CN104743262A - Heat-insulation air packaging bag and manufacturing method thereof - Google Patents

Abstract

Disclosed are a heat-insulation air packaging bag and a manufacturing method thereof. The heat-insulation air packaging bag comprises one or more inflatable bodies, one or more one-way inflating valves and a heat insulation layer, the inflating valves are arranged in the inflatable bodies and used for inflating the inflatable bodies, the heat insulation layer is arranged on the outer sides or the inner sides of the inflatable bodies so as to provide heat insulation for articles to be packaged, and resultantly, the heat-insulation air packaging bag can provide heat insulation and air buffering action, the articles to be packaged are kept heat insulation during transport and storage, and damage or deformation due to collision is effectively prevented.

Description

The pack of a kind of insulation air rubber capsule and manufacture method thereof

Technical field

The present invention relates to a kind of air-packing device, particularly a kind of air rubber capsule pack and manufacture method thereof with function of heat insulation.

Background technology

In modern logistics industry, there are many industries, as electronic product, food, medicine, chemical industry, biologicals etc., all need, in transport and storage process, to make connection with wrapping of piece be in keeping warm mode.More specifically, such as, in food service industry, frozen food is just well received by consumers, and its consumption is increasing.But in transport and storage process, these food need to remain in low temperature environment, thus make these food can not be corrupt or go bad.

Utilize deep freezer or the van cooler of large volume, the insulation problem in the transport of frozen goods in enormous quantities and storage process can be solved to a certain extent, but, in some scenarios, such as sending to destination during this period of time from being unloaded into, corresponding Insulation may be lacked.In addition, the deep freezer of large volume or van cooler, because the cost of its costliness, be also not suitable for the online spending of small lot article.

Therefore, this just needs one to be conveniently incubated manner of packing.In traditional solution, the corrugated case such as with heat insulating function is low is a kind of means that current freezing frozen food insulation adopts usually.There is the corrugated case of heat insulating function, external packing exactly in conventional boxes is lining with compound resin and aluminium-vapour deposition film, or adds Foamex in refill, makes it have thermal insulation, prevent the rising of the food own temperature such as vegetable and fruit in circulation way, reach insulation object.

But, it is pointed out that this traditional packed in cases mode, all do not provide crashproof anti-collision to prevent falling function.That is, in transport or storage process, packing box or packing chest can be thrown away, and are easy to cause it to be out of shape, thus may cause damage or the distortion of products to be packaged.Like this, this traditional manner of packing both unsightly, did not provide good buffering effect yet.In addition, this traditional heat preserving mode by arranging thermal insulation layer, effectively can reduce the conduction of heat, but also needs to strengthen in the convection current preventing heat and radiation.

Summary of the invention

Main purpose of the present invention is to provide the pack of a kind of insulation air rubber capsule, it provides function of heat insulation to article to be packaged, and air cushioning effect, thus in the transport and storage process of article to be packaged, make described article to be packaged be in keeping warm mode, and effectively prevent it from being collided and damage or be out of shape.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, it comprises inflatable bodies, described inflatable bodies is suitable for around described article to be packaged, thus after described article to be packaged put into the pack of described insulation air rubber capsule and when being subject to the pressure from all directions, the pack of insulation air rubber capsule provides buffer action can to described article to be packaged, and described article to be packaged can not be squeezed.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, outside wherein said inflatable bodies or inner side is provided with heat-insulation layer, itself and inflatable bodies are arranged with arranging in pairs or groups, thus effectively prevented the conduction of heat, convection current and radiation, thus more efficiently play function of heat insulation.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, the inner side of wherein said inflatable bodies is provided with described heat-insulation layer, thus described heat-insulation layer forms the inner bag layer of described insulation air rubber capsule pack, wherein said inner bag layer can be arranged in described inflatable bodies vacantly, thus provide air cushioning effect between described inner bag layer and described inflatable bodies, also prevent the transmission of heat further.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, the described heat-insulation layer of the inner side of wherein said inflatable bodies can be connected to the described inner side of described inflatable bodies, also can be integrally formed in inside described inflatable bodies, thus be formed compact design.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, it can individually or coordinate packing chest or packing box to come together to pack article to be packaged, thus easy to use.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, wherein said article to be packaged are suitable for firmly remaining within the pack of described insulation air rubber capsule, thus described article to be packaged are not easy to skid off from described insulation air rubber capsule pack.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, wherein said insulation air rubber capsule pack is inflated in described insulation air rubber capsule pack by one or more unidirectional charge valve, described charge valve terminates in inflation, reaching in described inflatable bodies after preset air pressure can self-closed, thus easy to use.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, the filling channel of wherein said insulation air rubber capsule pack is sealed by two diaphragm seals, thus form the first resealing effect, then described filling channel is sealed further by non-return diaphragm seal, thus form the second resealing effect, leak gas to prevent described airbag.That is, if during air leak, air can be guided the non-return passage flowing to and formed by described non-return diaphragm seal, seals described filling channel further, thus compensate the deficiency of described diaphragm seal sealing effectiveness to produce supplementary air pressure.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, it transports and stores more convenient, and can inflate at the scene, is then directly used in the described article to be packaged of packaging, thus easy to use.

Another object of the present invention is to provide the pack of a kind of insulation air rubber capsule, it does not need complicated structure, and cost is low, is suitable for needing to be incubated in transport and storage process and the industry-by-industry of buffering.

For reaching above object, the invention provides the pack of a kind of insulation air rubber capsule, it is characterized in that, comprise: one or more inflatable bodies, be arranged at the one or more unidirectional charge valve in described inflatable bodies, described charge valve is used for described inflatable bodies is inflated, and a heat-insulation layer, described heat-insulation layer is arranged at outside described inflatable bodies or inner side, provides function of heat insulation to give article to be packaged.

According to an example of the present invention, described heat-insulation layer is sutured in inside described inflatable bodies or outside, using the inner bag layer packed as described insulation air rubber capsule or outer bag layer.

According to an example of the present invention, described heat-insulation layer is coated on inner surface or the outer surface of described inflatable bodies integratedly.

According to an example of the present invention, described heat-insulation layer is made up of one or more warm materials.

According to an example of the present invention, described heat-insulation layer has single layer structure or forms composite layered structure.

According to an example of the present invention, described heat-insulation layer is made up of inorganic thermal insulating material, organic thermal insulation materials or metal heat insulation material.

According to an example of the present invention, described heat-insulation layer is made up of foamed resin material and/or aluminium Coating Materials.

According to an example of the present invention, after described inflatable bodies inflation, the described inner bag layer that described heat-insulation layer is formed is arranged in described inflatable bodies vacantly.

According to an example of the present invention, described insulation air rubber capsule pack base angle is formed with the unaerated wing, and it is suitable for filling in the container cavity of described insulation air rubber capsule pack formation.

According to an example of the present invention, described insulation air rubber capsule pack top side is formed with unaerated part, thus the injection section of described insulation air rubber capsule pack top side is suitable for folding thus is covered on the opening for placing described article to be packaged of described insulation air rubber capsule pack.

According to an example of the present invention, described insulation air rubber capsule pack comprises inflatable bodies described in two, and its head and the tail two ends are stitched together mutually, and form the container cavity of general square shape.

According to an example of the present invention, inflatable bodies described in each comprises one or more inflation unit, and inflation unit described in each forms inflatable chamber, and is provided with a multiple described charge valve in inflation unit described in each.

