CN102795407B - Aeration packing box and its manufacture method - Google Patents

Abstract

A kind of aeration packing box, it comprises a gas buffer layer, on its interior receiving space and an outer layer outside.Described gas buffer floor is provided with one group of relatively independent and gas buffer room of the connection that is parallel to each other and a gas passage, and described gas passage and described each gas buffer room are interconnected with to described each gas buffer interior filling gas.Described gas buffer layer have one with described outer layer interconnective blind end and an opening being interconnected with described receiving space.Described outer layer have one can folding repeatedly opening, it is adjacent to the opening of described gas buffer layer, and is interconnected with described receiving space by described opening.

Description

Aeration packing box and its manufacture method

Technical field

The present invention relates to a kind of aeration packing box, particularly to a kind of reusable aeration packing box.

The present invention relates to a kind of manufacture method of aeration packing box, particularly to a kind of reusable aeration packing box Manufacture method.

Background technology

At present, the trend of globalization makes product increasingly increase from grown place to the transportation range of area of consumption, leads to for transport During protective packaging demand also simultaneously fast-developing.Traditional expanded polystyrene (EPS) (EPS) and polyethylene foamss (EPE) based article in manufacturer's foaming or just must can be shipped to user's use after processed, after molding Foam plasticss bulky and very inconvenient transport and store in a warehouse.The foam-in-place class material master transporting for convenience and developing If utilizing polyurethane foam article, expanding on content side and forming protection model, but, the price of material is relatively Higher and live equipment be there are certain requirements, require to be not suitable for large-scale pipeline in worker efficiency and working strength simultaneously The inner packing of product such as electronic product.Additionally, showing many drawback days of expanded polystyrene (EPS) (EPS) based article serious, become All evil of behaving " white pollution ", relatively in the buffer product of transit link short-period used, permanent polyphenyl blister pack Offal treatment improper bring severe contamination to environment, if burning can produce toxic gas, and heap buried is then because corroding And can produce to geology structural damage, the concern of government and consumer's environmental pollution in recent years will limit to such product The development of product.Meanwhile, packaging material in the market are almost without without being bound by packaging material volume itself is big, cost of transportation is high The problems such as so that these materials can only closely be sold it is impossible to form scale and benefit.

With the fast development of soft-plastic material, increasing industry is enable to have benefited from what this material behavior was brought Design and the expansion of function.Traditional gas flush packaging generally forms simple round dot (BUBBLE WRAP, gas using hot sealing process Bubble pad), block or cylindric.Bubble cushion can also be by being packaged as web transport, but other shapes product must be using existing Field installs complicated heat-seal equipment to form air bag.Because the protected effect of such product and shape-variable limited it is possible to The field using mostly is pad or filling space is used.Simultaneously as the unstability of the use of material and hot sealing process causes to protect The gas time is not very long.Therefore, limited to the packaging production development using air as buffer medium for a long time always.

However, the existing various packing box using air as buffer medium all cannot be reused, after using every time, all Can be dropped.This situation not only causes the wasting of resources, and leads to increase using the product cost of these packing boxes.Due to this A little packing boxes adopt Plastic material, and the situation that it cannot be reused must lead to environmental problem, so these are used Packing box must be recovered and process, and this also means that increase and the wasting of resources of Financial cost.

Content of the invention

An object of the present invention is to provide a kind of aeration packing box, and it can be used for packing various needs into row buffering effect The article of fruit packaging.

The second object of the present invention is to provide a kind of reusable aeration packing box, and it can be wrapped with Reusability Filling different needs to carry out the article of buffering effect packaging.

The third object of the present invention is to provide a kind of reusable aeration packing box, and it can be with Reusability to drop Low cost, avoid the wasting of resources and reduce the impact to environment.

To achieve these goals, the invention discloses a kind of aeration packing box, it comprises a gas buffer layer, is located at Its internal receiving space and an outer layer outside.

Described gas buffer floor is provided with one group of relatively independent and gas buffer room of the connection that is parallel to each other and a gas Path, described gas passage and described each gas buffer room are interconnected with to described each gas buffer interior filling gas.Institute State gas buffer layer to there is one interconnective blind end and one and described receiving space are interconnected with described outer layer Opening.Described outer layer have one can folding repeatedly opening, it is adjacent to the opening of described gas buffer layer, and passes through institute State opening to be interconnected with described receiving space.

Described gas buffer layer further includes first inner liner, the second inner liner and a tack line, described One inner liner and described second inner liner are overlapped and mutually bond along described tack line set in advance, formed described mutually Parallel gas buffer room and described gas passage.

Described gas buffer layer has at least 2 side walls, its be connected with each other successively and connect described blind end to define in Empty inside is as described receiving space.

