TW201529437A - Air shockproof cover having corner improved structure - Google Patents

Abstract

An air shockproof cover having corner improved structure for covering an article to provide buffering protection. Its main components include a first buffering wall, a second buffering wall, at least one first node, at least one second node, a third buffering wall, and an accommodation space, wherein the third buffering wall is connected between the first buffering wall and the second buffering wall by bending through them and formed with the accommodation space. This air shockproof cover is characterized in that the first buffering wall and the second buffering wall adhere the air column lines corresponding to each other via bending by means of hot sealing, and an opening is preset at the lower side to form an adhesive portion so that the bottom of the opening exhibits a flat shape. Further, after inflation, the outer side of the adhesive portion is taken as a triangular buffering portion of the shockproof cover together with air columns of the third buffering wall. The air columns of the triangular buffering portion are additionally provided with at least one oblique section block at the lower side thereof such that air columns of the triangular buffering portion are upwardly folded at the lower portion of the section block to remove the corner of the buffering portion, and air columns of the buffering portion are partially expand at the upper portion of the section block to present a state of parallel arrangement, thus expanding the buffering area of the buffering portion.

Description

Air shockproof sleeve with improved corner structure

The invention relates to the structural design of the air anti-vibration sleeve, in particular to a gas-column guiding of the air column of each part of the air anti-vibration sleeve based on the heat sealing means, so that the corner molding is improved by the mutual extrusion method. Structure of the air shockproof sleeve.

Please refer to the invention patent of the Republic of China No. 201130719. The invention patent mainly discloses a vacuum hammock type shockproof sleeve capable of achieving shock and collision avoidance. The main components thereof include: a first buffer wall, which is sealed by a plurality of heat seals. The plurality of gas columns are formed, and one side is provided with an extended side; a second buffer wall is composed of a plurality of air columns formed by a plurality of heat sealing edges; and a third buffer wall is formed by a plurality of heat sealing edges a plurality of gas cylinders, one side of which is provided with an extended side; an accommodating space is formed by the first buffer wall, the second buffer wall and the third buffer wall; and an inner membrane is a bag-shaped type, The material of the corrugated PE, the PE composite film or the plastic sheet is connected to the extending edge of the first buffer wall and the third buffer wall with the opening edge to suspend the inner film in the accommodating space; The use of the invention patent mainly involves first taking the package into the inner membrane and then extracting the air in the inner membrane by external equipment, so that the inner membrane becomes a vacuum state and completely covers the package, and finally the first An extension of the buffer wall and the third buffer wall, and The open edge of the inner membrane is tightly sealed by heat sealing to maintain the inner membrane in a vacuum state, whereby the package can be subjected to the first buffer wall during the transportation process, in addition to being covered by the inner membrane. The coating of the second buffer wall and the third buffer wall can effectively achieve the anti-shock effect under the double protection.
Compared with the prior art, the purpose of the invention patent is mainly to attach the opening edge of an inner membrane to the extending edges of the first buffer wall and the third buffer wall, and to place the inner membrane on the first buffer wall, In the accommodating space formed by the second buffer wall and the third buffer wall, after the package is placed in the inner film, the inner film is vacuumed by an external device, so that the inner film completely covers the package, and Under the buffer protection of a buffer wall, a second buffer wall and a third buffer wall, the purpose of improving the anti-vibration effect is achieved; however, although the invention patent has the above-mentioned advantages, the first buffer wall and the outer side of the second buffer wall The joint between the two ends, and the joint of the third buffer wall and the outer ends of the first buffer wall and the second buffer wall respectively form a sharp corner of the outer buffer structure, and the corners are subjected to an external force When the squeezing or collision with the outside world is easy to cause rupture, the overall buffer structure is damaged and the anti-shock effect cannot be achieved. It is known from the shortcomings of the invention patent that the conventional technology still needs improvement. Square, so, how to solve the problem, in fact, people in this case to be solved by the invention of the point where the technical difficulties.

