CN205738773U - Embedded air-packing devices - Google Patents

Abstract

One embedded air-packing devices, for packing article, the at least one inflation buffer body formed including at least two layers of air cells film and at least one charge valve of at least two-layer valve film formation, wherein said inflation buffer body includes multiple gas storage unit, described charge valve for the inflation of described gas storage unit and after inflation terminates self-enclosed to prevent gas leakage, and the plastic packaging that stitch through a series of plane plastic packagings of described gas storage unit and after bending plastic packaging through a series of three-dimensional plastic packagings seams form an isolated packing bag of the described packaging article of packaging.The end of described isolated packing bag is embedded, adds buffering thickness, provides buffering effect to described packaging article.

Description

Embedded air-packing devices

Technical field

This utility model relates to an air-packing devices, particularly relates to an embedded air-packing devices.

Background technology

In modern logistics industry, most widely used is packing box (packing crates).But, this traditional bag The manner of packing of mounted box, does not the most provide crashproof anti-collision to prevent falling function.It is to say, in transport or the process of storage In, packing box or packing crates can be thrown away, it is easy to cause it to deform, consequently, it is possible to cause packaged The damage of article or deformation.So the article higher to some packing instructions, such as electronic digital product, plastics Pottery, biochemical product, food medicine etc., are required for providing cushioning effect to packaging article, to prevent bag Dress article are damaged during transport and storage.Existing solution, the most traditional paper package box, It can be filled with padded coaming such as foamed materials inside paper package box and reach to provide cushioning effect Purpose.But, when the padded coaming of this packing box and filling is transported to packaging ground, it transports and stores Cost is much more expensive.And buffer foamed materials pollution environment, and not environmentally.

Alternatively improved scheme is present the most visible gas flushing pouch, its by four-level membrane through a series of Hot sealing process is formed, and wherein forms plenum chamber between two outer layers thin film, and two-layer internal layer membrane forms unidirectional inflation Valve, for insufflation gas in corresponding plenum chamber and prevent the gas leakage in plenum chamber from going out.Wherein Two outer layers thin film forms the accommodating chamber that can accommodate packaging article, so, bag after a series of folding Dress article can be buffered by gas flushing pouch in each side, to prevent the impact stress effect in the external world to bag Dress article, thus prevent from packing the damage of article.But, two outer layers thin film the single-layer type inflation bag formed The shock-absorbing capacity of pack is the most limited, such as when a sidewall of gas flushing pouch is clashed into, and described gas flush packaging In bag, air can not effectively disperse, and the sidewall of gas flushing pouch can not recover shape in time, and impacting should Power is excessively concentrated in local, thus Stress Transfer is to packing article, causes the damage of packaging article.Additionally, it is existing Some gas flushing pouch are usually and carry out being bent to form multiple inflation sidewall by inflation post, and each inflation sidewall encloses again Around forming an interior accommodating space, for storage package article, the most common U-shaped bag, Type B bag or O type bag etc..But these existing packaging bags are by single buffer structure, i.e. around packaging article and with The form of the gas column buffering of packing material condition laminating, the occasion higher in some anti-dropping crashproof requirements still can not reach To relatively satisfactory buffering effect.

Summary of the invention

The purpose of this utility model is to provide an embedded air-packing devices, for packing article End be embedded, add buffering thickness, provide good buffering effect to described packaging article.

Another object of the present utility model is to provide an embedded air-packing devices, including at least two layers of air cells At least one inflation buffer body of film formation and at least one charge valve of at least two-layer valve film formation, wherein said inflation Buffer body includes multiple gas storage unit, and described charge valve is for the inflation of described gas storage unit and terminating in inflation The most self-enclosed to prevent gas leakage, each described gas storage unit along longitudinally arrange and surround into ring-type with In forming described isolated packing bag, wall embeded in gas storage unit forms at least described in a portion, another part Described gas storage unit forms a lateral wall, and wherein said interior wall embeded is suitable to be placed in the one of described lateral wall inner surface End, to provide described buffering effect by described interior wall embeded and described lateral wall.

Another object of the present utility model is to provide an embedded air-packing devices, described interior wall embeded and described Lateral wall is laminated construction, can strengthen buffering effect.

Another object of the present utility model is to provide an embedded air-packing devices, described interior wall embeded and described Lateral wall is dislocation type laminated construction, can strengthen buffering effect.

Another object of the present utility model is to provide an embedded air-packing devices, described embedded inflation bag Assembling device has two embedded chambeies and an annular accommodates chamber, for packaging bags article and offer buffering sky Between.

Another object of the present utility model is to provide an embedded air-packing devices, described embedded inflation bag The embedded chamber of said two of assembling device there is an embedded chamber accommodate chamber with described annular to connect, can be used to packaging bag The article of packaging, also provide for cushioning effect simultaneously, and another embedded chamber accommodates chamber with described annular and do not connects, mainly It is used for providing cushion space.

Another object of the present utility model is to provide an embedded air-packing devices, described embedded inflation bag The embedded chamber of said two of assembling device accommodates chamber with described annular and all connects, and can be used to the thing of packaging bags Product, also provide for cushioning effect simultaneously.

Another object of the present utility model is to provide an embedded air-packing devices, described embedded inflation bag The embedded chamber of said two of assembling device is annular seal space, mainly provides cushion space, and it is permissible that described annular accommodates chamber Bag container packaging article.

Another object of the present utility model is to provide an embedded air-packing devices, wherein said three-dimensional plastic packaging Seam also includes horizontal end seal seam, and described interior wall embeded is connected by it along horizontal direction heat-sealing, for sealing wherein The embedded chamber of described interior wall embeded.

To achieve these goals, this utility model provides an embedded air-packing devices, for packaging One packaging article, it is characterised in that include at least one inflation buffer body that at least two layers of air cells film formed and at least Two-layer valve film formed at least one charge valve, wherein said inflation buffer body includes multiple gas storage unit, described in fill Air valve is used for inflating to described gas storage unit and self-enclosed to prevent gas leakage after inflation terminates, and institute State plastic packaging that gas storage unit stitches through a series of plane plastic packagings and through the plastic packaging of a series of three-dimensional plastic packagings seams after bending Forming the isolated packing bag packing described packaging article, the end of described isolated packing bag is embedded, increases Buffering thickness, provides buffering effect to described packaging article.

In one embodiment, wherein each described gas storage unit along longitudinally arrange and surround into ring-type for Form described isolated packing bag, wall embeded in gas storage unit formation at least one described in a portion, another part institute Stating gas storage unit and form a lateral wall, wherein said interior wall embeded is suitable to be placed in the one of described lateral wall inner surface End, to provide described buffering effect by described interior wall embeded and described lateral wall.

