CN204528087U - Stand-type multi-layer air packing device - Google Patents

Abstract

A kind of stand-type multi-layer air packing device, for prolonging elongate article and provide buffering effect for one, it comprises an inflatable bodies, it has at least one inflation inlet and comprises multiple inflation unit, wherein said inflatable bodies is elongated shape and defines a prolongation shape container cavity, elongate article is prolonged described in accommodation, and multiple described inflation unit forms superimposed multilayer inflatable structure in bottom after bending, be suitable for stand-type packaging to strengthen bottom cushion characteristic and to prolong elongate article described in making; And at least one charge valve, described charge valve is arranged in described inflation unit separately, and during inflation, air enters in described inflation unit from described inflation inlet via described charge valve.

Description

Stand-type multi-layer air packing device

Technical field

The utility model relates to a kind of packing device, particularly the stand-type air-packing device of one, and it is suitable for packing the frangible elongate article that prolongs and is damaged in transport and storage process to prevent it.

Background technology

Prolong elongate article as bottle tool, it can be used for carrying liquid, solid or gas article, and it can by glass, and pottery, the friable materials such as plastics are made.For the ease of transport and storage, the bottle tool taking up article may need to be deposited in together, thus, is easy to because of collision each other damaged between bottle tool, thus causes the unrestrained of institute's storage product.Meanwhile, this stacking form is unstable, and bottle tool is easy to landing, and causes large-scale damage.Therefore, need by some safeguard procedures to protect these bottle of tool not damaged.

Conventional fender guard is for fixing by separating mutually between bottle tool that is to be transported or that store; such as; one supporting structure; it has multiple packing unit, and each packing unit can fix a bottle tool independently, and after multiple bottles of tools are contained in multiple packing unit respectively; it has certain distance each other; also be say, mutually isolatedly between these bottle of tool come, and can not mutually collide.In addition, this supporting structure is usually designed to rectangular configuration, thus convenient stacking.The shortcoming of this protective device is; it can not provide omnibearing protection for bottle tool; still can be damaged when bottle tool is subject to exotic collision, and the fragment produced when a bottle tool damages or unrestrained article can have influence on the bottle tool in whole supporting structure.Another shortcoming is, this protective device is suitable for the bottle tool transporting or store larger amt, and that is, when only having a small amount of bottle tool need transport or store, this supporting structure can occupy larger space.

Therefore, in order to overcome above-mentioned shortcoming, the packing box with fail-safe structure can be adopted, in it is suitable for independent one bottle of tool to be contained in regularly.Described packing box can be made up of carboard, and this packing box, when being squeezed, can not provide buffer action for being contained in interior bottle tool.The protection against the tide of this packing box simultaneously, water resistance is poor, and that is, it is easily out of shape at wet environment or when meeting water, thus does not have the effect of protection.Have some packing boxes to adopt metal to make, although can not be out of shape at wet environment or when meeting water, it is when the extruding being subject to all directions, easily produce plastic deformation, therefore, buffering effect is not good yet, meanwhile, metallic material is adopted can to increase the weight of packing box.

Summary of the invention

Main purpose of the present utility model is to provide a kind of stand-type multi-layer air packing device, and it is applicable to pack and frangible prolongs elongate article, prolongs elongate article and is adopted stand-type packaging, and prevent it from being damaged in transport and storage process described in making.

Another object of the present utility model is to provide a kind of stand-type multi-layer air packing device, the described elongate article that prolongs can be light fixture, the breakables such as bottle tool, described stand-type multi-layer air packing device can be looped around around light fixture or bottle tool, when described stand-type multi-layer air packing device is subject to the pressure from all directions, there is provided buffer action can to described bottle tool, and described bottle tool can not be squeezed.

Another object of the present utility model is to provide a kind of stand-type multi-layer air packing device, wherein said light fixture or bottle tool are closely retained within described stand-type multi-layer air packing device, thus described light fixture or bottle tool are not easy landing from described stand-type multi-layer air packing device.

