CN106079585A - Inflate buffer body and manufacture method thereof and inflation method - Google Patents
Inflate buffer body and manufacture method thereof and inflation method Download PDFInfo
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- CN106079585A CN106079585A CN201610374265.7A CN201610374265A CN106079585A CN 106079585 A CN106079585 A CN 106079585A CN 201610374265 A CN201610374265 A CN 201610374265A CN 106079585 A CN106079585 A CN 106079585A
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- Prior art keywords
- inflation
- buffer body
- filling channel
- gas
- unit
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- 238000000034 method Methods 0.000 title claims abstract description 74
- 238000004519 manufacturing process Methods 0.000 title claims abstract description 38
- 238000003860 storage Methods 0.000 claims abstract description 103
- 239000010408 film Substances 0.000 claims description 107
- 238000007789 sealing Methods 0.000 claims description 92
- 238000012856 packing Methods 0.000 claims description 24
- 238000000638 solvent extraction Methods 0.000 claims description 22
- 238000004806 packaging method and process Methods 0.000 claims description 21
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- 239000010409 thin film Substances 0.000 claims description 15
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- 229920003023 plastic Polymers 0.000 claims description 13
- 230000003139 buffering effect Effects 0.000 claims description 11
- 238000001223 reverse osmosis Methods 0.000 claims description 9
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- 238000004080 punching Methods 0.000 description 9
- 230000000694 effects Effects 0.000 description 7
- 238000011010 flushing procedure Methods 0.000 description 7
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B31—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER; WORKING PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER
- B31D—MAKING ARTICLES OF PAPER, CARDBOARD OR MATERIAL WORKED IN A MANNER ANALOGOUS TO PAPER, NOT PROVIDED FOR IN SUBCLASSES B31B OR B31C
- B31D5/00—Multiple-step processes for making three-dimensional articles ; Making three-dimensional articles
- B31D5/0039—Multiple-step processes for making three-dimensional articles ; Making three-dimensional articles for making dunnage or cushion pads
- B31D5/0073—Multiple-step processes for making three-dimensional articles ; Making three-dimensional articles for making dunnage or cushion pads including pillow forming
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17C—VESSELS FOR CONTAINING OR STORING COMPRESSED, LIQUEFIED OR SOLIDIFIED GASES; FIXED-CAPACITY GAS-HOLDERS; FILLING VESSELS WITH, OR DISCHARGING FROM VESSELS, COMPRESSED, LIQUEFIED, OR SOLIDIFIED GASES
- F17C5/00—Methods or apparatus for filling containers with liquefied, solidified, or compressed gases under pressures
- F17C5/06—Methods or apparatus for filling containers with liquefied, solidified, or compressed gases under pressures for filling with compressed gases
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17C—VESSELS FOR CONTAINING OR STORING COMPRESSED, LIQUEFIED OR SOLIDIFIED GASES; FIXED-CAPACITY GAS-HOLDERS; FILLING VESSELS WITH, OR DISCHARGING FROM VESSELS, COMPRESSED, LIQUEFIED, OR SOLIDIFIED GASES
- F17C2221/00—Handled fluid, in particular type of fluid
- F17C2221/03—Mixtures
- F17C2221/031—Air
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17C—VESSELS FOR CONTAINING OR STORING COMPRESSED, LIQUEFIED OR SOLIDIFIED GASES; FIXED-CAPACITY GAS-HOLDERS; FILLING VESSELS WITH, OR DISCHARGING FROM VESSELS, COMPRESSED, LIQUEFIED, OR SOLIDIFIED GASES
- F17C2223/00—Handled fluid before transfer, i.e. state of fluid when stored in the vessel or before transfer from the vessel
- F17C2223/01—Handled fluid before transfer, i.e. state of fluid when stored in the vessel or before transfer from the vessel characterised by the phase
- F17C2223/0107—Single phase
- F17C2223/0123—Single phase gaseous, e.g. CNG, GNC
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F17—STORING OR DISTRIBUTING GASES OR LIQUIDS
- F17C—VESSELS FOR CONTAINING OR STORING COMPRESSED, LIQUEFIED OR SOLIDIFIED GASES; FIXED-CAPACITY GAS-HOLDERS; FILLING VESSELS WITH, OR DISCHARGING FROM VESSELS, COMPRESSED, LIQUEFIED, OR SOLIDIFIED GASES
- F17C2270/00—Applications
- F17C2270/05—Applications for industrial use
Abstract
One inflates buffer body and manufacture method thereof and inflation method, described inflation buffer body includes one or more gas storage unit that at least two layers of air cells film is formed, the charge valve that at least two-layer valve film is formed, and inflated, by be superimposed mutually two, the inflation unit that end is formed with multiple described gas storage unit one is connected, described charge valve forms at least one inlet channel to corresponding described gas storage unit inflation, the filling channel forming end seal between end is inflated described in two of which, described filling channel side has an inflation inlet, one source of the gas enters described filling channel by described inflation inlet, and enter corresponding described gas storage unit through described inlet channel.
Description
Technical field
The present invention relates to inflate buffer unit, particularly relate to the side of filling channel have air inlet inflation buffer body and
Its manufacture method and inflation method.
Background technology
Along with change and the high speed development of logistics of modern way of life, a lot of article are all entered by the form of logistics
Row transaction, such as electronic product, chemical products, medical product, pottery, glass and other daily living articles etc., at these
During object storing or transport, occur unavoidably extruding, collide, the situation such as fall, cause damage of product or deformation, to people
Bring serious loss.
In order to protect product, before storing or transporting, people can use packing crates etc. to pack product, by carrying to product
The purpose of protection is reached for certain cushioning effect.The most conventional packing crates includes paper package box and air-packing bag,
Traditional paper package box is not provided that preferable buffering effect, does not has good protective effect, so in the process used
In, generally require and first use foam, flexiplast etc. by product to be packaged through multi-layer packaging, place in packing box, to reach
To good anti-dropping crashworthiness, but this adds cost of transportation undoubtedly, and wires up extremely inconvenient, when not only wasting
Between, reduce work efficiency, and add human cost, do not meet the demand of modern transportation industry.
Air packaging material reaches buffering effect by insufflation gas in the film, and it can fill at packaging scene
Gas comes into operation again, so it is low to have cost of transportation relative to traditional packaging material, it is easy to the advantage of storage, and buffers effect
Can be more excellent, the most beneficially environmental protection.
But, existing air packaging material, such as air-packing cushion pad or air-packing bag, its airing form is not easy to
Charger is used to carry out continuous and automatic inflation.It is the inflation method of a kind of air-packing bag as shown in Figure 1, this air-packing
Bag by plural layers formed can multiple air chambers of gas storage, at least a part of which has double-layer films for forming check valve, say, that
The described check valve formed by double-layer films is to chamber inflated each described, and after having inflated, forms described check valve
Thin film because the effect of described gas room pressure and automatic attaching together, to prevent air reverse osmosis.This air-packing bag
General one air inlet of formation between the double-layer films of end, except this air inlet, other positions are all to seal structure, described
Air inlet is also suitable for installing the valve of a charger, then from described air inlet, air is filled with described air-packing
Bag each described air storage chamber in, when in described air storage chamber, pressure is enough, by described valve take out and described air inlet not
Needing sealing, such air is sealed in each described air storage chamber, such that it is able to packaging article are put into described air-packing
Store in Dai and transport.