In one embodiment, wherein each described gas storage unit along longitudinally arrange and surround into ring-type for Forming described isolated packing bag, gas storage unit described in a portion forms two interior wall embededs, described in another part Gas storage unit forms a lateral wall, and wherein said interior wall embeded is suitable to be respectively disposed in the one of described lateral wall inner surface End, to provide described buffering effect by two described interior wall embededs and described lateral wall.

In one embodiment, wherein said three-dimensional plastic packaging seam also includes a horizontal end seal seam, and it is by described in two In interior wall embeded one connects along horizontal direction heat-sealing, for sealing the embedded of one of them described interior wall embeded Chamber.

In one embodiment, wherein said three-dimensional plastic packaging seam also includes two horizontal end seal seams, and it is by two institutes State interior wall embeded to connect along horizontal direction heat-sealing, for sealing the embedded chamber of two described interior wall embededs.

In one embodiment, wherein said interior wall embeded has embedded chamber, and described lateral wall has annular and accommodates chamber, Described embedded chamber accommodates chamber with described annular and communicates.

In one embodiment, described interior wall embeded and lateral wall are integrally formed.

In one embodiment, after the inflation of wherein said volumetric packaging body, described interior wall embeded is by described lateral wall Fitted in surface.

In one embodiment, wherein said interior wall embeded and described lateral wall are laminated construction.

In one embodiment, wherein said interior wall embeded and described lateral wall are dislocation type laminated construction.

In one embodiment, there is part described gas storage unit shape between wherein said interior wall embeded and described lateral wall The turning point become, described turning point is connected with described interior wall embeded and described lateral wall integratedly, described turnover Portion forms laminated construction for described interior wall embeded with described lateral wall.

In one embodiment, there is part described gas storage unit shape between wherein said interior wall embeded and described lateral wall The turning point become, described turning point is connected with described interior wall embeded and described lateral wall integratedly, described turnover Portion forms dislocation type laminated construction for described interior wall embeded with described lateral wall.

In one embodiment, wherein said gas storage unit include for separate adjacent two described gas storage unit one Individual or multiple partitioning slot, each described gas storage unit is separated into the multiple described sub-gas storage list of connection via bending seam Unit, wherein said turning point includes one or more gas storage unit of transferring, and is located at described turnover gas storage unit Turnover seam, described turnover seam makes the described partitioning slot of described interior wall embeded each and the described separation of described lateral wall Stitch the most overlapping.

In one embodiment, wherein said turnover seam extends described separation obliquely or curvilinearly integratedly Seam.

In one embodiment, wherein said turnover seam extends described partitioning slot V-shapedly integratedly.

In one embodiment, wherein said inflation buffer body and is rolled over through heat-sealing by the first air chamber layer and the second air chamber layer Folding technique and formed, described inflation buffer body is formed in inflation inlet and main channel, and each gas storage unit and arranges Having charge valve, air enters described main channel from described inflation inlet, and from described main channel via described inflation Valve enters each described gas storage unit.

In one embodiment, wherein said charge valve includes two valve films, its respectively with the institute of described inflation buffer body State the first air chamber layer and described second air chamber layer heat-sealing, between described two valve films, form an inlet channel, When by described inlet channel to described inflation unit inflate after, the inner surface automatic absorbing of described two valve films is bonded at Together, to prevent the gas entering described gas storage unit from described inlet channel reverse osmosis.

In one embodiment, wherein said charge valve is self binding film non return valve, and it includes more than two-layer or two-layer Valve film, as included one first valve film, one second valve film, and a non-return diaphragm seal, described first valve film and described Second valve film is positioned at outer layer, described non-return diaphragm seal between described first valve film and described second valve film, institute Stating and form an inlet channel between the first valve film and described non-return diaphragm seal, described second valve film is close with described non-return Form a check cavity between sealer, when via described gas passage by described inlet channel to described gas storage unit After interior insufflation gas, described first valve film, the inner surface of described second valve film and described non-return diaphragm seal is inhaled automatically Attached stick together, to stop the gas in described gas storage unit from described inlet channel reverse osmosis, and return at gas Hui Shihui is selectively entered described check cavity, and described second valve film can be produced by the gas entering described check cavity Raw pressure effect, thus close described inlet channel further, thus prevent gas reverse osmosis.

Accompanying drawing explanation

When Fig. 1 is the unaerated of the embedded air-packing devices according to a preferred embodiment of the present utility model Deployed condition schematic diagram.

Fig. 2 is that the embedded air-packing devices folding according to above preferred embodiment of the present utility model seals The schematic perspective view of the finished product after Laiing.

Fig. 3 A is the side half of the embedded air-packing devices according to above preferred embodiment of the present utility model Cut open schematic diagram.

Fig. 3 B is the schematic cross-section of Fig. 3 A.

Fig. 4 A is that the vertical view of the embedded air-packing devices according to above preferred embodiment of the present utility model is shown It is intended to.

Fig. 4 B is that the embedded of a kind of variant embodiment according to above preferred embodiment of the present utility model is filled The schematic top plan view of gas bag assembling device.

Fig. 4 C is not filling of the embedded air-packing devices according to above-mentioned variant embodiment of the present utility model Deployed condition schematic diagram during gas.

Fig. 5 is according to the exhibition during unaerated of the embedded air-packing devices of another embodiment of the present utility model Open state schematic diagram.

Fig. 6 A is that the side of the embedded air-packing devices according to above-described embodiment of the present utility model is partly cutd open and shown It is intended to.

Fig. 6 B is the schematic cross-section of Fig. 6 A.

Fig. 7 is the deployed condition schematic diagram during unaerated of the embedded air-packing devices of another embodiment.

Fig. 8 A is that the side of the embedded air-packing devices according to above-described embodiment of the present utility model is partly cutd open and shown It is intended to.

Fig. 8 B is the schematic cross-section of Fig. 8 A.

Fig. 9 A is the unidirectional charge valve of the embedded air-packing devices according to above-described embodiment of the present utility model Structural representation.

Fig. 9 B is the unidirectional charge valve of the embedded air-packing devices according to above-described embodiment of the present utility model Structural representation.

Fig. 9 C is the unidirectional charge valve of the embedded air-packing devices according to above-described embodiment of the present utility model Structural representation.

Detailed description of the invention

Hereinafter describe and be used for disclosing this utility model so that those skilled in the art are capable of this utility model.With Preferred embodiment in lower description is only used as citing, it may occur to persons skilled in the art that other obviously become Type.The ultimate principle of the present utility model defined in the following description can apply to other embodiments, deformation Scheme, improvement project, equivalent and the other technologies side without departing from spirit and scope of the present utility model Case.

