TW201420455A - Bag bottom buffering structure of airbag - Google Patents

Abstract

A bag bottom buffering structure of airbag is a buffering structure disposed at the bag bottom of the airbag to result in air columns showing angular bending and generating curved extending buffer space. The airbag has a first bag body surface, a second bag body surface, and a bag body bottom surface connecting the bottom parts of the first and second bag body surfaces. A receiving space is among the first, second bag body surfaces and the bag body bottom surface. A bag opening communicating the receiving space is between the first and second bag body surfaces. The bag body bottom surface is intervally disposed with a plurality of air columns respectively extended toward a direction of the bag opening via the first and second bag body surfaces. The inner walls at two sides of the bag body bottom surface are mutually bonded by one or more than one fixing parts to allow the air columns of the bag body bottom surface to bend and protrude toward the reverse direction of the bag opening to form an included angle so that the air columns of the bag body bottom surface shows the angular bending configuration, thereby constituting a curved extending buffer space.

Description

Air bag bottom cushion structure

The invention provides a bag bottom buffer structure of an air bag, in particular to an air bag having a plurality of air columns on the surface, in particular to a buffer structure which is arranged at the bottom of the bag of the air bag to cause the air column to be in a folded angle shape and to generate a curved surface extending buffer space. .

At present, airbags for packaging with buffered air columns have been widely used in the packaging of fragile articles. When the articles to be packed are subjected to impact or external impact, the air column can provide a cushioning effect to avoid damage to the articles.
It is known that the inside of the conventional cushion air bag 1b has a receiving space 13b (shown in FIG. 6) for accommodating the article 9, and the top of the air bag 1b has a bag opening 11b communicating with the accommodating space 13b, and the air bag 1b The double sides and the bottom 12b are generally formed with a plurality of air columns 61b, 62b, 63b by heat sealing line spacing, and the air columns 61b, 62b, 63b are mainly arranged along the axial direction of the bag opening 11b and the bag bottom 12b. And the air column 61b, 62b, 63b can be wrapped around the article 9 along with the air bag 1b, so that the air column 61b, 62b, 63b can be in the air bag 1b when the air bag 1b is subjected to a collision or an external force impact. The packaged article 9 provides shock absorption and cushioning to prevent the article 9 from being broken or damaged during transportation.
However, when the article 9 is placed inside the accommodating space 13b of the air bag 1b, there is only a slight gap between the bottom of the article 9 and the bottom inner wall of the accommodating space 13b due to the weight of the article 9, or the article 9 The bottom is directly in contact with the inner wall of the bottom of the accommodating space 13b; but the disadvantage is that when the bottom 12b of the air bag 1b collides with the ground, since the bottom of the article 9 and the bottom inner wall of the accommodating space 13b do not have sufficient buffer space, the gas The impact force of the bag bottom 12b of the bag 1b colliding with the ground is easily transmitted directly to the bottom of the article 9, causing the article to be damaged.
In view of the above, the present inventors have developed the present invention to improve the above problems with its many years of experience in the production, manufacture and design of airbags.