Therefore, in view of the problems raised by the prior art mentioned above, the present inventors have devoted themselves to research and design, and it is desirable to provide an air shockproof cover having a corner-improved structure for use by the consumer. The purpose is as follows .
The invention provides an air shockproof sleeve with a corner improved structure for covering an article to provide buffer protection, which is mainly composed of a first buffer wall, a second buffer wall, at least a first node, at least one a second node, a third buffer wall and an accommodating space, wherein the first buffer wall comprises at least one first heat sealing edge, which is perpendicular to the first heat sealing edge and is heated by heat sealing means The column line is divided into a plurality of air columns, the second buffer wall includes at least one second heat sealing edge, and the first heat sealing edge is followed by a heat sealing means, which is perpendicular to the second heat sealing edge and via heat The air column of the sealing means is divided into a plurality of air columns, the first node is located on the first buffer wall, the first buffer wall is bent along the first node, and the second node is located on the second buffer wall The second buffer wall is bent along the second node, and the third buffer wall is connected between the first buffer wall and the second buffer wall by bending the first buffer wall and the second buffer wall And the accommodating space is bent by the first buffer wall and the second Forming a wall between the first buffer wall and the second buffer wall; the air shockproof sleeve is characterized in that the first buffer wall and the second buffer wall are heat sealed and then bent to correspond to each other a gas column line, and an opening is reserved on the lower side to form a joint portion, so that the bottom of the opening is flat, and then the air column of the third portion of the joint portion and the third buffer wall are used as a shockproof after inflation. A triangular buffer.
The main object of the present invention is to reduce the portion of the air column of the buffer portion facing downwards by adding at least one oblique block to the lower side of the air column of the triangular buffer portion. The corners of the buffer portion are removed, and the portion of the buffer portion above the block is unfolded to assume a parallel arrangement, thereby expanding the buffer area of the buffer portion.
A secondary object of the present invention is to provide a width of both ends of the opening of the accommodating space by sequentially forming at least two first gas columns and second gas columns having different calibers and adjacent to each other. The first gas column and the second gas column are mutually extruded and expanded.
Another object of the present invention is to eliminate the irregular wave pattern of the opening edge of the accommodating space by forming an inclination on the inner edge of the air column for separating the gas columns on the inner side of the bottom portion.

100‧‧‧Air shockproof cover
200‧‧‧ items
1‧‧‧First buffer wall
10‧‧‧First heat seal
11‧‧‧ gas column
110‧‧‧ gas column
111‧‧‧ gas column line
111a‧‧‧ gas column line
112‧‧‧End of the upper section
Section 113‧‧‧
114‧‧‧ inclined section
2‧‧‧Second buffer wall
20‧‧‧second heat seal
21‧‧‧ gas column
210‧‧‧ gas column
211‧‧‧ gas column
212‧‧‧End of the upper section
Section 213‧‧‧
214‧‧‧ inclined section
3‧‧‧first node
4‧‧‧second node
5‧‧‧ third buffer wall
51‧‧‧ gas column
510‧‧‧ gas column
6‧‧‧ accommodating space
7‧‧‧buffer
8‧‧‧Continue
80‧‧‧ openings
81‧‧‧First air column
82‧‧‧Second gas column
9‧‧‧ buffer

BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a schematic perspective view of a preferred embodiment of the present invention.
Figure 2 is a partial cross-sectional view showing the accommodation space of the preferred embodiment of the present invention.
Figure 3 is a partial cross-sectional view of the preferred embodiment of the present invention.
Figure 4 is a partial cross-sectional view of the adjacent gas column on the inside of the preferred portion of the preferred embodiment of the present invention.
Figure 5 is a perspective enlarged view of the buffer portion of the preferred embodiment of the present invention before folding.
Figure 6 is a perspective side view of the buffer portion of the preferred embodiment of the present invention after folding.
Figure 7 is a perspective enlarged view of the adjacent gas column on the inner side of the joint of the present invention.
Figure 8 is a perspective enlarged view of the adjacent gas column on the inner side of the joint of the present invention.
Figure 9 is a perspective exploded view of the preferred embodiment of the present invention.
Figure 10 is a schematic view showing the development of the first, second and third buffer walls of the preferred embodiment of the present invention.
Figure 11 is a partially enlarged schematic view showing the first aspect of the preferred embodiment of the present invention.
Figure 12 is a partially enlarged schematic view showing a second aspect of the preferred embodiment of the present invention.
Figure 13 is a partially enlarged schematic view showing a third aspect of the preferred embodiment of the present invention.
Figure 14 is a partially enlarged schematic view showing a fourth aspect of the preferred embodiment of the present invention.
Figure 15 is another partially enlarged schematic view of the first aspect of the preferred embodiment of the present invention.
Figure 16 is a partially enlarged schematic view showing a fifth aspect of the preferred embodiment of the present invention.
Figure 17 is a schematic view showing the state of use of the preferred embodiment of the present invention.
Figure 18 is a side perspective view of one of the preferred embodiments of the present invention.
Figure 19 is a schematic view showing the formation of the third buffer wall of the present invention.

