CN216071328U - Suspended air energy packaging bag - Google Patents

Abstract

The utility model relates to a suspended air energy packaging bag which is provided with a bag body, wherein the bag body comprises an outer bag body and an inner bag body arranged in the outer bag body, an inflatable inflation cavity is formed between the outer bag body and the inner bag body after the outer bag body and the inner bag body are thermally fixed, a placing cavity for placing articles is formed in the inner bag body, the lower end of the inner bag body is not in contact with the lower end of the outer bag body after the inflation cavity is inflated, and the articles in the placing cavity are wrapped and fixed by the inner bag body after the inflation cavity is inflated. The utility model has ingenious structure, can realize the compact packaging of the articles, can ensure the safety of the articles in the transportation process, and is convenient and practical.

Description

Suspended air energy packaging bag

Technical Field

The utility model relates to a suspended air energy packaging bag.

Background

In recent years, products such as glass, electronic goods, precision instruments and the like are extremely easy to be damaged by external vibration and impact in the transportation process, so that protective materials need to be wrapped on the outer layers of the products, in the prior art, some foamed plastics are used as wrapping materials, but the wrapping materials are generally not easy to degrade and easy to cause pollution, because the degradable inflatable packages are used for replacing the foamed plastics as packaging materials in the transportation process, the existing inflatable packages are generally inflated after being inserted into the inflatable packages through air inlet copper pipes, but the existing inflatable packages can sink into the bottom according to self weight after being placed, the articles are all fixed on the bottom after being inflated, and impact can occur in the transportation or carrying process to cause damage to the articles, and the products are very inconvenient.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a suspended air energy packaging bag, which can wrap articles and ensure the safety of the articles.

The technical scheme for realizing the purpose of the utility model is as follows: the utility model is provided with a bag body, wherein the bag body comprises an outer bag body and an inner bag body arranged in the outer bag body, an inflatable inflation cavity is formed between the outer bag body and the inner bag body after the outer bag body and the inner bag body are thermally fixed, a placing cavity for placing articles is formed in the inner bag body, the lower end of the inner bag body is not contacted with the lower end of the outer bag body after the inflation cavity is inflated, and the articles in the placing cavity are wrapped and fixed by the inner bag body after the inflation cavity is inflated.

The outer bag body is formed by bending a first film layer, the inner bag body is formed by bending a second film layer, the first film layer is provided with a first bending part and two first heat sealing parts which are symmetrically arranged on the first film layer along the first bending part, the second film layer is provided with a second bending part and two second heat sealing parts which are symmetrically arranged on the second film layer along the second bending part, the second film layer is bent along the second bending part to form a placing cavity, each side edge of the first film layer is overlapped with each side edge of the second film layer and is fixed by heat sealing after the first film layer is bent along the first bending part, an inflating cavity is formed between the first film layer and the second film layer, the first heat sealing part of the first film layer and the second heat sealing part of the second film layer are fixed by heat sealing to seal the inflating cavity and form a placing opening communicated with the placing cavity, at least one check valve for inflating the inflating cavity is arranged between the first heat sealing part and the second heat sealing part of any one heat sealing, the articles in the placing cavity are wrapped and fixed after the inflating cavity is inflated.

The length of the first film layer is larger than that of the second film layer.

A one-way valve for air inlet of the inflation cavity is arranged between the first heat sealing part and the second heat sealing part in any heat sealing mode, the one-way valve is fixed between the first heat sealing part and the second heat sealing part through heat sealing, the inflation end of the one-way valve is located outside the inflation cavity, and the air outlet end of the one-way valve is located in the inflation cavity.