To achieve these goals, the invention also discloses a kind of manufacture method of aeration packing box, it comprises following step Suddenly：

Will be overlapped to first inner liner and second inner liner, and described along tack line set in advance bonding First inner liner and described second inner liner, form one group of relatively independent and gas buffer room of the connection that is parallel to each other and a gas Body path, the two forms a gas buffer layer, wherein said gas passage and described each gas buffer room be interconnected with to Described each gas buffer interior filling gas；

Bond described first inner liner and described second inner liner along one group of tack line that separates set in advance, respectively by institute State each gas buffer room and be partitioned into one group of minor gas surge chamber being interconnected；

Bend described gas buffer floor along the described tack line that respectively separates so that accordingly each secondary of described each gas buffer room Gas buffer room forms one group of side wall, and described each side wall is connected with each other successively, to define inside a hollow as a receiving Space；

Coat an outer layer in the outer surface of described gas buffer layer, and one end of described gas buffer layer is outer with described Layer is connected with each other, and to form a blind end, and forms an opening in the described gas buffer layer other end, it is with described appearance Receive space be interconnected and neighbouring described outer layer open end；

On the open end of described outer layer setting one can folding repeatedly opening.

Hereinafter, will be described further by specific embodiment, but embodiment will be only the optional embodiment party of the present invention The citing of formula, the feature disclosed in it is merely to illustrate and illustrates technical scheme, is not intended to limit the present invention Protection domain.

Brief description

Figure 1A is one of axonometric chart of aeration packing box of the present invention.

Figure 1B is the two of the axonometric chart of aeration packing box of the present invention.

Fig. 2 is the exploded view of the aeration packing box of the present invention.

Fig. 3 A is the sectional view of the A-A ' line along Figure 1A.

Fig. 3 B is the sectional view of the B-B ' line along Figure 1A.

Fig. 4 A is the partial enlarged drawing at the 1 ' place of Figure 1A.

Fig. 4 B is the partial enlarged drawing at the 2 ' places of Figure 1A.

Fig. 4 C is the partial enlarged drawing at the 3 ' places of Figure 1B.

Fig. 5 A is the manufacture process schematic diagram of the airflow layer of aeration packing box of the present invention.

Fig. 5 B is the non-inflated state schematic diagram of the airflow layer of aeration packing box of the present invention.

Fig. 5 C is the inflated condition schematic diagram of the airflow layer of aeration packing box of the present invention.

Fig. 6 A is the one-tenth box process schematic of the airflow layer of aeration packing box of the present invention.

Fig. 6 B is the one-tenth box view of the airflow layer of aeration packing box of the present invention.

Fig. 7 A is the functional layer of aeration packing box of the present invention and the cohesive process schematic diagram of airflow layer

Fig. 7 B is the functional layer of aeration packing box and the airflow layer bonding state schematic diagram of the present invention.

Fig. 8 is the gas replenishment process schematic diagram of the aeration packing box of the present invention.

Specific embodiment

Claim according to the present invention and description disclosure of that, technical scheme literary composition specific as follows institute State.

Figure 1A and 1B is two axonometric charts of the aeration packing box of the present invention, describes described inflation from two sides respectively The stereochemical structure of packing box.According to Figure 1A, Figure 1B and Fig. 2, the aeration packing box of the present invention, including gas buffer layer 1, a position A receiving space 4 in portion and an outer layer 5 outside in the inner.Described gas buffer layer 1 is provided with one group relatively The gas buffer room 2 of independence the connection that is parallel to each other and a gas passage 3, described gas passage 3 and described each gas buffer Room 2 is interconnected with to filling gas in described each gas buffer room 2.

Fig. 3 A and Fig. 3 B is respectively along the A-A ' line of Figure 1A and the sectional view of B-B ' line.According to Fig. 3 A and 3B, described gas Cushion 1 have one with described outer layer 5 interconnective blind end 16 and one and opening that described receiving space 4 is interconnected Mouth end 17.Described outer layer 5 have one can folding repeatedly opening 50, its adjacent to the opening 17 of described gas buffer layer 1, and It is interconnected with described receiving space 4 by described opening 17.

According to Fig. 3 A and 3B, described gas buffer layer 1 further includes 11, second inner liner of first inner liner 12 and tack line 13, described first inner liner 11 and described second inner liner 12 overlapped and along described bonding set in advance Line 13 mutually bonds, the gas buffer room 2 being parallel to each other described in formation and described gas passage 3.

As shown in FIG. 1A and 1B, described gas buffer layer 1 has at least 2 side walls 10, and it is connected with each other successively and connects Connect described blind end 16 to define inside hollow as described receiving space 4.

As shown in Figure 1A, Figure 1B and Fig. 3 B, described each gas buffer room 2 further includes at least 2 minor gas bufferings Room 20, each minor gas surge chamber 20 of each described gas buffer room 2 is interconnected successively.Described each gas buffer room 2 The corresponding composition described side wall 10 of each minor gas surge chamber 20.Described each side wall 10 each gas buffer described in least one set The respective secondary gas buffer room 20 of room 2 forms.