It is the embedded gas flush packaging dress according to a preferred embodiment of the present utility model as shown in Figure 1 to Figure 4 shown in A Putting, it has inflatable structure, in order to be various packaging article such as electronic product, food, medicine after inflation Product, industrial chemicals, biomaterial, plastic ceramic, fast-moving consumer goods etc. provide gas buffer effect, and When not using, can not inflate and conveniently store and transport, reproduce field inflation in use, so that with non- The most convenient.Because described embedded air-packing devices has air cushioning performance, thus it is suitable for as institute State article to be packaged and the effect of air cushioning is provided, it will be appreciated by persons skilled in the art that above-mentioned to be packaged Article are not limited to example set forth herein, according to actual needs, embedded gas flush packaging of the present utility model Device is readily adaptable for use in the packaging of other class article.

In this preferred embodiment of the present utility model, described embedded air-packing devices may be embodied as sky Gas padded coaming, the gas being i.e. filled with is as a example by air.Certainly, it will be appreciated by persons skilled in the art that It is also likely to be other gases the most as required.In this preferred embodiment, it after inflation can be with shape Become an isolated packing bag, thus provide air cushioning effect for packaging article.

Specifically, in above preferred embodiment, described embedded air-packing devices includes that at least one inflation is slow Rush body 10, i.e. formed an isolated packing bag or multiple described inflation buffering by a described inflation buffer body 10 Body 10 connects isolated packing bag as described in bonding or heat-sealing are formed through plastic packaging.At Fig. 1 of the present utility model to figure In example shown in 4A, it is formed by a described inflation buffer body 10.

More specifically, referring to figs. 1 through Fig. 4 A and Fig. 9 A, described inflation buffer body 10 includes at least two-layer gas Room film 11 includes one or more be connected through a series of plane plastic packagings seam 30 with the formation of three-dimensional plastic packaging seam 40 with 12 The described isolated packing bag of the gas storage unit 13 connect, forming one in each described gas storage unit 13 can gas storage Air storage chamber 14.

It will be appreciated by those skilled in the art that, described plane plastic packaging seam 30 is used for plural layers through moulding Envelope forms a plane padded coaming as shown in Figure 1, and described three-dimensional plastic packaging seam 40 is used for delaying above-mentioned plane Rush the further plastic packaging of material and make described embedded air-packing devices be formed and there is space multistory configuration and energy Enough accommodate the described volumetric packaging device of described packaging article, as shown in Figure 2.Described plane plastic packaging seam 30 By the way of bonding or heat-sealing connect, plural layers can be linked together with described three-dimensional plastic packaging seam 40, Preferably, in this preferred embodiment, described plane plastic packaging seam 30 and described three-dimensional plastic packaging seam 40 can be all It is embodied as being formed by hot sealing process.

More specifically, as it is shown in figure 1, described plane plastic packaging seam 30 includes multiple row partitioning slot 31, it is by two-layer Cameral mantle 11 and 12 is separated into multiple described gas storage unit 13.The most preferably, each described partitioning slot of row 31 is led to Cross hot sealing process to be formed, cameral mantle 11 and 12 described in its heat-sealing connection two-layer, thus adjacent two described gas storage Partitioning slot 31 described in string is formed between unit 13.Described partitioning slot 31 can be continuous print hot-sealing line, from And make multiple described gas storage unit 13 the most independent.It is understood that as shown in fig. 1, top side and the end Partitioning slot 31 described in the string of side can respectively become border, top side seam and the bottom side of described inflation buffer body 10 Boundary stitches.It is noted that top side and bottom side here are relative concepies, it is according to described embedded inflation bag Assembling device with horizontal relative position definition.It is to say, when described embedded air-packing devices When described partitioning slot 31 is with horizontal line Relative vertical, it is defined as top side and bottom side, but, when described embedded When the described partitioning slot 31 of air-packing devices is opposing parallel with horizontal line, it is defined as left side and right side.Described Partitioning slot 31 can also be interrupted hot-sealing line, so that multiple described gas storage unit 13 interconnects.Described Gas storage unit 13 can be variously-shaped, such as bar shaped, circular, polygon or other are irregularly shaped etc..As Shown in Fig. 1 to Fig. 4 A, described inflation buffer body 10 of the present utility model can include multiple being arranged side by side The identical inflation post of size, described inflation buffer body 10 of the present utility model can also include multiple row arranged side by side The inflation gas column varied in size of row.Additionally, the arrangement mode of size gas column can be diversified, such as, can hand over For arrangement, can form little gas column etc. in some region, we are bright to be not so limited in this respect.

In above preferred embodiment, shown in Fig. 9 A to Fig. 9 C be of the present utility model as described in embedded bag The structural representation of the described charge valve 20 of assembling device.With reference to Fig. 9 A, described air-packing devices is further Including the charge valve 20 formed by least two-layer valve film 21 and 22, the described valve film 21 of described charge valve 20 Superimposedly arrange mutually with described cameral mantle 11 and 12 with 22, and shape between described valve film 21 and 22 Become for the inlet channel 23 to the inflation of described air storage chamber 14.It is understood that described valve film 21 and 22 Be shorter in length than described cameral mantle 11 and 12.When being filled in described air storage chamber 14 by described inlet channel 23 When air pressure in gas and described air storage chamber 14 reaches pre-provisioning request, the gas pressure in described air storage chamber 14 exists On described valve film 21 and 22, so that described valve film 21 and 22 fits in wherein one layer of described cameral mantle, thus Close described inlet channel 23, so that described charge valve 20 plays the effect of check valve.When each described gas storage Form at least one described inlet channel 23 in unit 13, and each described gas storage unit 13 is the most independent Time, when one of them described gas storage unit 13 be damaged gas leakage time, other described gas storage unit 13 is not Can be affected, moreover it is possible to play air cushioning effect.As shown in Figure 9 B, described charge valve 20 further may be used To include increasing by one layer of valve film 25, it is between valve film described in two-layer 21 and 22, seals for strengthening Performance.As shown in Figure 9 C, described charge valve 20 can include one layer of valve film 26 further, and it is positioned at one Between the described cameral mantle 12 of layer and described valve film 22, i.e. it is positioned at the outside of valve film 21 and 22 described in two-layer, from And play and prevent the connection of described valve film 22 and described cameral mantle 12 to be torn, to play reinforcement, it consolidates The effect connected.It is understood that the concrete structure of above-mentioned charge valve 20 is only used as citing and is not limiting as This utility model.

It is understood that the described cameral mantle 11 of described inflation buffer body 10 and 12 and described charge valve The described valve film 21 and 22 of 20 can be made up of various suitable thin-film materials respectively, as polyethylene film, Polypropylene film, polyvinyl chloride film, mylar, polystyrene film or laminated film etc., this reality The most also it is not so limited with novel, as long as suitably fexible film.It is noted that In order to increase one-way sealing effect, the described valve film 21 and 22 of described charge valve 20 can also be by above-mentioned thin The film autohension thin film that modification obtains through interpolation chemical composition.