Each first heat sealing part and each first bending part are arranged in parallel, each second heat sealing part and each second bending part are arranged in parallel, two third heat sealing parts which are symmetrically arranged on the first film layer along the first bending parts are further arranged on the first film layer, the third heat sealing parts are arranged in parallel with the first heat sealing parts, the first heat sealing parts are positioned between the third heat sealing parts and the first bending parts, two fourth heat sealing parts which are symmetrically arranged on the second film layer along the second bending parts are further arranged on the second film layer, the fourth heat sealing parts are arranged in parallel with the second heat sealing parts, the second heat sealing parts are positioned between the fourth heat sealing parts and the second bending parts, the first heat sealing parts of the first film layer and the second heat sealing parts of the second film layer are fixed in a heat sealing mode on each side edge of the cavity, the third heat sealing parts and the fourth heat sealing parts on each side edge are also fixed in a heat sealing mode, and an inflation channel is formed between the first film layer and the second film layer, a plurality of one-way valves for air inlet of the inflatable cavity are arranged between the first heat sealing part and the second heat sealing part of any heat seal, the inflating end of each one-way valve is positioned in the inflating channel, the air outlet end of each one-way valve is positioned in the inflating cavity, and the inflating channels at two sides of the placing cavity are communicated with the inflating cavity through the one-way valves.

The check valve comprises a first film layer fixed on the first heat sealing part, a second film layer fixed on the second heat sealing part and a third film layer which can not be heat-sealed, an air inlet channel is formed between the first film layer and the second film layer after the side edges of the first film layer and the second film layer are heat-sealed and fixed, the third film layer is fixed in the second film layer and is positioned in the air inlet channel, and after the first heat sealing part and the second heat sealing part are heat-sealed, an air inlet hole communicated with the inflation cavity is formed by the third film layer and the first film layer.

And the first film layer and/or the second film layer are/is provided with an exhaust piece which can exhaust the air in the inflation cavity.

The both sides of above-mentioned first rete all are equipped with first side heat seal portion, the both sides of second rete all are equipped with second side heat seal portion, and first kink of first side heat seal portion on first rete is buckled the back, and second side heat seal portion heat seal formation side heat seal portion on the second rete after buckling through the second kink to will aerify the chamber and place the side in chamber and seal, be equipped with the opening that easily tears in side heat seal portion, aerify the chamber and tear the back through the opening and deflate.

The exhaust member comprises an exhaust port arranged on the first membrane layer and/or the second membrane layer, an adsorptive membrane capable of controlling the exhaust port to be opened or closed is arranged on the first membrane layer and/or the second membrane layer, one end of the adsorptive membrane is fixed on the first membrane layer and/or the second membrane layer, and the adsorptive membrane is used for closing the exhaust port through polar adsorption with the first membrane layer and/or the second membrane layer.

The utility model has the positive effects that: (1) according to the utility model, the bag body is connected with the outer bag body, the inner bag body is arranged in the outer bag body in a suspending manner, the inner bag body forms a placing cavity for placing articles, the inflating cavity between the outer bag body and the inner bag body wraps and positions the articles in the inflating process, the inflating cavity can help the articles to absorb shock in the transferring or transporting process and can prevent dust and moisture, and the placing cavity in the suspending state can also avoid the articles from being damaged due to collision, so that the safety and stability of the packaged articles in the transporting and transporting processes are ensured.

(2) According to the utility model, the outer bag body is formed by bending the first film layer, the inner bag body is formed by bending the second film layer, the first film layer and the second film layer are fixed through heat sealing at the side edges of the first film layer and the second film layer, the first heat sealing part and the second heat sealing part at each side edge of the placing cavity are fixed through heat sealing to form the closed inflating cavity, and the inflating cavity is inflated through the one-way valve, so that the article in the placing cavity is wrapped and fixed on one hand, and the inner bag body is ensured to be suspended in the outer bag body, and on the other hand, the inflating cavity can also play a role in damping for the article, and is safe and practical.

(3) According to the utility model, the length of the first film layer is greater than that of the second film layer, so that the bottom of the inner bag body is not contacted with the bottom of the outer bag body, the suspension relation between the inner bag body and the outer bag body is further ensured, the articles are prevented from colliding in the carrying or transporting process after being wrapped, and the safety of the articles is well ensured.

(4) According to the utility model, the third heat sealing part and the fourth heat sealing part are arranged to form the inflation channel after being heat sealed with the first heat sealing part and the second heat sealing part, and the plurality of one-way valves are arranged between the first heat sealing part and the second heat sealing part, so that the air inlet speed of the inflation cavity can be increased, the integral forming speed of the bag body is effectively increased, and the bag body is efficient and practical.

