CN209956432U - Box buffer box structure - Google Patents

Abstract

The utility model discloses a box type buffer box structure, which comprises a single piece type plastic film material, wherein the plastic film material is sealed into a plurality of gas columns and air passages through gas column mould pressing lines, the plurality of gas columns form six gas column areas and four non-gas column areas, the box type buffer box structure of the utility model is processed into six gas column areas and four non-gas column areas through the plastic film material, because the air inlet mode of the left body plate air column area and the right body plate air column area is that the air is supplied by the most edge air column air passages at the left side and the right side of the rear body plate air column area, meanwhile, the gas columns between the gas column areas of the left body plate and the gas columns between the gas column areas of the right body plate are communicated with each other through the gaps which are distributed in a staggered way, so that gas can conveniently enter the respective gas columns, the gas columns of the gas column areas of the front body plate, the gas column areas of the bottom plate, the gas column areas of the rear body plate and the gas column areas of the cover body are communicated with each other, and the air passage communication position adopts the heat seal of a mould pressing point, so that the folding effect of not only allowing air to pass but also facilitating the box body is achieved.

Description

Box buffer box structure

Technical Field

The utility model relates to a buffering box, in particular to box buffering box structure belongs to article packaging technical field.

Background

At present, the product of aerifing that appears in the market is basically sheet form, cylindricly, bag body structure, and box structure is very few, even rarely has box scheme to appear, for example two or multi-disc cross molding, the problem that nevertheless exists lies in, when a plurality of gas column pieces joint, produces the outstanding situation of outward appearance or inner wall easily, can't make the interior surface laminating of gas column and box body like this for space utilization is relatively poor, also causes the buffer box still probably to appear moving and wearing and tearing, reduce buffering effect in the outer packing box. In addition, there are some solutions to reduce the protrusions, which may require cutting, and this requires a manual cutting process, which increases the manufacturing time, cost, and material waste.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a box buffer box structure to when solving a plurality of gas column pieces that provide in the above-mentioned background art and joining, produce the outstanding situation of outward appearance or inner wall easily, can't make the interior surface laminating of gas column and box body like this, make space utilization relatively poor, also cause the buffer box still probably appear removing and wearing and tearing, reduce the problem of buffering effect in the outer packing box.

In order to achieve the above object, the utility model provides a following technical scheme: a box-type buffer box structure comprises a single-piece plastic film material, wherein the plastic film material is sealed and synthesized into a plurality of gas columns and air passages through gas column mould pressing lines, the gas columns form six gas column areas and four non-gas column areas, and the six gas column areas and the four non-gas column areas are folded and sealed and synthesized into a box-type buffer box through hot-pressing suture lines arranged on two sides of the plastic film material after sealing and pressing are completed;

the gas column area comprises a front body plate gas column area, the top ends of a plurality of gas columns of the front body plate gas column area are communicated with the inside of the air passage through air blocking valve films in heat sealing connection, the bottom ends of a plurality of gas columns in the front body plate gas column area are communicated with the top ends of a plurality of gas columns in the bottom plate gas column area, the bottom ends of a plurality of air columns in the bottom plate air column area are communicated with the top ends of a plurality of air columns in the rear body plate air column area, the bottom ends of a plurality of gas columns in the gas column area of the rear body plate are communicated with the top ends of a plurality of gas columns in the gas column area of the cover body, the bilateral symmetry in back body board gas column district is equipped with left side body board gas column district and right side body board gas column district, forms the gas column mould pressing line between the many adjacent gas columns in left side body board gas column district and forms the gas column mould pressing line between the many adjacent gas columns in right side body board gas column district and all sets up a plurality of breachs that are used for its gas column to communicate each other, mould pressing line involution is passed through to the bottom of the many gas columns in lid gas column district.

As an optimal technical scheme of the utility model, non-gas column district includes through the mould pressing line heat-seal respectively in the first non-gas column district and the non-gas column district of second of bottom plate gas column district both sides, non-gas column district still includes through mould pressing line heat-seal respectively in the third non-gas column district and the non-gas column district of fourth of lid gas column district both sides, just the top in third non-gas column district and the top in the non-gas column district of fourth all are equipped with the incision.