Fig. 4 A and Fig. 4 B is the partial enlarged drawing of Figure 1A.As shown in Figure 4 A and 4 B shown in FIG., described gas buffer layer 1 wraps further Include one group and separate tack line 18, it will be airtight for the first inner liner 11 and second of the not mutually bonding of described each gas buffer room 2 Layer 12 mutually bonds, thus respectively described each gas buffer room 2 is partitioned into one group of described minor gas buffering being interconnected Room 20.

As shown in Figure 4 A and 4 B shown in FIG., the described length respectively separating tack line 18 is not more than the width of described each gas buffer room 2 Degree, and it is distributed in the width of described each gas buffer room 2 between two parties upwards, thus described each gas buffer room 2 is being partitioned into one While the described minor gas surge chamber 20 that group is interconnected, formed and be located at the described gas respectively separating tack line 18 left and right sides Body passage 201, so that can be interconnected between described each minor gas surge chamber 20 of described each gas buffer room 2.Excellent Selection of land, the described length respectively separating tack line 18 is not more than the 2/3 of the width of described each gas buffer room 2.

Fig. 4 C is the partial enlarged drawing of Figure 1A.As shown in Figure 4 C, described gas passage 3 further includes an inlet channel 31 and one group of air guide channel 32, described each air guide channel 32 is mutually interconnected with each corresponding described each gas buffer room 2 respectively Logical, and be interconnected with described inlet channel 31 simultaneously.

Described air guide channel 32 is two layers of unidirectional valve film layer, and it is airtight that it is glued respectively to described first along described tack line On layer 11 and the second inner liner 12, to form a cooling gas check valve.

As described in Fig. 2 and Fig. 4 C, described gas buffer layer 1 further includes one group of gas barrier part 14, described each gas Barriers 14 are arranged on the internal and neighbouring corresponding described each air guide channel 32 in each gas buffer room 2, to intercept described each gas Gas in body surge chamber 2 is discharged at described each air guide channel 32.

Preferably, described gas buffer layer 1 has 3～8 side walls 10, and the minor gas of described each gas buffer room 2 The number of surge chamber 20 is not less than the number of described side wall 10；

Each respective secondary gas buffer room 20 of described each gas buffer room 2 separately constitutes described accordingly each side wall 10, And bend along respectively separating tack line 18 accordingly, form the polyhedral structure of inner hollow.

Preferably, as shown in Figure 1A, Figure 1B, Fig. 3 A and Fig. 3 B, described gas buffer layer 1 has 4 side walls 10, and described Each gas buffer room 2 has 5 minor gas surge chambers 20.

Preferably, the opening 50 of described outer layer 5 is provided with a slide fastener to realize opening of folding repeatedly or described outer layer 5 Mouthfuls 50 be respectively provided on two sides with concaveconvex structure and by a closure device, described concaveconvex structure interfixed and realize repeatedly opening Close or described outer layer 5 opening 50 be respectively provided on two sides with the adhesive linkage that can repeatedly tear to realize folding repeatedly.

As shown in Figure 3A it is preferable that the opening 17 of described gas buffer layer 2 be one can folding repeatedly opening, its It is relatively independent of the opening 50 of described outer layer 5.

Preferably, the opening 17 of described gas buffer layer 2 is provided with a slide fastener to realize folding repeatedly or described gas The opening 17 of body cushion 2 be respectively provided on two sides with concaveconvex structure will be mutually solid for described concaveconvex structure by a closure device Fixed it is respectively provided on two sides with, with realize repeatedly the opening 17 of folding or described gas buffer layer 2, the adhesive linkage that can repeatedly tear To realize folding repeatedly.

As shown in Figure 2 it is preferred that described aeration packing box further includes One function layer 6, it is located at described receiving Space 4 is internal and is connected with each other with described gas buffer layer 1.Preferably, described functional layer 6 is a ccf layer, and it is to described Gas buffer layer 1 provides support force, or described functional layer is a radiation insulation layer, or described functional layer is an anti-water segregation Layer.

In the above-described embodiment it is preferable that described first inner liner 11 and described second inner liner 12 are by along institute State tack line 13 and described respectively separate tack line 18 and carry out sealing mutually boning.

The present invention further discloses the manufacture method of described aeration packing box.

As shown in Figure 5A, first, will be overlapped to first inner liner 11 and second inner liner 12, and along in advance The tack line 13 setting bonds described first inner liner 11 and described second inner liner 12, formed one group relatively independent and mutually flat Gas buffer room 2 and a gas passage 3 that row connects, the two forms a gas buffer layer 1.Shown in Fig. 5 B is this gas Cushion 1 under unaerated state structural representation, described each gas buffer room 2 is relatively independent and the connection that is parallel to each other, institute State gas passage 3 to be interconnected with described each gas buffer room 2 with to filling gas in described each gas buffer room 2.