(5) According to the utility model, the air exhaust piece is arranged on the first film layer and/or the second film layer to exhaust the air inflation cavity, so that the bag body is convenient to store and place, only air inflation is needed during use, and the bag is convenient and practical.

(6) According to the utility model, the first side heat sealing part and the second side heat sealing part form the side heat sealing part, the opening which is easy to tear is arranged on the side heat sealing part, so that the inflation cavity can be deflated conveniently, and the bag body can be not used after being used once, so that the bag is convenient and practical.

(7) According to the utility model, the opening and closing of the exhaust port are controlled by arranging the adsorption film on the first film layer and/or the second film layer, when the air needs to be discharged, the adsorption film is only needed to be torn to discharge the air, when the air needs to be used, the inflation cavity is inflated, the adsorption film is fixed on the first film layer and/or the second film layer to block the exhaust port, and the air leakage is prevented, so that the bag body can be recycled, and the bag is efficient and convenient.

Drawings

In order that the present disclosure may be more readily and clearly understood, reference is now made to the following detailed description of the present disclosure taken in conjunction with the accompanying drawings, in which

FIG. 1 is a front view of the overall structure of the suspended air energy package of the present invention;

FIG. 2 is a front view of the overall structure of the present invention after the first film layer is unfolded;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is a front view of the overall structure of the second film layer of the present invention after deployment;

FIG. 5 is an enlarged view at B in FIG. 4;

FIG. 6 is a side cross-sectional view of the overall construction of the suspended air energy package of the present invention;

FIG. 7 is an enlarged view at C of FIG. 6;

FIG. 8 is a schematic overall structure diagram of a second embodiment of the present invention;

FIG. 9 is a schematic diagram illustrating an overall structure of a first film layer according to a third embodiment of the present invention;

FIG. 10 is a schematic diagram illustrating an overall structure of a second film layer according to a third embodiment of the present invention;

FIG. 11 is a schematic view of the overall structure of a bag according to a third embodiment of the present invention;

fig. 12 is a schematic view of the overall structure of a fourth pouch according to an embodiment of the present invention.

Detailed Description

(embodiment one)

Referring to fig. 1 to 7, the present invention has a bag body, the bag body includes an outer bag body and an inner bag body arranged in the outer bag body, an inflatable inflation cavity 4 is formed between the outer bag body and the inner bag body after the outer bag body and the inner bag body are heat sealed and fixed, a placing cavity 3 for placing articles is formed in the inner bag body, the lower end of the inner bag body is not contacted with the lower end of the outer bag body after the inflation cavity 4 is inflated, and the articles in the placing cavity 3 are wrapped and fixed by the inner bag body after the inflation cavity 4 is inflated.

The outer bag body is formed by bending a first film layer 1, the inner bag body is formed by bending a second film layer 2, the first film layer 1 is provided with a first bending part 11 and two first heat sealing parts 12 which are symmetrically arranged on the first film layer 1 along the first bending part 11, the second film layer 2 is provided with a second bending part 21 and two second heat sealing parts 22 which are symmetrically arranged on the second film layer 2 along the second bending part 21, the second film layer 2 is bent along the second bending part 21 to form a placing cavity 3, each side edge of the first film layer 1 is overlapped with each side edge of the second film layer 2 and is fixed by heat sealing after the first film layer 1 is bent along the first bending part 11, an inflating cavity 4 is formed between the first film layer 1 and the second film layer 2, the first heat sealing part 12 of the first film layer 1 and the second heat sealing part 22 of the second film layer 2 on each side edge of the placing cavity 3 are fixed by heat sealing the inflating cavity 4, and a placing opening communicated with the placing cavity 3 is formed, at least one-way valve 6 for air inlet of the inflating cavity 4 is arranged between the first heat-sealing part 12 and the second heat-sealing part 22 of any heat seal, and the articles in the placing cavity 3 are wrapped and fixed after the inflating cavity 4 is inflated.