It can be seen that in existing charge operation, the thin film forming air inlet preferably fits tightly with valve, i.e. institute
Stating valve to need to insert between thin film, then thin film is close to the formation sealing of described valve, and such air needs to be introduced into air bag
Air inlet between the double-layer films of package material, then enables air to enter corresponding air storage chamber, so by described air inlet
And when if air packaging material size is bigger, when needing to have the charge operation of the bigger degree of depth, this by single air inlet
The mode of air inlet also can make air storage chamber will not be full of timely and effectively, may not reach required in the most described air storage chamber
The inner gas pressure wanted.Air-packing bag in the most above-mentioned Fig. 1 includes multiple air storage chamber being arranged side by side, but above-mentioned utilizing
During traditional approach inflation, can only one by one each aerated package material be inflated.And the aerated package material in Fig. 1 will
Air inlet has been arranged on end, but is required for charger and has longer tubulose valve and be deep into entering of aerated package material
In QI KOU, between tubulose valve and the charging portion of aerated package material, the most still can there are space, it is easy to source of the gas occurs
The situation of loss, when being inflated especially with high-pressure air source, the source of the gas of loss adds cost the most indirectly.
It addition, in the gas replenishment process of traditional aerated package material, be also overly dependent upon artificial, the most above-mentioned air inlet exists
In the charge operation of the gas flushing pouch of end, when using small-sized inflator, operator are needed to grip inflator on the other hand, another
Only hold described air-packing bag adjacent to the position of described air inlet, be then inflated operation, or need two people associations
Biconditional operation.And when using high-pressure air source, need operator with the hands to grip described gas flushing pouch, then by described inflation
The described valve of equipment carries out charge operation after being placed in the described air inlet of described gas flushing pouch, and in charge operation mistake
Cheng Zhong, operator need described gas flushing pouch of holding with a firm grip, prevent described gas flushing pouch because inflating and play.And it is traditional
Charge operation in, substantially single described gas flushing pouch is inflated, i.e. can not be continuously to multiple gas flush packagings
Bag is inflated, thus lacks continuous and automatic inflation regime.
Summary of the invention
One purpose of the present invention is to provide an inflation buffer body, the filling channel side tool of wherein said inflation buffer body
Have an air inlet, from rather than inflate from the two ends of described filling channel, but from described filling channel side air inlet, thus change
Become the airing form of described inflation buffer body.
Another object of the present invention is to provide an inflation buffer body, plurality of described inflation buffer body to be suitable for certainly
Dynamicization continuous charge operates, thus reduces artificial participation.
Another object of the present invention is to provide an inflation buffer body, it changes the intake method of described inflation buffer body,
The intake method of the air inlet i.e. formed unlike being overlapped by double-layer films in prior art, and can be to becoming described in pile
Inflation buffer body carries out continuous automatic inflating, thus improves charging efficiency.
Another object of the present invention is to provide an inflation buffer body, the filling channel two ends of wherein said inflation buffer body
Sealing and upper surface forms described air inlet, the most described inflation buffer body enters by described in the upper surface of described filling channel
QI KOU is inflated, thus is totally different from the airing form of prior art.
Another object of the present invention is to provide an inflation buffer body, wherein said inflation buffer body inflation time, gas
Enter described filling channel along the direction being perpendicular to described inflation buffer body, then enter back into each air chamber, thus the most not
It is same as the intake method of prior art.
Another object of the present invention is to provide an inflation buffer body, wherein be suitable for leading to as repeated described inflation buffer body
Cross a charger continuous charge, after the charge operation completing a described inflation buffer body, and inflated described
After inflation buffer body is taken away, the head of described charger declines and to next described inflation buffer body via self gravitation
It is inflated such that it is able to complete into the continuous automatic inflating of the described inflation buffer body of pile, and reduce source of the gas loss.
Another object of the present invention is to provide an inflation buffer body, the most in certain embodiments, described inflation buffering
Body includes the charge valve that one or more gas storage unit that at least two layers of air cells film is formed, at least two-layer valve film are formed, and with many
The inflation unit formed by two the inflation ends being superimposed mutually that individual described gas storage unit one connects, described charge valve shape
Become at least one inlet channel to corresponding described gas storage unit inflation, inflate formation end between end described in two of which close
One filling channel of envelope, described filling channel has an air inlet, described air inlet be arranged at described in wherein one layer of cameral mantle.
Another object of the present invention is to provide an inflation buffer body, the most in certain embodiments, described inflation buffering
Body includes the charge valve that one or more gas storage unit that at least two layers of air cells film is formed, at least two-layer valve film are formed, and with many
The inflation unit formed by two the inflation ends being superimposed mutually that individual described gas storage unit one connects, described charge valve shape
Become at least one inlet channel to corresponding described gas storage unit inflation, inflate formation end between end described in two of which close
One filling channel of envelope, described filling channel has an air inlet, and described air inlet is disposed therein one layer of described valve film.
Another object of the present invention is to provide an inflation buffer body, described manufacture method disclosure satisfy that described inflation buffering
Body is suitable to the requirement of continuous automatic inflating, forms described air inlet in the fabrication process.
For reaching object above, the present invention provides an inflation buffer body, inflates buffer body, wherein said inflation buffer body
One or more gas storage unit of being formed including at least two layers of air cells film and be connected with described gas storage unit by being superimposed mutually
The inflation unit that two inflation ends are formed, the surface of one of them described inflation end of wherein said inflation unit has
One air inlet, gas is adapted to pass through described inflation inlet and enters described filling channel, and enters correspondence through described inlet channel
Described gas storage unit.
In one embodiment, it also includes a charge valve, and it is inlet non return check valve, and described filling channel is opened when expanding
Described charge valve is to enter corresponding described gas storage unit, and described charge valve prevents from gas reverse osmosis to be back to described inflation leading to
Road.
In one embodiment, wherein said charge valve includes the two-layer valve overlapping with cameral mantle described in two-layer and being connected
Film, forms one or more inlet channel to the inflation of described gas storage unit between valve film described in two-layer.
In one embodiment, wherein said filling channel closed at both ends, and only by described air inlet and outside phase
Logical.
In one embodiment, wherein said inflation unit by cameral mantle described in two-layer in the portion of corresponding described filling channel
Overlapping is divided to be formed.
In one embodiment, wherein cameral mantle described in two-layer is formed by one whole thin film doubling or two-layer independence
Cameral mantle plastic packaging connect.
In one embodiment, wherein said inflation unit by valve film described in two-layer in the part of corresponding described filling channel
Overlap and formed.
In one embodiment, wherein valve film described in two-layer is formed or the valve of two-layer independence by one whole thin film doubling
Film plastic packaging connect.
In one embodiment, wherein described inflation buffer body is made to form multiple described gas storage list by multiple partitioning slot
Unit, the most outermost described partitioning slot becomes the border seam of described inflation buffer body, and is formed outside the seam of described border
One or more for spacing recess.
In one embodiment, wherein described inflation buffer body is made to form multiple described gas storage list by multiple partitioning slot
Unit, the most outermost described partitioning slot becomes the border seam of described inflation buffer body, and is formed outside the seam of described border
One or more for spacing hole, location.
In one embodiment, the most single described inflation buffer body is inflated independently, or multiple be connected described in fill
Gas buffer body has public described inflation unit and inflates simultaneously.
In one embodiment, wherein said inflation buffer body forms an inflating buffer pad after inflation.
In one embodiment, wherein said inflation buffer body formed after inflation have interior accommodating space one stand
Body packaging bag.
According to a further aspect of the invention, the present invention provides the manufacture method of an inflation buffer body, described manufacture method
Comprise the following steps:
One first cameral mantle is perforated for the air inlet forming described inflation buffer body;And
Described first cameral mantle and one second cameral mantle and a charge valve are superimposedly arranged, and through a series of heat-sealings
Forming the described inflation buffer body with at least one gas storage unit and at least one inflation unit, wherein said air inlet is formed at institute
Stating inflation unit, wherein when inflation, gas enters the filling channel stating inflation unit from described air inlet, and fills from described
Gas passage enters each described gas storage unit via described charge valve and the one-way check function via described charge valve prevents
Gas reverse osmosis.
In one embodiment, in above-mentioned manufacture method, described charge valve includes overlapping also with cameral mantle described in two-layer
The two-layer valve film connected, forms one or more inlet channel to the inflation of described gas storage unit between valve film described in two-layer.