As shown in Figure 5A, while carrying out the bonding of above-mentioned first inner liner 11 and the second inner liner 12 or afterwards, edge One group set in advance to separate tack line 18 and bonds described first inner liner 11 and described second inner liner 12, respectively will be described each Gas buffer room 2 is partitioned into one group of minor gas surge chamber 20 being interconnected.

Preferably, as shown in Figure 5A, the described length respectively separating tack line 18 is not more than the width of described each gas buffer room 2 Degree, and it is distributed in the width of described each gas buffer room 2 between two parties upwards, thus described each gas buffer room 2 is being partitioned into one While the described minor gas surge chamber 20 that group is interconnected, formed and be located at the described gas respectively separating tack line 18 left and right sides Body passage 201, so that can be interconnected between described each minor gas surge chamber 20 of described each gas buffer room 2.

It is highly preferred that the described length respectively separating tack line 18 is not more than the 2/3 of the width of described each gas buffer room 2.

As shown in Figure 5A, by step that is overlapped to described first inner liner 11 and described second inner liner 12 and boning In it is preferable that further including：By described 11, one group of two layers of unidirectional valve film layer of first inner liner and described second inner liner 12 Overlapped successively and bond each layer along tack line 13 set in advance, form that one group relatively independent and the gas of the connection that is parallel to each other Body surge chamber 2 and a gas passage 3, the two forms a gas buffer layer 1.

As shown in Fig. 5 A and Fig. 4 C, described gas passage 3 further includes an inlet channel 31 and one group of air guide channel 32, it is interconnected with each corresponding described each gas buffer room 2 respectively, and mutually interconnect with described inlet channel 31 simultaneously Logical, described each air guide channel 32 is by described each two layers of unidirectional valve film layer and described first inner liner 11 and described second inner liner 12 Mutual bonding formed.

As shown in Figure 5A, by step that is overlapped to described first inner liner 11 and described second inner liner 12 and boning In it is preferable that further including：Between described first inner liner 11 and described second inner liner 12, one group of gas barrier is set Part 14, it is arranged on the internal and neighbouring corresponding described each air guide channel 32 in each gas buffer room 2, to intercept described each gas Gas in surge chamber 2 is discharged at described each air guide channel 32.

Through above-mentioned manufacture process, obtain a gas buffer layer 1 as shown in Figure 5 B, it include the first inner liner 11, Two inner liners 12, tack line 13 and separate tack line 18.Described first inner liner 11 and described second inner liner 12 glue along described Tie lines 13 and described separate the overlapped bonding of tack line 18, form one group of gas buffer room 2 being parallel to each other and described gas Path 3.

Meanwhile, as shown in Figure 5 B, described gas buffer layer 1 also includes one group of two layers of unidirectional valve film layer, and it is respectively along described Tack line is glued respectively on described first inner liner 11 and the second inner liner 12, to form one group of cooling gas check valve, i.e. institute State each air guide channel 32.And described gas passage 3 further includes an inlet channel 31 and one group of air guide channel 32, described each Air guide channel 32 is interconnected with each corresponding described each gas buffer room 2 respectively, and simultaneously with described inlet channel 31 It is interconnected.

Meanwhile, as shown in Figure 5 B, described gas buffer layer 1 further includes one group of gas barrier part 14, described each gas Barriers 14 are arranged on the internal and neighbouring corresponding described each air guide channel 32 in each gas buffer room 2, to intercept described each gas Gas in body surge chamber 2 is discharged at described each air guide channel 32.

After obtaining gas buffer layer 1 as shown in Figure 5 B, as shown in Figure 6A, respectively separate tack line 18 bending institute along described State gas buffer floor 1 so that accordingly each minor gas surge chamber 20 of described each gas buffer room 2 forms one group of side wall 10, institute State each side wall 10 to be connected with each other successively, to define inside a hollow as a receiving space 4.

Described gas buffer layer 1 has at least 2 side walls 10.Preferably, described gas buffer room 2 further includes at least 2 minor gas surge chambers 20, each minor gas surge chamber 20 of each described gas buffer room 2 is interconnected successively.Described The corresponding composition described side wall 10 of each minor gas surge chamber 20 of each gas buffer room 2.

Preferably, described gas buffer layer 1 has 3～8 side walls 10, and the minor gas of described each gas buffer room 2 The number of surge chamber 20 is not less than the number of described side wall 10.

It is highly preferred that the respective secondary gas buffer room of described each side wall 10 each gas buffer room 2 described in least one set 20 compositions.