Another object of the present utility model is to provide a kind of stand-type multi-layer air packing device, the bottom of wherein said stand-type multi-layer air packing device has multiple-structure, thus strengthen cushion characteristic in bottom, described stand-type multi-layer air packing device is made to prolong elongate article being applied to packaging, make it firmly in standing state, thus convenient storage and transport.

Another object of the present utility model is to provide a kind of stand-type multi-layer air packing device, wherein said stand-type multi-layer air packing device is inflated in described stand-type multi-layer air packing device by least one charge valve, and described charge valve energy self-closed after inflation terminates, thus easy to use.

Another object of the present utility model is to provide a kind of stand-type multi-layer air packing device, and it transports and stores more convenient, and can inflate at the scene, is then directly used in the described bottle tool of packaging, thus easy to use.

Another object of the present utility model is to provide a kind of stand-type multi-layer air packing device, and it does not need complicated structure, and cost is low, and enhances the cushion characteristic to described bottle tool.

For reaching above object, the utility model provides a kind of stand-type multi-layer air packing device, and for prolonging elongate article and provide buffering effect for one, it comprises:

One inflatable bodies, it has at least one inflation inlet and comprises multiple inflation unit, wherein said inflatable bodies is elongated shape and defines a prolongation shape container cavity, elongate article is prolonged described in accommodation, and multiple described inflation unit forms superimposed multilayer inflatable structure in bottom after bending, be suitable for stand-type packaging to strengthen bottom cushion characteristic and to prolong elongate article described in making; And

At least one charge valve, described charge valve is arranged in described inflation unit separately, and during inflation, air enters in described inflation unit from described inflation inlet via described charge valve.

Preferably, multiple described inflation unit is connected by the heat-sealing of sealing alongst seam thus prolongs around elongate article described in being suitable for being surrounded on.

Preferably, multiple described inflation unit forms laminated walls in bottom after bending, extends into described container cavity and with the bottom of described stand-type multi-layer air packing device in superimposedly arranging in described lamination side direction, thus forms described multilayer inflatable structure.

Preferably, multiple described inflation unit also forms the downside wall between the bottom being connected to described laminated walls and described stand-type multi-layer air packing device integratedly.

Preferably, multiple described inflation unit forms multiple sub-inflation unit by bending seam, and this little inflation unit forms multiple sidewall be connected.

Preferably, prolonging elongate article described in is bottle tool or light fixture.

Preferably, the described elongate article that prolongs is a bottle tool, and described bottle tool comprises the mouth cylindrical part be connected, neck part and body, multiple described inflation unit forms the corresponding bottleneck sidewall be connected, bottleneck sidewall and body sidewall, the bottom of wherein said body sidewall and described laminated walls are in superimposedly arranging.

Preferably, described laminated walls after inflation its internal diameter is less than the diameter bottom described bottle tool, thus prevents described bottle tool from skidding off from described bottom opening.

Preferably, when the design of described laminated walls makes described laminated walls unaerated, described bottle tool is suitable for putting into described container cavity from described bottom opening, and after described laminated walls inflation, stops described bottle tool to skid off from described bottom opening.

Preferably, described inflatable bodies is formed through heat-sealing and folding technology by the first air chamber layer and the second air chamber layer, described inflatable bodies forms described inflation inlet and main channel, and be provided with described charge valve in each inflation unit, air enters described main channel from described inflation inlet, and enters inflation unit described in each from described main channel via described charge valve.

Preferably, described charge valve comprises two valve films, its respectively with described first air chamber layer and the described second air chamber layer heat-sealing of described inflatable bodies, a free air diffuser is formed between described two valve films, after being inflated to described inflation unit by described free air diffuser, the inside face automatic absorbing of described two valve films sticks together, to prevent the gas entering described inflation unit from described free air diffuser reverse osmosis.

Preferably, described stand-type multi-layer air packing device is also suitable for being adhered to a packing box, thus automatically struts described packing box when described stand-type multi-layer air packing device inflation.

Accompanying drawing explanation

Schematic diagram when Fig. 1 is the stand-type multi-layer air packing device expansion according to a preferred embodiment of the present utility model.