Described inflation buffer body 10 includes a main channel unit 15 further, and it is connected to each described gas storage Unit 13, it is preferable that it extends each described gas storage unit 13 integratedly.More specifically, implement one In example, described main channel unit 15 is perpendicular with the bearing of trend of described gas storage unit 13.Such as, one In embodiment, each described gas storage unit 13 extends in a longitudinal direction, and described main channel unit 15 is along horizontal stroke Extend to direction.Described main channel unit 15 forms a main channel 151, and described main channel 151 has One inflation inlet 152, when the position of described inflation inlet 152 is provided with charging connector and performs charge operation, gas Body enters described main channel 151 from described inflation inlet 152 along horizontal direction, and enters further along longitudinal direction Enter each described gas storage unit 13, and after air storage chamber 14 each described reaches preset air pressure, described in fill The described valve film 21 and 22 of air valve 20 fits in wherein one layer of cameral mantle 11 or 12, thus realizes self-enclosed, To prevent the gas reverse osmosis again being filled with from entering described main channel 151.

It is understood that described main channel unit 15 can be formed by cameral mantle described in two-layer 11 and 12, Can also be formed by valve film described in two-layer 21 and 22, or by wherein one layer of described cameral mantle 11 or 12 and its In one layer of described valve film 21 or 22 formed.

As shown in fig. 1, described plane plastic packaging seam 30 includes laying respectively at described inflation buffer body further The main channel of one side joint seal 32 of the continuous sealing of the left and right sides of 10 and a continuous sealing in left side seals seam 33, wherein the described banding in left side seam 32 and described main channel seal and form described main channel 151 between seam 33. It is understood that described banding seam 32 is the most bonding by plastic package process or heat-sealing is formed and seals connection two The described cameral mantle 11 and 12 of layer, described main channel sealing seam 33 is the most bonding by plastic package process or heat-sealing is formed And valve film 21 and 22 described in cameral mantle described in two-layer 11 and 12 and two-layer is respectively connected together, such as figure Shown in 9A to 9C, the described main channel of the both sides up and down such as formed by a hot sealing process is sealed Described cameral mantle 11 and described valve film 21 are sealed by seam 33 respectively in the position of corresponding described inlet channel 23 Connecting, and described cameral mantle 12 and described valve film 22 are sealed connection, other positions are by plural layers one The heat-sealing of body ground connects, and described inflation buffer body 10 is divided into described main channel unit 15 and described gas storage unit 13。

As shown in Fig. 9 A to 9C, each described gas storage unit 13 in the position of neighbouring described main channel 151, Described valve film 21 and 22 is further advanced by the heat-sealing of multiple connecting sewing 35 and is connected to described cameral mantle 11, so When reaching predetermined air pressure in described air storage chamber 14, gas pressure in described valve film 21 and 22, and because of It is the setting of a connecting sewing 35 and is pressed towards described cameral mantle 11 simultaneously and finally fits in described cameral mantle 11, Thus close described inlet channel 23.The heat-sealing of the most described connecting sewing 35 connect valve film 21 and 22 described in two-layer with And one layer of described cameral mantle 11.It addition, as shown in Fig. 9 A to 9C, the shape of each described connecting sewing 35 Design make it play the effect preventing gas backstreaming the most further, say, that when described air storage chamber When gas in 14 wants backflow, can be stopped by described connecting sewing 35 and can not enter described by reverse osmosis easily Main channel 151.It addition, when heat-sealing these plane plastic packagings of formation stitch 30, the described valve of described charge valve 20 The described inlet channel 23 of film 21 and 22 can be formed, at hot sealing process by arranging heat-resisting baffling device Afterwards, described heat-resisting baffling device is further taken out.In one embodiment, the described valve film 21 of described charge valve 20 And between 22, it is provided with a refractory layer 24, as shown in Fig. 9 A to 9C, such as, can be heat-resistant inks, It pastes described main channel 151 and is connected, without being closed by its inlet port because of heat-sealing.In one embodiment, Described main channel 151 is formed by cameral mantle described in two-layer 11 and 12, described refractory layer 24 and described valve film 21 Own extension each with 22 enters described main channel 151, and described plane plastic packaging seam 30 also includes corresponding to described The string of the position of the extension of refractory layer 24 apart from one another by the joint close 36 arranged along the longitudinal direction because The setting of described refractory layer 24, described joint close 36 is by described in cameral mantle described in two-layer 11 and 12 and two-layer Valve film 21 and 22 is respectively connected together, and valve film 21 and 22 described in two-layer does not seal connection, described The setting of joint close 36 makes described inflation buffer body 10 when inflation, and gas enters behind described main channel 151, The described cameral mantle 11 and 12 of adjacent described valve film 21 and 22 and corresponding connection can together with expand and open Corresponding described inlet channel 23.

It will be appreciated by those skilled in the art that, this utility model by described plane plastic packaging seam 30 and Described three-dimensional plastic packaging seam 40 can reach described gas storage unit 13 annular configuration, and each described gas storage unit 13 accommodate chamber 1001, one first embedded chamber 1002 and one second embedded chamber 1003 around forming an annular.? During application, annular article may adapt to be packaged in described annular and accommodate in chamber 1001, or described first Embedding chamber 1002 and described second embedded chamber 1003 may also be used for packing article to be packaged.Specifically, as In embodiment shown in Fig. 1 to Fig. 4 A, described first embedded chamber 1002 is not sealed with, namely with institute Stating annular receiving chamber 1001 to be connected, described first embedded chamber 1002 can be used to the article of packaging bags, Also there are certain cushioning effect, described second embedded chamber 1003 to be sealed simultaneously, namely hold with described annular Receiving chamber 1001 when not connecting, described second embedded chamber 1003 is mainly used to provide cushion space；If Fig. 5 is to figure In embodiment shown in 6B, described first embedded chamber 1002 is not sealed with, and namely accommodates with described annular Chamber 1001 is connected, and described first embedded chamber 1002 can be used to the article of packaging bags, also provides for simultaneously Cushion space, described second embedded chamber 1003 is the most unsealed, say, that accommodate chamber 1001 with described annular Connection, described second embedded chamber 1003 is identical with the effect in described first embedded chamber 1002 in this embodiment； And for example in the embodiment shown in Fig. 7 to Fig. 8 B, described first embedded chamber 1002 is sealed, namely with institute Stating annular receiving chamber 1001 not connect, described first embedded chamber 1002 is mainly used to provide cushioning effect, described Second embedded chamber 1003 is also sealed, and namely accommodates chamber 1001 with described annular and does not connects, in described second Embedding chamber 1003 is also to be mainly used to provide cushion space, in this embodiment, time actually used, often first Band packaging article are placed in described annular accommodate in chamber 1001, seal described first embedded chamber 1002 and institute afterwards State the second embedded chamber 1003.It will be appreciated by those skilled in the art that, above-mentioned three in this utility model Plant cavity and be not limited to embodiment provided above, also include other embodiments deformed.And for example this utility model Can also only have an embedded chamber with described annular accommodate chamber 1001 be connected or seal, be not restricted on State embodiment.