For example, as shown in Figure 6A, described gas buffer layer 1 has 4 side walls 10, i.e. side wall 10a, side wall 10b, side wall 10c and side wall 10d, and each described each gas buffer room 2 has 5 minor gas surge chambers 20, i.e. minor gas buffering Room 21, minor gas surge chamber 22, minor gas surge chamber 23, minor gas surge chamber 24 and minor gas surge chamber 25.Institute The minor gas surge chamber 22 stating each gas buffer room 2 constitutes described side wall 10a, and the secondary gas of described each gas buffer room 2 Body surge chamber 24 constitutes described side wall 10b, and this two side walls are located at the both sides of described gas buffer layer 1, as two sides.Institute The minor gas surge chamber 23 stating each gas buffer room 2 constitutes described side wall 10c, described side wall 10a and 10b and described side wall Mutually separated by the corresponding tack line that separates between 10c.Minor gas surge chamber 21 He of described each gas buffer room 2 The 25 described side of composition together wall 10d.

When being bent according to mode as shown in Figure 6A, described side wall 10a and 10b is utilized respectively described area accordingly It is folded upward at from the plane of described side wall 10c every tack line, constitute two sides of gas buffer layer 1 as depicted in figure 6b, And side wall 10c then constitutes bottom surface.Described minor gas surge chamber 21 and 25 is utilized respectively the described accordingly tack line that separates from institute State side wall 10a and 10b and go out inside lateral bending folding, then by its two relative end bonding, constitute a complete side wall 10d, make For top surface.

Now, obtain gas buffer layer 1 as shown in Figure 6B, it has inside a hollow, empty as described receiving Between 4, and the two of this gas buffer layer opposite ends are unlimited.

During above-mentioned bending, specifically as illustrated in figures 4 a and 4b, the described tack line 18 that respectively separates constitutes described each side wall Broken line between 10, or perhaps crest line.Just because of the described presence separating tack line 18, described each gas buffer room 2 is Carrying out that can be easily simultaneously easy bends.

After obtaining gas buffer layer 1 as shown in Figure 6B, the manufacture method of the aeration packing box of the present invention is further Including：

As shown in Figure 7 A, the outer surface in described gas buffer layer 1 coats an outer layer 5；

Subsequently, as shown in Figure 7 B, one end of described gas buffer layer 2 and described outer layer are connected with each other, to form one Blind end 16, and form an opening 17 in described gas buffer layer 1 other end, it is interconnected with described receiving space 4 And the open end of neighbouring described outer layer 5, on the open end of described outer layer 5 setting one can folding repeatedly opening 50.

According to Fig. 3 A and 3B, the blind end 16 of described gas buffer layer 1 is connected with each other with described outer layer 5, and described opening Then optionally be arranged on end 17 can folding repeatedly opening, unlimited adjoining with described opening 17 of described outer layer 5 simultaneously On end setting one can folding repeatedly opening 50.

Preferably, on the opening 50 of described outer layer 5 one slide fastener of setting to realize folding repeatedly or in described outer layer 5 Opening 50 both sides be respectively provided with concaveconvex structure described concaveconvex structure being interfixed by closure device realize anti- Answer folding or be respectively provided with the adhesive linkage that can repeatedly tear to realize folding repeatedly in the both sides of the opening 50 of described outer layer 5.

Preferably, on the opening 17 of described gas buffer layer 2 setting one can folding repeatedly opening, it is relatively only Stand on the opening 50 of described outer layer 5.

Preferably, on the opening 17 of described gas buffer layer 2 one slide fastener of setting to realize folding repeatedly or in institute The both sides stating the opening 17 of gas buffer layer 2 are respectively provided with concaveconvex structure and by closure device by described concaveconvex structure phase Mutually fix to realize folding repeatedly or to be respectively provided with and can repeatedly tear in the both sides of the opening 17 of described gas buffer layer 2 Adhesive linkage is to realize folding repeatedly.

Preferably, as shown in Fig. 2 the manufacture method of described aeration packing box, further include：In described receiving space 4 internal setting One function layers 6, it is connected with each other with described gas buffer layer 1.Described functional layer 6 is a ccf layer, and it is right Described gas buffer layer 1 provides support force, or described functional layer is a radiation insulation layer, or described functional layer is a waterproof Sealing coat.

In the above-mentioned manufacture method of aeration packing box, be along described tack line 13 and described respectively separate tack line 18, right Described first inner liner 11 and described second inner liner 12 are sealed, so that the two mutually bonds.

Now, obtain an aeration packing box as shown in Figure 8, wherein said gas buffer layer 1 is non-inflated state. When using, article to be packaged are put into described receiving space 4, subsequently from described inlet channel 31 to described gas buffer Inflate in layer 1.Gas inputs along described inlet channel 31, and is subsequently shunted by described each air guide channel 32 and enter described each Gas buffer room 2.Inside described each gas buffer room 2, gas flows directly along each described minor gas surge chamber 20 successively It is filled gas to described gas buffer room 2.In above process, described cooling gas check valve and described gas barrier part 14 intercept Gas in described each gas buffer room 2 is discharged at described each air guide channel 32.Now, band packing article is placed into and by institute State gas buffer layer 1 to be comprised, finally, close the opening 17 of described gas buffer room 2 and/or opening of described outer layer 5 successively Mouth 50, to close described aeration packing box.It is pointed out that can also first be inflated, then article to be packaged are put into. And after a procedure, can be by opening the opening 17 of described gas buffer room 2 and/or the opening 50 of described outer layer 5, by article Taking out, then placing into another article to be packaged, thus realizing Reusability.

