CN105253467B - Air-packing devices with tilting buffer part - Google Patents
Air-packing devices with tilting buffer part Download PDFInfo
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- CN105253467B CN105253467B CN201510632050.6A CN201510632050A CN105253467B CN 105253467 B CN105253467 B CN 105253467B CN 201510632050 A CN201510632050 A CN 201510632050A CN 105253467 B CN105253467 B CN 105253467B
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- buffer part
- storage unit
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Abstract
One air-packing devices with tilting buffer part, it includes an at least charge valve for at least two layers of air cells film at least one inflation buffer body formed and the formation of at least two layers of valve film, wherein the inflation buffer body includes multiple gas storage units, the charge valve is used for gas storage unit inflation and self-enclosed to prevent gas leakage after inflation, and a series of plastic packaging that the gas storage unit is stitched through plastic packagings and the isolated packing bag for being bent to form one packing article of packaging, and the isolated packing bag has a tilting buffer part, increase buffering thickness, buffering effect is provided to the packing article.
Description
Technical field
The present invention relates to air-packing devices, more particularly to the air-packing devices with tilting buffer part.
Background technique
With the high speed development of change and the logistics of modern way of life, many articles all by way of logistics into
Row transaction, such as electronic product, chemical products, medical product, ceramics, glass and other daily necessities etc., at these
During object storing or transport, inevitably there is situations such as squeezing, collide, falling, lead to damage of product or deformation, gives people
Economic loss caused by bringing loss, the especially damage of the article of great number value or deforming is bigger.
In order to protect product, before storage or transport, people will use packing case etc. to pack product, by mentioning to product
Achieve the purpose that protection for certain buffer function.Currently used packing case includes paper package box and gas flushing pouch,
Traditional paper package box cannot provide preferable buffering effect, not have good protective effect.Such as transport notebook electricity
Before the products to be packaged such as brain, generally require first using foam, flexiplast etc. that the products to be packaged such as laptop warp is excessive
Layer packaging, places into packing box.A kind of this Traditional Packing mode can achieve good anti-dropping crashworthiness really, but this
Transportation cost is undoubtedly increased, and wires up extremely inconvenient, is not only wasted time, reduces working efficiency, and increase
Human cost has not met the demand of modern transportation industry.On the other hand, due to not only having used packing case but also having used foam etc.
Padded coaming, after product is sent to user, the padded coamings such as packing case and foam can be abandoned largely, both give product user band
It bears, is also unfavorable for the protection of environment.
Aerated package material is to reach buffering effect by being filled with gas in the film, can be filled at packaging scene
Gas comes into operation again, so relative to the advantage that traditional packaging material has transportation cost low, easily stored, and buffer effect
Can be more excellent, and be good for the environment.Existing gas flushing pouch is usually to carry out inflatable column to be bent to form multiple inflation side walls, respectively
A inflation side wall surrounds to form an interior accommodating space again, be used for storage package article, such as common U-shaped bag, c-type bag or
O-shaped bag etc..However these existing packaging bags are affixed that is, around packing article and with packing article by single buffer structure
The form of the air column buffering of conjunction, still cannot reach relatively satisfactory buffering effect in the more demanding occasion of some anti-dropping anticollisions.
Such as having a large amount of electronic components inside laptop, the requirement for anti-dropping anticollision is very high.If using common inflation packet
Package material, directly fitting with packing article surface for laptop contacts, due to the interaction of power, although impulsive contact force reaches
Since buffering has been reduced when the surface that packaging object is contacted with laptop, but laptop is colliding
When due to packaging body surface large area directly contact, be still easy to the impulsive contact force directly by biggish remaining, so
Satisfied buffering effect cannot be reached.
Summary of the invention
A purpose of the present invention is that providing the air-packing devices with tilting buffer part, a tilting buffering is provided
Portion increases buffering thickness, to provide the packing article for being packaged in the air-packing devices with tilting buffer part
The buffer protection function of enhancing causes the damage of the packing article to prevent it when being impacted or being hit.
Another object of the present invention is to provide the air-packing devices with tilting buffer part, wherein in some implementations
In example, the air-packing devices with tilting buffer part include the multiple gas storage side walls and one formed by multiple gas storage units
Tilting buffer part, the gas storage side wall and the tilting buffer part can provide the buffering effect reinforced to the packing article.
Another object of the present invention is to provide the air-packing devices with tilting buffer part, wherein being formed in described
Front-rear side walls length in multiple gas storage side walls of chamber differs, to form the tilting buffer part between its two sidewalls, in this way
It will form cushion space between the tilting buffer part and the packing article, so that the tilting buffer part increases buffering thickness
Degree, the tilting buffer part the gas storage unit in the effect by impact force or impact force, can't directly will be outer
The impact force or impact force in portion are transferred to the packing article, to provide the buffering effect of reinforcement.
Another object of the present invention is to provide the air-packing devices with tilting buffer part, wherein in some implementations
In example, for multiple gas storage unit plastic packagings are formed the three-dimensional plastic packaging seam of isolated packing bag make it is described with tilting buffer part
Air-packing devices include that tilting buffer part is reinforced in the annular sidewall formed by multiple gas storage units and a bottom side, thus in institute
The bottom side for stating isolated packing bag provides buffering effect to increase buffering thickness.
Another object of the present invention is to provide the air-packing devices with tilting buffer part, wherein in some implementations
In example, the isolated packing bag that multiple gas storage units are formed includes the side of at least side of a main bag body and the main bag body
Wing buffer part, the main bag body and the flank buffer part by multiple gas storage units each self-forming of not gas storage unit, this
Main bag body described in sample provides first-level buffer effect, and the flank buffer part provides another grade of buffering effect, to reinforce the tool
There is the side cushion performance of the air-packing devices of tilting buffer part.
To achieve the above objectives, the present invention provides the air-packing devices with tilting buffer part, for packing one
Packing article comprising at least at least the one of the two layers of air cells film at least one inflation buffer body formed and the formation of at least two layers of valve film
Charge valve, wherein the inflation buffer body includes multiple gas storage units, the charge valve is used for gas storage unit inflation simultaneously
And it is self-enclosed to prevent gas leakage after inflation, and a series of plastic packaging that the gas storage unit is stitched through plane plastic packagings is simultaneously
A series of plastic packaging through three-dimensional plastic packaging seams after bending forms the isolated packing bag for packing the packing article, and described vertical
Body packaging bag has at least one tilting buffer part, increases buffering thickness, provides buffering effect to the packing article.
In one embodiment, each gas storage unit is arranged in the vertical direction and is divided into multiple sub- gas storage units, wherein
A part of sub- gas storage unit forms multiple side walls, and sub- gas storage unit described in another part forms a tilting buffer part, described
Between inclined two side walls being arranged in multiple side walls of tilting buffer part, to enhance the three-dimensional packet
The cushion performance of pack.
In one embodiment, there are a series of partitioning slots, the solid plastic packaging seam is located between each gas storage unit
The partitioning slot of the gas storage unit of the isolated packing bag two sides, each gas storage unit are described through passing through after bending seam bending
Three-dimensional plastic packaging seam plastic packaging forms the tilting buffer part.
In one embodiment, multiple side walls include the front side wall and a rear side positioned at bending seam two sides
Wall, wherein the front side wall and the rear wall length are unequal, the tilting buffer part obliquely extends the front side wall
Between the rear wall, to enhance the cushion performance of the isolated packing bag.
In one embodiment, the three-dimensional plastic packaging seam is arranged on the two neighboring institute of the air-packing devices two sides
It states between gas storage unit, each gas storage unit forms after bending seam bending through the three-dimensional plastic packaging seam plastic packaging described tilting slow
Rush portion.
In one embodiment, each gas storage unit is arranged in the vertical direction and transversely around circlewise for shape
At the isolated packing bag, and each gas storage unit forms the multiple sub- gas storage that can be connected to through the plastic packaging of multiple row bending seam
Unit, gas storage unit described in a portion form a package main body, with for packing the packing article, described in another part
Gas storage unit forms an at least flank buffer part through the plastic packaging of the three-dimensional plastic packaging seam, is located at the outside of the package main body,
To enhance the cushion performance of the isolated packing bag.