Fig. 2 is the schematic diagram after sewing up according to the stand-type multi-layer air packing device of above-mentioned preferred embodiment of the present utility model.

Fig. 3 is the schematic diagram of the stand-type multi-layer air packing device lower support structure according to above-mentioned preferred embodiment of the present utility model.

Fig. 4 A and Fig. 4 B is bottom the stand-type multi-layer air packing device according to above-mentioned preferred embodiment of the present utility model and the schematic diagram of top structure respectively.

Fig. 5 is the cutaway view after inflating according to the stand-type multi-layer air packing device of above-mentioned preferred embodiment of the present utility model.

Fig. 6 is the schematic diagram of the charge valve of stand-type multi-layer air packing device according to above-mentioned preferred embodiment of the present utility model.

Fig. 7 is schematic diagram when putting into bottle tool according to the stand-type multi-layer air packing device of above-mentioned preferred embodiment of the present utility model.

Fig. 8 A and 8B is the schematic diagram be combined with packing box according to the stand-type multi-layer air packing device of above-mentioned preferred embodiment of the present utility model.

Detailed description of the invention

As shown in Figures 1 to 7, stand-type multi-layer air packing device according to preferred embodiment of the present utility model is illustrated, it is applicable to packaging one and prolongs elongate article, the such as fragile such as light fixture or bottle tool, in this preferred embodiment, such as, prolonging elongate article described in is bottle tool 3, as bottle, beverage bottles etc., described bottle tool can by glass, and pottery or plastics are made.Described stand-type multi-layer air packing device comprises an inflatable bodies 10 and at least one charge valve 20, and described inflatable bodies 10 holds described bottle tool 3 in an orbiting manner, and described charge valve 20 for inflating in described inflatable bodies 10.

Wherein, described inflatable bodies 10 comprises at least one inflation unit 11, wherein said inflation unit 11 comprises one first air chamber layer 101 and one second air chamber layer 102, it is overlapped to form an inflatable chamber 12 and to form an inflation inlet 13, and described inflation inlet 13 is connected with described inflatable chamber 12 and inflates for described inflatable chamber 12.Two or more inflation unit 11 is arranged side by side to form described inflatable bodies 10, and wherein said charge valve 20 is arranged at each described inflation unit 11.Thus, each described inflation unit 11 can be inflated independently, and between inflation unit described in two 11, form a partitioning slot 103 extended, thus by these partitioning slot 103, described inflatable chamber 12 being divided into multiple independent inflatable chamber 12, these partitioning slot 103 can be formed by hot sealing process.It is worth mentioning that, described inflation unit 11 can interconnect, and so only needs a charge valve 20, just can inflate all described inflation unit 11.In addition, described inflatable bodies 10 also can be superimposed with each other formation by two-layer inner membrance and two-layer adventitia.

Described inflatable bodies 10 can also form a gas fill port 14, described gas fill port 14 is connected with described inflation inlet 13, and be connected with each inflation unit 11 by one or more described charge valve 20, like this when inflating from described inflation inlet 13, air can enter described gas fill port 14, then air guiding is entered each described charge valve 20 by described gas fill port 14, thus air enters into inflation unit 11 described in each again.

Described inflatable bodies 10 forms an inflation end 10a, a closed end 10b, one first coupling end 10c and one second coupling end 10d, and described first coupling end 10c and one second coupling end 10d links together by a sealing seam 105 thus formed around shape packaging body.Described charge valve 20 is all arranged on described inflation end 10a, by inflating to described inflation inlet 13, air is dispensed to charge valve 20 described in each by described gas fill port 14, and enter each inflation unit 11 from described charge valve 20, multiple described inflation unit 11 is around shape and forms along its rectangular direction the container cavity 15 extending shape, described container cavity 15 has open top 150 and a bottom opening 151, wherein, described bottle tool 3 can be put into the described container cavity 15 of described stand-type multi-layer air packing device by described open top 150 or described bottom opening 151.It is worth mentioning that, described sealing seam 105 can be continuous lines or intermittent line heat-sealing.