In order to achieve the above objects and effects, a preferred embodiment will be described in conjunction with the drawings, and those of ordinary skill in the art can implement the present invention.
Please refer to FIG. 1 to FIG. 4, FIG. 9 , FIG. 10 and FIG. 17 , which respectively show a perspective view of a preferred embodiment of the present invention, and a partial cross section of the accommodation space of the preferred embodiment of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a partial cross-sectional view of a preferred embodiment of the present invention, a partial cross-sectional view of an adjacent gas column on the inside of a preferred embodiment of the present invention, a perspective exploded view of a preferred embodiment of the present invention, and a preferred embodiment of the present invention. Schematic diagram of the first, second and third buffer walls and a schematic view of the state of use of the preferred embodiment of the present invention. As shown, the air shockproof sleeve 100 of the present invention having a corner improved structure is intended to cover an article. The buffering protection is provided, and the main component comprises a first buffer wall 1, a second buffer wall 2, at least one first node 3, at least one second node 4, a third buffer wall 5, and an accommodating space 6. The first buffer wall 1 includes a first heat seal 10, and the first heat seal 10 is formed by a heat sealing means as the upper edge of the first buffer wall 1, and the first buffer wall 1 is composed of a plurality of Vertical to the first heat seal The gas column 11 is composed of 10 gas columns 11 which are separated from each other by a gas column line 111 of a heat sealing means, and are arranged side by side to form a first buffer wall 1; the second buffer wall 2 and the first buffer wall The structures of 1 are identical and correspond to each other, and the first heat sealing edge 10 is followed by heat sealing means, and at least one second heat sealing edge 20 is included, and the second heat sealing edge 20 is also formed by heat sealing means. The upper edge of the second buffer wall 2, and the second buffer wall 2 is also composed of a plurality of gas columns 21 perpendicular to the second heat sealing edge 20, which are also the air column lines 211 of the heat sealing means. The second buffer wall 2 is formed by being separated and arranged side by side.
As described above, in the air columns 11 and 21 of the first buffer wall 1 and the second buffer wall 2, the other side of the first heat seal 10 and the second heat seal 20 are further provided with a node 3 and a second node 4, the nodes 3, 4 are arranged such that the first buffer wall 1 is bent along the first node 3 without causing the corresponding gas columns 11, 21 to communicate with each other, and The second buffer wall 2 is bent along the second node 4, thereby forming a connection between the first buffer wall 1 and the second buffer wall 2 by bending the first buffer wall 1 and the second buffer wall 2 The third buffer wall 5, through the connection of the first buffer wall 1, the second buffer wall 2 and the third buffer wall 5, can further form the accommodating space 6; in addition, the third buffer wall 5 and the second buffer wall The structure of the first buffer wall 1 corresponds to each other, and is also divided into a plurality of air columns 51 which are perpendicular to the first heat seal edge 10 and the second heat seal edge 20 and are separated by a gas column line 510 of a heat sealing means. The air column 51 of the third buffer wall 5 may have one-to-one or one-to-one air columns 11, 12 corresponding to the first buffer wall 1 and the second buffer wall 2, and the ones corresponding to each other The gas columns 11, 12, 51 are at least one connected to each other.
As shown in FIG. 2 and FIG. 9, the air anti-vibration sleeve 100 having the improved corner structure of the present invention may further include a buffer sheet 7 on one side of which is first sealed by a heat sealing means with a first heat seal 10 The buffer wall 1 and the other side are further sealed by a heat sealing means with a second heat sealing edge 20 followed by the second buffer wall 2, and the buffer sheet 7 which is heat-sealed on both sides is heat-sealed along the first buffer wall 1 and The air column lines 111 and 211 of the second buffer wall 2 are partially heat-sealed, so that the buffer sheet 7 is suspended in the accommodating space 6, thereby covering the article 200 and slowing the shaking thereof. It is noted that the buffer sheet 7 of the present invention is A portion of the middle portion of the air column 11, 21 is not heat sealed to form a bottom suspension of the cushion sheet 7.
As shown in FIGS. 1 to 4, in accordance with a preferred embodiment of the air shock mount 100 having a corner improved structure, the first buffer wall 1 and the second buffer wall 2 are formed first by bending. The accommodating space 6 between the buffer wall 1 and the second buffer wall 2 exhibits a U-shaped structure, and the U-shaped structure has an opening facing upward and is open at both ends of the U-shaped structure. The main feature of the air shock-proof sleeve 100 having the corner-improved structure of the present invention is that the first buffer wall 1 and the second buffer wall 2 are first bent into a U-shape. After the structure, the air column lines 110 and 210 at the opposite ends of the gas column are reserved by an heat sealing means to form an opening 80 in the lower portion to form a second portion 8 to form a third buffer wall 5 on the outside of the rear portion 8. a triangular type buffer portion is connected to the air column lines 110 and 210 forming the rear portion 8, which are respectively located at positions where the first buffer wall 1 and the second buffer wall 2 are spaced apart from the outside to the inside by the two air columns 11, 21. So that the outer ends are closed, and the spacing of the reserved openings 80 can match the buffer sheet 7 in the accommodating space 7 The depth occupied by the portion, and the selectivity is greater than, equal to, or smaller than the length of the rear portion 8. As for the number of the air column lines 110, 210 forming the rear portion 8, the air column 11, 21 outside the rear portion 8 can be matched. The number is a single or plural number, that is, the number of 11, 21 located outside the rear portion 8 is not limited to a single or plural number.