In one embodiment, each gas storage unit includes one in the part for being correspondingly formed the flank buffer part
A, two, three or more sub- gas storage units.
In one embodiment, the bending seam includes bending seam of four column in interruption heat-sealing, the isolated packing bag warp
At two tilting buffer parts and multiple side walls, the plurality of side wall includes positioned at each described tilting for bending seam and plastic packaging slit
Two front side walls of buffer part two sides and a rear wall are formed for picking and placing the packing material between front side wall described in two of them
One opening of product, two tilting buffer parts obliquely extend between each front side wall and the rear wall, to increase
The cushion performance of the strong isolated packing bag.
In one embodiment, plastic packaging seam further includes a longitudinal end seal seam, and the end seal line is by the front side wall
It seals head and the tail in a longitudinal direction with the rear wall to connect, forms an annular sidewall of the isolated packing bag, the annular
Side wall forms a bottom side through the end seal line and reinforces tilting buffer part to pack the packing article, the tilting buffer part,
To increase buffering thickness, buffering effect is provided.
According to a further aspect of the invention, the present invention provide one with tilting buffer part air-packing devices, with
In one packing article of packaging comprising at least at least the one of two layers of air cells film formation inflates buffer body and at least two layers of valve film is formed
An at least charge valve, wherein the inflation buffer body includes multiple gas storage units, the charge valve is used for the gas storage list
Member inflation and it is self-enclosed to prevent gas leakage, and a series of modeling that the gas storage unit is stitched through plastic packagings after inflation
The isolated packing bag for packing the packing article is sealed and is bent to form, and plastic packaging seam includes described two layers of plastic packaging connection
Cameral mantle is stitched at least one set of bending that the gas storage unit is divided into the multiple sub- gas storage units that can be connected to, wherein described one group
Bend seam after including at least an antecurvature crease of column and a column in bending seam, wherein the inflation buffer body along the antecurvature crease with
The antecurvature crease and the rear bending is set to stitch apart from one another by and arrange with misplacing after bending seam bending after described, to make institute
State antecurvature crease and it is described after the sub- gas storage unit between bending seam form at least one tilting slow of the isolated packing bag
Rush portion.
In one embodiment, plastic packaging seam include seam is bent described in one group, and the antecurvature crease and it is described after
The inflation buffer body after inflation is divided into a front side wall by bending seam, a rear wall and obliquely extends the front side wall
With the tilting buffer part of the rear wall, wherein between the front side wall and the rear wall formed for picking and placing the packet
Fill an opening of article.
In one embodiment, plastic packaging seam include seam is bent described in two groups, and the antecurvature crease and it is described after
The inflation buffer body is divided into two front side walls by bending seam, a rear wall and obliquely extends two front side walls respectively
With two tilting buffer parts of the rear wall, formed between front side wall described in two of them for picking and placing the packing material
One opening of product.
In one embodiment, the plastic packaging seam further includes two three-dimensional modelings being arranged at left and right sides of the inflation buffer body
Joint seal, wherein each body plastic packaging seam that fills connects the front-rear side walls plastic packaging, and each three-dimensional plastic packaging seam and institute
The distance for stating front and back bending seam is not identical.
In one embodiment, the two sides of the inflation buffer body are further arranged in each three-dimensional plastic packaging seam
Between two adjacent gas storage units, so that the outermost gas storage unit in the left and right sides is respectively formed flank buffering
Portion.
In one embodiment, the accommodating chamber for packing the packing article, institute are formed between the front-rear side walls
State the cushion space formed between tilting buffer part and the rear wall for being supplied to the tilting buffer part deformation space.
In one embodiment, the front-rear side walls are along cyclic annular to be respectively formed one in arranging and being connected around shape
Outer wall and an endless inner wall.
Detailed description of the invention
Fig. 1 is the solid of the air-packing devices with tilting buffer part of first preferred embodiment according to the present invention
Structural schematic diagram.
Fig. 2 is that the air-packing devices with tilting buffer part of above-mentioned first preferred embodiment according to the present invention exist
Structural schematic diagram when unaerated and planar development.
Fig. 3 is the three-dimensional knot of the air-packing devices with tilting buffer part of above preferred embodiment according to the present invention
Structure schematic diagram.
Fig. 4 is that the side of the air-packing devices with tilting buffer part of above preferred embodiment according to the present invention is cutd open
Depending on structural schematic diagram.
Fig. 5 is that the air-packing devices with tilting buffer part of above preferred embodiment according to the present invention are used to pack
Structural schematic diagram when article.
Fig. 6 is that the air-packing devices with tilting buffer part of second preferred embodiment according to the present invention are used to wrap
Fill structural schematic diagram when article.
Fig. 7 is that the air-packing devices with tilting buffer part of above-mentioned second preferred embodiment according to the present invention exist
Structural schematic diagram when unaerated and planar development.
Fig. 8 is the air-packing devices with tilting buffer part of above-mentioned second preferred embodiment according to the present invention
Side, sectional structural schematic diagram.
Fig. 9 is the gas flush packaging dress with tilting buffer part of signal above-mentioned third preferred embodiment according to the present invention
Set cross sectional shape schematic diagram after inflation.
Figure 10 is the gas flush packaging with tilting buffer part for illustrating above-mentioned third preferred embodiment according to the present invention
Device is in unaerated and the structural schematic diagram after secondary plastic.
Figure 11 is the air-packing devices with tilting buffer part of above-mentioned third preferred embodiment according to the present invention
Side, sectional structural schematic diagram after inflation.
Figure 12 is the air-packing devices with tilting buffer part of above-mentioned third preferred embodiment according to the present invention
Elevational schematic view after inflation.
Figure 13 is the solid of the air-packing devices with tilting buffer part of above preferred embodiment according to the present invention
Structural schematic diagram illustrates another variant embodiment of the gas storage unit shape and arrangement mode.
Figure 14 is the charge valve of the air-packing devices with tilting buffer part according to the abovementioned embodiments of the present invention
Schematic cross-sectional view.
Figure 15 is the charge valve of the air-packing devices with tilting buffer part according to the abovementioned embodiments of the present invention
The schematic cross-sectional view of one variant embodiment.
Figure 16 is the charge valve of the air-packing devices with tilting buffer part according to the abovementioned embodiments of the present invention
The schematic cross-sectional view of another variant embodiment.
Specific embodiment
It is described below for disclosing the present invention so that those skilled in the art can be realized the present invention.It is excellent in being described below
Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description
Basic principle of the invention can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back
Other technologies scheme from the spirit and scope of the present invention.
It is the inflation packet with tilting buffer part of first preferred embodiment according to the present invention as shown in Figures 1 to 5
Assembling device, with inflatable structure, with after inflation can for various packing articles for example electronic product, food, medical product,
Industrial chemicals, biomaterial, plastic ceramic, fast-moving consumer goods etc. provide gas buffer effect, and when unused, can not
It inflates and facilitates storage and transport, field inflation is reproduced when in use, thus very easy to use.
In this preferred embodiment of the invention, the air-packing devices with tilting buffer part may be embodied as air
Padded coaming, that is, the gas being filled with is by taking air as an example, certainly it will be appreciated by persons skilled in the art that in the application according to need
It is also likely to be other gases.In this preferred embodiment, an isolated packing bag can be formed after inflation, to be one
Packing article provides air cushion effect.
In this preferred embodiment, the air-packing devices with tilting buffer part include at least one inflation buffering
Body 10 forms an isolated packing bag by an inflation buffer body 10 or multiple inflation buffer bodies 10 connects through plastic packaging
It connects to form the isolated packing bag as being bonded or sealing.In Fig. 1 of the invention into example shown in fig. 5, as described in one
Inflate the formation of buffer body 10.More specifically, referring to Fig.1 4, the inflation buffer body 10 includes at least two layers of air cells film 11 and 12 warp
It includes the described vertical of one or more gas storage units 13 being connected that a series of plane plastic packaging seams 30 are formed with three-dimensional plastic packaging seam 40
Body packaging bag, formed in each gas storage unit 13 one can gas storage air storage chamber 14.