In one embodiment, in above-mentioned manufacture method, described filling channel is by described first and described second air chamber
Film stitches through a filling channel edge, an edge heat-sealing is stitched and two filling channel end seals seam is connected with each other sealing and is formed.
According to a further aspect of the invention, the present invention provides the manufacture method of an inflation buffer body, and it includes walking as follows
Rapid:
One first valve film is perforated for the air inlet forming described inflation buffer body;And
By described first valve film and one second valve film, and the first and second cameral mantles and superimposedly arranging, and through one
Series heat-sealing is formed has the described inflation buffer body of at least one gas storage unit and at least one inflation unit, wherein said valve film with
Described inflation unit is formed with having projection, the wherein said air inlet degree of lip-rounding relative to described first and second cameral mantles
Inflation unit described in Cheng Yu, wherein when inflation, gas enters from described air inlet and states the filling channel of inflation unit, and from
Described filling channel via described charge valve further into gas storage unit each described.
According to a further aspect of the invention, the present invention provides the inflation method of an inflation buffer body, wherein said inflation
Buffer body includes at least one gas storage unit and the inflation unit being connected, and described filling channel has a filling channel, each
Described gas storage unit has at least one air storage chamber inflated by described filling channel, and described inflation unit surface is provided with an air inlet
Mouthful, wherein said inflation method includes: under source of the gas supplies, and gas enters described air inlet, then warp via described inflation inlet
Entered each described air storage chamber by described filling channel thus complete the charge operation to described inflation buffer body.
In one embodiment, in above-mentioned inflation method, described inflation buffer body includes further by least two-layer
The unidirectional charge valve that valve film is formed, thus after inflation terminates, described unidirectional charge valve self-closed and prevent described in each
The gas reverse osmosis of air storage chamber is to described filling channel.
In one embodiment, in above-mentioned inflation method, described filling channel closed at both ends, only by inflation unit table
The described air inlet in face and ft connection, the described inflation that gas enters along the direction being perpendicular to described inflation unit surface is led to
Road.
In one embodiment, in above-mentioned inflation method, described inflation unit is being filled described in correspondence by two layers of air cells film
The part of gas passage overlaps and is formed.
In one embodiment, in above-mentioned inflation method, described inflation unit by two-layer valve film in corresponding described inflation
The part of passage overlaps and is formed.
In one embodiment, in above-mentioned inflation method, when multiple described inflation buffer bodies the most superimposedly arrange with
When forming into the described air cushioning body of pile, further comprise the steps of: and ought be inflated operating also to an inflation buffer body of top side
And after taking away, next described inflation buffer body becomes the inflation buffer body of top side and continues to inflate continuously.
Accompanying drawing explanation
Fig. 1 illustrates have check valve and air inlet in prior art and illustrates in the inflation of an air-packing bag of end
Figure.
Fig. 2 A is the expansion signal when unaerated state of the inflation buffer body according to a preferred embodiment of the invention
Figure.
Fig. 2 B is the stereochemical structure signal of the described inflation buffer body becoming pile according to a preferred embodiment of the present invention
Figure.
Fig. 3 is the sectional structure schematic diagram of the inflation buffer body of the above preferred embodiment according to the present invention.
Fig. 4 is that the structure of a kind of variant embodiment of the inflation buffer body of the above preferred embodiment according to the present invention is shown
It is intended to.
Fig. 5 is the sectional structure schematic diagram of inflation buffer body according to the abovementioned embodiments of the present invention.
Fig. 6 is the structure of the another kind of variant embodiment of the inflation buffer body of the above preferred embodiment according to the present invention
Schematic diagram.
Fig. 7 is the sectional structure schematic diagram of inflation buffer body according to the abovementioned embodiments of the present invention.
Fig. 8 A is that another variant embodiment of an inflation buffer body according to a preferred embodiment of the invention is not filling
Planar development schematic diagram during gaseity, this planar structure is through folding and forming inflatable isolated packing bag after three-dimensional plastic packaging.
Fig. 8 B is the above-mentioned variant embodiment of the inflation buffer body according to the present invention three-dimensional knot when inflated condition
Structure schematic diagram.
Fig. 9 A is that another variant embodiment of an inflation buffer body according to a preferred embodiment of the invention is not filling
Planar development schematic diagram during gaseity.
Fig. 9 B is the above-mentioned variant embodiment of the inflation buffer body according to the present invention three-dimensional knot when inflated condition
Structure schematic diagram.
Figure 10 A is that another variant embodiment of an inflation buffer body according to a preferred embodiment of the invention is not filling
Planar development schematic diagram during gaseity.
Figure 10 B is the above-mentioned variant embodiment of the inflation buffer body according to the present invention three-dimensional knot when inflated condition
Structure schematic diagram.
Figure 11 is the knot of the another kind of variant embodiment of the inflation buffer body of the above preferred embodiment according to the present invention
Structure schematic diagram.
Figure 12 is the sectional structure schematic diagram of inflation buffer body according to the abovementioned embodiments of the present invention.
Figure 13 is the knot of the another kind of variant embodiment of the inflation buffer body of the above preferred embodiment according to the present invention
Structure schematic diagram.
Figure 14 is the sectional structure schematic diagram of inflation buffer body according to the abovementioned embodiments of the present invention.
Figure 15 is that the structure of the another kind of variant embodiment of inflation buffer body according to the abovementioned embodiments of the present invention is shown
It is intended to.
Figure 16 is that the structure of the another kind of variant embodiment of inflation buffer body according to the abovementioned embodiments of the present invention is shown
It is intended to.
Figure 17 is the structural representation of the charger of the inflation buffer body becoming pile according to the above embodiment of the present invention.
Figure 18 is the knot of the aligned cutting tool of the charger of the inflation buffer body becoming pile according to the above embodiment of the present invention
Structure schematic diagram.
Figure 19 is to illustrate that the inflation buffer body becoming pile according to the abovementioned embodiments of the present invention utilizes above-mentioned charger to enter
Schematic diagram during row inflation.
Detailed description of the invention
Hereinafter describe and be used for disclosing the present invention so that those skilled in the art are capable of the present invention.Below describe in excellent
Select embodiment to be only used as citing, it may occur to persons skilled in the art that other obvious modification.Define in the following description
The ultimate principle of the present invention can apply to other embodiments, deformation program, improvement project, equivalent and the not back of the body
Other technologies scheme from the spirit and scope of the present invention.
It it is inflation buffer body according to a preferred embodiment of the present invention as shown in Fig. 2 A to Fig. 3.Described inflation buffering
Body 10 by two-layer or multi-layer flexible film through sealing technique formed such as bonding or hot sealing process can the air cushioning material of gas storage,
In this embodiment, preferably formed with hot sealing process.More specifically, in this preferred embodiment, described inflation is delayed
Rush body 10 and include that at least two layers of air cells film 11 such as bonds or one or more being connected of hot sealing process formation through sealing technique with 12
The gas storage unit 13 connect.As shown in Figures 2 and 3, forming one in each described gas storage unit 13 can the air storage chamber 14 of gas storage.
More specifically, two layers of air cells film 11 and 12 is separated into multiple described gas storage unit 13 by multiple row partitioning slot 101, respectively
Arrange described partitioning slot 101 to be formed by hot sealing process, cameral mantle 11 and 12 described in its heat-sealing connection two-layer, thus adjacent two institutes
State and between gas storage unit 13, form partitioning slot 101 described in string.Described partitioning slot 101 can be continuous print hot-sealing line, so that
Multiple described gas storage unit 13 are the most independent.Described partitioning slot 101 can also be interrupted hot-sealing line, so that multiple described storage
Gas unit 13 interconnects.Described gas storage unit 13 can be variously-shaped, such as bar shaped, circular, polygon or other are irregular
Shape etc., as shown in Figure 2 A, the described inflation buffer body 10 of the present invention can include multiple inflation post being arranged side by side, but this
Fang Ming is not so limited in this respect.