According to an example of the present invention, inflatable bodies described in each comprises the partitioning slot that row or multiple row are arranged discontinuously, with the multiple sidewalls making described inflation unit be combined into described inflatable bodies.

According to an example of the present invention, described inflatable bodies has one first air chamber layer and one second air chamber layer, described charge valve is one way stop peturn valve, and be arranged between described first air chamber layer and described second air chamber layer, after being full of air in described inflatable chamber, described one-way non-return self-closed, thus prevent air leak.

According to an example of the present invention, described charge valve comprise two valve films respectively with described first air chamber layer and the described second air chamber layer heat-sealing of the described inflation unit 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.

According to an example of the present invention, described charge valve is self binding film non return valve, it comprises one first valve film, one second valve film, with one the 3rd valve film, described first valve film and described 3rd valve film are positioned at skin, described second valve film is between described first valve film and described 3rd valve film, a free air diffuser is formed between described first valve film and described second valve film, a check cavity is formed between described second valve film and described 3rd valve film, after being filled with air by described free air diffuser via described gas passage in described inflation unit, described first valve film, the inside face automatic absorbing of described second valve film and described 3rd valve film sticks together, to stop the air in described inflation unit from described free air diffuser reverse osmosis, and can optionally enter described check cavity when air returns, and the air entering described check cavity can produce pressure effect to described second valve film, thus close described free air diffuser further, thus prevent gas reverse osmosis.

According to an example of the present invention, one first barrier layer is provided with between described first valve film and described second valve film, thus when described self binding film non return valve heat-sealing, define described free air diffuser, and between described second film valve and described 3rd valve film, be provided with one second barrier layer, the length of described second barrier layer is less than described second valve film, thus it is not concordant with the end of described 3rd valve film with the described second valve film of the inlet end of described self binding film non return valve, fit together completely to make described second valve film and described inlet end place that described 3rd valve film is being positioned at described self binding film non return valve.

According to an example of the present invention, the length of described second valve film is less than described first valve film and described 3rd valve film.

According to an example of the present invention, described first valve film and described 3rd valve film have equal length, described first valve film and described 3rd valve film form a reverse osmosis chamber at the other end of described self binding film non return valve, thus when gas needs to escape from described inflation unit, first to enter the described reverse osmosis chamber formed between described first valve film and described 3rd valve film, then select to enter described first valve film and described second valve film to go out from described free air diffuser, or the described check cavity entered between described second valve film and described 3rd valve film, thus make to be stranded in described check cavity when gas, gaseous tension acts on described second valve film, described free air diffuser is sealed for being further used for.

According to an example of the present invention, at the inlet end of described self binding film non return valve, described first valve film and described first air chamber layer heat-sealing, described second valve film and described 3rd valve film and described second air chamber layer heat-sealing.

The present invention also provides a kind of manufacture method being incubated air rubber capsule pack, and it comprises the steps:

A first air chamber layer, the valve film forming unidirectional charge valve, baffling device or heat-resisting thing and the second gas-bearing formation are superimposed together by ();

B () forms one or more inflatable bodies with container cavity through a series of heat-sealing; And

C one heat-insulation layer is attached to inner side or the outside of described inflatable bodies by (), thus as the inner bag layer of described insulation air rubber capsule pack or outer bag layer, to provide insulation effect.

According to an example of the present invention, in described step (a), described heat-insulation layer and described first air chamber layer or the second gas-bearing formation are superimposed together, then in described step (b), described heat-insulation layer and described first air chamber layer or the second gas-bearing formation are sewed up.

According to an example of the present invention, said method also comprises step: sew up along multiple row connecting sewing, thus obtain multiple inflation unit, sews up, thus make described inflatable bodies be formed multiple sidewall along the partitioning slot arranged apart from one another by ground.

According to an example of the present invention, said method also comprises step: sew up along sealing seam, described inflatable bodies is made to be formed with the unaerated wing and unaerated portion, the described unaerated wing is formed in the base angle of described insulation air rubber capsule pack, described unaerated portion is formed in the top side of described insulation air rubber capsule pack, and between the described inflation unit of both sides.

According to an example of the present invention, said method also comprises step: described sealing seam is arranged in the rectilinear direction of the partitioning slot of the predetermined column of correspondence.

According to an example of the present invention, said method also comprises step: be stitched together at inflatable bodies head and the tail two ends described in two, and to form described container cavity, described heat-insulation layer is sutured in inflatable bodies head and the tail two ends suture described in two.

According to an example of the present invention, said method also comprises step: sew up inside the base angle of described heat-insulation layer and the described unaerated wing.

According to an example of the present invention, in the above-mentioned methods, the described valve film of described charge valve comprises the first diaphragm seal and the second diaphragm seal, its respectively with described first air chamber layer and the described second air chamber layer heat-sealing of the described inflation unit 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.

According to an example of the present invention, in the above-mentioned methods, described charge valve is self binding film non return valve, it comprises one first valve film, one second valve film, with one the 3rd valve film, described first valve film and described 3rd valve film are positioned at skin, described second valve film is between described first valve film and described 3rd valve film, a free air diffuser is formed between described first valve film and described second valve film, a check cavity is formed between described second valve film and described 3rd valve film, after being filled with air by described free air diffuser via described gas passage in described inflation unit, described first valve film, the inside face automatic absorbing of described second valve film and described 3rd valve film sticks together, to stop the air in described inflation unit from described free air diffuser reverse osmosis, and can optionally enter described check cavity when air returns, and the air entering described check cavity can produce pressure effect to described second valve film, thus close described free air diffuser further, thus prevent gas reverse osmosis, and the length of described second valve film is less than described first valve film and described 3rd valve film.

The present invention also provides a kind of manufacture method being incubated air rubber capsule pack, and it comprises the steps:

(A) the second air chamber layer Surface coating there is is warm material, thus form a composite bed with integrated second air chamber layer and heat-insulation layer;

(B) the first air chamber layer, the valve film forming check valve, baffling device or heat-resisting thing and described composite laminate are combined; And

(C) the described insulation air rubber capsule pack with container cavity is formed through a series of heat-sealing.

According to an example of the present invention, said method also comprises step: sew up along multiple row connecting sewing, thus obtain multiple inflation unit, sews up, thus make described inflatable bodies be formed multiple sidewall along the partitioning slot arranged apart from one another by ground.

According to an example of the present invention, said method also comprises step: sew up along sealing seam, described inflatable bodies is made to be formed with the unaerated wing and unaerated portion, the described unaerated wing is formed in the base angle of described insulation air rubber capsule pack, described unaerated portion is formed in the top side of described insulation air rubber capsule pack, and between the described inflation unit of both sides.

According to an example of the present invention, said method also comprises step: described sealing seam is arranged in the rectilinear direction of the partitioning slot of the predetermined column of correspondence.

According to an example of the present invention, said method also comprises step: be stitched together, inflatable bodies head and the tail two ends described in two to form described container cavity.

According to an example of the present invention, in the above-mentioned methods, the described valve film of described unidirectional charge valve comprises the first diaphragm seal and the second diaphragm seal, its respectively with described first air chamber layer and the described second air chamber layer heat-sealing of the described inflation unit 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.