It will be appreciated by persons skilled in the art that the plane plastic packaging seam 30 is for forming plural layers such as through plastic packaging
A plane padded coaming shown in Fig. 2, the solid plastic packaging seam 40 for by the above-mentioned further plastic packaging of plane padded coaming and
Forming the air-packing devices with tilting buffer part has space multistory configuration and can accommodate the packing material
The volumetric packaging device of product, as shown in fig. 1.The plane plastic packaging seam 30 and the three-dimensional plastic packaging seam 40 can be by viscous
The mode for connecing or sealing connection links together plural layers, it is preferable that in this embodiment, the plane plastic packaging seam 30
It can be implemented as being formed by hot sealing process with the three-dimensional plastic packaging seam 40.
More specifically, the plane plastic packaging seam 30 includes multiple row partitioning slot 31, two layers of air cells film 11 and 12 is separated into
Multiple gas storage units 13.I.e. preferably, it respectively arranges the partitioning slot 31 to be formed by hot sealing process, two layers of institute of heat-sealing connection
Cameral mantle 11 and 12 is stated, to form a column partitioning slot 31 between the two neighboring gas storage unit 13.The partitioning slot
31 can be continuous hot-sealing line, to keep multiple gas storage units 13 independent mutually.It is understood that institute as shown in figure 1
Show, a column partitioning slot 31 of top side and bottom side can respectively become top side boundary seam and the bottom side of the inflation buffer body 10
Boundary seam.The partitioning slot 31 is also possible to interrupted hot-sealing line, so that multiple gas storage units 13 be made to interconnect.It is described
Gas storage unit 13 can be various shape, such as bar shaped, round, polygon or other irregular shapes etc., as Fig. 1 into Fig. 5 institute
Show, the inflation buffer body 10 of the invention may include the identical inflatable column of multiple sizes being arranged side by side, for another example Figure 13 institute
Show, the inflation buffer body 10 of the invention also may include the inflation air column of different sizes of multiple arranged in parallel.In addition, big
The arrangement mode of small air column can be diversified, such as can be alternately arranged, and can form small air column etc., Ben Fangming in some regions
It is not so limited in this respect.
In this preferred embodiment, with reference to Figure 14, the air-packing devices further include by least two layers of valve
The charge valve 20 that film 21 and 22 is formed, the valve film 21 and 22 and the cameral mantle 11 and 12 of the charge valve 20 are mutually stacked
Ground setting is closed, and forms the inlet channel 23 for inflating to the air storage chamber 14 between the valve film 21 and 22.It can be with
Understand, the valve film 21 and 22 is shorter in length than the cameral mantle 11 and 12.When by the inlet channel 23 to described
Gas pressure of air pressure when reaching pre-provisioning request, in the air storage chamber 14 in air storage chamber 14 in inflation and the air storage chamber 14
On the valve film 21 and 22 so that the valve film 21 and 22 fits in wherein one layer of cameral mantle, thus closing it is described into
Gas channel 23, so that the charge valve 20 plays the role of check valve.When forming at least one in each gas storage unit 13
The inlet channel 23, and when each gas storage unit 13 is independent mutually, when one of them described gas storage unit 13 occurs
When damaging gas leakage, other gas storage units 13 can't be affected, moreover it is possible to play air cushion effect.
It is understood that it is described inflation buffer body 10 the cameral mantle 11 and 12 and the charge valve 20 it is described
Valve film 21 and 22 can be made respectively of various suitable thin-film materials, as polyethylene film, polypropylene film, polyvinyl chloride are thin
Film, polyester film, polystyrene film or laminated film etc., the present invention are also not so limited in this respect, as long as properly
Fexible film.It is noted that in order to increase one-way sealing effect, the valve film 21 and 22 of the charge valve 20
It is also possible to by the added chemical component of above-mentioned film and modified obtained tack film.
The inflation buffer body 10 further includes a main channel unit 15, is connected to each gas storage unit
13, it is preferable that it integrally extends each gas storage unit 13.More specifically, in this preferred embodiment, the master
Channel unit 15 and the extending direction of the gas storage unit 13 are perpendicular.For example, in this embodiment, each gas storage list
Member 13 extends in a longitudinal direction, and the main channel unit 15 extends along transverse direction.The main channel unit 15 forms one
Main channel 151, and the main channel 151 has an inflating port 152, when the position of the inflating port 152 is provided with air inflation nozzle
And when executing charge operation, gas enters the main channel 151, and edge again along transverse direction from the inflating port 152
Longitudinal direction enter each gas storage unit 13, it is described and after reaching preset air pressure in each air storage chamber 14
The valve film 21 and 22 of charge valve 20 fits in wherein one layer of cameral mantle 11 or 12, thus realize it is self-enclosed, to prevent from being filled with
Gas again reverse osmosis enter the main channel 151.
It is noted that it is understood that the main channel unit 15 can be by two layers of cameral mantle 11 and 12
It is formed, can also be formed by two layers of valve film 21 and 22, or by the wherein one layer cameral mantle 11 or 12 and wherein one layer
The formation of valve film 21 or 22.
As shown in Figure 2, the plane plastic packaging seam 30 further includes the left side for being located at the inflation buffer body 10
The main channel sealing seam 33 of one continuous sealing of one side joint seal 32 and left side of the continuous sealing of right two sides, wherein the left side side
The main channel 151 is formed between joint seal 32 and main channel sealing seam 33.It is understood that the banding seam 32 passes through
Plastic package process cameral mantle 11 and 12 as described in being bonded or seal and form and seal two layers of connection, the main channel sealing seam 33 lead to
Plastic package process is crossed such as bonding or heat-sealing formation and valve film 21 and 22 as described in cameral mantle 11 and 12 as described in by two layers and two layers is distinguished
It links together, as shown in Figure 2, such as the main channel sealing seam of two sides up and down formed by a hot sealing process
33 respectively in the position of the correspondence inlet channel 23 by the cameral mantle 11 and the valve film 21 heat-sealing connection, and will be described
Plural layers are integrally sealed connection by cameral mantle 12 and the valve film 22 heat-sealing connection, other positions, and the inflation is slow
It rushes body 10 and is divided into the main channel unit 15 and the gas storage unit 13.
As shown in Figure 2, each gas storage unit 13 respectively includes that two column are mutual in the position of the neighbouring main channel 151
Separately air guide seam 34, connects the cameral mantle 11 and 12 by heat-sealing and the valve film 21 and 22 is formed, the valve film 21
And 22 the inlet channel 23 that is formed be located between two column air guides seam 34.
Referring to Fig.1 4, the valve film 21 and 22 is further advanced by multiple heat-sealings of connecting sewings 35 and is connected to the cameral mantle
11, when reaching scheduled air pressure in the air storage chamber 14 in this way, gas pressure is and because described in the valve film 21 and 22
The setting of connecting sewing 35 and be pressed towards the cameral mantle 11 simultaneously and finally fit in the cameral mantle 11, thus close it is described into
Gas channel 23.The i.e. described heat-sealing of connecting sewing 35 two layers of valve film 21 and 22 of connection and one layer of cameral mantle 11.In addition, such as
Shown in Fig. 2, the design of the shape of each connecting sewing 35 so that it also further plays the role of preventing gas backstreaming,
That is, when in the air storage chamber 14 gas want reflux when, can be stopped by the connecting sewing 35 and cannot be easily
Reverse osmosis enters the main channel 151.