In this preferred embodiment, described inflation buffer body 10 includes an inlet non return check valve further, and it can be each
Kind it is capable of after described inflation buffer body 10 is inflated to prevent the structure of gas leakage by automatic-sealed.Such as the most real at this
Executing in example, it is by the charge valve 20 that at least two-layer valve film 21 and 22 is formed, the described valve film 21 and 22 of described charge valve 20 with
Described cameral mantle 11 and 12 is superimposedly arranged mutually, and is formed for described air storage chamber 14 between described valve film 21 and 22
The inlet channel 23 of inflation.When being inflated in described air storage chamber 14 and in described air storage chamber 14 by described inlet channel 23
When air pressure reaches pre-provisioning request, the gas pressure in described air storage chamber 14 is on described valve film 21 and 22, so that described valve film 21
Fit in wherein one layer of described cameral mantle with 22, thus close described inlet channel 23, so that described charge valve 20 plays unidirectional
The effect of valve.When forming at least one described inlet channel 23, and each described gas storage list in each described gas storage unit 13
Unit 13 mutual independent time, when one of them described gas storage unit 13 be damaged gas leakage time, other described gas storage unit 13 is also
Will not be affected, moreover it is possible to play air cushioning effect.
Described inflation buffer body 10 includes an inflation unit 15 further, and it is connected to each described gas storage unit 13,
Preferably it extends each described gas storage unit 13 integratedly.More specifically, in this preferred embodiment, described cameral mantle
11 and 12 form cameral mantle main part 111 and 121 and respectively extend from described cameral mantle main part 111 He integratedly respectively
The inflation end 151 and 152 of 121, described cameral mantle main part 111 and 121 is used for forming described gas storage list by hot sealing process
Unit 13, and that part of described cameral mantle 11 and 12 neighbouring inflation side forms the described inflation end of described inflation unit 15 respectively
Portion 151 and 152.Described inflation end 151 and 152 is superimposed and at its terminal edge 1511 and 1521 mutually by an edge heat
Joint seal 102 interconnects, and the most described edge heat-sealing seam 102 is formed by hot sealing process, and it seals the described inflation of connection hermetically
The edge 1511 and 1521 of end 151 and 152.
As it is shown on figure 3, described cameral mantle 11 and 12 cameral mantle main part 111 and 121 respectively with described inflation end
151 positions being connected with 152, by filling channel heat-sealing seam 103 by described cameral mantle 11 and 12 respectively with described valve film 21 and
22 interconnect, and if described filling channel heat-sealing seam 103 is by being formed four tunics by a hot sealing process, it seals underground heat
Envelope connects described cameral mantle 11 and described valve film 21, and heat-sealing connects described cameral mantle 12 and described valve film 22 hermetically, but
It is between described valve film 21 and 22, to seal connection the most hermetically, thus formation can be to described between described valve film 21 and 22
The inlet channel 23 of gas storage unit 13 inflation.
It is noted that when hot sealing process forms described filling channel heat-sealing seam 103, between described valve film 21 and 22
Resistance to thermal barriers can be placed, so that described valve film 21 and 22 will not heat-sealing.In this preferred embodiment, described
Can arrange multiple refractory layer 24 between valve film 21 and 22, such as high temperature resistant ink etc., its corresponding described inlet channel 23 ground is mutual
Compartment of terrain arranges, and is attached at the inner surface of described valve film 21 and 22 wherein one layer of valve film, thus described refractory layer 24 is permissible
Make described valve film 21 and 22 will not be connected to because of the heat-seal operation of described filling channel heat-sealing seam 103 in hot sealing process
Together, the described inlet channel 23 that so can be formed in-between is communicated in the filling channel in described inflation unit 15
153。
More specifically, the described inflation unit 15 of described inflation buffer body 10 is logical at described edge heat-sealing seam 102 and inflation
Described filling channel 153 is formed between road heat-sealing seam 103.As shown in Figure 2 A, in this example, for convenience of describing, described
Gas storage unit 13 is along longitudinal arrangement, and described filling channel 153 is horizontal arranged, i.e. before unaerated, and the institute of each longitudinal arrangement
State gas storage unit 13 and can be communicated in same horizontal arranged described filling channel by corresponding described inlet channel 13
153.It may also be said that described filling channel 153 is along the width extension of described inflation buffer body 10, and it is communicated in each
The described gas storage unit 13 arranged along its length direction.
Especially set out, in this preferred embodiment of the present invention, described filling channel 153 is due to described edge
Two side openings, inflation buffer body in FIG is left after the heat-sealing of hot-sealing line 102 and described filling channel hot-sealing line 103
In, described side openings is implemented as gas source inlet, utilizes charger to be inflated inflation buffer body from side.Namely
Say in some inflation buffer bodies of prior art, for the ease of inflation, some heat-sealing one side openings, only stay another side to open
Mouth air inlet, and the dual-side opening of the filling channel of some inflation buffer bodies is all as gas source inlet, utilizes charger simultaneously
Air inlet is to improve speed of supplying gas.But both modes are all unfavorable for the profit of the described inflation buffer body becoming pile as shown in Figure 2 B
By automatization's continuous charge scheme of charger.Therefore, in this preferred embodiment of the present invention, described inflation buffer body
Two side openings of described filling channel 153 respectively 1030 closed by a filling channel end seal seam.Fill described in it is to say,
After gas end 151 and 152 is superimposed mutually and is sealed by described edge heat-sealing seam 102 and described filling channel hot-sealing line 103
Two side openings stayed by described filling channel end seal seam 1030 Guan Bi after formed outer closures but internal and each described in enter
The described filling channel 15 of gas passage 23 connection.The most described filling channel end seal seam 1030 is formed by hot sealing process, and it seals
Ground heat-sealing connects the thin film forming described filling channel 153, and the most in the present embodiment, its heat-sealing connects by two layers of air cells film 11 He
The described inflation end 151 and 152 that the end of 12 is formed.It is understood that the described inflation of described inflation buffer body 10 is led to
Two ends, road 153 can also be not closed, but in gas replenishment process, needs press fit device by two side pressures of described inflation buffer body 10
Close and realize closing.
In order to realize the charge operation utilizing charger to described inflation buffer body, facilitate source of the gas to enter described inflation and lead to
Road, surface, described inflation end 151 has an air inlet 150, and the charging connector of external source of inflation gas can pass through described air inlet
150 pairs of described inflation buffer bodies 10 are inflated.It is to say, in the production process of described inflation buffer body 10, described in fill
Gas end 151 by by perforating device carried out punching formed described air inlet 150, the most described inflation end 151 again with other
Film overlapping and heat-sealing.Correspondingly, described air inlet 150 can also be arranged at described inflation end 152, and described inflation end
151 do not have described air inlet 150.It is to say, described filling channel 153 is easy to source of the gas except described air inlet 150 enters institute
State filling channel 153, and beyond internal and each described inlet channel 23 connects, other are sealing state, thus, external inflation
The source of the gas of equipment be only capable of by described air inlet 150 enter after described filling channel 153 the most again by connection each described in enter
Gas passage 23 enters in each described gas storage unit 13, and then described inflation buffer body is due to the entrance of source of the gas and inflation.Value
One be mentioned that, in process of production, it is also possible to be initially formed after described inflation buffer body 10 the most again in described inflation end 151 or
On person 152, punching forms described air inlet 150, and the present invention is not limited thereto.
It is noted that the sealing of the dual-side opening of described filling channel 153 may not be the closeest
Envelope, but in the production process of described inflation buffer body, by described in two of edge, described inflation buffer body both sides points
Space 101 extends to described edge hot-sealing line 102 and seals formation.It is to say, for sealing the two of described filling channel 153
The described filling channel end seal seam 1030 of side opening is extended by described partitioning slot 101 and to be formed.So can also simplify described inflation
The production process of buffer body, is conducive to improving production efficiency.It will be appreciated by those skilled in the art that, the present invention's is described
The formation of filling channel end seal seam 1030 is not limited to both the above and implements, and other seal described filling channel 153 two side ends and open
Other embodiments of mouth can also be implemented, and the present invention is not limited thereto.