The above is enumerating of the specific embodiment of the present invention, the equipment for wherein not detailed description and structure, should When being interpreted as taking the existing common apparatus in this area and universal method to be practiced.

The above embodiment of the present invention is only and illustrates that technical solution of the present invention is used simultaneously, the only row of technical solution of the present invention Lift, be not limited to technical scheme and its protection domain.Using equivalent technologies mean, equivalent apparatus etc. to this The improvement of the technical scheme disclosed in bright claims and description is considered to be without departing from claims of the present invention And the scope disclosed in description.

Claims (33)

1. a kind of aeration packing box is it is characterised in that include a gas buffer layer (1), on its interior receiving sky Between (4) and an outer layer (5) outside, form a gas flushing pouch, institute after the inflation of wherein said gas buffer layer (1) State receiving space (4) to be formed in described gas flushing pouch for accommodating article to be packaged；

Described gas buffer floor (1) is provided with one group of relatively independent and the gas buffer room (2) of the connection that is parallel to each other and gas Body path (3), described gas passage (3) and each described gas buffer room (2) are interconnected with to each described gas buffer room (2) Interior filling gas, wherein said gas passage (3) passes through the cooling gas check valve inflation that multilamellar check valve film layer is formed, and After inflation terminates, described multilamellar check valve film layer self-closed；

Described gas buffer layer (1) has one and the interconnective blind end (16) of described outer layer (5) and one and described appearance Receive the opening (17) that space (4) is interconnected；

Described outer layer (5) have one can folding repeatedly opening (50), it is adjacent to the opening of described gas buffer layer (1) (17), and by described opening (17) it is interconnected with described receiving space (4).

2. aeration packing box as claimed in claim 1 is it is characterised in that described gas buffer layer (1) further includes one First inner liner (11), second inner liner (12) and tack line (13), described first inner liner (11) and described second gas Close layer (12) is overlapped and mutually bonds along described tack line (13) set in advance, forms the described gas being parallel to each other and delays Rush room (2) and described gas passage (3).

3. aeration packing box as claimed in claim 2 is it is characterised in that described gas buffer layer (1) has at least 2 side walls (10), it is connected with each other successively and connects described blind end (16) to define inside hollow as described receiving space (4).

4. aeration packing box as claimed in claim 3 it is characterised in that each described gas buffer room (2) further include to Few 2 minor gas surge chambers (20), each minor gas surge chamber (20) of each described gas buffer room (2) mutually interconnects successively Logical；

Corresponding composition described side wall (10) of each minor gas surge chamber (20) of each described gas buffer room (2).

5. aeration packing box as claimed in claim 4 is it is characterised in that each described side wall (10) is by each described gas of least one set Respective secondary gas buffer room (20) composition of body surge chamber (2).

6. aeration packing box as claimed in claim 5 is it is characterised in that described gas buffer layer (1) further includes one group Separate tack line (18), it will be airtight to first inner liner (11) of the not mutual bonding of each described gas buffer room (2) and second Layer (12) mutually bonds, thus respectively each described gas buffer room (2) is partitioned into one group of described minor gas being interconnected Surge chamber (20).

7. aeration packing box as claimed in claim 6 is it is characterised in that each described length separating tack line (18) is not more than The width of each described gas buffer room (2), and it is distributed in the width of each described gas buffer room (2) between two parties upwards, thus inciting somebody to action While each described gas buffer room (2) is partitioned into described minor gas surge chamber (20) that a group is interconnected, formation is located at Each described gas passage (201) separating tack line (18) left and right sides, so that each described gas buffer room (2) is each described Minor gas surge chamber can be interconnected between (20).

8. aeration packing box as claimed in claim 7 is it is characterised in that each described length separating tack line (18) is not more than The 2/3 of the width of each described gas buffer room (2).

9. the aeration packing box as described in claim 2 or 5 is it is characterised in that described gas passage (3) further include one Inlet channel (31) and one group of air guide channel (32), each described air guide channel (32) respectively with each corresponding each described gas Surge chamber (2) is interconnected, and is interconnected with described inlet channel (31) simultaneously.

10. aeration packing box as claimed in claim 9 is it is characterised in that described air guide channel (32) is unidirectional described in two-layer Valve film layer, it is glued respectively on described first inner liner (11) and described second inner liner (12) along described tack line, with Form described cooling gas check valve.