In addition, heat-sealing formed these plane plastic packagings seam 30 when, the valve film 21 and 22 of the charge valve 20 it is described
Inlet channel 23 can be formed by the way that heat-resisting baffling device is arranged, and in hot sealing process and then take out the resistance to heat rejection dress
It sets.In this preferred embodiment, it is provided with a refractory layer 24 between the valve film 21 and 22 of the charge valve 20, such as Fig. 2
It with shown in Figure 14, such as can be heat-resistant inks, be attached at the inner surface of wherein one layer of valve film 21 or 22, in this way,
When heat-sealing forms main channel sealing seam 33, two layers of valve film 21 and 22 will not seal connection, so that the air inlet is logical
Road 23 is able to be connected with the main channel 151, without closing its inlet port due to heat-sealing.
In this preferred embodiment, the main channel 151 is formed by two layers of cameral mantle 11 and 12, the refractory layer
24 and each own extended segment of the valve film 21 and 22 enter the main channel 151, plane plastic packaging seam 30 further includes corresponding to
The position of the extended segment of the refractory layer 24 one column apart from one another by the joint close 36 arranged along the longitudinal direction because described resistance to
Two layers of cameral mantle 11 and 12 and two layers of valve film 21 and 22 are connected to by the setting of thermosphere 24, the joint close 36
Together, and two layers of valve film 21 and 22 does not seal connection, and the setting of the joint close 36 is so that the inflation buffer body 10
In inflation, after gas enters the main channel 151, the adjacent valve film 21 and 22 and the cameral mantle 11 being correspondingly connected with
It can expand together with 12 and open the corresponding inlet channel 23.
The plane plastic packaging seam 30 further includes bending seam 37 of the multiple row in interruption heat-sealing, the inflation buffer body after inflation
10 are suitable for stitching 37 bendings along the bending, so that the inflation buffer body 10 be made to form multiple side walls.More specifically, described
Each gas storage unit 13 is divided into multiple sub- gas storage units 131 by bending seam 37, and the bending seam can be located at the gas storage
The medium position of unit 13, and two sides are respectively formed a communicating passage 132, and the sub- gas storage unit 131 adjacent in this way obtains
To interconnect, as shown in Figure 2.It is understood that the bending seam 37 can also be located at the two sides of the gas storage unit 13,
And the communicating passage 132 is located at the medium position of the gas storage unit 13.Accordingly, it should be understood that respectively arranging described curved
Heat-sealing two layers of the cameral mantle 11 and 12 of connection of crease 37.
Further, with Fig. 1 to example shown in fig. 5, in the first preferred embodiment of the present invention, the bending seam 37
The rear bending seam 372 in interruption heat-sealing is arranged in the antecurvature crease 371 of interruption heat-sealing and one including a column, thus inflation buffering
Body 10 is suitable for forming a front side walls 101, bottom connection along the two column antecurvature crease 371 and the rear bending seam 372
Portion 102 and a rear wall 103, the bottom attached portion 102 are embodied as a tilting buffer part 102 in the present invention.Correspondingly, such as
Shown in Fig. 1 to Fig. 4, the solid plastic packaging seam 40 includes that the left three-dimensional plastic packaging positioned at 10 left side of inflation buffer body stitches 41 Hes
A right three-dimensional plastic packaging seam 42 positioned at right side, by each left side plastic packaging of the front side wall 101 and the rear wall 103 one
It rises, that is, realizes the left side sealing of the inflation buffer body 10.The right three-dimensional plastic packaging seam 42 by the front side wall 101 and it is described after
Each right side plastic packaging of side wall 103 together, that is, realizes the sealing on the right side of the inflation buffer body 10.
Front side wall 101 described above, rear wall 103 and the tilting buffer part 102 pass through bending and the three-dimensional modeling
The secondary heat-sealing of joint seal 40 forms an accommodating chamber 1001, and top side has an opening 107.I.e. each formation of the gas storage unit 13
The gas storage column of annular.I.e. as shown in Figure 2, the part in 371 left side of antecurvature crease is used to form the front side wall 101, institute
It states and forms the tilting buffer part 102 between antecurvature crease 371 and the rear bending seam 372, bent after described and stitch 372 right side shapes
At the rear wall 103.It is understood that each side wall 101 and 103 and each freedom of the tilting buffer part 102
The sub- formation of gas storage unit 131 of the gas storage unit 13 integrally extended along its length.
It is noted that causing described tilting slow since the front side wall 101 and 103 length of the rear wall are different
The interconnecting piece for rushing portion 102 is inclined, i.e., the described tilting buffer part 102 forms a cushion space with the rear wall 103
1002, increase buffering thickness, so that packing article will not bottom out.That is, the tilting buffer part 102 obliquely extends
Between the front side wall 101 and the rear wall 103.
Such as in the example depicted in figure 1, the length of the front side wall 101 is less than the length of the rear wall 103, in this way
Extend the tilting buffer part 102 obliquely, and forms the cushion space 1002 between the rear wall 103.When
So, it is to be understood that as deformation, it is also possible to which the length of the front side wall 101 is greater than the length of the rear wall 103.
Although in addition, it is necessary to, it is noted that it is shown in Fig. 2 be through the plane plastic packaging stitch 30 plastic packagings formed plane padded coaming,
Also the position of the three-dimensional plastic packaging seam 40 is further illustrated, to more easily understand the formation of the isolated packing bag
Journey.
It is noted that the left three-dimensional plastic packaging seam 41 and the right side are vertical in this preferred embodiment of the invention
Body plastic packaging seam 42 is respectively formed a flank buffer part 16 in the two sides of the air-packing devices with tilting buffer part.It is described
Three-dimensional plastic packaging seam 41 and 42 is separately positioned between two adjacent gas storage units 13 of left and right sides, thus respectively by left and right sides
The outermost one or more gas storage unit 13 forms the flank buffer part 16.Such as shown in Figure 3, the inflation
The one left side flap gas storage unit 13a in the left side of buffer body 10 is through 37 bending of bending seam and left three-dimensional 41 modeling of plastic packaging seam
It is honored as a queen to form the left side flap buffer part 16 with a cushion space.The one right side flap gas storage on the right side of the inflation buffer body 10
Unit 13a forms a right side with a cushion space after the bending seam 37 is bent and the right three-dimensional plastic packaging stitches 42 plastic packagings
Flank buffer part 16.Therefore, the flank buffer part 16 of inflation 10 two sides of buffer body is for reinforcing side buffering effect.
That is, the flank buffer part 16 provides buffer function in side.
In preferred embodiment as shown in Figures 1 to 5, the inflation buffer body 10 is adapted to accommodate the packing article,
The packing article is contained in the accommodating chamber, can be in contact with the front side wall 101 and the rear wall 103.It is described
Front side wall 101 and the rear wall 103 provide buffer function for the packing article, and the flank buffer part 16 is the packaging
Article provides buffer function in side.And the packing article does not contact directly with the tilting buffer part 102, i.e., the described packaging
Article can not extend into the cushion space 1002, so that the tilting buffer part 102 can mention for the packing article
For multi-buffer effect.When i.e. external impact force acts on the outside of the tilting buffer part 102, the tilting buffer part 102
Each gas storage unit 13 provide first-level buffer effect, further the cushion space 1002 provides another buffering effect and prevents from making
The packing article is transferred directly to the stress to the gas storage unit 13.That is, the institute of the tilting buffer part 102
Gas storage unit 13 is stated when by external impact or impact force, the cushion space 1002 provides deformation to the gas storage unit 13
Space, in this way, act on the impact force of the outside of the tilting buffer part 102 or impact force be not to be transferred directly to it is described
Packing article.In other words, the tilting buffer part increases buffering thickness, provides multi-buffer effect, to make the packet
Dress article will not bottom out.
It is noted that when the inflation buffer body 10 is for carrying the packing article, and the inflation buffers
After body 10 is inflated, the inner surface of the front side wall 101 and the rear wall 103 can be affixed with the outer surface of the packing article
It closes, can not also be bonded and increase additional packaging bag such as to pack the packing article.Preferably, in this embodiment, institute
Packing article is stated by taking a laptop M as an example, the laptop can be partially or entirely placed in the appearance
It receives in chamber 1001.When the laptop M is partly that any side is placed in the accommodating chamber 1001, the notes
The side of this computer M does not contact directly with the tilting buffer part 102, i.e., the described laptop M can be not extend into
Enter the cushion space 1002, so that the tilting buffer part increases buffering thickness, can be provided for the laptop M
Better buffering effect.