Additionally, more specifically, described valve film 21 and 22 is respectively classified into along its length by described filling channel heat-sealing seam 103
The close end 211 extended integratedly and 221 and distal portion 212 and 222.Described close end 211 He of described valve film 21 and 22
The 221 described filling channels 153 extending into described inflation unit 15, the described distal portion 212 and 222 of described valve film 21 and 22
It is superimposed mutually and extends into described air storage chamber 14, to be used for forming described inlet channel 23.Top at described refractory layer 24
Lower section suitable location, the inflation end 151 and 152 of described inflation unit 15 respectively by connecting sewing 104 and described valve film 21 and
Described close end 211 and 221 heat-sealing of 22 connects, thus when inflation, described close end 211 He of described valve film 21 and 22
221 follow the inflation end 151 and 152 of described inflation unit 15 to synchronize to expand respectively, the most described cameral mantle 11 and 12 end
The described inflation end that end is formed expands together, it is simple to open the passage between described valve film 21 and 22.Similarly, since it is described
The existence of refractory layer 24, in the technique of heat-sealing four tunics, described inflation end 151 and the described close end of described valve film 21
211 heat-sealings connect, and described close end 221 heat-sealing of described inflation end 152 and described valve film 22 connects, thus forms described company
Will not seal between seam 104, and the described close end 211 and 221 of described valve film 21 and 22 and link together.Real at this
Executing in example, multiple described connecting sewings 104 are in the heat seal point being interrupted, and along the described filling channel 153 of described inflation unit 15
The direction arrangement extended, thus in gas replenishment process, be suitable for pulling open the cameral mantle being connected and valve film.
The described distal portion 212 and 222 of described valve film 21 and 22 is further provided with multiple obstruct seam 105, and it is by heat-sealing
The described distal portion 212 and 222 of described valve film 21 and 22 is sealed with described cameral mantle 11 and is connected and is formed, the most described resistance by technique
Space 105 heat-sealing connects trilamellar membrane, and the layout of its shape and size does not affect the air inlet effect of described inlet channel 23, but permissible
After inflation terminates, play the air reverse osmosis in the described air storage chamber 14 stopping described gas storage unit 13 and enter described filling channel
153.And, intercept seam 105 heat-sealing connection trilamellar membrane because described, reach in the described air storage chamber 14 of described gas storage unit 13
After preset air pressure, the described distal portion 212 and 222 of described valve film 21 and 22 can Tong Bu with described cameral mantle 11 expand, thus
Finally fit in described cameral mantle 11, to seal described inlet channel 23.
It addition, the described cameral mantle 11 of described inflation buffer body 10 and 12 and described valve film 21 He of described charge valve 20
22 can be made up of various suitable thin-film materials, such as polyethylene film, polypropylene film, polyvinyl chloride film, polyester respectively
Thin film, polystyrene film or laminated film etc., the present invention is the most also not so limited, as long as suitably flexible thin
Film.It is noted that in order to increase one-way sealing effect, the described valve film 21 and 22 of described charge valve 20 can also be
By the above-mentioned thin film autohension thin film that modification obtains through interpolation chemical composition.
It is noted that the present invention it is also disclosed that the manufacture method of described inflation buffer body, described manufacture method includes
Following steps:
A the end of () one first cameral mantle 11 is perforated for the air inlet 150 forming described inflation buffer body;With
And
B described first cameral mantle 11 and one second cameral mantle 12 and a charge valve 20 are superimposedly arranged by (), and warp
A series of heat-sealings are formed has at least one gas storage unit 13 and the described inflation buffer body of at least one inflation unit 15, wherein said
Air inlet 150 is formed at described inflation unit 15, and wherein when inflation, gas enters from described air inlet 150 and states inflation unit
The filling channel 153 of 15, and enter each described gas storage unit 13 from described filling channel 153 via described charge valve 20.
Wherein, described filling channel 153 by described first and described second cameral mantle through one filling channel edge stitch 103,
One edge heat-sealing seam 102 and two filling channel end seals seam 1030 are connected with each other sealing and are formed.
Wherein, described filling channel 153 can also be by the described first or described second cameral mantle through a filling channel edge
Two partitioning slot 101 at seam 103, edge heat-sealing seam 102 and edge extend and connect described filling channel edges seam 103 and described
Edge heat-sealing is stitched 102 and is formed.
It is noted that in other embodiments, described filling channel can also be formed by other embodiments, only
Want described air inlet to be arranged at the described first or second cameral mantle, and source of the gas be only capable of from described air inlet 150 enter described in fill
Gas passage 153, hence into each described inlet channel 23, the present invention is not limited thereto.
As shown in Figure 4 and Figure 5, in other variant embodiment, cameral mantle 11A and 12A described in two-layer can also be by
One whole thin film is formed along broken line 106A doubling, and i.e. described in two-layer, cameral mantle 11A and 12A one extends, and wherein said fills
Two inflation end 151A and 152A that gas unit 15A is the most also connected by one after doubling.The most described filling channel 153A
It is formed between described broken line 106A and described filling channel heat-sealing seam 103A.It is to say, in the example shown in Fig. 4 and Fig. 5
In son, it is not necessary to the described edge heat-sealing seam 102 in above-described embodiment.
Especially set out, in this embodiment in accordance with the invention, the described filling channel 153A of described inflation buffer body
Two side openings respectively by one filling channel end seal seam 1030A close.It is to say, described inflation end 151A and 152A
Two side openings stayed after being superimposed mutually and being sealed by described filling channel hot-sealing line 103A are by described filling channel
Form, after end seal seam 1030A Guan Bi, the described filling channel 15A that outer closures but internal and each described inlet channel 23A connect.
The most described filling channel end seal seam 1030A is formed by hot sealing process, and it seals the described filling channel 153A of connection hermetically.
In order to realize the charge operation utilizing charger to described inflation buffer body, facilitate source of the gas to enter described inflation and lead to
Road, 151A surface, described inflation end has an air inlet 150A, and the charging connector of external source of inflation gas can be by described air inlet
Described inflation buffer body 10A is inflated by mouth 150A.It is to say, in the production process of described inflation buffer body 10A, institute
Stating inflation end 151A and carried out the punching described air inlet 150A of formation by perforating device, the most described inflation end 151A is again
With other films overlapping and heat-sealing.Correspondingly, described air inlet 150A can also be arranged at described inflation end 152A, and described in fill
Gas end 151A does not has described air inlet 150A.It is to say, described filling channel 153A is easy to except described air inlet 150A
Source of the gas enters described filling channel 153A, and beyond internal and each described inlet channel 23A connects, other are sealing state,
Thus, the source of the gas of external charger is only capable of after entering described filling channel 153A by described air inlet 150A and passes through
The each described inlet channel 23A of connection enters in each described gas storage unit 13A, and then described inflation buffer body entering due to source of the gas
Enter and inflation.It is noted that in process of production, it is also possible to exist again after being initially formed described inflation buffer body 10A
On described inflation end 151A or 152A, punching forms described air inlet 150A, and the present invention is not limited thereto.
Correspondingly, the sealing of the dual-side opening of described filling channel 153A can also be the life at described inflation buffer body
During product, extend to described broken line 106A by two described partitioning slot 101A at edge, described inflation buffer body both sides
And seal formation.It is to say, the described filling channel end seal seam of the both-side opening for sealing described filling channel 153A
1030A is extended by described partitioning slot 101A and is formed.So can also simplify the production process of described inflation buffer body, be conducive to carrying
High efficiency.It will be appreciated by those skilled in the art that, the formation of the described filling channel end seal seam 1030A of the present invention
Being not limited to both the above implement, other other embodiments sealing described filling channel 153A two side ends opening can also be real
Executing, the present invention is not limited thereto.