According to an example of the present invention, in the above-mentioned methods, described charge valve is self binding film non return valve, and it comprises described air valve is a double check valve (DCV), and described charge valve comprises, one first diaphragm seal and one second diaphragm seal, described first diaphragm seal and described second diaphragm seal are overlapped between the described first air chamber layer of described plenum chamber and described second air chamber layer, and extend into described inflatable chamber from the described valve openings of described plenum chamber, with a non-return diaphragm seal, described non-return diaphragm seal is overlapped in the near-end of described first diaphragm seal and described second diaphragm seal, to form a filling channel between described first diaphragm seal and described non-return diaphragm seal, and a non-return passage is formed between described non-return diaphragm seal and described second diaphragm seal, wherein said filling channel is aligned to for being filled with air to described inflatable chamber to fill described plenum chamber, until by the air pressure in described inflatable chamber, make the far-end of described first diaphragm seal and described second diaphragm seal overlapping and seal to close described filling channel, wherein when having gas from when having air leak between described first diaphragm seal and the far-end of described second diaphragm seal, air in described inflatable chamber is guided and enters described non-return passage, to produce supplementary air pressure, thus seal described filling channel further, to compensate the deficiency of the sealing effectiveness of described first diaphragm seal and described second diaphragm seal.

According to an example of the present invention, in the above-mentioned methods, described non-return passage has an open end towards described inflatable chamber and a closed end towards described valve openings, thus when air is filled with described non-return passage in institute open end, described non-return passage is filled with air to produce supplementary air pressure, thus the described filling channel further between described first diaphragm seal of sealing and described second diaphragm seal.

According to an example of the present invention, in the above-mentioned methods, described air valve also comprises one first sealed engagement place and described first air chamber layer and described first diaphragm seal is bonded together at the described valve openings place of described plenum chamber, with one second sealed engagement place by described second air chamber layer, described non-return diaphragm seal, and described second diaphragm seal is bonded together at the described valve openings place of described plenum chamber.

According to an example of the present invention, in the above-mentioned methods, the length of described non-return diaphragm seal is less than the length of often described first diaphragm seal and described second diaphragm seal, thus described non-return diaphragm seal is overlapped in the near-end of described first diaphragm seal and described second diaphragm seal, the far-end of described first diaphragm seal and described second diaphragm seal overlaps.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of insulation air rubber capsule pack according to a preferred embodiment of the present invention.

Fig. 2 is the decomposing schematic representation packed according to the insulation air rubber capsule of above preferred embodiment of the present invention.

Front and back schematic diagram when Fig. 3 A and 3B is the unaerated packed according to the insulation air rubber capsule of above preferred embodiment of the present invention respectively.

Fig. 4 A is the schematic diagram after the inflation packed according to the insulation air rubber capsule of above preferred embodiment of the present invention with the unaerated wing.

Structural representation after cutting open along A-A line in Fig. 4 B Fig. 4 A.

Fig. 5 is the schematic diagram of insulation air rubber capsule pack according to a further advantageous embodiment of the invention, and wherein heat-insulation layer is directly coated in inside inflatable bodies.

Fig. 6 A and Fig. 6 B is the structural representation of insulation air rubber capsule pack according to a further advantageous embodiment of the invention respectively.

Fig. 7 is the structural representation of a kind of charge valve packed according to the insulation air rubber capsule of above preferred embodiment of the present invention.

Fig. 8 is the structural representation of the another kind of charge valve packed according to the insulation air rubber capsule of above preferred embodiment of the present invention.

Fig. 9 is the cutaway view of the above-mentioned another kind of charge valve packed according to the insulation air rubber capsule of above preferred embodiment of the present invention.

Figure 10 A and 10B is the above-mentioned another kind of charge valve partial enlargement structural representation packed according to the insulation air rubber capsule of above preferred embodiment of the present invention.

Detailed description of the invention

Below describe and realize the present invention for disclosing the present invention to enable those skilled in the art.Preferred embodiment in below describing only as an example, it may occur to persons skilled in the art that other apparent modification.The groundwork of the present invention defined in the following description can be applied to other embodiments, deformation program, improvement project, equivalent and not deviate from the other technologies scheme of the spirit and scope of the present invention.

The schematic diagram of insulation air rubber capsule pack according to a preferred embodiment of the invention as shown in Figure 1 to Figure 4 shown in B, it may be used for the article to be packaged that stored electrons product, food, medical product, chemical, biologicals etc. need insulation, particularly, such as described insulation air rubber capsule pack may be used for storing frozen food, extra warm material can be provided with in described insulation air rubber capsule pack, as freezing bag, ice cube etc., to maintain the temperature in the pack of described insulation air rubber capsule.

Described insulation air rubber capsule pack is for providing the effect of air cushioning for described article to be packaged.Correspondingly, described insulation air rubber capsule pack comprises at least one inflatable bodies 10 and at least one charge valve 20, and described charge valve 20 for inflating in described inflatable bodies 10.Described inflatable bodies 10 provides air cushioning effect for giving described article to be packaged.In addition, described insulation air rubber capsule pack also comprises a heat-insulation layer 30.After described inflatable bodies 10 is inflated, described heat-insulation layer 30 can be positioned at outside or the inner side of described inflatable bodies 10, thus forms outer bag layer or the inner bag layer of the pack of described insulation air rubber capsule, provides heat insulation effect to give described article to be packaged.

As shown in Fig. 2 to Fig. 4 B, 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 be formed with at least one inflation inlet 13, and described inflation inlet 13 is connected with described inflatable chamber 12 and inflates for described inflatable chamber 12.As shown in FIG., 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.In other words, described in each, inflation unit 11 can be inflated independently, a connecting sewing 103 extended is being formed between inflation unit 11 described in adjacent two, thus described inflatable chamber 12 can be divided into multiple independent inflatable chamber 12 by these connecting sewings 103, these connecting sewings 103 can be formed by hot sealing process.At one, described inflation unit 11 is damaged and when leaking gas, other described inflation unit 11 can be unaffected like this.Certainly, it is worth mentioning that, described inflation unit 11 also can interconnect, and so only needs a charge valve 20, just can inflate all described inflation unit 11.That is, described insulation air rubber capsule pack of the present invention can form multiple described inflation unit 11 by the heat-sealing of described first air chamber layer 101 and described second air chamber layer 102.

In addition, because the shape of every described inflation unit 11 can change after inflation, thus described inflatable bodies 10 can make various shape and size.As shown in Figure 2, in the preferred embodiment, 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 charge valve 20 described in corresponding each by described gas fill port 14, thus air enters into inflation unit 11 described in each again.That is, described gas fill port 14 is air distribution channel, and the air be filled with from inflation inlet 13 is assigned to inflation unit 11 described in each by it.Inflation inlet 13 place can be provided with charging connector, to be connected to an inflatable appliance as inflation pump, thus is that air is filled in the pack of described insulation air rubber capsule.

As shown in Fig. 2 and Fig. 3 A and 3B, each described inflation unit 11 of described inflatable bodies 10 has multiple partitioning slot 104 respectively, makes each described inflation unit 11 form the sub-inflation unit 111 of multiple correspondence further like this.It is worth mentioning that, the position of the described partitioning slot 104 of inflation unit 11 described in these is corresponding, that is, described inflatable bodies 10 has the partitioning slot 104 that multiple row is arranged apart from one another by ground, be arranged on the described partitioning slot 104 of multiple described inflation unit 11 along straight-though arrangement, but be not continuous print, thus form a sidewall between the described partitioning slot 104 of adjacent two row, thus make the pack of described insulation air rubber capsule define multiple sidewall, these side walls enclose go out a container cavity, for the described article to be packaged of accommodation.