However, as shown in Figures 2 through 4, the preferred embodiment of the present invention forms a subsequent opening of an opening 80 in the gas column 110, 210 at the ends of the U-shaped structure through a heat sealing means. The first and second portions 8 are closed at the outer ends to form a triangular buffer portion 9. However, the triangular buffer portion 9 is at the outer side of the first buffer wall 1 and the second buffer wall 2, and the air column 11 outside the portion 8 , 21 and the third buffer wall 5 bend (as shown in Figures 18 and 19), but will form an extremely sharp corner of the shape, the corners are squeezed by external forces or with the outside world The rupture is easily generated during the collision, and once ruptured, the buffer structure at both ends of the overall air shock absorbing sleeve 100 is destroyed to lose the original anti-shock effect; secondly, since the preferred embodiment of the present invention uses the heat sealing means to make U The outer ends of the outer side of the font structure are closed, and the outer ends of the opening of the accommodating space 6 are in a state of rapid polycondensation due to the formation of the rear portion 8. The state of rapid polycondensation will hinder the article 200 having a relatively wide side. Installation; further, the preferred embodiment of the invention is via After the heat sealing means is followed by the outer ends of the U-shaped structure, the opening edge of the accommodating space 6 is caused to have irregular wave-shaped wrinkles due to the formation of the rear portion 8. This condition is used for a long period of time in the air shock absorbing sleeve 100. The more obvious the invention will be, the more it will hinder the observation. Secondly, the object 200 will be out of the buffering force of the first buffer wall 1 and the second buffer wall 2 when installed in the accommodating space 6.
Please refer to FIG. 5, FIG. 6 and FIG. 10 to FIG. 12 at the same time, wherein FIG. 5 is a perspective enlarged view of the buffer portion of the preferred embodiment of the present invention before folding, and FIG. 6 shows the best of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 11 is a partially enlarged perspective view showing a first embodiment of the preferred embodiment of the present invention, and FIG. 12 is a partially enlarged schematic view showing a second aspect of the preferred embodiment of the present invention. As shown, in order to solve the first problem extended by the above-described preferred embodiment of the present invention, in the preferred embodiment of the air shockproof sleeve 100 of the present invention having the corner improved structure, the gas can be further improved. After the pillars 110 and 210 are formed into the rear portion 8, the lower portions of the air columns 11, 21 outside the rear portion 8 are additionally provided with at least one oblique outer side segments 113, 213 from the bottom through the heat sealing means. 113, 213 will cause the pressure of the lower portion of the air column 11, 21 outside the rear portion 8 to be greater than the upper portion, so that the third buffer wall 5 corresponds to the air column 51 outside the rear portion 8 along the segments 113, 213. Folding, that is, the lower part of the triangular type buffer portion 9 Folding the segments 113, 213 upwards, thereby removing the corners of the triangular buffer portion 9, and folding the air columns 11, 21 above the triangular buffer portion 9 inwardly. In order to present the parallel arrangement, the buffer area of the triangular buffer portion 9 is enlarged. It is noted that the number of the air columns 11, 21 to which the nodes 113 and 213 are added outside the rear portion 8 may be The number of the air columns 51 that are folded up by the third buffer wall 3 may also be singular or plural, and the nodes 113 and 213 are attached to the rear portion 8 with an inclination. The outer air column 11, 21, and its oblique direction is inclined upward toward the outer side of the rear portion 8, this design will help the third buffer wall 5 to fold upward corresponding to the air column 51 on the outer side of the rear portion 8, and upward The folded air column 51 will cause the air columns 11, 21 on the left and right sides to expand to fill the recesses formed by the first buffer wall 1 and the second buffer wall 2 by the rear portion 8, and the cushioning effect on the side surface thereof can be improved.
Please refer to FIG. 7 , FIG. 8 , FIG. 10 , FIG. 11 , FIG. 13 , and FIG. 14 at the same time, wherein FIG. 7 is a perspective enlarged view showing the adjacent gas column on the inner side of the preferred embodiment of the present invention. 1 is a perspective view showing a second enlarged view of a gas column in the inner side of a preferred embodiment of the present invention, and FIG. 13 is a partially enlarged schematic view showing a third aspect of the preferred embodiment of the present invention. BEST MODE FOR CARRYING OUT THE INVENTION A partially enlarged schematic view of a fourth aspect of the present invention, as shown in the drawings, in order to solve the second problem extended by the above-described preferred embodiment of the present invention, the air shockproof cover 100 having the corner improved structure of the present invention In a preferred embodiment, the pattern of the gas lines 111, 211 between the at least two gas columns 11, 12 adjacent to the inside of the rear portion 8 can be further changed, as shown in Figs. 7 and 8. The first air column 81 and the second air column 82 having different calibers and adjacent to each other are sequentially formed on the inner side of the rear portion 8 so that the width of both ends of the opening of the accommodating space 6 is caused by the first air column. 