Specifically, as shown in Figure 1 to Figure 4 shown in A, in preferred embodiment of the present utility model, described annular is held Receive chamber 1001 and described first embedded chamber 1002 can be used to the article of strap packaging, described second embedded chamber 1003 owing to being sealed, and main offer strengthens cushioning effect.

In this preferred embodiment of the present utility model, more specifically, as it is shown in figure 1, described plane plastic packaging Seam 30 also includes that multiple row stitches 37 in the bending being interrupted heat-sealing, and the described inflation buffer body 10 after inflation is suitable for Along the bending of described bending seam 37, so that described inflation buffer body 10 forms multiple sidewall.More specifically, In preferred embodiment of the present utility model, it is preferable that described plane plastic packaging seam 30 includes that four row are in being interrupted heat The bending seam 37 of envelope, described bending is stitched 37 and each described gas storage unit 13 is divided into many sub-gas storage unit 131 With 133, each two row described bending seam 37 intermediate formation one communicating passage 132, the most adjacent described sub-gas storage Unit 131 and 133 is interconnected.

Further, as shown in Figure 1 to Figure 4 shown in A, described four row of described plane plastic packaging seam 30 are in being interrupted heat-sealing Bending seam 37 be suitable to bending, thus described inflation buffer body 10 be suitable for along four row bending seam 37 bending Wall embeded 102 in forming one first, wall embeded 103 and a lateral wall 101 in second.More specifically, described bending Seam 37 includes the two row left bending seam 371 in interruption heat-sealing and the two row right bending seam 372 in interruption heat-sealing, Thus described inflation buffer body 10 is suitable for along the two described left bending seam 371 of row and the described right bending seams of two row 372 bendings, wherein overbending direction is relative.Correspondingly, as shown in Figure 1 to Figure 4 shown in A, described three-dimensional plastic packaging seam 40 include the plastic packaging seam 41 being positioned at described inflation buffer body 10 left and right sides, and it is by described inflation buffer body Limit, the left and right sides plastic packaging of 10 together, i.e. realizes the side seals of described inflation buffer body 10, thus realizes Each described gas storage unit 13 annular configuration.It is to say, described inflation buffer body 10 stitches through described plastic packaging The sealing of 41 and the two described left bending seams 371 and two of row of relative overbending direction arrange described right bending seams 372 Be bent to form described first in wall embeded 102, wall embeded 103 and described lateral wall 101 in described second.Two Arrange and define described lateral wall 101 between described left bending seam 371 and the described right bending seam 372 of two row.Can To be understood by, as shown in Fig. 2 to Fig. 3 B, wall embeded 103 in wall embeded 102 and described second in described first Described sub-gas storage unit 131 ring extended the most integratedly of each freedom described gas storage unit 13 Being formed around arranging, described lateral wall 101 is extended the most integratedly by described gas storage unit 13 Described sub-gas storage unit 133 is formed.Each described communicating passage 132 is around arranging formation one turning point 104.Institute State turning point 104 to be connected with wall embeded 102 in described first and described lateral wall 101 integratedly, or one Ground is connected with wall embeded 103 in described second and described lateral wall 101.

In this preferred embodiment of the present utility model, described three-dimensional plastic packaging seam 40 also includes a horizontal end Joint seal 42, wall embeded 103 in described second is connected by it along horizontal direction heat-sealing.Described lateral wall 101 by Connecting in head and the tail and form described annular and accommodate chamber 1001, in described first, wall embeded 102 is formed described first embedded Chamber 1002, in described second, wall embeded 103 connects due to head and the tail and the plastic packaging of described end seal seam 42 is formed described Second embedded chamber 1003.So, described plastic packagings seam 41 and described of plural layers is connected by these heat-sealings End seal seam 42 so that described inflation buffer body is formed embedded stereo inflating packaging bag of the present utility model. Described annular accommodates chamber 1001 and described first embedded chamber 1002 and can be used to the article that strap is packed, described Second embedded chamber 1003 is owing to being sealed, and main offer strengthens cushioning effect.

It addition, in above preferred embodiment, when described packaging article are packaged in described receiving chamber 1001, Because shape around also plastic packaging again after wall embeded 102 and described lateral wall 101 overlap in described first, thus institute State air-packing devices and form laminated construction, thus provide for described packaging article and strengthen cushioning effect.

It is noted that in order to strengthen buffering effect further, wall embeded 102 and described outside in described first The congruent manner of wall 101 can also is that offset laminar formula structure, more specifically, in one embodiment, and described turn Folding part 104 includes one or more turnover gas storage unit, and is located at the turnover seam of described turnover gas storage unit 34.Described turnover seam 34 extends between each described communicating passage 133 obliquely, and is connected integrally to Described partitioning slot 31 or a part for described partitioning slot 31.It is noted that some turnover unit it Between turnover seam 34 be likely to link together, such as form V-shape, other turnover seams 34 are obliquely Extend, and adjacent turnover seam 34 arranges parallel to each other.

Shown in Fig. 4 B and Fig. 4 C, the described sub-gas storage unit 131 of wall embeded 102 and described in described first The described sub-gas storage unit 133 of lateral wall 101 is arranged the most overlappingly, more specifically, wall embeded in described first Partitioning slot 31 between the described sub-gas storage unit 131 of 102 and the described sub-gas storage list of described lateral wall 101 Partitioning slot 31 position between unit 133 is the most overlapping, but dislocation ground is arranged.Therefore, wall embeded in described first The described sub-gas storage unit 131 of 102 and the described sub-gas storage unit 133 of described lateral wall 101 partly overlap Rather than fully overlap, thus form misconstruction.

Similarly, in order to strengthen buffering effect further, wall embeded 103 and described lateral wall 101 in described second Congruent manner can also be offset laminar formula structure, more specifically, in one embodiment, described second embedded The described sub-gas storage unit 131 of wall 103 and the described sub-gas storage unit 133 of described lateral wall 101 are the most overlappingly Arrange, say, that partitioning slot 31 between the described sub-gas storage unit 131 of wall embeded 103 in described second And partitioning slot 31 position between the described sub-gas storage unit 133 of described lateral wall 101 is the most overlapping, but wrong Ground, position is arranged.Therefore, the described sub-gas storage unit 131 of wall embeded 103 and described lateral wall 101 in described second Described sub-gas storage unit 133 partly overlap rather than fully overlap, thus form misconstruction.