It is noted that the present invention it is also disclosed that the manufacture method of described inflation buffer body, described manufacture method includes
Following steps:
(A) one whole cameral mantle by a perforating device punching for an air inlet 150A of described inflation buffer body;
(B) described whole cameral mantle is folded to form the first and second cameral mantle 11A and 12A along a broken line;And
(C) a first and second cameral mantle 11A and 12A and charge valve 20A are superimposedly arranged, and through a series of heat
Envelope forms described inflation buffer body and has at least one gas storage unit 13 and at least one inflation unit through a series of heat-sealing formation
The described inflation buffer body of 15A, wherein said air inlet 150A is formed at described inflation unit 15A, wherein when inflation, gas
The filling channel 153A stating inflation unit 15A is entered from described air inlet 150A, and from described filling channel 153A via institute
State charge valve 20A and enter each described gas storage unit 13A.
Consequently, preferably, described charge valve 20A is formed by least two-layer valve film, thus in step (C), needs the
One and second cameral mantle 11A and 12A and two-layer valve film superimposedly arrange and through a series of heat-sealings.
The other variant embodiment of described inflation buffer body 10 is described further below.
As shown in Figures 6 and 7, similarly, each described inflation buffer body 10 includes that multiple gas storage unit 13 and an inflation are single
Unit 15.Being provided with refractory layer 24B between wherein said valve film 21 and 22, it can adhere to the interior of the most any one layer described valve film
Surface.Described refractory layer 24B include a refractory layer main paragraph 241B and multiple apart from one another by ground from described refractory layer main body 241B
The refractory layer son field 242B extended.Described refractory layer main paragraph 241B one extends, respectively along the direction of described filling channel 153
Individual described refractory layer son field 242B extends into each described gas storage unit 13 to ensure the formation of described inlet channel 23.
Described cameral mantle 11 and 12 the most respectively by continuous print connecting sewing 104B respectively with described valve film 21 and 22
Heat-sealing connects, because described refractory layer main paragraph 241B exists, and will not be by described connecting sewing between described valve film 21 and 22
104B seals connection, and so, described valve film 21 and 22 can Tong Bu with described cameral mantle 11 and 12 respectively expand, and is beneficial to open respectively
Individual described inlet channel 23.
Similarly, in this variant embodiment of the present invention, described inflation end 151B upper surface has an air inlet
Mouthful 150B, the charging connector of external source of inflation gas can the stating inflation unit 15B and pass through described air inlet 150B to described of pressing
Inflation buffer body 10B is inflated.It is to say, in the production process of described inflation buffer body 10B, described inflation end
151B carries out punching formation described air inlet 150B, the most described inflation end 151B by perforating device and overlaps with other films
And heat-sealing.
It is noted that in above-described embodiment, described inflation buffer body forms a cushion pad, described buffering after inflation
Pad is suitably positioned in packing container as buffer fillings materials'use.
The other variant embodiment of inflation buffer body 10 as described in shown in Fig. 8 A to Figure 10 B being, shows in figure that it fills
Structure after gas, its three-dimensional air packaging material that may be embodied as there is receiving chamber 16C, i.e. one isolated packing bag, wherein
Packaging article are suitable for being packaged in described receiving chamber 16C.Specifically, as shown in Figure 8 A and 8 B, relative to above-described embodiment
Sealed by thermoplastic and the described inflation buffer body 10 of plane padded coaming that formed, slow in inflation described in this embodiment
Rush body 10C and also include that three-dimensional plastic packaging seam 107C, the most described inflation buffer body 10C seal step and second heat plastic packaging through a thermoplastic
Step and form described packaging bag.Wherein said thermoplastic envelope step is used for being formed plane padded coaming, described three-dimensional plastic packaging
Seam 107C forms multiple sidewall at above-mentioned plane padded coaming after bending again, thus constitutes one and have receiving chamber 16C's
Isolated packing bag.At the example shown in Fig. 8 A and 8B, described three-dimensional plastic packaging seam 107C is respectively formed at described plane padded coaming
Both sides and finally give a generally U-shaped isolated packing bag.
It is noted that except Fig. 2 B becoming the described inflation buffer body 10 of pile overlap the mode of continuous charge, such as figure
Shown in 8A and 8B, between two adjacent described inflation buffer body 10C, it is also formed with a space 17C, to be formed, there are two
The described inflation buffer body 10C of described receiving chamber 16C such that it is able to two packaging article are packed.It is to say, it is multiple
Public same inflation unit 15C of described inflation buffer body is inflated, and is used for packing two or more bag as one after inflation
Dress article.It addition, multiple described inflation buffer bodies after i.e. inflation terminates not as one, can also each be let go and become
Independent gas flushing pouch.Wherein, before tearing and taking, charge operation, the i.e. source of the gas institute by described inflation unit 15C is first carried out
State air inlet 150C and enter each described inlet channel, and then each described inflation buffer body 10C inflation.Treat that described continuous way is filled
After each described inflation equal inflation of buffer body 10C of gas buffer body 100C, can be by arranging along space 17C position between described
Tearing of line taking of tearing take off.
In Fig. 9 A to Figure 10 B, multiple gas storage unit 13D and 13E are bent further, so that multiple sidewall is at warp
Opening is formed at the middle rather than described inflation buffer body 10D of C-shaped bag at top or in O shape bag after three-dimensional plastic packaging
Described inflation buffer body 10D.It will be appreciated by persons skilled in the art that the configuration of above-mentioned stereoscopic bag is only used as illustrating, and also
Being not intended to the present invention, gas filling technology of the present invention is readily adaptable for use in the isolated packing bag of other configurations.
As shown in FIG. 11 and 12, in this variant embodiment, described inflation buffer body 10F includes multiple gas storage unit
13F and inflation unit 15F, wherein said inflation unit 15F is integrally connected shaping, i.e. with valve film 21F and 22F described in two-layer
Described inflation unit 15F is formed by the outer extension of the one extension of valve film 21F and 22F described in two-layer.
Specifically, described inflation unit 15F includes two inflation end 151F and 152F, and it integrally one extends respectively
Described valve film 21F and 22F, and described cameral mantle 11F and 12F only extend to filling channel heat-sealing seam 103F position, thus
During inflation, the gas in described gas tube 32 is directly entered and fills described in valve film 21F described in two-layer and 22F outboard end are formed
The described filling channel 153F defined between 151F and 152F of gas end, such that it is able to swimmingly further into described in each
Inlet channel 23F.
Especially set out, in this embodiment in accordance with the invention, fill described in valve film 21F and 22F formation described in two-layer
The described filling channel 153F of gas unit 15F is due to described edge hot-sealing line 102F and the warm of described filling channel hot-sealing line 103F
Being honored as a queen and leave two side openings, two side openings of the described filling channel 153F of described inflation buffer body are respectively by an inflation
Tunnel ends joint seal 1030F is closed.It is to say, described inflation end 151F and 152F is superimposed mutually and passes through described edge
Two side openings stayed after heat-sealing seam 102F and described filling channel hot-sealing line 103F heat-sealing are by described filling channel end seal
Form, after seam 1030F Guan Bi, the described filling channel 15F that outer closures but internal and each described inlet channel 23F connect.I.e. institute
Stating filling channel end seal seam 1030F to be formed by hot sealing process, it seals the described filling channel 153F of connection hermetically.