In addition, as shown in figure 5, prevent sliding in transit to limit to the notebook M computer, it is described
Respectively there are an inflation buffer body 10 in the two sides of laptop M.That is, can also be tilting slow by having described in two
The air-packing devices in portion are rushed to pack the packing article M in a manner of make-up.I.e. the present invention, which is equivalent to, provides a packages groups
Part comprising with the air-packing devices of tilting buffer part described in two, wherein two ends of the packing article M are distinguished
It is housed inside in two accommodating chambers 1001 of the air-packing devices with tilting buffer part, is then placed in it again
His packing case or packing box etc. are used to store and transport the laptop M.The two sides of the i.e. described laptop M have
The cushion space 1002 can not extend into the cushion space 1002, thus two it is described inflation buffer body 10 it is oblique
It sets the buffering that buffer part is the laptop M and increases buffering thickness.And of the invention this is with tilting buffer part
The structure designs of air-packing devices can enhance the cushion performance of each side significantly, prevent external impact force or shock
Power causes the damage of the packing article M.
Correspondingly, when the flank buffer part 16 is by external impact or impact force, external impact or impact force
The packing article, i.e., the flank of the described flank buffer part 16 directly can't be transferred to by the flank buffer part 16
Gas storage unit 13a provides buffering, to realize buffering effect.
It is noted that the solid plastic packaging seam 40, which can be continuous heat-sealing seam, is also possible to intermittent heat-sealing seam.
The three-dimensional plastic packaging in left and right stitches the position for the partitioning slot 31 that 41 and 42 can be each located on inflation 10 side of buffer body,
The partitioning slot 31 and plastic packaging seam 41 or 42 can also be formed simultaneously by once sealing.In above preferred embodiment,
It can be individually that other independent heat-sealing is stitched and to be respectively formed at the inflation slow that the three-dimensional plastic packaging in left and right, which stitches 41 and 42,
Rush the edge of 10 left and right side of body.
In this embodiment in accordance with the invention, as shown in Figures 1 and 2, by taking the left three-dimensional plastic packaging seam 41 as an example, packet
Include the first and second plastic packaging sections 411 and 412 of integrated plastic packaging connection, the two equal length and in a plastic package process simultaneously
It is formed in the front and back side of the inflation buffer body, as it can be seen that the first and second plastic packagings section 411 in the expanded schematic diagram of Fig. 2
And have interval between 412, without integrally formed.Also, between the first plastic packaging section 411 and the antecurvature crease 371
Distance is shorter than the distance between the second plastic packaging section 412 and the rear bending seam 372, to make the front and back bending seam 371
And the sub- gas storage unit 131 between 372 forms the tilting buffer part 102.It may also be said that in front side, the left solid
There is a first distance D1 between plastic packaging seam 41 and the antecurvature crease 371, in rear side, the left three-dimensional plastic packaging seam 41 with it is described
There is a second distance D2 between bending seam 372 afterwards, wherein the first distance D1 is less than the second distance D2, thus described
The sub- gas storage unit 131 between front and back bending seam 371 and 372 obliquely extends.Similarly, the right three-dimensional plastic packaging seam 42
With stitching 41 similar structures with the left three-dimensional plastic packaging
It is the inflation packet with tilting buffer part of second preferred embodiment according to the present invention as shown in Figure 6 to 8
Assembling device is the variant embodiment of first preferred embodiment of the invention.Similarly, in this preferred embodiment, the packaging
Article is by taking a laptop M as an example.
The bending seam 37 includes that two column are in the column of antecurvature crease 371A and two of interruption heat-sealing in the rear bending for being interrupted heat-sealing
372A is stitched, so that the inflation buffer body 10A is suitable for along the two column antecurvature crease 371A and the rear bending seam 372A
Form two front side wall 101A, two tilting buffer part 102A and a rear wall 103A.Correspondingly, as shown in fig. 7, the solid plastic packaging
Seam 40A includes the left three-dimensional plastic packaging seam 41A positioned at the left side and right three-dimensional plastic packaging seam 42A positioned at right side, respectively will be described before
Side wall 101A realizes the left-hand end of the inflation buffer body 10A together with each left-hand end plastic packaging of the rear wall 103A
Sealing.By the front side wall 101A together with each right side plastic packaging of the rear wall 103A, i.e., the right three-dimensional plastic packaging stitches 42A
Realize the sealing on the right side of the inflation buffer body 10A.
Front side wall 101A described above, the rear wall 103A and each tilting buffer part 102A pass through bending and institute
The secondary heat-sealing for stating three-dimensional plastic packaging seam 40A, which forms accommodating chamber a 1001A, the accommodating chamber 1001A, has an opening 107A.I.e. such as
Shown in Fig. 6, the part of the two column left or right sides antecurvature crease 371A is respectively formed two front side wall 101A, described
The tilting buffer part 102A is formed between antecurvature crease 371A and the rear bending seam 372A, 372A are stitched in two rear bendings
Between part form the rear wall 103A.It is understood that each side wall 101A and 103A and described tilting
The sub- gas storage unit 131A shape of each freedom of buffer part 102A gas storage unit 13A integrally extended along its length
At.
It is noted that causing described since two front side wall 101A and the rear wall 103A length are different
The interconnecting piece of bottom side interconnecting piece is inclined, i.e., the two tilting buffer part 102A and rear wall 103A are respectively formed
Two cushion space 1002A, increase buffering thickness, so that packing article will not bottom out.That is, two described tilting slow
The portion 102A of punching is obliquely extended between two front side wall 101A and the rear wall 103A.
Such as in the example shown in Fig. 6, the sum of length of two front side wall 101A is less than the rear wall 103A
Length, be spaced from one another to form the opening 107A for picking and placing article between the two, and make two it is described tilting slow
The portion 102A of punching obliquely extends, and the cushion space 1002A is formed between the rear wall 103A.
In addition, it is necessary to which, it is noted that although shown in Fig. 7 is that the plane formed through plane plastic packaging seam 30A plastic packaging is delayed
Material is rushed, the position of the three-dimensional plastic packaging seam 40A is also further illustrated, to more easily understand the volumetric packaging
The forming process of bag.
It is noted that the left three-dimensional plastic packaging seam 41A and the right side are vertical in this preferred embodiment of the invention
Body plastic packaging stitches 42A and is respectively formed a flank buffer part 16A in the two sides of the air-packing devices with tilting buffer part.I.e.
As shown in Figure 6, it is described inflation buffer body 10A left side a left side flap gas storage unit 13A through the bending seam 37A bend with
And a left side flap buffer part 16A with a cushion space is formed after the left three-dimensional plastic packaging line 41A plastic packaging.The inflation buffering
The one right side flap gas storage unit 13A on the right side of body 10A is through bending seam 37A bending and the right three-dimensional plastic packaging seam 42A modeling
It is honored as a queen to form the right side flap buffer part 16A with a cushion space.Therefore, the side of the inflation two sides buffer body 10A
Wing buffer part 16A is for reinforcing side buffering effect.That is, the flank buffer part 16A provides buffer function in side.
In preferred embodiment as shown in Figure 6 to 8, the inflation buffer body 10A is adapted to accommodate the packing article,
The packing article is contained in the accommodating chamber 1001A, can be with the front side wall 101A, 101A and the rear wall 103A
It is in contact.The front side wall 101A and rear wall 103A provides buffer function, the flank buffering for the packing article
Portion 16A provides buffer function in side for the packing article.And the both ends of the packing article are not described tilting slow with two
The portion 102A of punching is directly contacted, i.e., the described packing article can not extend into the cushion space 1002A, thus described tilting slow
The portion 102A of punching can provide multi-buffer effect for the packing article.I.e. external impact force acts on the tilting buffer part
When the outside of 102A, each gas storage unit 13A of the tilting buffer part 102A provides first-level buffer effect, further described slow
It rushes space 1002A and another buffering effect is provided prevents from acting on to the stress of the gas storage unit 13A and be transferred directly to the packaging
Article.That is, the gas storage unit 13A of the tilting buffer part 102A is when by external impact or impact force, institute
It states cushion space 1002A and provides the space of deformation to the gas storage unit 13A, in this way, acting on the tilting buffer part 102A
Outside impact force or impact force be not to be transferred directly to the packing article.In other words, the tilting buffer part increases
Buffering thickness is added, multi-buffer effect is provided, so that the packing article be made not bottom out.