81 and the second gas column 82 are squeezed and expanded with each other; as shown in FIG. In the first aspect of the preferred embodiment of the present invention, the gas column line 111a adjacent to the inner side of the rear portion 8 is formed with an inclination at the lower portion, that is, the inclined portion 114 of the lower portion of the air column line 111a in the figure, resulting in the air column line. The air column 11 on the outer side of the upper portion of 111a is smaller than the inner air column 11, and the air column 11 on the outer side of the lower portion is larger than the inner air column 11, so that the pressure of the air column 11 outside the upper portion of the air column line 111a is smaller than the pressure of the inner air column 11 And the pressure of the air column 11 outside the lower portion of the air column line 111a is greater than the pressure of the air column 11 on the inner side; as shown in Fig. 13, in the third aspect of the preferred embodiment of the present invention, the inner side of the rear portion 8 is adjacent The area of the air column line 111a which is heat-sealed in the upper portion is larger than the area of the lower portion, so that the air column 11 on the outer side of the upper portion of the air column line 111a is smaller than the inner air column 1, and the air column 11 on the outer side of the lower portion is larger than the inner air column. 11. The pressure of the air column 11 outside the upper portion of the air column line 111a is smaller than the pressure of the air column 11 on the inner side; as shown in Fig. 14, in the fourth aspect of the preferred embodiment of the present invention, the inner side of the rear portion 8 is adjacent The air column 11 outside the air column line 111a is smaller than the inner air column 11 The pressure of the air column 11 outside the air column line 111a is lower than the pressure of the air column 11 on the inner side; by the above three aspects, the condensation of the outer side of the opening of the receiving space 6 due to the formation of the rear portion 8 can be surely alleviated, and it is worthwhile. It is noted that the number of the air column lines 111, 211 of the type after the adjacent portion 8 is adjacent to each other may be single or plural, that is, the number thereof may be changed in accordance with the number of the air columns 11, 21 exhibiting the polycondensation state. In addition, the inclination of the inclined portion 114 of the first buffer wall 1 and the inclined portion 214 of the second buffer wall 2 is inclined from the outside to the inside, so that a better pressing effect can be produced.
Please refer to FIG. 10, FIG. 11 , FIG. 15 and FIG. 16 at the same time, wherein FIG. 15 is another partial enlarged view of the first aspect of the preferred embodiment of the present invention, and FIG. 16 shows the best of the present invention. A partially enlarged schematic view of a fifth aspect of the embodiment, as shown in the drawings, in order to solve the third problem extended by the above preferred embodiment of the present invention, the best of the air shockproof cover 100 having the corner improved structure of the present invention is shown. In the embodiment, the first buffer wall 1 and the second buffer wall 2 can further form at least one outward side of the upper end portions 112 and 212 of the air column lines 111 and 211 between the air columns 11 and 21 on the inner side of the rear portion 8 . The inclination of the air column 11, 21 can be directed to the outer ends through the inclination formed by the upper end portions 112, 212 of the air column lines 111, 211, once the first buffer wall 1 and the second buffer wall 2 All the air columns 11, 21 are inclined in the same direction, so that the irregular wave shape generated by the opening portion 8 of the accommodating space 6 can be eliminated, as shown in Fig. 15, the first buffer wall 1 Air column line 1 between the air columns of the second buffer wall 2 on the inner side of the rear portion 8 11. The upper ends 112, 212 of the upper portion of the 211 are uniformly inclined toward the same end, that is, all the air lines 111, 211 form an inclination toward the outer end of the upper end 112, 212 toward one of the outer ends, as shown in Fig. 16. The first buffer wall 1 and the second buffer wall 2 are at the upper end 112, 212 of the air column lines 111 and 211 between the air columns on the inner side of the rear portion 8. The number of the opposite ends of the air column lines 111, 211 may be opposite to the opposite ends, that is, all the gas. The half of the column lines 111, 211 will have an inclination toward the outside of one end of the upper end portions 112, 212, and half will form an inclination toward the outside of the other end end 112, 212 toward the other end; in addition, the first buffer wall 1 and the second buffer wall 2 The inclination formed by the upper end portions 112 and 212 of the gas column lines 111 and 211 between the gas columns 11 and 21 on the inner side of the rear portion 8 may be the same direction or the opposite direction, and is not limited thereto.
In summary, the present invention can achieve its efficacy and purpose when used, so the present invention is excellent in practicality, and is in accordance with the application requirements of the invention patent, and the application is submitted according to law, and the review committee is expected to grant the invention as soon as possible. In order to protect the hard work of the inventor, if there is any doubt in the audit committee of the bureau, please do not hesitate to give instructions, the inventor will try his best to cooperate, and feel really good.