The quantity of the described partitioning slot 104 of inflation unit 11 described in each can be arranged as required, that is, described in the multiple row of described inflatable bodies 10, the columns of partitioning slot 104 can change, thus the described inflatable bodies 10 of correspondence can have 3,4 or multiple sidewall.As shown in Figures 2 and 3, described insulation air rubber capsule pack can be formed with diapire, the perisporium of surrounding, and roof.It is worth mentioning that, these partitioning slot 104 can be formed by hot sealing process.According to the number situation of the sidewall formed, it can make described container cavity form various spatial accommodation.

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.In example shown in the figure, the centre between adjacent described sub-inflation unit 111 is provided with the described partitioning slot 104 that heat-sealing is formed, and the both sides of described partitioning slot 104 are formed with described communicating passage 112.

In this preferred embodiment of the present invention, described insulation air rubber capsule pack can comprise inflatable bodies 10 described in two, and its head and the tail two ends are stitched together mutually, thus form the packing device with described container cavity.In other examples, described insulation air rubber capsule pack can be made up of a described inflatable bodies 10, three described inflatable bodies 10 or more described inflatable bodies 10, and the present invention is unrestricted in this regard.As shown in Figure 3 and Figure 4, the multiple described inflation unit 11 of described inflatable bodies 10 outside two is provided with sealing seam 105, and described sealing seam 105 can arrange along the rectilinear direction of the described partitioning slot 104 of correspondence.Thus make the multiple described inflation unit 11 of described inflatable bodies 10 outside two be formed with unaerated part respectively, thus after described insulation air rubber capsule pack inflation, the unaerated wing 15 can be formed at its corner.The described unaerated wing 15 can be filled in the described container cavity of described insulation air rubber capsule pack.The described unaerated wing 15 is also formed with spatial accommodation, and it can be used for holding and be connected to the base angle of described heat-insulation layer 30.In addition, the top side of described inflatable bodies 10, as shown in Figure 4, has four sides, and it has the inflation unit 11 arranged face-to-face and the unaerated portion 16 arranged face-to-face.Because be provided with described unaerated portion 16, so the other two sides being provided with described inflation unit 11 can fold, thus described in involution, be incubated the opening of air rubber capsule pack downwards.It is worth mentioning that, it is to be appreciated that, the little air chamber portion that the correspondence of the present invention described unaerated wing 15 and described unaerated portion 16 also can replace to by having multiple minor diameter air chamber forms, and the local so also making described insulation air rubber capsule pack has certain foldability.

In addition, it is worth mentioning that, described insulation air rubber capsule pack can not have the described unaerated wing 15 and described unaerated portion 16 after inflation yet.That is, when unaerated, the corresponding described unaerated wing 15 and described unaerated portion 16 can be cut.Or in the container cavity that the described unaerated wing 15 is formed at described inflatable bodies 10 by involution integratedly when sealing.

In this preferred embodiment of the present invention, described heat-insulation layer 30 can as the inner bag layer of described insulation air rubber capsule pack.Particularly, described heat-insulation layer 30 is arranged at the inner side of described inflatable bodies 10.It can be connected to described inflatable bodies 10 by various mode.Such as, in this preferred embodiment, the position that described heat-insulation layer 30 can be sewed up along inflatable bodies described in two 10 is sewed up, like this after described inflatable bodies 10 is inflated, can see the container cavity formed at described inflatable bodies 10 on angular direction, itself and described heat-insulation layer 30 are stitched together.Certainly, can expect that described heat-insulation layer 30 is connected to described inflatable bodies 10 by other mode.Such as, described heat-insulation layer 30 also can be sewed up with the described unaerated wing 15 or described unaerated portion 16.Described sewing process also can adopt hot sealing process.

Described heat-insulation layer 30 is made up of the warm material with heat insulating function, and such as, have the foamed resin material of heat-proof quality as phenol resin, adiabatic metal coating material is as aluminium Coating Materials etc.Described heat-insulation layer 30 can be made up of a kind of material, also can have the composite structure comprising different materials.Such as, typical example can be made up of inner layer resin thin layer and aluminum membranous layer, also such as, is made up of the aluminium film outside the polyethylene foam film of internal layer or polyvinylchloride bubble chamber film and both sides.This respect of the present invention is unrestricted, as long as can play the structure of insulation effect.

It is worth mentioning that, inflatable bodies of the present invention 10 because be filled with air, thus stops heat trnasfer effectively, and described heat-insulation layer 30 stops the conduction of heat, convection current and radiation etc. further.It is worth mentioning that, after described heat-insulation layer 30 forms described inner bag layer, described inner bag layer can have preset distance with described inflatable bodies 10 and contact by halves.That is, it can be arranged in the described container cavity of described inflatable bodies 10 formation vacantly, air between described like this heat-insulation layer 30 and described inflatable bodies 10 not only plays air cushioning effect, and play the effect preventing heat from transmitting, thus further enhance heat insulation effect.

In addition, insulation air rubber capsule pack of the present invention also can use together with packing box or packing chest.Such as, in this preferred embodiment of the present invention, described inflatable bodies 10 is inflated, after then article to be packaged being put into the described inner bag layer that described heat-insulation layer 30 formed, put into other insulating article, as thermal protective aid, ice cube etc.The side wall that described inflation unit 11 is formed is covered and be incubated described in involution air rubber capsule pack opening after, namely can put into packing box or packing chest.In addition, because packing box or packing chest can apply pressure to the side wall of described insulation air rubber capsule pack, thus ensure that described thing to be packaged firmly remains in the pack of described insulation air rubber capsule, and be not easy to drop or skid off.

As shown in Figure 5, the insulation air rubber capsule according to another kind of embodiment of the present invention packs, and the difference that the insulation air rubber capsule of itself and above preferred embodiment packs is, described heat-insulation layer 30 ' is integrally formed in the inner side of described inflatable bodies 10.That is, the air chamber layer (described first air chamber layer 101 or described second air chamber layer 102) being positioned at inner side after inflation of described inflatable bodies 10 is directly coated with warm material on the surface, thus described heat-insulation layer 30 ' can be the membrane structure on described first air chamber layer 101 or described second air chamber layer 102 surface.Particularly, such as described heat-insulation layer 30 ' forms a composite bed with described second air chamber layer 102.Described first air chamber layer 101 merges with described composite laminate and forms described insulation air rubber capsule of the present invention through a series of plastic package process and packs.

As shown in Figure 6 A and 6B, the outer bag layer formed by one or more described inflatable bodies 10 of the present invention also can have various structure.Such as in the insulation air rubber capsule pack shown in Fig. 6, it forms the packaging bag with described container cavity through a series of plastic packaging, can not have the unaerated part in above-described embodiment in its structure.Outermost one or more air chamber of described inflatable bodies 10 can become the side pressure air chamber 113 of described insulation air rubber capsule pack.In addition, one or more charge valve 20 in inflation unit 11 described in each, can be had, thus major diameter air chamber and minor diameter air chamber can be formed.It is worth mentioning that, described major diameter air chamber and minor diameter air chamber can be alternately distributed, thus form wavelike structure on surface, to strengthen buffering effect.

