KR102207341B1 - Air cap fabric with self-contained structure - Google Patents

Abstract

The present invention relates to an air cap fabric with a self-filling structure, which can be used for various leisure or rescue purposes such as raincoats, sleeping bags, blankets, and the like. According to the present invention, the air cap fabric comprises: a lower film sheet; an upper film sheet; and an intermediate film sheet, wherein a plurality of cap ports with open lower parts are arranged in a grid structure and a plurality of pocket grooves with open upper parts are formed at the outside of the cap ports to communicate with each other, thereby forming air caps formed by laminated bonding between the upper and lower film sheets. Accordingly, since the plurality of air caps are formed with self-filling holes communicating with the outside, respectively, the air filled in the air pocket is discharged through the self-filling holes by compression. When the air pocket is restored as the compression is released, the air is filled in the air pocket through the self-filling holes.

Description

Air cap fabric with self-contained structure

The present invention relates to an air cap fabric having a self-repelling structure, and more particularly, to an air cap fabric having a self-repelling structure that can be used for various leisure or rescue use such as rain jackets, sleeping bags, and blankets.

As is well known, air cap sheets have been widely used as cushioning packaging materials for fragile electronic products, fruits, ceramics, glass products, etc., and recently, insulation materials such as windows, noise prevention and cushion mats, etc. As a result, its use is expanding.

The conventional air cap sheet has a registered utility model No. 20-[0003] 0267371, and a mat (pallet) formed with an air cap is known in the registered utility model 20-0337609 and Japanese Published Utility Model Registration No. 3013484, and glass windows, etc. Air cap sheets used as insulation sheets of are known in Korean Utility Model Publication No. 2011-0011461, Patent No. 10-1416337, and the like.

However, these air cap sheets have the advantage of securing stable thermal insulation and buffering properties by filling with air and enabling cheap production, but they are always filled with air, so they are bulky and can be used for carrying, storage, and transportation. Inconvenience and large transportation costs are excessively demanded.

KR 10-1614416 B1 KR 10-2013-0025939 A KR 10-1414576 B1

The object of the present invention, conceived to solve the above problems, is made of rain jackets, sleeping bags, blankets, etc., and used for leisure or rescue. In particular, a filling space portion having a unique exhaust structure is formed to fill air in the process of use. It is intended to provide an air cap fabric having a self-repellent structure that provides improved portability and storage by reducing the volume through exhaust of the filled air during the carrying and storage process, and secures stable thermal insulation and thermal insulation and buffering properties.

The above object is achieved by the following configuration provided in the present invention.

Air cap fabric having a self-repellent structure according to the present invention,

A lower film sheet;

Upper film sheet; And

The lower open type cap ports are arranged in a grid structure, and the upper open type pocket grooves are formed in communication with each other on the outside of the cap port, and are laminated and bonded between the lower film sheet and the upper film sheet. Consisting of including an intermediate film sheet forming the air caps made,

Each air cap has self-contained holes in communication with the outside, and the air filled in the air cap is exhausted to the outside through self-contained holes by compression, and when the compression is released and the air cap is restored, the air cap through the self-contained holes. It is characterized in that it is configured to be filled with air.

Preferably, the laminated lower film sheet, the upper film sheet, and edge portions of the intermediate film sheet are formed with a sealing portion by fusion, and the pocket grooves formed on the outside of the air cap are air sealed with the outside by the sealing portion. Pockets form,

The air pocket is formed with self-contained holes communicating with the outside, and the air filled in the air pocket is exhausted to the outside through the self-adhesive holes by compression, and when the compression is released and the air pocket is restored, It is configured to be filled with air.

More preferably, the self-defecting hole formed in the air cap is formed to communicate with the air pocket, and the air filled in the air cap is configured to be discharged through the self-defecting holes formed in the air pocket after passing through the air pocket. It is configured to delay the discharge of air remaining in the cap.

In addition, an inclined beveled surface is formed on the side wall of the air cap formed inside the air pocket, and a perforation pin is penetrated in an inclined structure between the inclined beveled surface of the air cap and the upper surface of the air pocket, so that the air cap and the air pocket It is configured so that self-catching holes are collectively formed between and in the air pocket.

As described above, in the present invention, in providing an air cap fabric that is made of a rain jacket, a sleeping bag, or a blanket and can be used for leisure or rescue, a unique self-repellent structure is provided in the air cap fabric.