The length of the first film layer 1 is greater than the length of the second film layer 2.

Each first heat sealing part 12 and each first bent part 11 are arranged in parallel, each second heat sealing part 22 and each second bent part 21 are arranged in parallel, two third heat sealing parts 13 symmetrically arranged on the first film layer 1 along the first bent parts 11 are further arranged on the first film layer 1, the third heat sealing parts 13 are arranged in parallel with the first heat sealing parts 12, the first heat sealing parts 12 are positioned between the third heat sealing parts 13 and the first bent parts 11, two fourth heat sealing parts 23 symmetrically arranged on the second film layer 2 along the second bent parts 21 are further arranged on the second film layer 2, the fourth heat sealing parts 23 are arranged in parallel with the second heat sealing parts 22, the second heat sealing parts 22 are positioned between the fourth heat sealing parts 23 and the second bent parts 21, the first heat sealing parts 12 of the first film layer 1 and the second heat sealing parts 22 of the second film layer 2 on each side edge of the cavity 3 are placed and fixed, and the third heat sealing parts 13 and the fourth heat sealing parts 23 on each side edge are also fixed through heat sealing, an inflation channel 5 is formed between the first film layer 1 and the second film layer 2, a plurality of one-way valves 6 for air inlet of the inflation cavity 4 are arranged between the first heat sealing part 12 and the second heat sealing part 22 which are in heat sealing, the inflation end of each one-way valve 6 is positioned in the inflation channel 5, the air outlet end of each one-way valve 6 is positioned in the inflation cavity 4, and the inflation channels 5 at two sides of the placing cavity 3 are communicated with the inflation cavity 4 through the one-way valves 6.

The check valve 6 comprises a first film layer 61 fixed on the first heat sealing part 12, a second film layer 62 fixed on the second heat sealing part 22 and a third film layer 63 which can not be heat-sealed, an air inlet channel 64 is formed between the first film layer 61 and the second film layer 62 after the sides of the first film layer 61 and the second film layer 62 are heat-sealed and fixed, the third film layer 63 is fixed in the second film layer 62 and is positioned in the air inlet channel 64, and after the first heat sealing part 12 and the second heat sealing part 22 are heat-sealed, the third film layer 63 and the first film layer 61 form an air inlet communicated with the inflation cavity 4.

And the first film layer 1 and/or the second film layer 2 are/is provided with an exhaust member which can exhaust the air in the inflation cavity 4.

(second embodiment)

Referring to fig. 8, a check valve 6 for air inlet of the inflation cavity 4 is arranged between the first heat-sealed part 12 and the second heat-sealed part 22 in any heat seal in the utility model, the check valve 6 is fixed between the first heat-sealed part 12 and the second heat-sealed part 22 through heat seal, the inflation end of the check valve 6 is positioned outside the inflation cavity 4, and the air outlet end of the check valve 6 is positioned in the inflation cavity 4; the other technical features are the same as those in the first embodiment.

(third embodiment)

Referring to fig. 9 to 11, in the present invention, both sides of the first film layer 1 are provided with first side heat sealing portions 10, both sides of the second film layer 2 are provided with second side heat sealing portions 20, the first side heat sealing portions 10 are bent at first bending portions 11 on the first film layer 1, and then are heat-sealed with second side heat sealing portions 20 on the second film layer 2 bent at second bending portions 21 to form side heat sealing portions, and seal the side edges of the inflation cavity 4 and the placing cavity 3, the side heat sealing portions are provided with openings 7 easy to tear, and the inflation cavity 4 is deflated after being torn by the openings 7; the other technical features are the same as those in the first embodiment.

(example four)

Referring to fig. 12, the exhaust member of the present invention includes an exhaust port 8 disposed on the first membrane layer 1 and/or the second membrane layer 2, an adsorptive membrane 9 capable of controlling the opening or closing of the exhaust port 8 is disposed on the first membrane layer 1 and/or the second membrane layer 2, one end of the adsorptive membrane 9 is fixed on the first membrane layer 1 and/or the second membrane layer 2, and the adsorptive membrane 9 closes the exhaust port 8 by polar adsorption with the first membrane layer 1 and/or the second membrane layer 2; the other technical features are the same as those in the first embodiment.