As shown in Figure 7, described charge valve 20 is check valves, and it 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 airbag 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 airbag 10, when described airbag 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 airbag 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 airbag 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. 8 to Figure 10 B, be the air rubber capsule device according to another embodiment of the present invention, it mainly illustrates the structure of another charge valve 20A, and described charge valve 20A is double check valve (DCV), provides double sealing effect to give described airbag.Wherein said charge valve 20A comprises one first diaphragm seal 21A, an one second diaphragm seal 22A and non-return diaphragm seal 23A.

Described first diaphragm seal 21A and described second diaphragm seal 22A overlaps between the described first air chamber layer 101A of described inflation unit 11A and described second air chamber layer 102A.Described first diaphragm seal 21A and described second diaphragm seal 22A is the overlapped two thin layer flexible membranes be made of plastics.Preferably, described first diaphragm seal 21A and described second diaphragm seal 22A is identical two membranes.

Often described first diaphragm seal 21A and described second diaphragm seal 22A has a proximal edge, and it extends the entrance of the described charge valve 20A of described inflation unit 11A, and a distal edge, and it is inner that it extends to described inflation unit.Preferably, described first diaphragm seal 21A and the described proximal edge of the second diaphragm seal 22A and the border of distal edge are adjoined separately.

In the present embodiment, the proximal edge of described first diaphragm seal 21A and described first air chamber layer 101A bonding.Proximal edge and the described second air chamber layer 102A of described second diaphragm seal 22A are bonding.

Described non-return diaphragm seal 23A is overlapped in the near-end of described first diaphragm seal 21A and described second diaphragm seal 22A, to form a filling channel 24A between described first diaphragm seal 21A and described non-return diaphragm seal 23A, and form a non-return passage 25A between described non-return diaphragm seal 23A and described second diaphragm seal 22A.

Described filling channel 24A is aligned to for being filled with air to fill described inflation unit 11A to described inflatable chamber 12A, until by the air pressure in described inflatable chamber 12A, make the far-end of described first diaphragm seal 21A and described second diaphragm seal 22A overlapping and seal to close described filling channel 24A.According to this preferred embodiment, when having gas from when having air leak between described first diaphragm seal 21A and the far-end of described second diaphragm seal 22A, as illustrated in figs. 10 a and 10b, in described inflatable chamber, the air of 12 is guided and enters described non-return passage 25A, to produce supplementary air pressure, thus seal described filling channel 24A further, to compensate the deficiency of the sealing effectiveness of described first diaphragm seal 21A and described second diaphragm seal 22A.

Described filling channel 24A has two open ends, and one of them nearly open end is formed at the proximal edge of described first diaphragm seal 21A and described non-return diaphragm seal 23A.One of in addition open end far away extends to the distal edge of described first diaphragm seal 21A and described second diaphragm seal 22A, to be connected with described inflatable chamber 12A.Pressurized air can enter described inflatable chamber 12A by described filling channel 24A guiding.

It is worth mentioning that, after described inflation unit 11A is full of air, air pressure in described inflatable chamber 12A applies pressure to described first diaphragm seal 21A and described second diaphragm seal 22A, thus seal described first diaphragm seal 21A and described second diaphragm seal 22A distal edge, and seal the open end far away of described filling channel 24A.In addition, the far-end of described first diaphragm seal 21A and described second diaphragm seal 22A is sealed because of surface tension.

Described non-return diaphragm seal 23A is the thin layer flexible membrane be made of plastics.Preferably, described non-return diaphragm seal 23A, described first diaphragm seal 21A and described second diaphragm seal 22A are polyethylene (PE) film.In addition, often the thickness of described first air chamber layer 101A and described second air chamber layer 102A is greater than often described first diaphragm seal 21A, the thickness of described second diaphragm seal 22A and described non-return diaphragm seal 23A.

According to a preferred embodiment of the invention, the length of described non-return diaphragm seal 23A is less than the length of often described first diaphragm seal 21A and described second diaphragm seal 22A, thus when described non-return diaphragm seal 23A is overlapped in the near-end of described first diaphragm seal 21A and described second diaphragm seal 22A, the far-end of described first diaphragm seal 21A and described second diaphragm seal 22A overlaps.It is worth mentioning that, the length of described non-return diaphragm seal 23A is defined as the distance between the proximal edge of described non-return diaphragm seal 23A and distal edge.Often the length of described first diaphragm seal 21A and described second diaphragm seal 22A is defined as the distance between the proximal edge of described first diaphragm seal 21A and described second diaphragm seal 22A and distal edge.

Correspondingly, the proximal edge of described first diaphragm seal 21A and described second diaphragm seal 22A and the proximal edge place of described non-return diaphragm seal 23A adjoin.In addition, the proximal edge of described non-return diaphragm seal 23A and the proximal edge of described second diaphragm seal 22A bonding.

Described non-return passage 25A is formed between described non-return diaphragm seal 23A and described second diaphragm seal 22A, and wherein said non-return passage 25A has an open end towards described inflatable chamber 12A and a Closed End to valve openings.In other words, the near-end of described non-return passage 25A is described closed end and the far-end of described non-return passage 25A is described open end.

Correspondingly, when air is filled with described non-return passage 25A in described open end, described non-return passage 25A is filled with air to produce supplementary air pressure, thus the described filling channel 24A further between sealing described first diaphragm seal 21A and described second diaphragm seal 22A.

It is worth mentioning that, when being inflated to described inflatable chamber 12A by described filling channel 24A, the air flow in described filling channel 24A is contrary with the air flow of described non-return passage 25A.Therefore, air can not be filled with described non-return passage 25A.When air reveals back described non-return passage 25A from described inflatable chamber 12A, air enters described non-return passage 25A and seals described filling channel 24A further to produce supplementary air pressure, thus prevents gas leakage.It is worth mentioning that, the air of leakage, before revealing from the nearly open end of described filling channel 24A, can flow to the open end far away of described non-return passage 25A, thus avoid air leak from the open end far away of described filling channel 24A.In addition, described non-return diaphragm seal 23A and described first diaphragm seal 21A is sealed to seal described filling channel 24A due to surface tension.

In order to form described charge valve 20A at described inflation unit 11A, described charge valve 20A also comprises one first sealed engagement place 201 to be bonded together by described first air chamber layer 101A and described first diaphragm seal 21A at the valve openings place of described inflation unit 11A, with one second sealed engagement place 202 described second air chamber layer 102A, described non-return diaphragm seal 23A and described second diaphragm seal 22A are bonded together at the valve openings place of described inflation unit 11A.

Correspondingly, the proximal edge of described first diaphragm seal 21A is bonded with described first air chamber layer 101A by described first sealed engagement place 201.The proximal edge of described second air chamber layer 102A and described second diaphragm seal 22A, the proximal edge of described non-return diaphragm seal 23A is bonded together by described second sealed engagement place 202A.Preferably, two apart from one another by sealed engagement place 201A be used for described first air chamber layer 101A and described first diaphragm seal 21A to bond, two apart from one another by the second sealed engagement place 202A be used for described second air chamber layer 102A, described non-return diaphragm seal 23A and described second diaphragm seal 22A.It is worth mentioning that, described first sealed engagement place 201A and described second sealed engagement place 202A can be hot-sealing line, also can be the heat-sealing of other shapes as crescent shape.In other words, the proximal edge of described first diaphragm seal 21A and described first air chamber layer 101A are by described sealed engagement place 201A heat-sealing.The proximal edge of described second air chamber layer 102A and described second diaphragm seal 22A, and the proximal edge of described non-return diaphragm seal 22 is by described second sealed engagement place 202A heat-sealing.