It is noted that when the inflation buffer body 10A is for carrying the packing article, and the inflation buffers
After body 10A inflation, the inner surface of the front side wall 101A and the rear wall 103A can be with the outer surfaces of the packing article
It fits, can not also be bonded and increase additional packaging bag such as to pack the packing article.Preferably, in this embodiment
In, by taking a laptop M as an example, the laptop can be placed in the accommodating chamber 1001A packing article.
The front and bottom of the laptop M provides buffering effect, institute by the front side wall 101A and rear wall 103A
The left and right sides for stating laptop M provides buffering effect by the flank buffer part 16A.The laptop M is in addition
Two sides do not contact directly with two tilting buffer part 102A, i.e., the described laptop M can not extend into institute
Cushion space 1002A is stated, so that the tilting buffer part increases buffering thickness, it can be the top of the laptop M
Better buffering effect is provided with two sides of the bottom.
It is noted that the solid plastic packaging seam 40A, which can be continuous heat-sealing seam, is also possible to intermittent heat-sealing seam.
The plastic packaging seam 41A and 42A can be each located on the position of the partitioning slot 31A of the inflation side buffer body 10A, can also
To be formed simultaneously the partitioning slot 31A and plastic packaging seam 41A or 42A by once heat-sealing.In above preferred embodiment, institute
Stating plastic packaging seam 41A and 42A can be individually that other independent heat-sealing stitches and is respectively formed at the left side inflation buffer body 10A
The edge of side and right side.
It is the inflation packet with tilting buffer part of third preferred embodiment according to the present invention as shown in Fig. 9 to Figure 12
Assembling device, third preferred embodiment of the invention are the variant embodiment of the first preferred embodiment of the present invention, are first excellent
The side first place of embodiment is selected to connect to be formed.Similarly, in this preferred embodiment, the inflation with tilting buffer part
Packing device includes at least one inflation buffer body 10B and charge valve 20B for playing one-way air inlet and self-sealing, through a system
Column plane plastic packaging stitches 30B and forms one or more gas storage unit 13B being connected, the gas storage unit with three-dimensional plastic packaging seam 40B
13B, which is annularly arranged and surrounded, forms annular accommodating chamber 1001B, the tilting cushion space 1002B in a bottom side, and internal
One cavity package 1003B.In use, annular article may adapt to be packaged in the annular accommodating chamber 1001B or described
Cavity package 1003B can also be used to pack article to be packaged.
In this preferred embodiment of the invention, the solid plastic packaging seam 40B further includes a longitudinal end seal seam 43B,
The front side wall 101B and the rear wall 103B are sealed connection by it in a longitudinal direction, i.e., by the inflation buffer body 10B
Arrangement annular in shape, and its both ends head and the tail are connected.The front side wall 101B and rear wall 103B is each due to first place connection
Self-forming one inner sidewall 104B and a lateral wall 105B provide buffering to form a ring-side wall for the packing article.In this way,
41B and 42B is stitched by these described plastic packagings for sealing connection plural layers and the end seal stitches 43B, so that the inflation is slow
It rushes body 10B to be able to form the inflatable isolated packing bag that tilting buffer part is reinforced in a bottom side, the packing article is suitable for
It is packaged in the cavity package 1003B.In addition, when the packing article is packaged in the cavity package 1003B, because in it
Again around simultaneously plastic packaging forming after lateral wall overlapping, so that the air-packing devices form laminated construction, to be the packet
It fills article and provides and reinforce buffer function.And it tilts to the tilting buffer part 102B ecto-entad, so that the inflation be made to wrap
The internal diameter of assembling device reduces, to be suitable for more securely clamping the packing article.
More specifically, as shown in fig. 11 and fig, the tilting buffer part 102B stitches 43B, both ends due to the end seal
It joins end to end, forms the bottom side and reinforce tilting buffer part.Reinforce the bottom side that tilting buffer part forms annular in the bottom side
Tilting cushion space 1002B.The tilting cushion space 1002B in bottom side is on the basis of first preferred embodiment of the invention into one
Step increases buffering thickness.
It is understood that the inflation buffer body 10B is suitable for holding in the preferred embodiment as shown in Fig. 9 to Figure 12
Receive the packing article, the packing article is contained in the accommodating chamber 1001B.The ring-side wall is that the packing article mentions
For buffer function.Since the ring-side wall front side wall 101B as described in above-mentioned one embodiment and the rear wall 103B lead to
It connects and is formed after crossing the end seal seam 43B plastic packaging, and be respectively formed cricoid lateral wall 105B and inner sidewall 104B.When outer
Portion's impact force action is when the ring-side wall, the lateral wall 105B, the inner sidewall 104B and the lateral wall 105B with
Cushion space between the inner sidewall 104B provides three-level buffering effect for the packing article.The i.e. described ring-side wall is institute
It states packing article and buffer function is provided.And the packing article does not contact directly with the tilting buffer part 102B, i.e., the described packet
Dress article can not extend into the tilting cushion space 1002B in the bottom side, so that the tilting buffer part 102B can be institute
It states packing article and multi-buffer effect is provided.It is described when i.e. external impact force acts on the outside of the tilting buffer part 102B
Each sub- gas storage unit 131B of tilting buffer part 102B provides first-level buffer effect, further the tilting cushion space in the bottom
1002B provides deformation space for the gas storage unit, prevents effect to the gas storage unit to provide another grade of buffering effect
The stress of 13B is transferred directly to the packing article.That is, the gas storage unit 13B of the tilting buffer part 102B
When by external impact or impact force, the tilting cushion space 1002B provides the sky of deformation to the gas storage unit 13B
Between, in this way, acting on the impact force of the outside of the tilting buffer part 102B or impact force is not to be transferred directly to the packet
Fill article.In other words, the tilting buffer part increases buffering thickness, so that the packing article be made not bottom out.
It is understood that as shown in Figure 11, when the packing article M be packaged in it is described with tilting buffer part
When air-packing devices, in its bottom side, the tilting buffer part 102B positioned at bottom side provides gas buffer effect, increases slow
Rush thickness.That is, such structure design, enhances the cushion performance of its integrated buffer performance, especially bottom side.
In addition, the end seal seam 43B of the solid plastic packaging seam 40B can also be formed in corresponding institute in this embodiment
The position of plastic packaging seam 41B and 42B is stated, or the plastic packaging seam 41B, 42B and institute can be formed simultaneously in a plastic package process
End seal seam 43B is stated, the both ends head and the tail of the inflation buffer body 10B are connected.Similarly, end seal stitches 43B in this embodiment
In can also be formed at each marginal edge joint seal 32B of the flank buffer part.
Shown in Figure 14 to Figure 16 be it is of the invention as described in the air-packing devices with tilting buffer part the inflation
The structural schematic diagram of valve 20.As shown in figure 14, the charge valve 20 includes shorter relative to two layers of cameral mantle 11 and 12
Valve film 21 and 22 is superimposed respectively to be used to form to described in each gas storage unit 13 with the cameral mantle 11 and 12
The inlet channel 23 that air storage chamber 14 is inflated.As shown in figure 15, the charge valve 20 further may include increasing by one layer of valve film
25, it is located between two layers of valve film 21 and 22, for enhancing sealing performance.As shown in figure 16, the charge valve 20 can
To further include one layer of valve film 26, between one layer of cameral mantle 12 and the valve film 22, that is, it is located at two layers of institute
The outside of valve film 21 and 22 is stated, so that playing prevents the connection of the valve film 22 and the cameral mantle 12 to be torn, to rise
The effect that its is bonded to reinforcement.It is understood that the specific structure of above-mentioned charge valve 20 be only used as citing and and it is unlimited
The system present invention.