As an optimal technical scheme of the utility model, many gas columns in the many gas columns in preceding body plate gas column district and the many gas columns intercommunication department in bottom plate gas column district, many gas columns in bottom plate gas column district and many gas columns intercommunication department in back body plate gas column district and many gas columns intercommunication department in lid gas column district all are equipped with the mould pressure point.

As an optimal technical scheme of the utility model, be located a breach that the rightmost side of left side board gas column district is through seting up with being located a leftmost gas column of back body board gas column district communicates each other, is located a leftmost gas column of right side board gas column district is through the breach of seting up with being located a rightmost side of back body board gas column district communicates each other, and is located a plurality of breachs in the left side board gas column district and a plurality of breach positions that are located the right side board gas column district are all relative.

As an optimal technical scheme of the utility model, the top middle part of air flue is equipped with rather than the inflation inlet of inside intercommunication, the inside heat-seal of inflation inlet has one-way pneumatic valve.

As an optimal technical scheme of the utility model, first non-gas column district is the same with the size in the non-gas column district of second, first non-gas column district and the non-gas column district length of second equal with the length in bottom plate gas column district, first non-gas column district and the non-gas column district width of second equal with the width in left side board gas column district and the width in right side board gas column district respectively, just the middle part in first non-gas column district, the non-gas column district of second, the non-gas column district of third and the non-gas column district of fourth all is equipped with three horn shapes indentation lines.

As an optimized technical scheme of the utility model, the one end that the air flue was kept away from to the plastic film material bonds and has the two-sided non-setting adhesive that is used for the closing cap.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model relates to a box buffering box structure has following effect:

1) the gas columns of the gas column area of the front body plate, the gas column area of the bottom plate, the gas column area of the rear body plate and the gas column area of the cover body are mutually communicated, and the communicating position of the gas passage adopts heat seal of a molding pressure point, so that the gas can pass through and the folding function of the box body can be facilitated;

2) the edges of the gas column areas of the left body plate and the right body plate are connected in a heat sealing way and are broken in a traditional carton splicing way, the gas columns in the gas column areas are ingeniously utilized to be shared and communicated, and the first non-gas column area and the second non-gas column area which are not filled with gas can be quickly and respectively folded towards the inner sides or the outer sides of the box walls on the two sides of the box body through triangular crease lines, so that the outer wall or the inner wall of the formed box body is not protruded and can be kept smooth and basically pasted on the inner surface and the outer surface of the box body in a flat way, the accommodating proportion and the space utilization rate in the box body are increased;

3) the inflation inlet designs the intermediate position in the preceding body plate gas column district of box mouth, and outside arch, and firstly the person of facilitating the use finds fast, secondly be convenient for aerify the rear alright with bellied gas channel complete heat-seal, let the air in the air flue enter into the air flue through stifled air valve membrane after, unable seepage to the external world again, reach the purpose of guaranteeing gas completely, improve the life of box body.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic view of the expanded plane structure of the present invention;

FIG. 3 is one of the schematic views of the air-filled structure of the air column region of the present invention;

fig. 4 is a second schematic view of the air-filled structure of the air column region of the present invention;

fig. 5 is a third schematic view of the air-filled structure of the air column region of the present invention.

In the figure: 1. a plastic film material; 101. a precursor panel gas column region; 102. a floor gas column region; 103. a back body panel gas column region; 104. a cap gas column region; 105. a left body panel gas column region; 106. a right body panel gas column region; 107. a first non-gas column region; 108. a second non-gas column region; 109. a third non-gas column region; 110. a fourth non-gas column region; 111. cutting; 2. a gas column; 201. a molding point; 202. a notch; 3. an airway; 301. a gas shutoff valve membrane; 302. an inflation inlet; 303. a one-way air valve; 4. hot pressing the suture; 401. double-sided adhesive sticker.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the utility model provides a box-type buffer box structure, which comprises a single-piece plastic film material 1, wherein the plastic film material 1 is sealed by a gas column mould pressing line to form a plurality of gas columns 2 and gas passages 3, a plurality of gas columns 6 form six gas column areas and four non-gas column areas, and the six gas column areas and the four non-gas column areas are folded and sealed by hot pressing seams 4 arranged at two sides of the plastic film material 1 to form a box-type buffer box;