Accordingly, the present invention forms a thick air layer by the air caps and the air filled in the air port during the use process, thereby securing stable thermal insulation insulation and buffering properties, and the air caps and air By exhausting the air filled in the port, reducing the volume through slimming, improved portability and storage.

In particular, in the present invention, since the self-adhesive hole formed in the air cap does not directly communicate with the outside, but is configured to indirectly communicate with the outside through the self-preserving hole formed in the air port, the air filled in the air cap during the wearing or use process It is possible to solve the general problems caused by the rapid exhaust.

1 to 3 show the overall configuration of an air cap fabric having a self-repellent structure proposed as a preferred embodiment in the present invention, and FIG. 1 is an external perspective view, FIG. 2 is a molding state diagram, and FIG. 3 is a plan configuration diagram. To show,
4 and 5 show the manufacturing state of the air cap fabric having a self-repellent structure proposed as a preferred embodiment in the present invention,
6 is a sequential view showing the formation state of the self-chunggong in FIG. 5,
7 is a view showing a process of exhausting filled air by pressurization in the air cap fabric having a self-repelling structure proposed as a preferred embodiment in the present invention
8 shows an example of a slimmed state by exhaust of the charged air.

Hereinafter, an air cap fabric having a self-repellent structure proposed as a preferred embodiment in the present invention will be described in detail with reference to the accompanying drawings.

1 to 3 show the overall configuration of an air cap fabric having a self-repellent structure proposed as a preferred embodiment in the present invention, and FIG. 1 is an external perspective view, FIG. 2 is a molding state diagram, and FIG. 3 is a plan configuration diagram. 4 and 5 are showing the manufacturing state of the air cap fabric having a self-repellent structure proposed as a preferred embodiment in the present invention, Figure 6 is a sequentially showing the formation state of the self-defecting hole in Figure 5, 7 is a view showing a process of exhausting the filled air by pressurization in the air cap fabric having a self-repelling structure proposed as a preferred embodiment of the present invention, and FIG. 8 is an illustration of a slimmed state by exhaust of the filled air. To show.

The air cap fabric having a self-repellent structure proposed as a preferred embodiment in the present invention may be worn in close contact with the user's body, such as a rain jacket, a sleeping bag, or a blanket, or may be used in the manufacture of articles that cover the body.

The above articles can be manufactured not only for general life, but also for leisure or rescue, and the rain jacket manufactured through the air cap fabric according to the present embodiment is a double layer film when compared to a rain jacket manufactured with a conventional single layer film sheet. In addition to securing a stable waterproof property made of a sheet, stable thermal insulation and cushioning properties can be secured by the air caps and air layer filled in the air pocket, which will be described later. It has the specificity to protect it.

Further, each of the film sheets constituting the air cap fabric is made of polyethylene resin having excellent flexibility, and if necessary, latex or urethane resin may be mixed to have improved elasticity.

On the other hand, the air cap fabric 1 according to the present embodiment, as shown in Figs. 1 to 5, the lower film sheet 10, the upper film sheet 20, and the lower film sheet 10 and the upper It is disposed between the film sheet 20 and includes an intermediate film sheet 30 forming an air filling layer.

The lower film sheet 10 and the upper film sheet 20 are composed of flat film paper, and the intermediate film sheet 30 disposed between the lower film sheet 10 and the upper film sheet 20 is a flat film paper. Is plastic-processed into a predetermined shape through roll forming or press forming.

The intermediate film sheet 30 is fired in a form in which the lower open type cap ports 31 ′ are arranged in a grid structure and the upper open type pocket grooves 32 ′ communicate with each other on the outside of the cap ports 31 ′. Processed, the air caps 31 formed of the cap ports 31 ′ are formed in a lattice structure by laminating bonding between the lower film sheet 10 and the upper film sheet 20.

That is, each cap port 31 ′ formed on the intermediate film sheet 30 has an embossed shape with an outer surface and an upper surface shielded and an open lower part, and the cap port 31 ′ is a lower film sheet 10 ) To form an embossed air cap 31 with a sealed lower part.

Accordingly, the lower open cap ports 31 ′ are closed through the lower film sheet 10 to form air caps 30 filled with air therein, and the cap ports 31 The pocket grooves 32' formed on the outside of') form the air pockets 32 shielded from the outside by bonding of the upper film sheet 20 and the formation of the sealing portion 40.