After remaining on described heat seal process, space is had between described first diaphragm seal 21A and described non-return diaphragm seal 23A, described charge valve 20A also comprises one first heat-resisting thing 26A, and it is formed between described first diaphragm seal 21A and described non-return diaphragm seal 23A to ensure the formation of described filling channel 24A.Described first heat-resisting thing 26A is used for preventing described first diaphragm seal 21A and described non-return diaphragm seal 23A to be pasted together completely after described heat seal process.

Particularly, described first heat-resisting thing 26A is arranged on the near side (ns) edge of described first diaphragm seal 21A and described non-return diaphragm seal 23A and is positioned at the valve openings place of described inflation unit 11A, thus ensures that the described near-end of described filling channel 24A is in open mode.

Same, after remaining on described heat seal process, space is had between described second diaphragm seal 22A and described non-return diaphragm seal 23A, described charge valve 20A also comprises one second heat-resisting thing 27A, and it is formed between described second diaphragm seal 22A and described non-return diaphragm seal 23A to ensure the formation of described non-return passage 25A.

Particularly, described second heat-resisting thing 27A is arranged on the distal edge edge of described second diaphragm seal 22A and described non-return diaphragm seal 23A, thus ensures that the described far-end of described non-return passage 25A is in open mode.It is worth mentioning that, the near-end of described non-return passage 25A is closed by described second sealed engagement place 202.

According to this preferred embodiment, described first heat-resisting thing 26A and described second heat-resisting thing 27A is two refractory layers, and it is coated in the desired location on each self-corresponding film, is pasted together to prevent film in described pad envelope process.Described first heat-resisting thing 26A extends described non-return diaphragm seal 23A near-end side, and towards described first diaphragm seal 21A.The far-end that described second heat-resisting thing 27A extends described non-return diaphragm seal 23A is positioned at opposite side, and towards described second diaphragm seal 22A, wherein said second heat-resisting thing 27A is not arranged on the opposite side of the near-end of described non-return diaphragm seal 23A, and the described near-end of described like this non-return passage 25A can be closed by described second sealed engagement place 202A.It is worth mentioning that, described second heat-resisting thing 27A not only avoid described non-return diaphragm seal 23A with state the second diaphragm seal 22A and be bonded together, to ensure that the described far-end of described non-return passage 25A is in open mode, and the effect strengthened between described non-return diaphragm seal 23A and described first diaphragm seal 21A, thus because surface tension is to close described filling channel 24A.

Described charge valve 20A also comprises two side direction sealed engagement place 203A, and it is that two the 3rd sealed engagement are sentenced described for bonding the first diaphragm seal 21A and described non-return diaphragm seal 23A, thus forms the sidewall of described filling channel 24A.The width of described filling channel 24A is defined by described two side direction sealed engagement 203A.Particularly, described two side direction sealed engagement place 203A are two inclination hot-sealing lines, thus the width of described filling channel 24A successively decreases from each described inflatable chamber of described valve openings.In other words, the nearly open end of described filling channel 24A be a larger open end its be connected with described valve openings, and the open end far away of described filling channel 24A is a cone-shaped open end and be communicated with described inflatable chamber 12A.The filling channel 24A of described taper avoids air to be leaked to described valve openings from described inflatable chamber 12A further.

Preferably, described lateral seal joint 203A extends to its distal edge from the proximal edge of described first diaphragm seal 21A and described second diaphragm seal 22A.Therefore, described lateral seal joint 203A is positioned at described first diaphragm seal 21A and described second diaphragm seal 22A proximal part and described non-return diaphragm seal 23A and is bonded together.Described lateral seal joint 203A is positioned at described first diaphragm seal 21A and described second diaphragm seal 22A distal portions and described first diaphragm seal 21A and described second diaphragm seal 22A and is bonded together.

Correspondingly, in order to inflate to described inflation unit 11A, the pin of pump is inserted into described inflation inlet 13A pressurized air to be filled with described filling channel 24A, and wherein the inflation direction of air is arrive open end far away from the nearly open end of described filling channel 24A.Described like this inflation unit 11A starts inflation.The air pressure of described inflatable chamber 12A increases thus struts described first air chamber layer 101A and described second air chamber layer 102A.Meanwhile, gas pressure, in described first diaphragm seal 21A and described second diaphragm seal 22A, particularly acts on the far-end of described first diaphragm seal 21A and described second diaphragm seal 22A.After described inflation unit 11A fills air completely, namely after arriving maximum loading, air pressure in described inflatable chamber 12A reaches enough to seal the far-end of described first diaphragm seal 21A and described second diaphragm seal 22A, with the open end described far away of filling channel 24A described in automatic-sealed.At this moment the pin of pump detaches described inflation inlet 13A.

When described first diaphragm seal 21A does not have together with complete involution with the far-end of described second diaphragm seal 22A, the air of described inflatable chamber 12A may be leaked to described filling channel 24A.In order to avoid air leak is to described filling channel 24A, described non-return diaphragm seal 23A and described first diaphragm seal 21A involution are to seal the open end far away of described filling channel 24A.Particularly, the airintake direction of described non-return passage 25A is contrary with the inflation direction of described filling channel 24A.In addition, when the described open end of described non-return passage 25A is opened, the open end described far away of described filling channel 24A is closed.Therefore, air enters from the described open end of described non-return passage 25A and is retained in described non-return passage 25A.

Described non-return passage 25A is filled by air, produces and supplement air pressure to seal described filling channel 24A further in described like this non-return passage 25A.Especially, the open end described far away of the described filling channel 24A between described first diaphragm seal 21A and described non-return diaphragm seal 23A is sealed.More specifically, the supplementary air pressure in described non-return passage 25A is higher, and the sealing effectiveness of described non-return diaphragm seal 23A is better.In other words, when air is revealed from described inflatable chamber 12A with the air pressure reducing described inflatable chamber 12A, air enters described non-return passage 25A to improve the air pressure of described non-return passage 25A.Therefore, the total gas pressure of described inflation pressure, namely the air pressure sum of described inflatable chamber 12A and described non-return passage 25A remains unchanged.Like this, the air entering described non-return passage 25A from described inflatable chamber 12A can enter the sealing effectiveness strengthening described filling channel 24A.

It is worth mentioning that, the invention provides a kind of manufacture method being incubated air rubber capsule pack, it can comprise as step:

A first air chamber layer 101, the valve film forming check valve 20, necessary the moon are superimposed together every device or heat-resisting thing and the second gas-bearing formation 102 by ().

B () forms one or more inflatable bodies 10 with container cavity through a series of heat-sealing.

C one heat-insulation layer 30 is attached to inner side or the outside of described inflatable bodies 10 by (), thus as the inner bag layer of described insulation air rubber capsule pack or outer bag layer, to provide insulation effect.

It is worth mentioning that, in described step (a), also described heat-insulation layer 30 can be superimposed together with described first air chamber layer 101 or the second gas-bearing formation 102, then in described step (b), described heat-insulation layer 30 be sewed up with described first air chamber layer 101 or the second gas-bearing formation 102.

More specifically, in step (b) of the present invention, can also step be comprised: sew up along multiple row connecting sewing 103, thus obtain multiple inflation unit 11, sew up along the partitioning slot 104 arranged apart from one another by ground, thus make described inflatable bodies be formed multiple sidewall.