In addition, it is necessary to understand, the feature in each embodiment of the invention be can be applied in other embodiments, i.e.,
The feature of all these embodiments appropriate can combine, for making air-packing device of the invention provide multi-buffer
Effect.
It should be understood by those skilled in the art that foregoing description and the embodiment of the present invention shown in the drawings are only used as illustrating
And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.Function and structural principle of the invention exists
It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.
Claims (23)
1. the air-packing devices with tilting buffer part, for packing a packing article, which is characterized in that including at least
At least charge valve that at least one inflation buffer body and at least two layers of valve film that two layers of air cells film is formed are formed, wherein the inflation
Buffer body includes multiple gas storage units, and the charge valve is used for gas storage unit inflation and self-enclosed after inflation
To prevent gas leakage, and a series of plastic packaging that is stitched through plane plastic packagings of the gas storage unit and after bending through a series of solids
The plastic packaging of plastic packaging seam forms the isolated packing bag for packing the packing article, and the isolated packing bag is oblique at least one
Buffer part is set, buffering thickness is increased, buffering effect is provided to the packing article, wherein it is adjacent to extend the tilting buffer part
The length of the gas storage unit of two sides is unequal.
2. the air-packing devices according to claim 1 with tilting buffer part, wherein each gas storage unit edge
Longitudinal arrangement is simultaneously divided into multiple sub- gas storage units, and sub- gas storage unit described in a portion forms multiple side walls, another part
The sub- gas storage unit forms a tilting buffer part, and the tilting buffer part is inclined to be arranged in multiple side walls
Between two side walls, to enhance the cushion performance of the isolated packing bag.
3. the air-packing devices according to claim 2 with tilting buffer part, wherein between each gas storage unit
With a series of partitioning slots, the solid plastic packaging seam is located at the partitioning slot of the gas storage unit of the isolated packing bag two sides,
Each gas storage unit is through forming the tilting buffer part through the three-dimensional plastic packaging seam plastic packaging after bending seam bending.
4. the air-packing devices according to claim 3 with tilting buffer part, the plurality of side wall includes position
A front side wall and a rear wall in bending seam two sides, wherein the front side wall and the rear wall length are unequal, institute
It states tilting buffer part obliquely to extend between the front side wall and the rear wall, to enhance the slow of the isolated packing bag
Punching performance.
5. the air-packing devices according to claim 2 with tilting buffer part, wherein the solid plastic packaging seam is set
It sets between the two neighboring gas storage unit of the air-packing devices two sides, each gas storage unit is through bending seam bending
The tilting buffer part is formed by the three-dimensional plastic packaging seam plastic packaging.
6. the air-packing devices according to claim 5 with tilting buffer part, the plurality of side wall includes position
A front side wall and a rear wall in bending seam two sides, wherein the front side wall and the rear wall length are unequal, institute
It states tilting buffer part obliquely to extend between the front side wall and the rear wall, to enhance the slow of the isolated packing bag
Punching performance.
7. the air-packing devices according to claim 1 with tilting buffer part, wherein each gas storage unit edge
Longitudinal arrangement and transversely around circlewise to be used to form the isolated packing bag, and each gas storage unit is through more
The plastic packaging of column bending seam forms the multiple sub- gas storage units that can be connected to, and gas storage unit described in a portion forms a packaging master
Body, with for packing the packing article, the plastic packaging that gas storage unit described in another part is stitched through the three-dimensional plastic packaging is formed at least
One flank buffer part is located at the outside of the package main body, to enhance the cushion performance of the isolated packing bag.
8. the air-packing devices according to claim 4 with tilting buffer part, wherein each gas storage unit edge
Longitudinal arrangement and transversely around circlewise to be used to form the isolated packing bag, and each gas storage unit is through more
The plastic packaging of column bending seam forms the multiple sub- gas storage units that can be connected to, and gas storage unit described in a portion forms a packaging master
Body, with for packing the packing article, the plastic packaging that gas storage unit described in another part is stitched through the three-dimensional plastic packaging is formed at least
One flank buffer part is located at the outside of the package main body, to enhance the cushion performance of the isolated packing bag.
9. the air-packing devices according to claim 6 with tilting buffer part, wherein each gas storage unit edge
Longitudinal arrangement and transversely around circlewise to be used to form the isolated packing bag, and each gas storage unit is through more
The plastic packaging of column bending seam forms the multiple sub- gas storage units that can be connected to, and gas storage unit described in a portion forms a packaging master
Body, with for packing the packing article, the plastic packaging that gas storage unit described in another part is stitched through the three-dimensional plastic packaging is formed at least
One flank buffer part is located at the outside of the package main body, to enhance the cushion performance of the isolated packing bag.
10. according to the air-packing devices with tilting buffer part any in claim 7 to 9, wherein each described
Gas storage unit is in the sub- gas storage list that the part for being correspondingly formed the flank buffer part includes one, two, three or more
Member.
11. the air-packing devices according to claim 3 with tilting buffer part, wherein bending seam includes four column
In the bending seam of interruption heat-sealing, the isolated packing bag is through bending seam and plastic packaging slit at two tilting buffer parts and multiple sides
Wall, the plurality of side wall includes two front side walls and a rear wall positioned at each tilting buffer part two sides, wherein two
The opening for picking and placing the packing article is formed between a front side wall, two tilting buffer parts obliquely extend
Between each front side wall and the rear wall, to enhance the cushion performance of the isolated packing bag.
12. the air-packing devices according to claim 5 with tilting buffer part, wherein bending seam includes four column
In the bending seam of interruption heat-sealing, the isolated packing bag is through bending seam and plastic packaging slit at two tilting buffer parts and multiple sides
Wall, the plurality of side wall includes two front side walls and a rear wall positioned at each tilting buffer part two sides, wherein two
The opening for picking and placing the packing article is formed between a front side wall, two tilting buffer parts obliquely extend
Between each front side wall and the rear wall, to enhance the cushion performance of the isolated packing bag.
13. the air-packing devices according to claim 11 or 12 with tilting buffer part, wherein each gas storage
Unit is arranged in the vertical direction and multiple gas storage units transversely surround circlewise to be used to form the isolated packing bag, and
And each gas storage unit forms the multiple sub- gas storage units that can be connected to through the plastic packaging of multiple row bending seam, described in a portion
Sub- gas storage unit forms a package main body, described in for packing the packing article, sub- gas storage unit described in another part is passed through
Plastic packaging slit is located at the outside of the package main body, to enhance the isolated packing bag at an at least flank buffer part
Cushion performance.
14. the air-packing devices according to claim 13 with tilting buffer part, wherein each gas storage unit
In the sub- gas storage unit that the part for being correspondingly formed the flank buffer part includes one, two, three or more.
15. the air-packing devices with tilting buffer part according to claim 8 or claim 9, wherein plastic packaging seam also wraps
A longitudinal end seal seam is included, the front side wall and the rear wall are sealed head and the tail in a longitudinal direction and connected by the end seal seam,
An annular sidewall of the isolated packing bag is formed, the annular sidewall is to pack the packing article, the tilting buffering
Reinforce tilting buffer part at a bottom side through the end seal slit and provide buffering effect to increase buffering thickness in portion.
16. the air-packing devices according to claim 15 with tilting buffer part, wherein each gas storage unit
In the sub- gas storage unit that the part for being correspondingly formed the flank buffer part includes one, two, three or more.