It is understood that in above preferred embodiment, can be first through the plastic packaging of described three-dimensional plastic packaging line 40 It is inflated forming stereochemical structure through described charge valve 20 with after bending, it is also possible to first inflate, moulds described in warp Again through described folding line 37 after the annular configuration that envelope line 41 head and the tail are connected up to each described gas storage unit 13 Being bent to form stereochemical structure, this utility model is not limited by this order.

It is understood that in above preferred embodiment, in use, described packaging article can be contained in Described annular accommodates in chamber 1001 and described first embedded chamber 1002.When external impact force acts on described outside During wall 101, described lateral wall 101 can be that described packaging article provide first-level buffer effect, in described first Wall embeded 102 can be that described packaging article provide level 2 buffering effect.When external impact force acts on described embedded During the bottom side of formula air-packing devices, owing to sealing the described second embedded chamber formed through described end seal line 42 1003 provide deformation space for each described gas storage unit 13, it addition, described packaging article are not direct with bottom Contact, slows down the transmission of stress the most further.The most described embedded air-packing devices adds buffering thickness Degree, enhances its integrated buffer performance, provides multi-buffer effect for described packaging article.

As shown in Fig. 5 to Fig. 6 B, in another variant embodiment of the present utility model, described first embedded chamber 1002 are not sealed with, and namely accommodate chamber 1001 with described annular and are connected, described first embedded chamber 1002 Can be used to the article of packaging bags, also provide for cushion space simultaneously, described second embedded chamber 1003A is also Unsealed, say, that to accommodate chamber 1001 with described annular and connect.Therefore, described annular accommodate chamber 1001, Described first embedded chamber 1002 and described second embedded chamber 1003A can be used to the article of strap packaging, also Enhancing cushioning effect can be provided.

In this embodiment of the present utility model, more specifically, as it is shown in figure 5, described plane plastic packaging seam 30 Also include multiple row in be interrupted heat-sealing bending seam 37, the described inflation buffer body 10a after inflation be suitable for along The bending of described bending seam 37, so that described inflation buffer body 10a forms multiple sidewall.More specifically, In embodiment of the present utility model, it is preferable that described plane plastic packaging seam 30 includes that four row are in being interrupted the curved of heat-sealing Crease 37, each described gas storage unit 13 is divided into many sub-gas storage unit 131 and 133 by described bending seam 37, Each two row described bending seam 37 intermediate formation one communicating passage 132, the most adjacent described sub-gas storage unit 131 Interconnected with 133.

Further, as shown in Fig. 5 to Fig. 6 B, described four row of described plane plastic packaging seam 30 are in being interrupted heat-sealing Bending seam 37 be suitable to bending, thus described inflation buffer body 10a be suitable for along four row bending seam 37 bending Wall embeded 102 in forming one first, wall embeded 103A and a lateral wall 101 in second.More specifically, it is described curved Crease 37 includes that two row arrange in the right bending seam 372 being interrupted heat-sealing in the left bending seam 371 and two being interrupted heat-sealing, Thus described inflation buffer body 10a is suitable for along the two described left bending seam 371 of row and the described right bending seams of two row 372 bendings, wherein overbending direction is relative.Correspondingly, as figure is to shown in Fig. 5, and described three-dimensional plastic packaging stitches 40 Stitching 41 including the plastic packaging being positioned at the described inflation buffer body 10a left and right sides, it is by described inflation buffer body 10a Limit, left and right sides plastic packaging together, i.e. realize the side seals of described inflation buffer body 10a, thus realize each Described gas storage unit 13 annular configuration.It is to say, described inflation buffer body 10a stitches 41 through described plastic packaging Sealing and relatively two described left bending seams 371 of row of overbending direction and the described right bending seam 372 of two row curved Roll over wall embeded 102 in defining described first, wall embeded 103A and described lateral wall 101 in described second.Two row Described lateral wall 101 is defined between described left bending seam 371 and the described right bending seam 372 of two row.Permissible It is understood by, each freedom of wall embeded 103A described gas storage unit 13 in wall embeded 102 and described second in described first The described sub-gas storage unit 131 extended the most integratedly around arrange formed, described lateral wall 101 are formed by the described sub-gas storage unit 133 extended the most integratedly of described gas storage unit 13. Each described communicating passage 132 is around arranging formation one turning point 104.Described turning point 104 is integratedly with described In first, wall embeded 102 is connected with described lateral wall 101, or integratedly with described second in wall embeded 103A It is connected with described lateral wall 101.

In this embodiment of the present utility model, described lateral wall 101 forms described annular owing to head and the tail connect Accommodating chamber 1001, in described first, wall embeded 102 forms described first embedded chamber 1002, wall embeded in described second 103A forms described second embedded chamber 1003A.So, mould described in these heat-sealing connection plural layers Joint seal 41 makes described inflation buffer body 10a be formed embedded stereo inflating packaging bag of the present utility model.

It addition, in the above-described embodiments, when described packaging article are packaged in described receiving chamber 1001, because of After overlapping for wall embeded in described first 102 and described lateral wall 101 again around and plastic packaging shaping, thus described Air-packing devices forms laminated construction, thus provides for described packaging article and strengthen cushioning effect.

It is understood that in the above-described embodiments, can be first through the plastic packaging of described three-dimensional plastic packaging line 40 and curved It is inflated forming stereochemical structure through described charge valve 20 after discharging the retained water, it is also possible to first inflate, through described plastic packaging line Again through the bending of described folding line 37 after 41 annular configuration being connected up to each described gas storage unit 13 from beginning to end Forming stereochemical structure, this utility model is not limited by this order.

It is understood that in the above-described embodiments, in use, described packaging article can be contained in described Annular accommodates in chamber 1001, described first embedded chamber 1002 and described second embedded chamber 1003A.When outside rushes When the power of hitting acts on described lateral wall 101, described lateral wall 101 can be that described packaging article provide one-level to delay Punching effect, in described first, in wall embeded 102 and described second, wall embeded 103A can be that described packaging article provide Level 2 buffering effect.It is noted that in this embodiment of the present utility model, in use, described Packaging article are preferably received in described annular and accommodate in chamber 1001, thus described first embedded chamber 1002 and institute State the second embedded chamber 1003A and be respectively formed gas buffer space, when foreign impacts power acts on described embedded fill During gas bag assembling device, the gas of described first embedded chamber 1002 and described second embedded chamber 1003A provides shape The space become.Additionally, in wall embeded 102 and described second, the edge of wall embeded 103A can be fixed in described first Described packaging article accommodate in chamber 1001 in described annular, reduce described packaging article and accommodate chamber in described annular The 1001 interior relative displacements with described lateral wall 101, described packaging article are difficult to from described embedded inflation bag Skid off in assembling device.Therefore, described embedded air-packing devices adds buffering thickness, enhances it overall Shock-absorbing capacity, provides multi-buffer effect for described packaging article.