In addition, see Fig. 3 A and 3B, sew up along sealing seam 105, make described inflatable bodies 10 be formed with the unaerated wing 15 and unaerated portion 16.The described unaerated wing 15 is formed in the base angle of described insulation air rubber capsule pack.Described unaerated portion 16 is formed in the top side of described insulation air rubber capsule pack, and between the inflation unit 11 of both sides.Like this when pressing described unaerated portion 16, the described inflation unit 11 of top side folds downwards thus is equivalent to be formed the lid of described insulation air rubber capsule pack, to be incubated the opening of air rubber capsule pack described in involution.It is worth mentioning that, above-mentioned plastic package structure can obtain the insulation air rubber capsule pack of general square shape.That is, the number of the described inflation unit of each sidewall is identical, thus the area of each sidewall is also roughly the same.

It is worth mentioning that the described valve film forming described unidirectional charge valve 20 can be the first diaphragm seal 21 and the second diaphragm seal 22, or the first diaphragm seal 21A, the second diaphragm seal 22A and non-return diaphragm seal 23A.

In addition, insulation air rubber capsule pack of the present invention also can be adopted and be made with the following method.

(A) the second air chamber layer 102 Surface coating there is is warm material, thus form a composite bed with integrated second air chamber layer 102 and heat-insulation layer 20.

(B) the first air chamber layer 101, the valve film forming check valve 20, necessary baffling device or heat-resisting thing and described composite laminate are combined.

(C) the described insulation air rubber capsule pack with container cavity is formed through a series of heat-sealing.

One skilled in the art will understand that the embodiments of the invention shown in foregoing description and accompanying drawing only limit the present invention as an example and not.Object of the present invention is complete and effectively realize.Function of the present invention and structural principle are shown in an embodiment and are illustrated, do not deviating under described principle, embodiments of the present invention can have any distortion or amendment.

Claims (39)

1. insulation air rubber capsule pack, it is characterized in that, comprise: one or more inflatable bodies, be arranged at the one or more unidirectional charge valve in described inflatable bodies, described charge valve is used for described inflatable bodies is inflated, and a heat-insulation layer, described heat-insulation layer is arranged at outside described inflatable bodies or inner side, provides function of heat insulation to give article to be packaged.

2. insulation air rubber capsule as claimed in claim 1 pack, it is characterized in that, described heat-insulation layer is sutured in inside described inflatable bodies or outside, using the inner bag layer packed as described insulation air rubber capsule or outer bag layer.

3. insulation air rubber capsule as claimed in claim 1 pack, it is characterized in that, described heat-insulation layer is coated on inner surface or the outer surface of described inflatable bodies integratedly.

4. insulation air rubber capsule pack as claimed in claim 2 or claim 3, it is characterized in that, described heat-insulation layer is made up of one or more warm materials.

5. insulation air rubber capsule as claimed in claim 4 pack, is characterized in that, described heat-insulation layer has single layer structure or forms composite layered structure.

6. insulation air rubber capsule as claimed in claim 4 pack, it is characterized in that, described heat-insulation layer is made up of inorganic thermal insulating material, organic thermal insulation materials or metal heat insulation material.

7. insulation air rubber capsule as claimed in claim 4 pack, it is characterized in that, described heat-insulation layer is made up of foamed resin material and/or aluminium Coating Materials.

8. insulation air rubber capsule as claimed in claim 4 pack, is characterized in that, after described inflatable bodies inflation, the described inner bag layer that described heat-insulation layer is formed is arranged in described inflatable bodies vacantly.

9. insulation air rubber capsule as claimed in claim 4 pack, is characterized in that, described insulation air rubber capsule pack base angle is formed with the unaerated wing, and it is suitable for filling in described insulation air rubber capsule and packs in the container cavity formed.

10. insulation air rubber capsule as claimed in claim 4 pack, it is characterized in that, described insulation air rubber capsule pack top side is formed with unaerated part, thus the injection section of described insulation air rubber capsule pack top side is suitable for folding thus is covered on the opening for placing described article to be packaged of described insulation air rubber capsule pack.

11. insulation air rubber capsule packs as claimed in claim 4, it is characterized in that, described insulation air rubber capsule pack comprises inflatable bodies described in two, its head and the tail two ends are stitched together mutually, and form the container cavity of general square shape.

12. insulation air rubber capsule packs as claimed in claim 4, it is characterized in that, inflatable bodies described in each comprises one or more inflation unit, and inflation unit described in each forms inflatable chamber, and is provided with a multiple described charge valve in inflation unit described in each.

13. as claimed in claim 12 insulation air rubber capsule packs, is characterized in that, inflatable bodies described in each comprises the partitioning slot that row or multiple row are arranged discontinuously, with the multiple sidewalls making described inflation unit be combined into described inflatable bodies.

14. insulation air rubber capsule packs as claimed in claim 13, it is characterized in that, described inflatable bodies has one first air chamber layer and one second air chamber layer, described charge valve is one way stop peturn valve, and be arranged between described first air chamber layer and described second air chamber layer, after being full of air in described inflatable chamber, described one-way non-return self-closed, thus prevent air leak.

15. insulation air rubber capsule packs as claimed in claim 14, it is characterized in that, described charge valve comprise two valve films respectively with described first air chamber layer and the described second air chamber layer heat-sealing of the described inflation unit 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.

16. insulation air rubber capsule packs as claimed in claim 14, it is characterized in that, described charge valve is self binding film non return valve, it comprises one first valve film, one second valve film, with one the 3rd valve film, described first valve film and described 3rd valve film are positioned at skin, described second valve film is between described first valve film and described 3rd valve film, a free air diffuser is formed between described first valve film and described second valve film, a check cavity is formed between described second valve film and described 3rd valve film, after being filled with air by described free air diffuser via described gas passage in described inflation unit, described first valve film, the inside face automatic absorbing of described second valve film and described 3rd valve film sticks together, to stop the air in described inflation unit from described free air diffuser reverse osmosis, and can optionally enter described check cavity when air returns, and the air entering described check cavity can produce pressure effect to described second valve film, thus close described free air diffuser further, thus prevent gas reverse osmosis.

17. insulation air rubber capsule packs as claimed in claim 16, it is characterized in that, one first barrier layer is provided with between described first valve film and described second valve film, thus when described self binding film non return valve heat-sealing, define described free air diffuser, and between described second film valve and described 3rd valve film, be provided with one second barrier layer, the length of described second barrier layer is less than described second valve film, thus it is not concordant with the end of described 3rd valve film with the described second valve film of the inlet end of described self binding film non return valve, fit together completely to make described second valve film and described inlet end place that described 3rd valve film is being positioned at described self binding film non return valve.

18. insulation air rubber capsule packs as claimed in claim 17, it is characterized in that, the length of described second valve film is less than described first valve film and described 3rd valve film.

19. insulation air rubber capsule packs as claimed in claim 18, it is characterized in that, described first valve film and described 3rd valve film have equal length, described first valve film and described 3rd valve film form a reverse osmosis chamber at the other end of described self binding film non return valve, thus when gas needs to escape from described inflation unit, first to enter the described reverse osmosis chamber formed between described first valve film and described 3rd valve film, then select to enter described first valve film and described second valve film to go out from described free air diffuser, or the described check cavity entered between described second valve film and described 3rd valve film, thus make to be stranded in described check cavity when gas, gaseous tension acts on described second valve film, described free air diffuser is sealed for being further used for.

