Product 6 ... Air blowing inlet 7 ... Air introduction path 8 ... Small air chamber 11 ... Air Horizontal chamber seal 12 ... Right peripheral seal 13 ... Left peripheral seal 14 ... Lower peripheral seal 15 ... Sword seal 16 ... Palm seal 16a, 16b ... Palm Planned seal portion 17a: Planned air-sealed seal

Claims (3)

A pneumatic cushioning material in which the sealing surface of the outer film and the sealing surface of the inner film are opposed to each other, the periphery is sealed, and an air chamber is provided between the two films,
The upper and lower end portions of the outer surface film protrude from the end portions of the inner surface film, and are formed into an annular shape by forming a palm seal portion by making the protruding seal faces of the outer surface film faces each other. And
The air chamber is divided into a plurality of horizontally long and communicating small air chambers by an air chamber horizontal seal portion that alternately goes inward from the right peripheral seal portion and the left peripheral seal portion,
The air blowing port is hermetically sealed after all the small air chambers are filled with air by blowing air from an air blowing port which is an unsealed portion provided at one place of the peripheral seal portion. Cushioning material.   The cushioning material according to claim 1, wherein an air introduction path from the air blowing port to the first small air chamber is bent in an L shape.   The air chamber horizontal seal portion where the air introduction path opens to the first small air chamber has a sharp sword shape at the tip, and a sword-shaped seal portion whose seal width is wider than other seal portions. The cushioning material according to claim 1 or 2, characterized in that