11. aeration packing boxes as claimed in claim 10 are it is characterised in that described gas buffer layer (1) further includes one Group gas barrier part (14), it is internal and neighbouring corresponding that each described gas barrier part (14) is arranged on each gas buffer room (2) Each described air guide channel (32), is arranged from each described air guide channel (32) with intercepting the gas in each described gas buffer room (2) Go out.

12. aeration packing boxes as described in claim 5 or 7 are it is characterised in that described gas buffer layer (1) has 3～8 Side wall (10), and the number of the minor gas surge chamber (20) of each described gas buffer room (2) is not less than described side wall (10) Number；

Each respective secondary gas buffer room (20) of each described gas buffer room (2) separately constitutes each accordingly described side wall (10), and along respectively separating tack line (18) bending accordingly, form the polyhedral structure of inner hollow.

13. aeration packing boxes as claimed in claim 12 are it is characterised in that described gas buffer layer (1) has 4 side walls (10), and each described gas buffer room (2) has 5 minor gas surge chambers (20).

14. aeration packing boxes as described in claim 1,2,5,7 or 11 are it is characterised in that the opening (50) of described outer layer (5) It is provided with a slide fastener and be respectively provided on two sides with concaveconvex structure simultaneously with realize the opening (50) of folding repeatedly or described outer layer (5) Interfixed described concaveconvex structure the opening (50) realizing folding repeatedly or described outer layer (5) by a closure device It is respectively provided on two sides with the adhesive linkage that can repeatedly tear to realize folding repeatedly.

15. aeration packing boxes as claimed in claim 14 are it is characterised in that the opening (17) of described gas buffer layer (1) Be one can folding repeatedly opening, it is relatively independent of the opening of described outer layer (5) (50).

16. aeration packing boxes as claimed in claim 15 are it is characterised in that the opening (17) of described gas buffer layer (1) It is provided with a slide fastener recessed to realize being respectively provided on two sides with of the opening (17) of folding repeatedly or described gas buffer layer (1) Described concaveconvex structure is simultaneously interfixed by a closure device and realizes folding repeatedly or described gas buffer layer by male structure (1) opening (17) be respectively provided on two sides with the adhesive linkage that can repeatedly tear to realize folding repeatedly.

17. aeration packing boxes as described in claim 2 or 5 are it is characterised in that described first inner liner (11) and described second Inner liner (12) is by carrying out sealing mutually boning along described tack line (13).

18. aeration packing boxes as claimed in claim 7 are it is characterised in that the first inner liner (11) and the second inner liner (12) By separate tack line (18) and carry out seal mutually to bond along tack line (13) with respectively.

19. aeration packing boxes as described in claim 1,2,5,7,11 or 16 are it is characterised in that it further includes a work( Ergosphere (6), it is located at described receiving space (4) inside and is connected with each other with described gas buffer layer (1)；

Described functional layer (6) is a ccf layer, and it provides support force to described gas buffer layer (1), or described functional layer is One radiation insulation layer, or described functional layer is a watertight insulation.

A kind of 20. manufacture methods of aeration packing box are it is characterised in that comprise the steps of：

Will be overlapped to first inner liner (11) and second inner liner (12), and along tack line set in advance (13) Bond described first inner liner (11) and described second inner liner (12), forms that one group relatively independent and the gas of the connection that is parallel to each other Body surge chamber (2) and a gas passage (3), the two form a gas buffer layer (1), wherein said gas passage (3) with Each described gas buffer room (2) is interconnected with to the interior filling gas of each described gas buffer room (2), and described gas passage (3) pass through the cooling gas check valve inflation that multilamellar check valve film layer is formed, and after inflating and terminating, described multilamellar check valve film layer from Dynamic closing；

Bond described first inner liner (11) and described second inner liner (12) along one group of tack line (18) that separates set in advance, Respectively each described gas buffer room (2) is partitioned into one group of minor gas surge chamber (20) being interconnected；

Along each described separate tack line (18) bend described gas buffer floor (1) so that each described gas buffer room (2) corresponding Each minor gas surge chamber (20) forms one group of side wall (10), and each described side wall (10) is connected with each other, successively to define in one Empty inside, as a receiving space (4), forms a gas flushing pouch, described appearance after wherein said gas buffer layer (1) inflation Receiving space (4) is used for accommodating article to be packaged；

Described gas buffer layer (1) outer surface coat an outer layer (5), and by one end of described gas buffer layer (1) with Described outer layer is connected with each other, and to form a blind end (16), and forms an opening in described gas buffer layer (1) other end End (17), it is interconnected with described receiving space (4) and the open end adjacent to described outer layer (5)；

On the open end of described outer layer (5) setting one can folding repeatedly opening (50).