The each described inflation unit 11 of described inflatable bodies 10 has one or more partitioning slot 104 respectively thus is divided into two and above sub-inflation unit 11 by described inflation unit 11.These are separated gap 104 and shape between adjacent described sub-inflation unit 111 can be made in an angle, namely to define a bending place.In addition, adjacent described sub-inflation unit 111 does not separate by these partitioning slot 104, that is, is formed with at least one communicating passage 112 between adjacent described sub-inflation unit 111, thus when inflating, air enters each described sub-inflation unit 111 by these communicating passage 112.These partitioning slot 104 can be formed by hot sealing process.

After the described inflation unit 11 of described inflatable bodies 10 is separated into described sub-inflation unit 111 by multiple row partitioning slot 104, described sub-inflation unit 111 can form multiple sidewall through bending along described partitioning slot 104 further, such as, the bottleneck sidewall 111a for Packaging Bottle tool 3 in this embodiment of the present utility model, bottleneck sidewall 111b, body sidewall 111c, downside wall 111d, and laminated walls 111e.

Such as, in this preferred embodiment, described bottle tool 3 packs the bottleneck end 31 connected integratedly, bottleneck end 32 and body 33, is understandable that described bottleneck end 31 can not have obvious demarcation line with described bottleneck end 32 but transition is connected continuously.Particularly, the structure that the thickness that can be designed to described bottle tool 3 differs, usually, prolongs elongate article such as the bottleneck end 31 of bottle tool 3 and the sectional dimension of bottleneck end 32 and is less than the sectional dimension of its body, that is, the bottleneck end 31 of bottle tool 3 and bottleneck end 32 usually thinner relative to its body 33.Correspondingly, being linked together by connecting sewing 106 of described inflatable bodies 10, thus described container cavity 15 forms the bottleneck end container cavity 152 that internal diameter reduces in the position of corresponding bottleneck, thus prevent bottle tool from skidding off from described open top 150.

Correspondingly, the position of described connecting sewing 106 is only formed at the bottleneck sidewall 111a of described stand-type air-packing device, and do not extend to described bottleneck sidewall 111b, like this, after described bottle tool 3 puts into described container cavity 15, because described bottleneck sidewall 111a provides by the setting of described connecting sewing 106 effect of tightening up, thus prevents described bottle tool 3 from skidding off from described open top 150.Further, the described bottleneck sidewall 111a of described stand-type multi-layer air packing device closely round the bottleneck end 31 of described bottle tool 3, to play spacing effect, thus can prevent the swing of bottle tool 3 in container cavity 15.Wherein, as shown in Figure 2, described two connecting sewings 106 are configurable in the partitioning slot 103 described in two between inflation unit, and described connecting sewing 106 also can be continuous lines or intermittent line heat-sealing.It should be noted that described bottle tool 3 can only put into it from the bottom opening 151 of container cavity 15 because such design.

Described bottleneck sidewall 111b is connected to described bottleneck sidewall 111a integratedly, and is applicable to being arranged at the described neck part 32 of described bottle tool 3 around around ground, and has and have relative to described bottleneck sidewall 111a the internal diameter increased gradually.Described body sidewall 111c is connected to described bottleneck sidewall 1111b integratedly, and is applicable to being arranged at the described body 33 of described bottle tool 3 around around ground, thus provides buffer action to the main body of described bottle tool 3.

In this preferred embodiment of the present utility model, described stand-type multi-layer air packing device also comprises the described downside wall 111d of the bottom extending described body sidewall 111c integratedly, and extends the described laminated walls 111e of described downside wall 111d integratedly.Described laminated walls 111e is around shape thus forms the described bottom opening 151 of described stand-type multi-layer air packing device, and the bottom of described laminated walls 111e and described body sidewall 111c is in superimposedly arranging, thus forms multiple-structure.It is worth mentioning that, in certain embodiments, also may not form obvious described downside wall 111d, namely do not form obvious air chamber structure by the described partitioning slot 104 of two row, and just transition integratedly.