100‧‧‧Air shockproof cover

1‧‧‧First buffer wall

10‧‧‧First heat seal

11‧‧‧ gas column

111‧‧‧ gas column line

112‧‧‧ radians

114‧‧‧inclined

2‧‧‧Second buffer wall

5‧‧‧ third buffer wall

51‧‧‧ gas column

6‧‧‧ accommodating space

7‧‧‧buffer

Claims (1)

An air shockproof sleeve having a modified corner structure for covering an article to provide cushioning protection, comprising:
a first buffer wall comprising at least one first heat sealing edge, the first buffer wall is divided into a plurality of gas columns perpendicular to the first heat sealing edge and separated by a gas column line of a heat sealing means;
a second buffer wall comprising at least one second heat sealing edge, followed by the first heat sealing edge via a heat sealing means, the second buffer wall being a plurality of gas columns perpendicular to the second heat sealing edge and via heat sealing means The line is divided into a plurality of gas columns;
At least one first node is located on the first buffer wall, and the first buffer wall is bent along the first node;
At least one second node is located on the second buffer wall, and the second buffer wall is bent along the second node;
a third buffer wall is connected between the first buffer wall and the second buffer wall by bending the first buffer wall and the second buffer wall, and the third buffer wall is sealed with a plurality of first heat seals The edge of the second heat seal is vertical and separated by a gas column of the heat sealing means into a plurality of gas columns; and an accommodating space is formed in the first by bending the first buffer wall and the second buffer wall Between the buffer wall and the second buffer wall;
The first buffer wall and the second buffer wall are heat-sealed and then bent to correspond to each other, and an opening is reserved on the lower side to form a joint, so that the opening The bottom portion is flat, and after inflation, the air column on the outer side of the joint portion and the third buffer wall serves as a buffer portion of the shockproof sleeve; and the air column of the buffer portion is provided with at least one oblique direction on the lower side. a segment, the portion of the buffer portion of the buffer portion that is lower than the segment is folded upward, thereby removing the corner of the buffer portion and expanding the portion of the buffer portion above the block. In order to exhibit a parallel arrangement, the buffer area of the buffer portion is further enlarged.
2. The air shockproof sleeve having a corner improved structure according to claim 1, wherein the distance between the openings may be greater than, equal to, or less than the length of the joint.
3. The air shockproof sleeve having the corner improved structure according to claim 1, wherein the number of the air column lines forming the joint portion may be single or plural.
4. The air shockproof sleeve having a corner improved structure according to claim 1, wherein the number of air columns located in the buffer portion may be single or plural.
5. An air shockproof sleeve having a modified corner structure for covering an article to provide cushioning protection, comprising:
a first buffer wall comprising at least one first heat sealing edge, the first buffer wall is divided into a plurality of gas columns perpendicular to the first heat sealing edge and separated by a gas column line of a heat sealing means;
a second buffer wall comprising at least one second heat sealing edge, followed by the first heat sealing edge via a heat sealing means, the second buffer wall being a plurality of gas columns perpendicular to the second heat sealing edge and via heat sealing means The line is divided into a plurality of gas columns;
At least one first node is located on the first buffer wall, and the first buffer wall is bent along the first node;
At least one second node is located on the second buffer wall, and the second buffer wall is bent along the second node;
a third buffer wall is connected between the first buffer wall and the second buffer wall by bending the first buffer wall and the second buffer wall, and the third buffer wall is sealed with a plurality of first heat seals The edge of the second heat seal is vertical and separated by a gas column of the heat sealing means into a plurality of gas columns; and an accommodating space is formed in the first by bending the first buffer wall and the second buffer wall Between the buffer wall and the second buffer wall;
The first buffer wall and the second buffer wall are heat-sealed and then bent to correspond to each other, and an opening is reserved on the lower side to form a joint, so that the joint The inner side is sequentially formed with at least two first gas columns and second gas columns having different calibers and adjacent to each other, and the width of both ends of the opening of the accommodating space is caused by the first gas column and the second gas column Squeeze and expand.