The main object of the present invention is to provide a cushioning structure which is arranged on the bottom of the bag of the air bag to cause the air column to be in a folded shape and to generate a curved surface extending buffer space, to overcome the above prior art, when the article is placed inside the air bag. Due to the weight of the item, there is only a slight gap between the item and the bottom of the bag, or the item directly touches the bottom of the bag, so that the impact force of the bottom of the bag against the ground is easily transmitted directly to the bottom of the article, resulting in The problem of damage to the item.
In order to achieve the above object, an air bag bottom cushioning structure is provided at a bottom of the air bag, the air bag has a first bag body surface, a second bag body surface, and a first bag body surface And the bottom surface of the bag body at the bottom of the second bag body, the first bag body surface is connected to the two sides of the second bag body surface, and the first bag body surface, the second bag body surface and the bottom surface of the bag body have an accommodating space. And a pocket of the first bag body surface and the top surface of the second bag body having a receiving space, and a plurality of air columns are disposed on the bottom surface of the bag body, and the gas column is respectively passed through the first bag The body surface and the second bag body face extend in the direction of the bag mouth, and the technical features are as follows:
The inner side walls of the bottom surface of the bag body are adhered to each other via one or more fixing portions, and the air column of the bottom surface of the bag body is bent and protruded in the opposite direction of the bag mouth to form an angle, so that the bottom surface of the bag body The air column is in a folded angle form to form a curved extension buffer space.
By the above, without the additional material, the structural part is used to cover the double inner walls of the bottom surface of the bag body by using the fixing portion, so that the air column on the bottom surface of the bag body is double with the bottom surface of the bag body. The side inner wall is bent in a direction opposite to the bag mouth to form a chamfered shape, and the air column of the chamfered shape forms the curved surface extending buffer space at the bottom of the air bag, so that the curved surface extending the buffer space is toward the bottom of the bag. A reduced diameter triangle.
In this way, when the article is placed inside the accommodating space from the bag opening, the outer wall of the article is wrapped between the first bag body surface and the second bag body surface, and the curved surface extends the buffer space to reduce the diameter of the bag bottom direction, thereby hindering The bottom of the article is completely inserted into the curved surface extending buffer space, so that the curved surface extending buffer space is spaced between the bottom of the article and the inner wall of the bottom of the accommodating space; when the bottom of the air bag collides with the ground, the bottom of the bag collides with the ground. The force can accept the double absorption of the air column on the bottom surface of the bag body and the curved surface extending buffer space, and prevent the article from being damaged by the impact force of the bottom of the air bag bottom against the ground.
Accordingly, the fixing portion used in the present invention does not increase the structural change of the material, and is used to change the extending direction of the air column at the bottom of the air bag, so that the bilaterally symmetric inner wall of the bottom surface of the bag body is angled and formed at the bottom of the bag. The buffer space can be extended from the curved surface between the object and the bottom of the accommodating space, and the buffering space of the curved surface extends a buffering distance of the space to achieve the above-mentioned shape of the air column at the bottom of the air bag and Produce the surface to extend the buffer space.
According to the above main structural features, a first heat sealing node is disposed between the first bag body surface and the air column at the bottom surface of the bag body, and a side of the first heat sealing node has a first bottom body surface and a bottom surface of the bag body. a first air path of the air column, a second heat sealing node is disposed between the second bag body surface and the air column of the bottom surface of the bag body, and a side of the second heat sealing node has a second body surface and The second gas path of the gas column at the bottom of the bag body.
According to the above main structural features, the fixing portion is disposed on the air column of the bottom surface of the bag body, or the fixing portion is disposed between the air columns of the bottom surface of the bag body.
In addition, the bag bottom cushioning structure of another air bag of the present invention is disposed at the bottom of the bag of the air bag, the air bag has an accommodating space inside, and the top of the air bag has a bag mouth connecting the accommodating space, and A plurality of air columns are arranged on the bottom of the bag, and the air columns respectively extend along the two sides of the air bag toward the bag mouth, and the technical features are:
The two sides of the accommodating space are located at the bottom of the bag at one or more fixing portions, and the air column of the bag bottom is bent in the opposite direction of the bag opening to form an angle. The air column of the bottom of the bag is in an angled shape to form a curved extension buffer space.
According to this, the above-mentioned bag bottom of the air bag can be used to cause the air column to be in a folded shape and to generate a curved surface extending buffer space.
According to the above main structural features, the fixing portion is disposed on the air column of the bottom of the bag, or the fixing portion is disposed between the air columns of the bottom of the bag.
In addition to this, the present invention further includes:
According to the above main structural features, the fixing portion has a dot shape or a linear shape.
According to the above main structural features, the fixing portion is formed by hot melt forming on the bottom of the air bag.
According to the above main structural features, the side of the air bag is provided with a retracting hot-pressing side wire extending from the bag opening to the bottom of the bag, and the side of the air bag is formed on the side of one side of the air bag via the side wire spacing. a first side air column of the everted type, and a second side air column outside the side of the other side of the air bag, the first side air column and the second side air column are juxtaposed to form a gas facing the gas Side buffer side on the side of the bag.
However, in order to clearly and fully disclose the present invention, the preferred embodiments are illustrated, and the detailed description of the embodiments will be described as follows:

Referring to FIG. 1 , a front perspective view of the first embodiment of the present invention is disclosed, FIG. 2 is a side perspective view of FIG. 1 , and FIG. 3 is a cross-sectional view of the AA of FIG. 1 , together with FIG. 1 to FIG. 3 . The bag bottom buffer structure of the air bag of the present invention is disposed on the bottom 12 of the air bag 1, the air bag 1 having a first bag body surface 3, a second bag body surface 4, and a first bag body surface 3 The bottom surface and the bottom surface 5 of the bottom of the second bag body surface 4, the first bag body surface 3 and the second bag body surface 4 are connected to each other, the first bag body surface 3, the second bag body surface 4 and the bag body bottom surface 5 There is an accommodating space 13 between the first bag body surface 3 and the top of the second bag body surface 4, and a bag opening 11 communicating with the accommodating space 13 is provided.
The first bag body surface 3 and the second bag body surface 4 constitute the double side faces of the air bag 1, and the bag body bottom surface 5 constitutes the bag bottom 12 of the air bag 1.
A plurality of air columns 63 are disposed on the bottom surface 5 of the bag body, and the air column 63 extends through the first bag body surface 3 and the second bag body surface 4 toward the bag opening 11 respectively, and extends to form a plurality of faces on the first bag body surface. The air column 61 on 3, and the plurality of air columns 62 on the second bag body surface 4.
The first bag body surface 3, the second bag body surface 4 and the bag bottom surface 5 are respectively heat-pressed to form a plurality of heat seal lines, and the heat seal lines are spaced apart to form the air columns 61, 62, and 63.
A first heat sealing node 71 is disposed between the first bag body surface 3 and the air column 61, 63 of the bottom surface 5 of the bag body, and a side of the first heat sealing node 71 has a first bag body surface 3 and a bag. a first air passage 81 of the air column 61, 63 at one end of the bottom surface 5, a second heat sealing node 72 between the second bag surface 4 and the air column 62, 63 at the other end of the bottom surface 5 of the bag body, and The second heat sealing node 72 has a second air passage 82 communicating with the second bag body surface 4 and the air column 62, 63 of the bag bottom surface 5 on the side of the heat sealing node 72.
The first bag body surface 3, the second bag body surface 4 and the bag bottom surface 5 are curved in a U shape by the design of the first heat sealing node 71 and the second heat sealing node 72.
According to the above implementation environment, the double inner walls 51, 52 of the bottom surface 5 of the bag body are adhered to each other via one or more fixing portions 2, so that the air column 63 of the bottom surface 5 of the bag bottom 12 is directed toward the bag opening 11. The curved portion protrudes in the opposite direction to form an angle α, and the air column 63 of the bottom surface 5 of the bag body is in a folded shape to form a curved surface extending buffer space 14 that communicates with the accommodating space 13.
The fixing portion 2 may be disposed on the air column 63 of the bottom surface 5 of the bag body, or the fixing portion 2 may be disposed between the air columns 63 of the bottom surface 5 of the bag body.
In a more specific implementation, the invention also includes:
In practice, the fixing portion 2 can be disposed on the bottom surface 5 of the bag at both ends of the air bag 1, and the fixing portion 2 can be in a line shape, or the fixing portion 2a can also be in a dot shape. (See Figure 4).
In practice, the fastening portions 2, 2a are formed by hot melt on the bottom surface 5 of the bag bottom 12 of the air bag 1.
In practice, the side of the air bag 1 is provided with a retracting hot-pressing side wire 15 extending from the bag opening 11 to the bag bottom 12, and the side wire 15 is formed on the side of the air bag 1 by hot melt, and the air bag is A side edge is formed by the side wire 15 to form a first side air column 64 on the one side of the air bag 1 and a second side air column 65 on the other side of the air bag 1 . The first side air column 64 and the second side air column 65 are combined side by side to form a side buffer surface 16 facing the side of the air bag 1 .
In practice, the first side air column 64 is located on the side of the first bag body surface 3, and the second side air column 65 is located on the side of the second bag body surface 4.
According to the above structural composition, the present invention can be used to apply the fixing portions 2, 2a to the double inner walls 51, 52 of the bottom surface 5 of the bag body, so that the air column 63 of the bottom surface 5 of the bag body follows The double-sided inner walls 51, 52 of the bottom surface of the bag body are bent and protruded in the opposite direction of the bag opening 11 in a folded angle state, and the air column 63 of the folded-angle type forms the curved surface extension buffer at the bottom 12 of the air bag 1. The space 14 causes the curved surface extension buffer space 14 to have a triangular shape that is reduced in diameter toward the bottom 12 of the bag.