In virtual package, described in state downside wall 111d bottom surface be able to touch with environment flat face, and being supported by environmental surfaces, thus make multi-layer air packing device be stand-type posture, obtaining stand-type packaging for making described bottle tool 3.And the bottom of described laminated walls 111e and described body sidewall 111c is in superimposedly arranging that the multiple-structure of formation enhances bottom cushion characteristic, strengthen again bottom support effect, thus make described multi-layer air packing device firmly be stood on environmental surfaces.

In addition, after described bottle tool 3 puts into described container cavity 15, be able at the bottom of the bottle of described bottle tool 3 contact with the top surface of described laminated walls 111e, thus obtain the support of described laminated walls 111e, to be firmly supported in described container cavity 15 in stance.

It is worth mentioning that, it is stance packaging that described stand-type multi-layer air packing device of the present utility model is suitable for making prolonging elongate article, but and does not mean that described stand-type multi-layer air packing device of the present utility model the mode otherwise as accumbency can not be packed and prolong elongate article.It will be appreciated by persons skilled in the art that such as packaging has the described stand-type multi-layer air packing device of described bottle tool 3 also can place to accumbency in storage and transportation.

As shown in Figure 5, described laminated walls 111e is around shape, and internal diameter is less than diameter at the bottom of the bottle of described bottle tool 3 after inflation, like this, be not easy after making described bottle tool 3 put into described container cavity 15 to skid off from described bottom opening 151, ensure the safe handling of described stand-type multi-layer air packing device like this.It is worth mentioning that, described laminated walls 111e is also provided with and strengthens seam 107, it can be configured in the partitioning slot 103 between adjacent sub-inflation unit 111, with by described laminated walls 111e further together with the superimposed post heat-seal in bottom of described body sidewall 111c, to form firm connection, thus reinforced bottom buffering and support performance.

In addition, during the described laminated walls 111e unaerated of described stand-type multi-layer air packing device of the present utility model, described bottle tool 3 is allowed to put into described container cavity 15 from described bottom opening 151, and after described laminated walls 111e inflation, described laminated walls 111e stops described bottle tool 3 to skid off from described bottom opening 151.Like this, described stand-type multi-layer air packing device of the present utility model provides a kind of like this packing method to described bottle tool 3, namely first described bottle tool 3 is put into described container cavity 15 via described bottom opening 151, then described stand-type multi-layer air packing device inflation is given, these inflation unit 11 fit in the surface of described bottle tool 3, and what described laminated walls 111e stoped described bottle tool 3 skids off and strengthens bottom support and cushion characteristic, thus makes described bottle tool 3 be obtained firm stand-type packaging.

As shown in Figure 6, described charge valve 20 comprises two diaphragm seals 21 and 22, and what it overlapped each other is fixed between described 2 air chambers layer 101 and 102, thus forms four-layer structure, forms a filling channel 24 between described two diaphragm seals 21 and 22.Correspondingly, after described inflatable bodies 10 is inflated, described two diaphragm seals 21,22 are bonded together to be sealed by filling channel described in described airbag, thus by aeroseal in the described inflatable chamber 12 of described inflatable bodies 10, when described inflatable bodies 10 comprises multiple inflation unit 11, multiple charge valve 20 be arranged on accordingly in inflation unit 11 described in each with respectively by aeroseal in each inflation unit 11.Especially, described first diaphragm seal 21 is bonded in described first air chamber layer 101 overlappingly, and described second diaphragm seal 22 is bonded in described second air chamber layer 102 overlappingly.When inflating to described inflatable bodies 10, air is guided the described filling channel 24 entering and formed between described first diaphragm seal 21 and described second diaphragm seal 22.After described airbag is full of gas, described first diaphragm seal 21 and described second diaphragm seal 22 bonded to each other thus seal the described filling channel 24 of described airbag.In addition, the gas pressure in described airbag in described two diaphragm seals 21 and 22, thus ensures that described two diaphragm seals 21 and 22 hold tightly together, and leaks out from described air valve 20 to prevent air.That is, described air valve is a check valve, and it allows gas enter described inflatable bodies 10 and prevent gas reverse osmosis from going out.