In order to realize the charge operation utilizing charger to described inflation buffer body, facilitate source of the gas to enter described inflation and lead to
Road, 151F surface, described inflation end has an air inlet 150F, the charging connector of external source of inflation gas can be pressed on described in fill
Described inflation buffer body 10F is also inflated by gas unit 15F by described air inlet 150F.It is to say, in described inflation
In the production process of buffer body 10, described inflation end 151F is carried out punching by perforating device and is formed described air inlet
150F, the most described inflation end 151F overlap with other films and heat-sealing again.Correspondingly, described air inlet 150F can also be arranged
In described inflation end 152F, and described inflation end 151 does not has described air inlet 150F.It is to say, described filling channel
153F is easy to source of the gas except described air inlet 150F and is entered described filling channel 153F, and internal and each described inlet channel 23F
Beyond connection, other are sealing state, thus, the source of the gas of external charger is only capable of and is entered by described air inlet 150F
Entered in each described gas storage unit 13F by each described inlet channel 23F of connection again after described filling channel 153F, and then
Described inflation buffer body is due to the entrance of source of the gas and inflation.It is noted that in process of production, it is also possible to it is initially formed
After described inflation buffer body 10F, in the outboard end of described valve film 21F or 22F, punching forms described air inlet again
150F, the present invention is not limited thereto.
It is noted that the sealing of the dual-side opening of described filling channel 153F can also be in described inflation buffering
In the production process of body, extend to described edge by two described partitioning slot 101F at edge, described inflation buffer body both sides
Hot-sealing line 102F and seal formation.It is to say, the described inflation of the both-side opening for sealing described filling channel 153F is led to
Road end seal seam 1030F is extended by described partitioning slot 101F and is formed.So can also simplify the production process of described inflation buffer body,
Be conducive to improving production efficiency.It will be appreciated by those skilled in the art that, the described filling channel end seal seam of the present invention
The formation of 1030F is not limited to both the above and implements, and other seal other enforcements of described filling channel 153F two side ends opening
Mode can also be implemented, and the present invention is not limited thereto.
It is noted that the present invention it is also disclosed that the manufacture method of described inflation buffer body, described manufacture method includes
Following steps:
I the end of () one first valve film 21F is entered for form described inflation buffer body one by a perforating device punching
QI KOU;And
(ii) by described first valve film 21F and one second valve film 22F, and the first and second cameral mantle 11F and 12F overlapping
Ground arrangement, and the described inflation with at least one gas storage unit 13F and at least inflation unit 15F is formed through a series of heat-sealings
Buffer body, wherein said valve film 21F and 22F relative to described first and second cameral mantle 11F and 12F, there is projection thus
Forming described inflation unit 15F, wherein said air inlet 150A is formed at described inflation unit 15F, wherein when inflation, and gas
The filling channel 153F stating inflation unit 15F is entered from described air inlet 150F, and from described filling channel 153F via institute
State charge valve 20F further into gas storage unit 13F each described.
It addition, in this variant embodiment, inflating end 151F and 152F described in two-layer can be independent two-layer
Film is formed, and is connected by continuous print edge heat-sealing seam 102F heat-sealing.And shown in Figure 13 and 14, described in two-layer, inflate end
Portion 151G and 152G can also seal by a tunic through being formed along broken line 106G from without by above-mentioned continuous print edge
Seam 102F heat-sealing connects.
It is noted that correspondingly, the present invention it is also disclosed that the inflation method of described inflation buffer body, wherein said fills
Gas buffer body includes at least one gas storage unit and the inflation unit being connected, and described filling channel has a filling channel, respectively
Individual described gas storage unit has at least one air storage chamber inflated by described filling channel, and described inflation unit surface is provided with one and enters
QI KOU, under source of the gas supplies, gas enters described air inlet via described inflation inlet, then enters each via described filling channel
Individual described air storage chamber thus complete the charge operation to described inflation buffer body.
In the present invention, described inflation buffer body includes the unidirectional inflation formed by least two-layer valve film further
Valve, thus after inflation terminates, described unidirectional charge valve self-closed and prevent the gas reverse osmosis of each described air storage chamber to institute
State filling channel.
And in this preferred embodiment, described filling channel closed at both ends, only pass through the described of inflation unit surface
Air inlet and ft connection, the described filling channel that gas enters along the direction being perpendicular to described inflation unit surface.
It is understood that described inflation unit can be overlapped in the part of corresponding described filling channel by two layers of air cells film
And formed, it is also possible to it is that two-layer valve film is formed in the part overlapping of corresponding described filling channel.
It addition, when multiple described inflation buffer bodies the most superimposedly arrange the described air cushioning body forming into pile,
After the one of top side inflation buffer body is inflated operation and is taken away, next described inflation buffer body becomes top side
Inflation buffer body and continue inflate continuously.
It addition, as shown in Figure 15 and Figure 16, the outside of the border seam that outermost described partitioning slot 101H and 101I are formed
It is also provided with one or more recess 107H or location hole 107I, thus convenient use locating dowel through recess 107H or is determined
The position-limiting action of the position hole 107I described inflation buffer body to becoming pile.
It is understood that as shown in figure 15, described filling channel end seal seam 1030H can also be with described in side point
Space 101H is integrally formed extended at both sides rather than independent other plastic packaging seam.And, it is three-dimensional bag at described inflation buffer body
During pack, described filling channel end seal seam 1030H and described partitioning slot 101H of side can be shapes in three-dimensional plastic packaging step
Become, i.e. plane padded coaming through fold after multiple connections multiple sidewall time plastic packaging step in formed.
It addition, described filling channel end seal seam 1030H forms more than one border area outside outermost described partitioning slot 101H
Territory 17H, i.e. damages the gas storage performance not affecting whole described inflation buffer body 10H, such that it is able to be used for convenient location such as location
The location of cutter.
As shown in Figure 17 to Figure 19, it also specifically discloses the inflation method utilizing a charger, for becoming pile
Inflation buffer body be inflated, described inflation method comprises the following steps:
The described inflation buffer body 10 that the same specification being placed on a platform 50 of described charger becomes repeated is described
One or more stopping means 55 of charger are spacing and in closed state;
Pile is fitted into due to self gravitation in the bottom of the head 40 slidably arranging a support 30 of described charger
The top of described inflation buffer body 10, an aligned cutting tool 44 of the most described head 40 is inserted perpendicularly into into repeated described inflation buffer body
The remaining edge regions of 10, until the most static in poised state;
One source of the gas, via entering described head 40, enters via an air inlet 430 of a charging connector 43 of described head 40
One air inlet 150 of described inflation buffer body 10, then enters a filling channel 153 by described air inlet 150, and finally
Enter each air storage chamber 14 of described inflation buffer body 10, described air inlet 430 and the described air inlet 150 of wherein said head 40
Corresponding and the described charging connector 43 in position contacts the peripheral region of the described air inlet 150 of described inflation unit 15, is formed relatively
Closed environment;
It is removed after first inflation buffer body 10 inflation of the described inflation buffer body top layer of one-tenth pile, meanwhile, institute
State aligned cutting tool 44 comply with pull track cut open described first inflation buffer body 10 unaerated more than edge regions, described head
The described air inlet 430 of 40 departs from the described air inlet 150 of described first inflation buffer body 10;
Described head 40 moves down automatically due to self gravitation, continues second inflation that the bottom to described head 40 contacts
Buffer body 10 is inflated;
Described charger repeats described step (c) extremely described step (f), until whole pile described inflation buffer body fills
After gas, source of the gas supply is closed.
It should be understood by those skilled in the art that the embodiments of the invention shown in foregoing description and accompanying drawing are only used as citing
And it is not limiting as the present invention.The purpose of the present invention is completely and be effectively realized.Function and the structural principle of the present invention exist
Showing in embodiment and illustrate, without departing under described principle, embodiments of the present invention can have any deformation or amendment.
Claims (28)
1. an inflation buffer body, it is characterised in that described inflation buffer body includes or many of at least two layers of air cells film formation
Individual gas storage unit and the inflation unit formed by two the inflation ends being superimposed mutually being connected with described gas storage unit, wherein
The surface of one of them described inflation end of described inflation unit has an air inlet, and gas is adapted to pass through described inflation inlet
Enter described filling channel, and enter corresponding described gas storage unit through described inlet channel.