And, in this embodiment, as shown in FIGS. 1 and 3, by fusing the edges of the laminated lower film sheet 10 and upper film sheet 20, and the intermediate film sheet 30, the sealing part 40 is formed. By forming, the pocket grooves 32 ′ formed on the outside of the air cap 31 form an air pocket 32 sealed with the outside.

Here, the sealing portion 40 may be formed by thermal welding or ultrasonic welding.

Accordingly, the air cap fabric 1 according to the present invention includes air caps 31 made of cap ports 31 ′ arranged in a grid structure, and pocket grooves 32 ′ formed between the cap ports 31 Air pockets 32 made of are formed, and the air caps 31 and the air pockets 32 are filled with air to provide thermal insulation and buffering properties, so a rain jacket, sleeping bag, or blanket made using this The back has improved thermal insulation and cushioning properties.

On the other hand, the air cap fabric 1 configured as described above is secured with thermal insulation and buffering properties by the air filled in the air cap 31 and the air pocket 32, but the thickness is thick by the filled air. As a result, portability and storage are remarkably low.

To overcome this, in this embodiment, a unique self-repellent structure is provided in the air cap 31 and the air pocket 32, so that when the air cap fabric 1 is compressed by an external force, the air cap 31 and the air pocket ( The air filled in 32) is exhausted to the outside, and when the compressed state of the air cap fabric 1 is released, air is introduced into the air cap 31 and the air pocket 32 by a restoration process to be filled.

When the self-repellent structure is provided in this way, when in use, an air layer can be formed between the lower film sheet 10 and the upper film sheet 20 by filling air in the air cap 31 and the air pocket 32, and When carrying and storing, the air remaining in the air cap 31 and the air pocket 32 is discharged to the outside through compression, so that improved portability and storage can be secured through slimming and volume reduction through exhaust of air. have.

To this end, in the present embodiment, by forming self-contained holes 33 and 34 communicating with the outside in the air cap 31 and the air pocket 32, the air cap 31 and the air pocket 32 are As a result, the air filled in the interior is exhausted to the outside through the self-contained holes 33 and 34 and contracted, and when the pressurized state is released, air is filled inside and expanded through the self-regulating holes 33 and 34.

According to this embodiment, it is preferable that the self-adhesive holes 33 and 34 formed in the air cap 31 and the air pocket 32 are formed by molding through a post process, and in the present invention, as shown in FIG. Each of the air caps 31 and the air pockets 32 is formed with self-contained holes 33 and 34 by means of a hot-type perforated pin 110.

When the air cap 31 and the air pocket 32 are drilled through the heated hot-type perforation pins 110 to form self-defecting holes 33 and 34 communicating with the outside, the self-defecting holes 33 and 34 ), since the molten rim formed by hot fusion is formed on the inner diameter of each of them, it is possible to prevent the phenomenon that the self-defecting holes 33 and 34 are easily ruptured during the repeated exhaust and intake process of air.

However, in the air cap fabric 1 according to the present embodiment, since the self-adhesive holes 33 and 34 are formed in the air cap 31 and the air pocket 32, the air that is easily filled even by a small compression force during the use process is Since there is a possibility to be discharged, thermal insulation and buffering properties may be damaged through air filling, which is the original function of the air cap fabric 1 to be pursued.

Considering this, in this embodiment, when the air cap fabric 1 is pressurized, the air filled in the air cap is not rapidly discharged, but is delayed and discharged, so that the air filled easily during the use process is rapidly discharged. To solve all the problems.

To this end, in the present embodiment, the self-contained hole 33 formed in the air cap 31 is formed to be in communication with the air pocket 32, and when it is generated when the air cap fabric 1 is pressed, the inside of the air cap 31 The filled air enters and passes through the air pocket 32 through the air pocket 33 formed between the air cap 31 and the air pocket 32, and then passes through the air pocket 32 and the air pocket 32. To be discharged to the outside through.

Of course, the process of filling the air in the air cap 31 and the air pocket 32 is performed in the reverse order of the exhaust process.

In particular, in the present embodiment, in forming the self-catching hole 33 communicating with the air pocket 32 in the air cap 31, and forming the self-catching hole 34 communicating with the outside in the air pocket 32 , By configuring such that the formation of these self-contained holes 33 and 34 is unified by a single process, the manufacturing process is simplified, and physical damage to the air cap fabric due to manufacturing is minimized to have improved quality stability.