It is noted that in order to strengthen buffering effect further, similarly, in described first wall embeded 102 with The congruent manner of described lateral wall 101 can also is that offset laminar formula structure, more specifically, in one embodiment, Described turning point 104 includes multiple turnover seam 34.Described turnover seam 34 extends each described connection obliquely and leads to Between road 133, and it is connected integrally to described partitioning slot 31 or a part for described partitioning slot 31. It is noted that the turnover seam 34 between some turnover unit is likely to link together, such as, form V Font, other turnover seams 34 extend obliquely, and adjacent turnover seam 34 arranges parallel to each other.

Similarly, in order to strengthen buffering effect further, wall embeded 103A and described lateral wall 101 in described second Congruent manner can also be offset laminar formula structure, more specifically, in another embodiment, in described second The described sub-gas storage unit 131 of wall embeded 103A and the described sub-gas storage unit 133 of described lateral wall 101 do not weigh Arrange, say, that separation between the described sub-gas storage unit 131 of wall embeded 103A in described second foldedly Partitioning slot 31 position between seam 31 and the described sub-gas storage unit 133 of described lateral wall 101 is the most overlapping, and It is to arrange with misplacing.Therefore, the described sub-gas storage unit 131 of wall embeded 103A and described outside in described second The described sub-gas storage unit 133 of wall 101 partly overlaps rather than fully overlaps, thus forms misconstruction.

In embodiment as shown in Fig. 7 to Fig. 8 B, described first embedded chamber 1002B is sealed, namely with Described annular accommodates chamber 1001 and does not connects, and described first embedded chamber 1002B is mainly used to provide cushioning effect, Described second embedded chamber 1003 is also sealed, and namely accommodates chamber 1001 with described annular and does not connects, and described the Two embedded chambeies 1003 are also to be mainly used to provide cushion space, in this embodiment, time actually used, past Accommodate in chamber 1001 toward first band packaging article being placed in described annular, seal described first embedded chamber 1002B afterwards With described second embedded chamber 1003.

In this embodiment of the present utility model, more specifically, as it is shown in fig. 7, described plane plastic packaging seam 30 Also include multiple row in be interrupted heat-sealing bending seam 37, the described inflation buffer body 10b after inflation be suitable for along The bending of described bending seam 37, so that described inflation buffer body 10b forms multiple sidewall.More specifically, In embodiment of the present utility model, it is preferable that described plane plastic packaging seam 30 includes that four row are in being interrupted the curved of heat-sealing Crease 37, each described gas storage unit 13 is divided into many sub-gas storage unit 131 and 133 by described bending seam 37, Each two row described bending seam 37 intermediate formation one communicating passage 132, the most adjacent described sub-gas storage unit 131 Interconnected with 133.

Further, described four row of described plane plastic packaging seam 30 are suitable to bending in the bending seam 37 being interrupted heat-sealing, Thus described inflation buffer body 10b be suitable for being bent to form one first along four row bending seams 37 in wall embeded 102B, wall embeded 103 and a lateral wall 101 in second.More specifically, described bending seam 37 include two row in The left bending seam 371 and two being interrupted heat-sealing arranges in the right bending seam 372 being interrupted heat-sealing, thus described inflation buffering Body 10 is suitable for along the two described left bending seam 371 of row and described right bending seam 372 bendings of two row, the most curved Folding direction is relative.Correspondingly, described three-dimensional plastic packaging seam 40 includes being positioned at described inflation buffer body 10 left and right sides One plastic packaging seam 41, it by limit, the left and right sides plastic packaging of described inflation buffer body 10b together, i.e. realizes institute State the side seals of inflation buffer body 10b, thus realize each described gas storage unit 13 annular configuration.Namely Saying, described inflation buffer body 10b arranges institutes through the sealing of described plastic packaging seam 41 and the two of relative overbending direction State left bending seam 371 and two row described right bending seam 372 be bent to form described first in wall embeded 102B, Wall embeded 103 and described lateral wall 101 in described second.The two described left bending seams 371 and two of row arrange the described right side Described lateral wall 101 is defined between bending seam 372.It is understood that wall embeded 102B in described first With described second in the extending the most integratedly of each freedom of wall embeded 103 described gas storage unit 13 Described sub-gas storage unit 131 around arrange formed, described lateral wall 101 by described gas storage unit 13 along it The described sub-gas storage unit 133 that length direction extends integratedly is formed.Each described communicating passage 132 is around layout Form a turning point 104.Described turning point 104 integratedly with described first in wall embeded 102B and described outside Wall 101 is connected, or is connected with wall embeded 103 in described second and described lateral wall 101 integratedly.

In this embodiment of the present utility model, described three-dimensional plastic packaging seam 40 also includes two horizontal end seals Seam 42, respectively will in described first in wall embeded 102 and described second wall embeded 103 along horizontal direction heat-sealing company Connect.Described lateral wall 101 forms described annular and accommodates chamber 1001, wall embeded in described first owing to head and the tail connect 102B forms described first embedded chamber 1002B owing to head and the tail connect, and in described second, wall embeded 103 is due to described The plastic packaging head and the tail of end seal seam 42 connect the described second embedded chamber 1003 of formation.So, connected by these heat-sealings The described plastic packaging seam 41 of plural layers and described end seal seam 42 so that described inflation buffer body is formed this The embedded stereo inflating packaging bag of utility model.Described annular accommodates chamber 1001 and can be used to strap packaging Article, described first embedded chamber 1002B and described second embedded chamber 1003, owing to being sealed, mainly provide Strengthen cushioning effect.

It addition, in above preferred embodiment, when described packaging article are packaged in described receiving chamber 1001, Because shaping around also plastic packaging again after in described first, wall embeded 102B and described lateral wall 101 overlap, thus Described air-packing devices forms laminated construction, thus provides for described packaging article and strengthen cushioning effect.

It is noted that in order to strengthen buffering effect further, in described first wall embeded 102B with described outside The congruent manner of sidewall 101 can also is that offset laminar formula structure, more specifically, in one embodiment, described Turning point 104 includes multiple turnover seam 34.Described turnover seam 34 extends each described communicating passage 133 obliquely Between, and it is connected integrally to described partitioning slot 31 or a part for described partitioning slot 31.It is worth one Being mentioned that, the turnover seam 34 between some turnover unit is likely to link together, such as, form V-shape, Other turnover seams 34 extend obliquely, and adjacent turnover seam 34 arranges parallel to each other.