It is to be noted that the fixing portions 2, 2a can be designed to fit the double inner walls 51, 52 of the bottom surface 5 of the bag body by using the fixing portions 2, 2a without additional material addition. The air column 63 of the bottom surface 5 of the bag body and the inner wall of the bottom of the accommodating space 13 are changed in a structural form.
Thus, when the article 9 to be accommodated is swung from the bag opening 11 of the air bag 1 into the interior of the accommodating space 13, the outer wall of the article 9 is wrapped between the first bag body surface 3 and the inner wall of the second bag body surface 4 due to The curved surface of the buffering space 14 is reduced in the direction of the bottom 12 of the bag, so that the bottom of the article 9 can be completely inserted into the curved surface extending buffer space 14 , and the curved extending buffer space 14 is spaced apart from the bottom of the article 9 and the bottom inner wall of the receiving space 13 . between.
When the bottom 12 of the air bag 1 collides with the ground, the impact force of the bottom of the bag 12 colliding with the ground can be double absorbed by the air column 63 and the curved extension buffer space 14 of the bottom surface 5 of the bag body, and the bottom of the article 9 is prevented from being subjected to the air bag 1 The bottom of the bag 12 is damaged by the impact force of the ground.
Accordingly, the fixing portions 2, 2a used in the present invention are used to change the extending direction of the air column 63 of the bottom portion 12 of the air bag 1 without changing the structural change of the material, so that the double-sided symmetric inner wall 51 of the bottom surface 5 of the bag body, 52 is formed as an angle, and the bottom 12 of the bag is bent to form a curved surface extending buffer space 14 spaced between the bottom of the article 9 and the bottom of the accommodating space 13. The curved extending buffer space 14 extends a spatially thick buffering distance to Overcoming the above prior art, when the article is placed inside the air bag, due to the weight of the article, only a slight gap is left between the article and the bottom of the bag, or the article directly touches the bottom of the bag, resulting in a bag of the air bag. The impact force of the bottom collision ground is easily transmitted directly to the bottom of the article, which causes the problem of the damage of the article, thereby achieving the purpose of the above-mentioned pocket bottom 12 of the air bag 1 causing the air column 63 to be in a folded shape and generating a curved surface extending buffer space 14.
Referring to FIG. 4, a front perspective view of a second embodiment of the present invention is disclosed. FIG. 5 is a cross-sectional view of the bottom of FIG. 4, and FIG. 4 and FIG. The bag bottom 12a of the air bag 1a has an accommodating space 13a, and the top of the air bag 1a has a bag opening 11a that communicates with the accommodating space 13a, and is provided with a plurality of air at the bag bottom 12a. In the column 63a, the air column 63a extends in the direction of the bag opening 11a along both sides of the air bag 1a, and a plurality of air columns 61a and 62a are formed on both sides of the air bag 1a.
The two side inner walls 131a, 132a of the accommodating space 13a are attached to each other at one position of the bag bottom 12a via one or more fixing portions 2a, and the air column 63a of the bag bottom 12a is bent in the opposite direction to the bag opening 11a. An angle α is formed to protrude, so that the air column 63a of the bag bottom 12a is in a folded shape to form a curved extension buffer space 14.
The fixing portion 2a may be disposed on the air column 63a of the bag bottom 12a, or the fixing portion 2a may be disposed between the air column 63a of the bag bottom 12a, and the first and second heat sealing nodes are omitted. 71, 72 and the first and second air passages 81, 82, the remaining components and embodiments are equivalent to the first embodiment described above.
Accordingly, the above-mentioned bag bottom 12a of the air bag 1a can be made to cause the air column 63a to be in an angled shape and to generate a curved surface extending buffer space 14 to prevent the bottom of the article 9 from being affected by the impact force of the bag bottom 12a of the air bag 1a colliding with the ground. And it is ruined.
The invention is not intended to limit the invention, and other equivalent modifications or substitutions that are not departing from the spirit of the invention are intended to be included in the appended claims. Within the scope.