20. insulation air rubber capsule packs as claimed in claim 19, it is characterized in that, at the inlet end of described self binding film non return valve, described first valve film and described first air chamber layer heat-sealing, described second valve film and described 3rd valve film and described second air chamber layer heat-sealing.

21. 1 kinds of manufacture methods being incubated air rubber capsule and packing, is characterized in that, comprise the steps:

A first air chamber layer, the valve film forming unidirectional charge valve, baffling device or heat-resisting thing and the second gas-bearing formation are superimposed together by ();

B () forms one or more inflatable bodies with container cavity through a series of heat-sealing; And

C one heat-insulation layer is attached to inner side or the outside of described inflatable bodies by (), thus as the inner bag layer of described insulation air rubber capsule pack or outer bag layer, to provide insulation effect.

22. methods as described in claim 21, it is characterized in that, in described step (a), described heat-insulation layer and described first air chamber layer or the second gas-bearing formation are superimposed together, then, in described step (b), described heat-insulation layer and described first air chamber layer or the second gas-bearing formation are sewed up.

23. methods as described in claim 21 or 22, it is characterized in that, also comprise step: sew up along multiple row connecting sewing, thus obtain multiple inflation unit, sew up along the partitioning slot arranged apart from one another by ground, thus make described inflatable bodies be formed multiple sidewall.

24. methods as described in claim 23, it is characterized in that, also comprise step: sew up along sealing seam, described inflatable bodies is made to be formed with the unaerated wing and unaerated portion, the described unaerated wing is formed in the base angle of described insulation air rubber capsule pack, described unaerated portion is formed in the top side of described insulation air rubber capsule pack, and between the described inflation unit of both sides.

25. methods as described in claim 24, is characterized in that, also comprise step: described sealing seam is arranged in the rectilinear direction of the partitioning slot of the predetermined column of correspondence.

26. methods as described in claim 24, is characterized in that, also comprise step: be stitched together at inflatable bodies head and the tail two ends described in two, and to form described container cavity, described heat-insulation layer is sutured in inflatable bodies head and the tail two ends suture described in two.

27. methods as described in claim 26, is characterized in that, also comprise step: sew up inside the base angle of described heat-insulation layer and the described unaerated wing.

28. methods as described in claim 23, it is characterized in that, the described valve film of described unidirectional charge valve comprises the first diaphragm seal and the second diaphragm seal, its respectively with described first air chamber layer and the described second air chamber layer heat-sealing of the described inflation unit 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.

29. methods as described in claim 23, it is characterized in that, described charge valve is self binding film non return valve, it comprises one first valve film, one second valve film, with one the 3rd valve film, described first valve film and described 3rd valve film are positioned at skin, described second valve film is between described first valve film and described 3rd valve film, a free air diffuser is formed between described first valve film and described second valve film, a check cavity is formed between described second valve film and described 3rd valve film, after being filled with air by described free air diffuser via described gas passage in described inflation unit, described first valve film, the inside face automatic absorbing of described second valve film and described 3rd valve film sticks together, to stop the air in described inflation unit from described free air diffuser reverse osmosis, and can optionally enter described check cavity when air returns, and the air entering described check cavity can produce pressure effect to described second valve film, thus close described free air diffuser further, thus prevent gas reverse osmosis, and the length of described second valve film is less than described first valve film and described 3rd valve film.

30. 1 kinds of manufacture methods being incubated air rubber capsule and packing, is characterized in that, comprise the steps:

(A) the second air chamber layer Surface coating there is is warm material, thus form a composite bed with integrated second air chamber layer and heat-insulation layer;

(B) the first air chamber layer, the valve film forming check valve, baffling device or heat-resisting thing and described composite laminate are combined; And

(C) the described insulation air rubber capsule pack with container cavity is formed through a series of heat-sealing.

31. methods as described in claim 30, it is characterized in that, also comprise step: sew up along multiple row connecting sewing, thus obtain multiple inflation unit, sew up along the partitioning slot arranged apart from one another by ground, thus make described inflatable bodies be formed multiple sidewall.

32. methods as described in claim 31 or 30, it is characterized in that, also comprise step: sew up along sealing seam, described inflatable bodies is made to be formed with the unaerated wing and unaerated portion, the described unaerated wing is formed in the base angle of described insulation air rubber capsule pack, described unaerated portion is formed in the top side of described insulation air rubber capsule pack, and between the described inflation unit of both sides.

33. methods as described in claim 32, is characterized in that, also comprise step: described sealing seam is arranged in the rectilinear direction of the partitioning slot of the predetermined column of correspondence.

34. methods as described in claim 31, is characterized in that, also comprise step: be stitched together, inflatable bodies head and the tail two ends described in two to form described container cavity.

35. methods as described in claim 32, it is characterized in that, the described valve film of described unidirectional charge valve comprises the first diaphragm seal and the second diaphragm seal, its respectively with described first air chamber layer and the described second air chamber layer heat-sealing of the described inflation unit 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.

36. methods as described in claim 32, it is characterized in that, described charge valve is self binding film non return valve, and it comprises described air valve is a double check valve (DCV), and described charge valve comprises;

One first diaphragm seal and one second diaphragm seal, described first diaphragm seal and described second diaphragm seal are overlapped between the described first air chamber layer of described plenum chamber and described second air chamber layer, and extend into described inflatable chamber from the described valve openings of described plenum chamber; With

One non-return diaphragm seal, described non-return diaphragm seal is overlapped in the near-end of described first diaphragm seal and described second diaphragm seal, to form a filling channel between described first diaphragm seal and described non-return diaphragm seal, and a non-return passage is formed between described non-return diaphragm seal and described second diaphragm seal, wherein said filling channel is aligned to for being filled with air to described inflatable chamber to fill described plenum chamber, until by the air pressure in described inflatable chamber, make the far-end of described first diaphragm seal and described second diaphragm seal overlapping and seal to close described filling channel, wherein when having gas from when having air leak between described first diaphragm seal and the far-end of described second diaphragm seal, air in described inflatable chamber is guided and enters described non-return passage, to produce supplementary air pressure, thus seal described filling channel further, to compensate the deficiency of the sealing effectiveness of described first diaphragm seal and described second diaphragm seal.

37. methods as claimed in claim 36, it is characterized in that, described non-return passage has an open end towards described inflatable chamber and a closed end towards described valve openings, thus when air is filled with described non-return passage in institute open end, described non-return passage is filled with air to produce supplementary air pressure, thus the described filling channel further between described first diaphragm seal of sealing and described second diaphragm seal.

38. methods as claimed in claim 37, it is characterized in that, described air valve also comprises one first sealed engagement place and described first air chamber layer and described first diaphragm seal is bonded together at the described valve openings place of described plenum chamber, with one second sealed engagement place by described second air chamber layer, described non-return diaphragm seal, and described second diaphragm seal is bonded together at the described valve openings place of described plenum chamber.

39. methods as claimed in claim 38, it is characterized in that, the length of described non-return diaphragm seal is less than the length of often described first diaphragm seal and described second diaphragm seal, thus described non-return diaphragm seal is overlapped in the near-end of described first diaphragm seal and described second diaphragm seal, the far-end of described first diaphragm seal and described second diaphragm seal overlaps.