Similarly, in order to strengthen buffering effect further, wall embeded 103 and described lateral wall 101 in described second Congruent manner can also be offset laminar formula structure, more specifically, in one embodiment, described second embedded The described sub-gas storage unit 131 of wall 103 and the described sub-gas storage unit 133 of described lateral wall 101 are the most overlappingly Arrange, say, that partitioning slot 31 between the described sub-gas storage unit 131 of wall embeded 103 in described second And partitioning slot 31 position between the described sub-gas storage unit 133 of described lateral wall 101 is the most overlapping, but wrong Ground, position is arranged.Therefore, the described sub-gas storage unit 131 of wall embeded 103 and described lateral wall 101 in described second Described sub-gas storage unit 133 partly overlap rather than fully overlap, thus form misconstruction.

It is understood that in the above-described embodiments, in use, described packaging article can be contained in described Annular accommodates in chamber 1001.When external impact force acts on described lateral wall 101, described lateral wall 101 Can be that described packaging article provide first-level buffer effect, when external impact force acts on described embedded inflation bag During the both sides of assembling device, owing to sealing the described second embedded chamber 1003 formed and described through described end seal line 42 In first, wall embeded chamber 1002B is that each described gas storage unit 13 provides deformation space, can be described packing material Product provide level 2 buffering effect.It addition, described packaging article not with the two of described embedded air-packing devices outside End directly contact, slows down the transmission of stress the most further.The most described embedded air-packing devices adds Buffering thickness, enhances its integrated buffer performance, provides good buffering effect for described packaging article.

It should be understood by those skilled in the art that the embodiment of the present utility model shown in foregoing description and accompanying drawing is only It is not limiting as this utility model as an example.The purpose of this utility model is completely and be effectively realized.This The function of utility model and structural principle are shown the most in an embodiment and illustrate, without departing under described principle, Embodiment of the present utility model can have any deformation or amendment.

Claims (18)

1. an embedded air-packing devices, for packing article, it is characterized in that, the at least one inflation buffer body formed including at least two layers of air cells film and at least one charge valve of at least two-layer valve film formation, wherein said inflation buffer body includes multiple gas storage unit, described charge valve is used for inflating to described gas storage unit and self-enclosed to prevent gas leakage after inflation terminates, and plastic packaging that described gas storage unit stitches through a series of plane plastic packagings and after bending plastic packaging through a series of three-dimensional plastic packagings seams form the isolated packing bag packing described packaging article, the end of described isolated packing bag is embedded, add buffering thickness, buffering effect is provided to described packaging article.

Embedded air-packing devices the most as claimed in claim 1, wherein each described gas storage unit is ring-type for forming described isolated packing bag along longitudinally arranging and surrounding into, wall embeded in gas storage unit formation at least one described in a portion, described in another part, gas storage unit forms a lateral wall, wherein said interior wall embeded is suitable to be placed in one end of described lateral wall inner surface, to provide described buffering effect by described interior wall embeded and described lateral wall.

Embedded air-packing devices the most as claimed in claim 2, wherein each described gas storage unit is ring-type for forming described isolated packing bag along longitudinally arranging and surrounding into, gas storage unit described in a portion forms two interior wall embededs, described in another part, gas storage unit forms a lateral wall, wherein said interior wall embeded is suitable to be respectively disposed in one end of described lateral wall inner surface, to provide described buffering effect by two described interior wall embededs and described lateral wall.

Embedded air-packing devices the most as claimed in claim 3, wherein said three-dimensional plastic packaging seam also includes a horizontal end seal seam, and in two described interior wall embededs is connected by it along horizontal direction heat-sealing, for sealing the embedded chamber of one of them described interior wall embeded.

Embedded air-packing devices the most as claimed in claim 3, wherein said three-dimensional plastic packaging seam also includes two horizontal end seal seams, and two described interior wall embededs are connected by it along horizontal direction heat-sealing, for sealing the embedded chamber of two described interior wall embededs.

Embedded air-packing devices the most as claimed in claim 3, wherein said interior wall embeded has embedded chamber, and described lateral wall has annular and accommodates chamber, and described embedded chamber accommodates chamber with described annular and communicates.

7. the embedded air-packing devices as described in arbitrary in claim 2 to 6, wherein said interior wall embeded and lateral wall are integrally formed.

8. the embedded air-packing devices as described in arbitrary in claim 2 to 6, after the inflation of wherein said volumetric packaging body, described interior wall embeded is fitted by the inner surface of described lateral wall.

9. the embedded air-packing devices as described in arbitrary in claim 2 to 6, wherein said interior wall embeded and described lateral wall are laminated construction.

10. the embedded air-packing devices as described in arbitrary in claim 9, wherein said interior wall embeded and described lateral wall are dislocation type laminated construction.

In 11. such as claim 9 arbitrary as described in embedded air-packing devices, there is between wherein said interior wall embeded and described lateral wall the turning point that part described gas storage unit is formed, described turning point is connected with described interior wall embeded and described lateral wall integratedly, and described turning point forms laminated construction for described interior wall embeded with described lateral wall.

12. embedded air-packing devices as described in claim 10, there is between wherein said interior wall embeded and described lateral wall the turning point that part described gas storage unit is formed, described turning point is connected with described interior wall embeded and described lateral wall integratedly, and described turning point forms dislocation type laminated construction for described interior wall embeded with described lateral wall.

13. embedded air-packing devices as described in claim 12, wherein said gas storage unit includes the one or more partitioning slot for separating adjacent two described gas storage unit, each described gas storage unit is separated into many sub-gas storage unit of connection via bending seam, wherein said turning point includes one or more gas storage unit of transferring, and it is located at the turnover seam of described turnover gas storage unit, described turnover seam makes the described partitioning slot of described interior wall embeded each the most overlapping with the described partitioning slot of described lateral wall.

14. embedded air-packing devices as described in claim 13, wherein said turnover seam extends described partitioning slot obliquely or curvilinearly integratedly.

15. embedded air-packing devices as described in claim 13, wherein said turnover seam extends described partitioning slot V-shapedly integratedly.

The 16. embedded air-packing devices as described in arbitrary in claim 2-6, wherein said inflation buffer body is formed through heat-sealing and folding technology by the first air chamber layer and the second air chamber layer, described inflation buffer body forms inflation inlet and main channel, and each gas storage unit is provided with charge valve, air enters described main channel from described inflation inlet, and enters each described gas storage unit from described main channel via described charge valve.

17. embedded air-packing devices as claimed in claim 16, wherein said charge valve includes two valve films, its respectively with the described first air chamber layer of described inflation buffer body and described second air chamber layer heat-sealing, an inlet channel is formed between described two valve films, when by described inlet channel to described gas storage unit inflate after, the inner surface automatic absorbing of described two valve films sticks together, to prevent the gas entering described gas storage unit from described inlet channel reverse osmosis.

18. embedded air-packing devices as claimed in claim 16, wherein said charge valve is self binding film non return valve, and it includes the valve film of more than two-layer or two-layer.