1, 1a, 1b. . . Air bag

11, 11a, 11b. . . Bag mouth

12, 12a, 12b. . . Bottom of bag

13, 13a, 13b. . . Housing space

131a, 132a, 51, 52. . . Inner wall

14. . . Surface extension buffer

15. . . Side wiring

16. . . Side buffer surface

2, 2a. . . Fastening

3. . . First bag face

4. . . Second bag face

5. . . Bottom of bag

61, 62, 63, 61a, 62a, 63a, 61b, 62b, 63b. . . Air column

64. . . First side air column

65. . . Second side air column

71. . . First heat seal node

72. . . Second heat seal node

81. . . First gas path

82. . . Second gas path

9. . . article

Figure 1 is a front perspective view of a first embodiment of the present invention;
Figure 2 is a side perspective view of Figure 1;
Figure 3 is a cross-sectional view taken along line AA of Figure 1;
Figure 4 is a front perspective view of a second embodiment of the present invention;
Figure 5 is a cross-sectional view taken along line BB of Figure 4;
Figure 6 is a cross-sectional view of a conventional air bag.

1. . . Air bag

11. . . Bag mouth

12. . . Bottom of bag

15. . . Side wiring

2. . . Fastening

3. . . First bag face

4. . . Second bag face

5. . . Bottom of bag

61, 62, 63. . . Air column

64. . . First side air column

65. . . Second side air column

71. . . First heat seal node

81. . . First gas path

Claims (8)

The bag bottom cushioning structure of the air bag is disposed at the bottom of the air bag, the air bag has a first bag body surface, a second bag body surface, and a bottom portion connecting the first bag body surface and the second bag body surface a bottom surface of the bag body, the first bag body surface is connected to two sides of the second bag body surface, and the first bag body surface, the second bag body surface and the bottom surface of the bag body have an accommodating space, and the first bag body surface a bag mouth communicating with the accommodating space is disposed between the top surface of the second bag body, and a plurality of air columns are disposed on the bottom surface of the bag body, and the air column faces the second bag body surface through the first bag body surface The bag mouth extends in a direction and is characterized by:
The inner side walls of the bottom surface of the bag body are adhered to each other via one or more fixing portions, and the air column of the bottom surface of the bag body is bent and protruded in the opposite direction of the bag mouth to form an angle, so that the bottom surface of the bag body The air column is in a folded angle form to form a curved extension buffer space. The bag bottom cushioning structure of the air bag according to claim 1, wherein a first heat sealing node is disposed between the first bag body surface and the air column at the bottom surface of the bag body, and the first heat sealing node has a side a first air passage connecting the air surface of the first bag body surface and the bottom surface of the bag body, a second heat sealing node disposed between the second bag body surface and the air column at the bottom surface of the bag body, and a second heat sealing node The side has a second air passage connecting the second bag body surface and the air column of the bottom surface of the bag body. The bag bottom buffer structure of the air bag according to claim 1, wherein the fixing portion is disposed on the air column of the bottom surface of the bag body, or the fixing portion is disposed on the air column of the bottom surface of the bag body. between. The bag bottom cushioning structure of the air bag is disposed at the bottom of the bag of the air bag, the air bag has an accommodating space therein, and the top of the air bag has a bag mouth connecting the accommodating space, and is spaced on the bottom of the bag A plurality of air columns are disposed, and the air columns respectively extend along the two sides of the air bag toward the bag mouth, and are characterized by:
The two sides of the accommodating space are located at the bottom of the bag at one or more fixing portions, and the air column of the bag bottom is bent in the opposite direction of the bag opening to form an angle. The air column of the bottom of the bag is in an angled shape to form a curved extension buffer space. The bag bottom cushioning structure of the air bag according to claim 1, wherein the fixing portion is disposed on the air column of the bag bottom, or the fixing portion is disposed between the air column of the bag bottom. The bag bottom cushioning structure of the air bag according to any one of claims 1 to 4, wherein the fixing portion has a dot shape or a line shape. The bag bottom cushioning structure of the air bag according to any one of claims 1 to 4, wherein the fixing portion is formed by hot melt forming on the bottom of the bag. The bag bottom cushioning structure of the air bag according to any one of claims 1 to 4, wherein the air bag side is provided with a retracting hot-pressing side wire extending from the bag mouth to the bottom of the bag, and the gas The side of the bag forms a first side air column on the side of one side of the air bag, and a second side air column on the other side of the air bag. The one side air column and the second side air column are juxtaposed to form a side buffer surface facing the side of the air bag.