Inflation buffer body the most according to claim 1, the most also includes a charge valve, and it is inlet non return check valve, described in fill
Open the described charge valve described gas storage unit with entrance correspondence during gas channel expansion, and described charge valve prevents gas reverse osmosis
It is back to described filling channel.
Inflation buffer body the most according to claim 2, wherein said charge valve includes overlapping also with cameral mantle described in two-layer
The two-layer valve film connected, forms one or more inlet channel to the inflation of described gas storage unit between valve film described in two-layer.
Inflation buffer body the most according to claim 3, wherein said filling channel closed at both ends, and enter described in only passing through
QI KOU communicates with outside.
5., according to described inflation buffer body arbitrary in Claims 1-4, wherein said inflation unit is by cameral mantle described in two-layer
Part at corresponding described filling channel overlaps and is formed.
Inflation buffer body the most according to claim 5, wherein cameral mantle described in two-layer is formed by one whole thin film doubling
Or the cameral mantle of two-layer independence plastic packaging connect.
7., according to described inflation buffer body arbitrary in claim 3 to 4, wherein said inflation unit is existed by valve film described in two-layer
The part of corresponding described filling channel overlaps and is formed.
Inflation buffer body the most according to claim 7, wherein valve film described in two-layer formed by one whole thin film doubling or
It is valve film the plastic packaging connection of two-layer independence.
9., according to described inflation buffer body arbitrary in Claims 1-4, wherein make described inflation buffering by multiple partitioning slot
Body forms multiple described gas storage unit, and the most outermost described partitioning slot becomes the border seam of described inflation buffer body, and
It is formed with one or more for spacing recess outside the seam of described border.
10., according to described inflation buffer body arbitrary in Claims 1-4, wherein make described inflation delay by multiple partitioning slot
Rushing body and form multiple described gas storage unit, the most outermost described partitioning slot becomes the border seam of described inflation buffer body, and
And it is formed with one or more for spacing hole, location outside the seam of described border.
11. according to described inflation buffer body arbitrary in Claims 1-4, and the most single described inflation buffer body fills independently
Gas, or multiple described inflation buffer body being connected has public described inflation unit and inflates simultaneously.
12. inflation buffer bodies according to claim 5, wherein said inflation buffer body forms an inflation buffering after inflation
Pad.
13. inflation buffer bodies according to claim 5, wherein said inflation buffer body is formed after inflation has internal appearance
Receive the isolated packing bag in space.
14. inflation buffer bodies according to claim 7, wherein said inflation buffer body forms an inflation buffering after inflation
Pad.
15. inflation buffer bodies according to claim 7, wherein said inflation buffer body is formed after inflation has internal appearance
Receive the isolated packing bag in space.
The manufacture method of 16. 1 inflation buffer bodies, described manufacture method comprises the following steps:
A () one first cameral mantle is perforated for the air inlet forming described inflation buffer body;And
B described first cameral mantle and one second cameral mantle and a charge valve are superimposedly arranged by (), and through a series of heat-sealings
Forming the described inflation buffer body with at least one gas storage unit and at least one inflation unit, wherein said air inlet is formed at institute
Stating inflation unit, wherein when inflation, gas enters the filling channel stating inflation unit from described air inlet, and fills from described
Gas passage enters each described gas storage unit via described charge valve and the one-way check function via described charge valve prevents
Gas reverse osmosis.
The manufacture method of 17. inflation buffer bodies according to claim 16, wherein said charge valve include with described in two-layer
The two-layer valve film that cameral mantle overlaps and connects, forms to the inflation of described gas storage unit or many between valve film described in two-layer
Individual inlet channel.
Wherein, wherein said filling channel is by described for the manufacture method of 18. inflation buffer bodies according to claim 17
One and described second cameral mantle stitches through a filling channel edge, one edge heat-sealing seam and two filling channel end seals seam be connected with each other close
Envelope is formed.
The manufacture method of 19. 1 inflation buffer bodies, described manufacture method comprises the following steps:
I () one first valve film is perforated for the air inlet forming described inflation buffer body;And
(ii) by described first valve film and one second valve film, and the first and second cameral mantles and superimposedly arranging, and through one
Series heat-sealing is formed has the described inflation buffer body of at least one gas storage unit and at least one inflation unit, wherein said valve film with
Described inflation unit is formed with having projection, the wherein said air inlet degree of lip-rounding relative to described first and second cameral mantles
Inflation unit described in Cheng Yu, wherein when inflation, gas enters from described air inlet and states the filling channel of inflation unit, and from
Described filling channel via described charge valve further into gas storage unit each described.
The manufacture method of 20. inflation buffer bodies according to claim 19, wherein said filling channel is by described first He
Described second cameral mantle stitches through a filling channel edge, an edge heat-sealing is stitched and two filling channel end seals seam is connected with each other sealing shape
Become.
The inflation method of 21. 1 inflation buffer bodies, it is characterised in that described inflation buffer body includes at least one gas storage being connected
Unit and an inflation unit, described filling channel has a filling channel, and each described gas storage unit has by described inflation
At least one air storage chamber of passage inflation, described inflation unit surface is provided with an air inlet, and wherein said inflation method includes: at gas
Under the supply of source, gas enters described air inlet via described inflation inlet, then enters each described storage via described filling channel
Air chamber thus complete the charge operation to described inflation buffer body.
The inflation method of 22. inflation buffer bodies according to claim 21, wherein said inflation buffer body wraps further
Include the unidirectional charge valve formed by least two-layer valve film, thus after inflation terminates, described unidirectional charge valve self-closed and
Prevent the gas reverse osmosis of each described air storage chamber to described filling channel.
The inflation method of 23. inflation buffer bodies according to claim 22, wherein said filling channel closed at both ends, the most logical
The described air inlet of gas overcharging cell surface and ft connection, gas enters along the direction being perpendicular to described inflation unit surface
Described filling channel.
24. according to the inflation method of described inflation buffer body arbitrary in claim 20 to 23, wherein said inflation unit by
Two layers of air cells film is formed in the part overlapping of corresponding described filling channel.
25. according to the inflation method of described inflation buffer body arbitrary in claim 22 to 23, wherein said inflation unit by
Two-layer valve film is formed in the part overlapping of corresponding described filling channel.
26. according to the described inflation method inflating buffer body arbitrary in claim 20 to 23, wherein when multiple described inflations
When buffer body the most superimposedly arranges the described air cushioning body forming into pile, further comprise the steps of: when the one of top side is filled
Gas buffer body is inflated operation and after taking away, next described inflation buffer body become top side inflation buffer body and
Continue to inflate continuously.
27. according to the described inflation method inflating buffer body arbitrary in claim 20 to 23, wherein said inflation buffer body
Form an inflating buffer pad after inflation.
28. according to the described inflation method inflating buffer body arbitrary in claim 20 to 23, wherein said inflation buffer body
Form an isolated packing bag with interior accommodating space after inflation.
Priority Applications (2)
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CN201610374265.7A CN106079585A (en) | 2016-05-30 | 2016-05-30 | Inflate buffer body and manufacture method thereof and inflation method |
PCT/CN2017/086324 WO2017206836A1 (en) | 2016-05-30 | 2017-05-27 | Inflatable air cushioning member, air inflation device thereof, packaging container having same, and use thereof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201610374265.7A CN106079585A (en) | 2016-05-30 | 2016-05-30 | Inflate buffer body and manufacture method thereof and inflation method |
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CN201610374265.7A Pending CN106079585A (en) | 2016-05-30 | 2016-05-30 | Inflate buffer body and manufacture method thereof and inflation method |
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CN110053877A (en) * | 2018-01-19 | 2019-07-26 | 上海锦蕊新材料科技有限公司 | Portable heat-insulation box and its application |
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CN112140558A (en) * | 2020-09-15 | 2020-12-29 | 威海水知乐户外用品股份有限公司 | Hot-melt welding method for inflatable paddle board |
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