The manufacture method of 21. aeration packing boxes as claimed in claim 20 is it is characterised in that by described first inner liner (11) and described second inner liner (12) is overlapped and the step that bonds in, further include：

By described first inner liner (11), check valve film layer described in one group of two-layer and described second inner liner (12) phase mutual respect successively Folded and bond each layer along tack line set in advance (13), form that one group relatively independent and the gas buffer room of the connection that is parallel to each other (2) and one gas passage (3), the two forms a gas buffer layer (1)；

Wherein said gas passage (3) and each described gas buffer room (2) are interconnected with into each described gas buffer room (2) Filling gas；

Described gas passage (3) further includes an inlet channel (31) and one group of air guide channel (32), and each described inducing QI is led to Road (32) is interconnected with each corresponding each described gas buffer room (2) respectively, and simultaneously with described inlet channel (31) It is interconnected, each described air guide channel (32) check valve film layer and described first inner liner (11) and described second described in two-layer The mutual bonding of inner liner (12) is formed.

The manufacture method of 22. aeration packing boxes as claimed in claim 21 is it is characterised in that by described first inner liner (11) and described second inner liner (12) is overlapped and the step that bonds in, further include：In described first inner liner (11) one group of gas barrier part (14) is set and described second inner liner (12) between, it is arranged in each gas buffer room (2) Portion neighbouring corresponding each described air guide channel (32), to intercept the gas in each described gas buffer room (2) from each described Air guide channel (32) place discharges.

The manufacture method of 23. aeration packing boxes as described in claim 20,21 or 22 is it is characterised in that each described gas delays Rush room (2) and further include at least 2 minor gas surge chambers (20), each minor gas of each described gas buffer room (2) Surge chamber (20) is interconnected successively；The corresponding composition of each minor gas surge chamber (20) of each described gas buffer room (2) Described side wall (10).

The manufacture method of 24. aeration packing boxes as claimed in claim 23 is it is characterised in that described gas buffer layer (1) has There are at least 2 side walls (10), each described side wall (10) is delayed by the respective secondary gas of each described gas buffer room (2) of least one set Rush room (20) composition.

The manufacture method of 25. aeration packing boxes as described in claim 20,21 or 22 it is characterised in that each described separate viscous The length of tie lines (18) is not more than the width of each described gas buffer room (2), and is distributed in each described gas buffer room between two parties (2) width upwards, thus each described gas buffer room (2) is being partitioned into one group of described minor gas surge chamber being interconnected (20), while, formed and be located at each described gas passage (201) separating tack line (18) left and right sides, so that each described gas Can be interconnected between each described minor gas surge chamber (20) of body surge chamber (2).

The manufacture method of 26. aeration packing boxes as claimed in claim 25 is it is characterised in that each described separate tack line (18) Length be not more than each described gas buffer room (2) width 2/3.

The manufacture method of 27. aeration packing boxes as described in claim 20,21 or 22 is it is characterised in that described gas buffer Layer (1) has 3～8 side walls (10), and the number of the minor gas surge chamber (20) of each described gas buffer room (2) is not less than The number of described side wall (10).

The manufacture method of 28. aeration packing boxes as claimed in claim 27 is it is characterised in that described gas buffer layer (1) has There are 4 side walls (10), and each described gas buffer room (2) has 5 minor gas surge chambers (20).

The manufacture method of 29. aeration packing boxes as described in claim 20,21 or 22 is it is characterised in that in described outer layer (5) Opening (50) one slide fastener of upper setting to realize folding repeatedly or to set respectively in the both sides of the opening (50) of described outer layer (5) Put concaveconvex structure and by a closure device, described concaveconvex structure is interfixed and realize folding repeatedly or in described outer layer (5) both sides of opening (50) are respectively provided with the adhesive linkage that can repeatedly tear to realize folding repeatedly.

The manufacture method of 30. aeration packing boxes as described in claim 20,21 or 22 is it is characterised in that delay in described gas Rush layer (1) the upper setting of opening (17) can folding repeatedly opening, it is relatively independent of the opening of described outer layer (5) (50).

The manufacture method of 31. aeration packing boxes as claimed in claim 30 is it is characterised in that in described gas buffer layer (1) Opening (17) one slide fastener of upper setting to realize folding repeatedly or the opening (17) in described gas buffer layer (1) Both sides be respectively provided with concaveconvex structure described concaveconvex structure being interfixed by closure device realize folding repeatedly or The both sides of the opening (17) of described gas buffer layer (1) are respectively provided with the adhesive linkage that can repeatedly tear to realize folding repeatedly.

The manufacture method of 32. aeration packing boxes as described in claim 20,21 or 22 is it is characterised in that along described tack line (13) and each described separate tack line (18), described first inner liner (11) and described second inner liner (12) are sealed, So that the two mutually bonds.

The manufacture method of 33. aeration packing boxes as described in claim 20,21 or 22 is it is characterised in that it wraps further Include：

Setting One function layer (6) inside described receiving space (4), it is connected with each other with described gas buffer layer (1)；

Described functional layer (6) is a ccf layer, and it provides support force to described gas buffer layer (1), or described functional layer is One radiation insulation layer, or described functional layer is a watertight insulation.