The working principle of the utility model is as follows: when the utility model is used, the second film layer 2 is bent by the second bending part 21 to form an inner bag body, a placing cavity 3 is formed in the inner bag body, the first film layer 1 is bent by the first bending part 11, the side edges of the first film layer 1 and the second film layer 2 are fixed after being heat-sealed, the first heat sealing part 12 and the second heat sealing part 22 at two sides of each placing cavity 3 are fixed after being heat-sealed, the third heat sealing part 13 and the fourth heat sealing part 23 are fixed after being heat-sealed and form an inflation channel 5, a closed inflation cavity 4 is formed between the first film layer 1 and the first film layer 1, a one-way valve 6 is arranged between the first heat sealing part 12 and the second heat sealing part 22, an air inlet channel 64 between the first film layer 61 and the second film layer 62 is communicated with the inflation channel 5 and the inflation cavity 4, and when the first heat sealing part 12 and the second heat sealing part 22 are heat-sealed, the third film layer 63 can prevent the first film layer 61 and the second film layer 62 from being heat-sealed, and form the inlet port between first heat seal portion 12 and second heat seal portion 22 and carry out the ventilation in inlet channel 64, it is full of the chamber of admitting air to aerify the copper pipe stretch into gas channel 5 and behind inlet port and inlet channel 64, the chamber of admitting air is at the gas filled in-process, the bottom of the inner bag body can not take place to contact with the bottom of the outer bag body, therefore the inner bag body can suspend and set up in the outer bag body, article parcel that second rete 2 will place in the chamber 3 is fixed, first rete 1 outwards expands and the shock attenuation that the chamber 4 can be used to article, after using to accomplish through tearing opening 7 or tearing the mouth with the adsorbability membrane 9 on first rete 1 and/or the second rete 2 and tearing off and deflate, and accomodate the bag body so that recycle, safety and practicality.

The above-mentioned embodiments are intended to illustrate the objects, technical solutions and advantages of the present invention in further detail, and it should be understood that the above-mentioned embodiments are only exemplary embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalents, improvements and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. The utility model provides a free formula air can wrapping bag which characterized in that: the utility model discloses a bag body, including the outer bag body, the bag body includes the outer bag body and sets up the inner bag body in the outer bag body, and the outer bag body and the inner bag body heat seal are fixed the back, form inflatable inflation chamber (4) between the outer bag body and the inner bag body, and the internal formation of inner bag is used for placing article places chamber (3), and the lower extreme of the inner bag body is not contacted with the lower extreme of the outer bag body after inflation chamber (4), and the inner bag body will place the article parcel in chamber (3) after inflation chamber (4) is aerifyd and is fixed.

2. The hanging air energy package of claim 1, wherein: the outer bag body is formed after being bent by a first film layer (1), the inner bag body is formed after being bent by a second film layer (2), a first bending part (11) and two first heat sealing parts (12) which are symmetrically arranged on the first film layer (1) along the first bending part (11) are arranged on the first film layer (1), a second bending part (21) is arranged on the second film layer (2), two second heat sealing parts (22) which are symmetrically arranged on the second film layer (2) along the second bending part (21), the second film layer (2) is bent along the second bending part (21) to form a placing cavity (3), each side edge of the first film layer (1) is overlapped with each side edge of the second film layer (2) after the first film layer (1) is bent along the first bending part (11) and is fixed through heat sealing, an inflating cavity (4) is formed between the first film layer (1) and the second film layer (2), and the first heat sealing parts (12) and the second film layers (12) on each side edge of the first film layer (1) of the placing cavity (3) are formed through heat sealing (2) The second heat sealing part (22) seals the inflatable cavity (4) in a heat sealing way, a placing opening communicated with the placing cavity (3) is formed, at least one check valve (6) for air to enter the inflatable cavity (4) is arranged between the first heat sealing part (12) and the second heat sealing part (22) in any heat sealing way, and the article in the placing cavity (3) is wrapped and fixed after the inflatable cavity (4) is inflated.