The formation of the described filling channel 24 of described charge valve 20 can arrange baffling device to realize between described two diaphragm seals 21 and 22, when described two diaphragm seals 21 and 22 and described 2 air chambers layer 101 and 102 are sealed, because the setting of described baffling device, described two diaphragm seals 21 and 22 can not heat-sealing completely, thus forms described filling channel 24.In a concrete example, described baffling device can be resistant to elevated temperatures ink.

As shown in Fig. 7 and Fig. 8 A and 8B, described stand-type multi-layer air packing device also can be housed inside in a packing box 4.After described bottle tool 3 is put into the described container cavity 15 of described stand-type multi-layer air packing device securely, the stand-type multi-layer air packing device that this can be accommodated bottle tool 3 is put into from the packing box entrance 40 of packing box 4, and the stand-type multi-layer air packing device by enclose box entrance 40, this being accommodated bottle tool 3 is sealed in described packing box.

Also first stand-type multi-layer air packing device can be put into packing box 4, and then described bottle tool 3 is put into described stand-type multi-layer air packing device.Specifically, first described stand-type multi-layer air packing device is put into packing box 4, and make the described bottom opening 151 of its container cavity 15 be positioned at the same side with the described entrance 40 of described packing box, then described bottle tool 3 is put into the described container cavity 15 of described stand-type multi-layer air packing device from described bottom opening, the stand-type multi-layer air packing device finally by enclose box entrance 40, this being accommodated bottle tool 3 is sealed in described packing box.

Described stand-type multi-layer air packing device can put into described packing box 4 after being inflated, also can put into described packing box 4 before inflation.In the previous case, packing box 4 is for deployed condition is with in being contained in stand-type multi-layer air packing device or stand-type multi-layer air packing device together with bottle tool.In the case of the latter, packing box 4 can link together with described stand-type multi-layer air packing device, such as bond together thus become integral structure, being inflated by charge valve 20 in inflatable bodies 10, the expansion of inflatable bodies 10 can strut described packing box 4 automatically.Such as, the stand-type multi-layer air packing device of described unaerated can be fixed on the inwall 42 of the packing box 4 do not launched by modes such as such as adhesivess in advance, to make stand-type multi-layer air packing device be set in advance in appropriate position, thus ensure that packing box 4 is by the stand-type multi-layer air packing device Automatic-expanding constantly expanded.

It is worth mentioning that, stand-type multi-layer air packing device described in the utility model, it provides stronger buffer action can to the bottle of frangible bottle tool 3 and edge thereof, making it when being subject to large impulsive force or squeese pressure, still can not damage.Thus ensure that the safety of described bottle tool 3 when storing and transport.

And described stand-type multi-layer air packing device of the present utility model makes field packaging become possibility.That is, on-the-spot in packaging, according to the size of described bottle tool, determine the quantity of the inflation unit 11 of described inflatable bodies 10, length, and the quantity of the described partitioning slot 104 needed, then its two ends heat-sealing is formed around shape.Then by inflating to described inflation inlet 13, air is full of whole described inflatable bodies 10, finally described bottle tool is put into the described container cavity 15 of described stand-type multi-layer air packing device.In addition, in practical operation, also may first described inflatable bodies 10 be looped around on described bottle tool, then inflate to described inflatable bodies 10, described inflatable bodies 10 produces expansion and the position of the described bottle tool of adjustment moves to preferably fixed position to make described bottle tool automatically, thus firmly remains in described stand-type multi-layer air packing device of the present utility model.

One skilled in the art will understand that the embodiment of the present utility model shown in foregoing description and accompanying drawing only limits the utility model as an example and not.

As can be seen here, the complete and actv. of the object of the utility model is achieved.Function of the present utility model and structural principle are shown in an embodiment and are illustrated, do not deviating under described principle, embodiment can do any amendment.So the utility model includes all variant embodiment based on claim spirit and right.