6. The air shockproof sleeve having a corner improved structure according to claim 5, wherein the air column line between the first air column and the second air column forms a slope on a lower side, so that the first The diameter of the upper gas column of the gas column is smaller than the diameter of the upper gas column of the second gas column, and the diameter of the gas column of the lower gas column of the first gas column is larger than the diameter of the gas column of the lower side of the second gas column.
7. The air shockproof sleeve having a corner improved structure according to claim 5, wherein the area of the air column between the first air column and the second air column is greater than the lower side heat seal. The diameter of the upper side of the first gas column is smaller than the diameter of the upper side of the second gas column, and the diameter of the lower side of the first gas column is larger than the diameter of the lower side of the second gas column.
8. The air shockproof sleeve having a corner improved structure according to claim 5, wherein the diameter of the first air column is smaller than the diameter of the second air column.
9. An air shock-proof sleeve having a modified corner structure for covering an article to provide cushioning protection, comprising:
a first buffer wall comprising at least one first heat sealing edge, the first buffer wall is divided into a plurality of gas columns perpendicular to the first heat sealing edge and separated by a gas column line of a heat sealing means;
a second buffer wall comprising at least one second heat sealing edge, followed by the first heat sealing edge via a heat sealing means, the second buffer wall being a plurality of gas columns perpendicular to the second heat sealing edge and via heat sealing means The line is divided into a plurality of gas columns;
At least one first node is located on the first buffer wall, and the first buffer wall is bent along the first node;
At least one second node is located on the second buffer wall, and the second buffer wall is bent along the second node;
a third buffer wall is connected between the first buffer wall and the second buffer wall by bending the first buffer wall and the second buffer wall, and the third buffer wall is sealed with a plurality of first heat seals The edge of the second heat seal is vertical and separated by a gas column of the heat sealing means into a plurality of gas columns; and an accommodating space is formed in the first by bending the first buffer wall and the second buffer wall Between the buffer wall and the second buffer wall;
The first buffer wall and the second buffer wall are heat-sealed and then bent to correspond to each other, and an opening is reserved on the lower side to form a joint, so that the joint An inner side of the inner edge of the gas column for separating the gas columns is formed with an inclination to eliminate irregular wave patterns at the edge of the opening of the accommodating space.
10. The air shockproof sleeve having a corner improved structure according to claim 9, wherein the inner side of the bottom portion of the air column for separating the gas pillars is uniformly aligned toward the same end to form the inclination, or The number is formed in half to the different ends.
11. The air shockproof sleeve having a corner improved structure according to claim 9, wherein the first buffer wall and the second buffer wall are disposed on the inner side of the bottom portion for separating the air column edges of the air columns. The inclination formed by the ends may be in the same direction or in the opposite direction.
12. The air shockproof sleeve having a corner improved structure according to claim 1, 5 or 9, wherein the air column of the third buffer wall is one-to-one or one-to-many corresponding to the first buffer wall and The gas column of the second buffer wall, and the mutually corresponding gas column systems have at least one mutual communication.
13. The air shockproof sleeve having a corner improved structure according to claim 1, wherein the air shockproof sleeve further comprises a buffer sheet, one side of which is heat sealed by a first heat seal. Next, the first buffer wall, and the other side is further sealed by a heat sealing means with a second heat sealing layer and the second buffer wall, and the buffer sheet of the two sides heat sealing is sealed along the first buffer wall by a heat sealing means. The air column line of the second buffer wall is partially heat-sealed, so that the buffer sheet is suspended in the accommodating space, thereby covering the article and slowing the shaking thereof.
14. The air shockproof sleeve having a corner improved structure according to claim 13, wherein the buffer sheet is not heat sealed along a middle portion of the air column line to form a bottom suspension of the buffer sheet.