3. The hanging air energy package of claim 2, wherein: the length of the first film layer (1) is larger than that of the second film layer (2).

4. The hanging air energy package of claim 2, wherein: a one-way valve (6) for air inlet of the inflatable cavity (4) is arranged between the first heat sealing part (12) and the second heat sealing part (22) in any heat sealing mode, the one-way valve (6) is fixed between the first heat sealing part (12) and the second heat sealing part (22) through heat sealing, the inflating end of the one-way valve (6) is located outside the inflatable cavity (4), and the air outlet end of the one-way valve (6) is located in the inflatable cavity (4).

5. The hanging air energy package of claim 2, wherein: each first heat seal portion (12) and first kink (11) parallel arrangement, each second heat seal portion (22) and second kink (21) parallel arrangement, still be equipped with two third heat seal portions (13) that set up on first rete (1) along first kink (11) symmetry on first rete (1), third heat seal portion (13) and first heat seal portion (12) parallel arrangement, and first heat seal portion (12) are located between third heat seal portion (13) and first kink (11), still be equipped with two fourth heat seal portions (23) that set up on second rete (2) along second kink (21) symmetry on second rete (2), fourth heat seal portion (23) and second heat seal portion (22) parallel arrangement, and second heat seal portion (22) are located between fourth heat seal portion (23) and second kink (21), place the first heat seal portion (12) and the second rete (2) on each side of chamber (3) When the part (22) is fixed in a heat sealing mode, the third heat sealing part (13) and the fourth heat sealing part (23) on each side edge are also fixed in a heat sealing mode, an inflation channel (5) is formed between the first film layer (1) and the second film layer (2), a plurality of check valves (6) capable of allowing the inflation cavity (4) to enter air are arranged between the first heat sealing part (12) and the second heat sealing part (22) of any heat sealing mode, the inflation end of each check valve (6) is located in the inflation channel (5), the air outlet end of each check valve (6) is located in the inflation cavity (4), and the inflation channels (5) on two sides of the placement cavity (3) are communicated with the inflation cavity (4) through the check valves (6).

6. The hanging air energy package of claim 2, wherein: the check valve (6) comprises a first film layer (61) fixed on the first heat sealing part (12), a second film layer (62) fixed on the second heat sealing part (22) and a third film layer (63) which can not be heat sealed, an air inlet channel (64) is formed between the first film layer (61) and the second film layer (62) after the sides of the first film layer (61) and the second film layer (62) are heat sealed and fixed, the third film layer (63) is fixed in the second film layer (62) and located in the air inlet channel (64), and after the first heat sealing part (12) and the second heat sealing part (22) are heat sealed, the third film layer (63) and the first film layer (61) form an air inlet hole communicated with the inflation cavity (4).

7. The hanging air energy package of claim 2, wherein: and the first film layer (1) and/or the second film layer (2) are/is provided with an exhaust piece which can exhaust the air in the inflation cavity (4).

8. The hanging air energy package of claim 7, wherein: the both sides of first rete (1) all are equipped with first side heat seal portion (10), the both sides of second rete (2) all are equipped with second side heat seal portion (20), and first kink (11) of first side heat seal portion (10) on first rete (1) are buckled the back, and second side heat seal portion (20) on second rete (2) after buckling through second kink (21) heat seal formation side heat seal portion to the side that will aerify chamber (4) and place chamber (3) is sealed, is equipped with opening (7) that easily tear in the side heat seal portion, aerifys chamber (4) and tear the back through opening (7) and deflate.

9. The hanging air energy package of claim 7, wherein: exhaust spare is including setting up gas vent (8) on first rete (1) and/or second rete (2), be equipped with on first rete (1) and/or second rete (2) and control adsorbability membrane (9) that gas vent (8) were opened or were closed, the one end of adsorbability membrane (9) is fixed on first rete (1) and/or second rete (2), adsorbability membrane (9) are through adsorbing with the polarity of first rete (1) and/or second rete (2) with gas vent (8) closure.

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