17. the air-packing devices with tilting buffer part, for packing a packing article, which is characterized in that including extremely
At least charge valve that at least one inflation buffer body and at least two layers of valve film that few two layers of air cells film is formed are formed, wherein described fill
Gas buffer body includes multiple gas storage units, and the charge valve is used for gas storage unit inflation and self-styled after inflation
It closes to prevent gas leakage, and a series of plastic packaging that stitches through plastic packagings of the gas storage unit and is bent to form the packaging packing material
One isolated packing bag of product, and plastic packaging seam includes that plastic packaging connects the two layers of air cells film so that the gas storage unit to be divided into
At least one set of bending seam for the multiple sub- gas storage units that can be connected to, wherein including at least one in one group of bending seam arranges preceding bending
Seam and one column after bend seam, wherein the inflation buffer body along the antecurvature crease and it is described after bending seam bend after make it is described before
Bending seam and it is described after bending seam apart from one another by and arrange with misplacing, thus make the antecurvature crease and it is described after bending seam
Between the sub- gas storage unit form at least one tilting buffer part of the isolated packing bag.
18. the air-packing devices according to claim 17 with tilting buffer part, wherein plastic packaging seam includes one
The group bending seam, and the inflation buffer body after inflation is divided into a front side by the antecurvature crease and the rear bending seam
Wall, a rear wall and the tilting buffer part for obliquely extending the front side wall and the rear wall, wherein before described
The opening for picking and placing the packing article is formed between side wall and the rear wall.
19. the air-packing devices according to claim 17 with tilting buffer part, wherein plastic packaging seam includes two
Group bending seam, and the antecurvature crease and it is described after bending stitch the inflation buffer body be divided into two front side walls, after one
Side wall and two tilting buffer parts for obliquely extending two front side walls and the rear wall respectively, wherein two
The opening for picking and placing the packing article is formed between a front side wall.
20. according to claim 1 with the air-packing devices of tilting buffer part described in 8 or 19, wherein plastic packaging seam is also
Including two three-dimensional plastic packaging seams at left and right sides of the inflation buffer body are arranged in, wherein each three-dimensional plastic packaging seam is respectively by institute
Front side wall is stated to connect with the rear wall plastic packaging, and each three-dimensional plastic packaging seam respectively with the antecurvature crease and it is described after
The distance for bending seam is not identical.
21. the air-packing devices according to claim 20 with tilting buffer part, wherein each three-dimensional plastic packaging
Seam is further arranged between two adjacent gas storage units of the two sides of the inflation buffer body, so that the left and right sides
The outermost gas storage unit is respectively formed a flank buffer part.
22. the air-packing devices according to claim 20 with tilting buffer part, wherein the front side wall and described
The accommodating chamber for packing the packing article, shape between the tilting buffer part and the rear wall are formed between rear wall
At the cushion space for being supplied to the tilting buffer part deformation space.
23. the air-packing devices according to claim 20 with tilting buffer part, wherein the front side wall and described
Rear wall is in arrange and be connected to be respectively formed an annular outer wall and an endless inner wall around shape.
Priority Applications (3)
Application Number | Priority Date | Filing Date | Title |
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CN201510632050.6A CN105253467B (en) | 2015-06-17 | 2015-09-29 | Air-packing devices with tilting buffer part |
US15/737,740 US10850907B2 (en) | 2015-06-17 | 2016-08-17 | Air-filling packaging apparatus |
PCT/CN2016/095671 WO2016202313A2 (en) | 2015-06-17 | 2016-08-17 | Air-filling packaging apparatus |
Applications Claiming Priority (3)
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CN2015103367820 | 2015-06-17 | ||
CN201510336782 | 2015-06-17 | ||
CN201510632050.6A CN105253467B (en) | 2015-06-17 | 2015-09-29 | Air-packing devices with tilting buffer part |
Publications (2)
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CN105253467A CN105253467A (en) | 2016-01-20 |
CN105253467B true CN105253467B (en) | 2019-06-04 |
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Family Applications (5)
Application Number | Title | Priority Date | Filing Date |
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CN201520661372.9U Active CN205114051U (en) | 2015-06-17 | 2015-08-28 | Multi -level buffer gas packaging device |
CN201510540383.6A Active CN105109824B (en) | 2015-06-17 | 2015-08-28 | Multi-stage buffering inflatable packaging device |
CN201520661371.4U Active CN205060411U (en) | 2015-06-17 | 2015-08-28 | Multi -level buffer gas packaging device with flank buffering portion |
CN201510632050.6A Active CN105253467B (en) | 2015-06-17 | 2015-09-29 | Air-packing devices with tilting buffer part |
CN201520768905.3U Withdrawn - After Issue CN205098707U (en) | 2015-06-17 | 2015-09-29 | Gas packaging device with put buffering portion to one side |
Family Applications Before (3)
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CN201520661372.9U Active CN205114051U (en) | 2015-06-17 | 2015-08-28 | Multi -level buffer gas packaging device |
CN201510540383.6A Active CN105109824B (en) | 2015-06-17 | 2015-08-28 | Multi-stage buffering inflatable packaging device |
CN201520661371.4U Active CN205060411U (en) | 2015-06-17 | 2015-08-28 | Multi -level buffer gas packaging device with flank buffering portion |
Family Applications After (1)
Application Number | Title | Priority Date | Filing Date |
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CN201520768905.3U Withdrawn - After Issue CN205098707U (en) | 2015-06-17 | 2015-09-29 | Gas packaging device with put buffering portion to one side |
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Families Citing this family (12)
Publication number | Priority date | Publication date | Assignee | Title |
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US10850907B2 (en) * | 2015-06-17 | 2020-12-01 | Shanghai Air-Paq Composite Material Co., Ltd. | Air-filling packaging apparatus |
CN205114051U (en) * | 2015-06-17 | 2016-03-30 | 上海艾尔贝包装科技发展有限公司 | Multi -level buffer gas packaging device |
CN105923271A (en) * | 2016-05-20 | 2016-09-07 | 上海艾尔贝包装科技发展有限公司 | Fluid packaging device and manufacturing method thereof |
CN106079585A (en) * | 2016-05-30 | 2016-11-09 | 天津定创科技发展有限公司 | Inflate buffer body and manufacture method thereof and inflation method |
CN106081359A (en) * | 2016-05-30 | 2016-11-09 | 天津定创科技发展有限公司 | There is packing container and the application thereof of air cushioning performance |
CN108327907B (en) * | 2018-04-23 | 2021-07-27 | 长沙理工大学 | Working method for equipping airborne multistage airbag cooperative buffering device |
CN109335258B (en) * | 2018-11-26 | 2021-04-20 | 昆山亚比斯环保包装材料有限公司 | Air sealing bag for strengthening corner protection |
CN111516985A (en) * | 2019-02-01 | 2020-08-11 | 名硕电脑(苏州)有限公司 | Packing bag with air column structure and manufacturing method thereof |
CN109969611B (en) * | 2019-04-16 | 2021-01-01 | 昆山亚比斯环保包装材料有限公司 | Inflatable bag with protection base |
CN110817123B (en) * | 2019-10-15 | 2022-02-25 | 昆山亚比斯环保包装材料有限公司 | Corner sleeve buffer device |
CN112498979B (en) * | 2020-12-04 | 2022-05-03 | 中国农业科学院农产品加工研究所 | Special gas column bag for fruit and vegetable cold chain |
JP2022139142A (en) * | 2021-03-11 | 2022-09-26 | コニカミノルタ株式会社 | Transportation box |
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- 2015-08-28 CN CN201520661371.4U patent/CN205060411U/en active Active
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Also Published As
Publication number | Publication date |
---|---|
CN205114051U (en) | 2016-03-30 |
CN205098707U (en) | 2016-03-23 |
CN105109824A (en) | 2015-12-02 |
CN105109824B (en) | 2020-01-24 |
CN105253467A (en) | 2016-01-20 |
CN205060411U (en) | 2016-03-02 |
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Denomination of invention: Inflatable packaging device with inclined buffer section Granted publication date: 20190604 Pledgee: Bank of Shanghai Co.,Ltd. Jing'an Sub branch Pledgor: SHANGHAI AIR-PAQ COMPOSITE MATERIAL Co.,Ltd. Registration number: Y2024310000118 |