To this end, in this embodiment, an inclined inclined bevel surface 31a is formed on the sidewall of the air cap 31 formed inside the air pocket 32, wherein the inclined beveled surface 31a is the intermediate film sheet ( It may be formed through roll forming or press forming made in the manufacturing process of 30).

And, as shown in Figure 6, the inclined beveled surface 31a of the air cap 31 and the air pocket 32 have a perforation pin 110 penetrating through the upper surface in an inclined structure, so that the air cap 31 and the air pocket ( 32) Between, and in the air pocket 32, self-regulating holes 33 and 34 are collectively formed.

As described above, if the self-adhesive hole 33 formed in the air cap 31 does not directly communicate with the outside, but indirectly communicates with the outside through the self-prevention hole 34 formed in the air pocket 32, as shown in FIG. 7 Likewise, when the air cap fabric 1 is pressurized, the air filled in the air cap 31 flows into the air pocket 32 through the self-contained hole 33 formed between the air cap 31 and the air pocket 32. Then, it is discharged to the outside through the jachung holes 34 formed in the air pocket (32).

Therefore, in the air cap fabric 1 according to the present invention, the air filled in the air cap 31 is not rapidly discharged to the outside when pressurized as shown in FIG. 7, but is delayed and discharged through the air pocket 32, As the air filled in the air pocket is rapidly exhausted by instantaneous compression during the use process, the limitations of thermal insulation and buffering properties may be eliminated through air filling, which is the original function that the air cap fabric seeks.

In addition, the hot-type perforation pin 110, which enters the air cap 31 and the air pocket 32 in an inclined structure to collectively form the self-adhesive holes 33 and 34, has a relatively diameter at the front end as shown in FIG. This thin perforated needle 111 is formed, and a conical hot cone block 112 is formed in the middle portion.

Accordingly, the hot punched pin 110 is concave in the upper portion of the air pocket 32 to form a hot-formed self-conical hole 34, and as a result, when the air filled in the air pocket 32 is discharged, A phenomenon in which the balls 32 protrude to the outside and is damaged by friction is suppressed.

In addition, the air cap fabric 1 manufactured in this way discharges the air filled in the air cap 31 and the air pocket 32 as shown in FIG. 8 through compression such as rolling or folding, thereby reducing the volume through slimming. Portable storage is possible.

More preferably, the air cap fabric 1, which has been reduced in volume through the slimming, is vacuum packaged in a vacuum packaging (not shown), so that air is refilled in the air cap and air pocket during the carrying and storage process, so that the volume is reduced. Prevents hypertrophy.

In addition, when the air cap fabric or rain jacket made of air cap fabric is removed from the vacuum packaging, the air cap fabric or rain jacket made of air cap fabric is placed in the air cap and air pocket formed on the product. As air gradually flows in through the self-contained hole, a thick air layer is formed, thereby providing required thermal insulation and buffering properties.

1. Air cap fabric
10. Lower film sheet 20. Upper film sheet
30. Intermediate film sheet 31. Air cap
31'. Capport 31a. Radial projection
32. Air pocket 32'. Pocket Home
33. Jachunggong 34. Jachunggong
40. Seal
110. Drilling pin 111. Drilling needle
112. Hot Conical Block

Claims (2)

A lower film sheet;
Upper film sheet; And
The lower open type cap ports are arranged in a grid structure, and the upper open type pocket grooves are formed in communication with each other on the outside of the cap port, and are laminated and bonded between the lower film sheet and the upper film sheet. Consisting of including an intermediate film sheet forming the air caps made,
Each air cap has self-contained holes in communication with the outside, and the air filled in the air cap is exhausted to the outside through self-contained holes by compression, and when the compression is released and the air cap is restored, the air cap through the self-contained holes Air cap fabric having a self-repellent structure, characterized in that configured to be filled with air inside. According to claim 1, The laminated lower film sheet, the upper film sheet, and the edge portion of the intermediate film sheet is formed by fusion sealing, the pocket grooves formed on the outside of the air cap are sealed to the outside by the sealing portion. Formed air pockets,
The air pocket is formed with self-contained holes communicating with the outside, and the air filled in the air pocket is exhausted to the outside through the self-adhesive holes by compression, and when the compression is released and the air pocket is restored, Air cap fabric having a self-repellent structure, characterized in that configured to be filled with air.

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