Claims (14)

1. a stand-type multi-layer air packing device, for prolonging elongate article and provide buffering effect for one, is characterized in that, comprising:

One inflatable bodies, it has at least one inflation inlet and comprises multiple inflation unit, wherein said inflatable bodies is elongated shape and defines a prolongation shape container cavity, elongate article is prolonged described in accommodation, and described inflation unit forms superimposed multilayer inflatable structure in bottom after bending, be suitable for stand-type packaging to strengthen bottom cushion characteristic and to prolong elongate article described in making; And

At least one charge valve, described charge valve is arranged in described inflation unit separately, and during inflation, air enters in described inflation unit from described inflation inlet via described charge valve.

2. stand-type multi-layer air packing device as claimed in claim 1, wherein said inflation unit is connected by the heat-sealing of sealing alongst seam thus prolongs around elongate article described in being suitable for being surrounded on.

3. stand-type multi-layer air packing device as claimed in claim 1, wherein said inflation unit forms laminated walls in bottom after bending, extend into described container cavity in described lamination side direction and with the bottom of described stand-type multi-layer air packing device in superimposedly arranging, thus form described multilayer inflatable structure.

4. stand-type multi-layer air packing device as claimed in claim 3, wherein said inflation unit also forms the downside wall between the bottom being connected to described laminated walls and described stand-type multi-layer air packing device integratedly.

5. stand-type multi-layer air packing device as claimed in claim 4, wherein said inflation unit forms multiple sub-inflation unit by bending seam, and this little inflation unit forms multiple sidewall be connected.

6. stand-type multi-layer air packing device as claimed in claim 5, the wherein said elongate article that prolongs is bottle tool or light fixture.

7. stand-type multi-layer air packing device as claimed in claim 6, the wherein said elongate article that prolongs is a bottle tool, and described bottle tool comprises the mouth cylindrical part be connected, neck part and body, described inflation unit forms the corresponding bottleneck sidewall be connected, bottleneck sidewall and body sidewall, the bottom of wherein said body sidewall and described laminated walls are in superimposedly arranging.

8. stand-type multi-layer air packing device as claimed in claim 7, wherein said bottleneck sidewall is around shape to form open top, and described laminated walls is to form bottom opening around shape.

9. stand-type multi-layer air packing device as claimed in claim 7, wherein said bottleneck sidewall is also provided with connecting sewing the described inflation unit be superimposed to be coupled together at top, thus reduces described open-topped size.

10. stand-type multi-layer air packing device as claimed in claim 7, wherein said described laminated walls after inflation its internal diameter is less than the diameter bottom described bottle tool, thus prevents described bottle tool from skidding off from described bottom opening.

11. stand-type multi-layer air packing devices as claimed in claim 10, when the design of wherein said described laminated walls makes described laminated walls unaerated, described bottle tool is suitable for putting into described container cavity from described bottom opening, and after described laminated walls inflation, stop described bottle tool to skid off from described bottom opening.

12. as the stand-type multi-layer air packing device as described in arbitrary in claim 1 to 11, wherein said inflatable bodies is formed through heat-sealing and folding technology by the first air chamber layer and the second air chamber layer, described inflatable bodies forms described inflation inlet and main channel, and be provided with described charge valve in each inflation unit, air enters described main channel from described inflation inlet, and enters inflation unit described in each from described main channel via described charge valve.

13. stand-type multi-layer air packing devices as claimed in claim 12, wherein said charge valve comprises two valve films, its respectively with described first air chamber layer and the described second air chamber layer heat-sealing of described inflatable bodies, a free air diffuser is formed between described two valve films, after being inflated to described inflation unit by described free air diffuser, the inside face automatic absorbing of described two valve films sticks together, to prevent the gas entering described inflation unit from described free air diffuser reverse osmosis.

14. as the stand-type multi-layer air packing device as described in arbitrary in claim 1 to 11, wherein said stand-type multi-layer air packing device is also suitable for being adhered to a packing box, thus automatically struts described packing box when described stand-type multi-layer air packing device inflation.