the gas column district includes preceding body board gas column district 101, the stifled air valve membrane 301 that all communicates with the inside of air flue 3 through the heat-seal connection on many gas columns 2 tops of preceding body board gas column district 101, many gas columns 2 bottoms of preceding body board gas column district 101 and many gas columns 2 tops of bottom plate gas column district 102 communicate, many gas columns 2 bottoms of bottom plate gas column district 102 and many gas columns 2 tops of back body board gas column district 103 communicate, many gas columns 2 bottoms of back body board gas column district 103 and the top intercommunication of many gas columns 2 of lid body gas column district 104, the bilateral symmetry of back body board gas column district 103 is equipped with left body board gas column district 105 and right body board gas column district 106, the gas column mould pressing line between the many adjacent gas columns 2 of the many gas column body board gas column district 105 of constitution left body board gas column district 105 and the many adjacent gas column mould pressing line of the many gas columns 2 of the constitution right body board gas column district 106 all offers a plurality of breach 202 that are used for its gas column 2 to communicate each other, the bottom of many gas columns 2 of gas column district 104 passes through the mould pressing line.

Preferably, the non-gas column area comprises a first non-gas column area 107 and a second non-gas column area 108 which are respectively heat-sealed on two sides of the bottom plate gas column area 102 through mould pressing lines, the non-gas column area further comprises a third non-gas column area 109 and a fourth non-gas column area 110 which are respectively heat-sealed on two sides of the cover body gas column area 104 through mould pressing lines, the top end of the third non-gas column area 109 and the top end of the fourth non-gas column area 110 are both provided with a notch 111, and after the non-gas column areas are inflated in the gas column 2, gas is not injected into the non-gas column areas, so that the rapid box body is conveniently formed by one-time inflation, and the non-gas column areas can be folded into the box body or the box body to ensure that the outer wall or the inner wall of.

Preferably, the communication positions of the plurality of gas columns 2 of the front body plate gas column area 101 and the plurality of gas columns 2 of the bottom plate gas column area 102, the communication positions of the plurality of gas columns 2 of the bottom plate gas column area 102 and the plurality of gas columns 2 of the rear body plate gas column area 103, and the communication positions of the plurality of gas columns 2 of the rear body plate gas column area 103 and the plurality of gas columns 2 of the cover body gas column area 104 are provided with the molding pressure points 201, and the gas column areas can be folded after being inflated conveniently through the provided molding pressure points 201.

Preferably, an air column 2 located at the rightmost side of the left body panel air column region 105 is communicated with an air column 2 located at the leftmost side of the rear body panel air column region 103 through an opened notch 202, an air column 2 located at the leftmost side of the right body panel air column region 106 is communicated with an air column 2 located at the rightmost side of the rear body panel air column region 103 through an opened notch 202, positions of the notches 202 located in the left body panel air column region 105 and the notches 202 located in the right body panel air column region 106 are not opposite to each other, the left body panel air column region 105 and the right body panel air column region 106 utilize the rear body panel air column region 103 to supply air to the frontmost air columns 2 on the left and right sides, and meanwhile, the air columns 2 between the left body panel air column region 105 and the air columns 2 between the right body panel air column region 106 are communicated with each other through the notches 202, so that air can enter the respective air columns 2 conveniently.

Preferably, the middle part of the top end of the air passage 3 is provided with an inflation inlet 302 communicated with the inside of the air passage 3, the inside of the inflation inlet 302 is heat-sealed with a one-way air valve 303, the air pipe and the inflation inlet 302 can be connected through an air pump to inject air into the air passage 3, and the one-way air valve 303 can effectively prevent the air filled in the air column 2 from leaking through the inflation inlet 302.

Preferably, the first non-gas column area 107 and the second non-gas column area 108 have the same size, the length of the first non-gas column area 107 and the second non-gas column area 108 is equal to the length of the bottom plate gas column area 102, the width of the first non-gas column area 107 and the width of the second non-gas column area 108 are respectively equal to the width of the left body plate gas column area 105 and the width of the right body plate gas column area 106, and triangular pressing lines are arranged in the middle of the first non-gas column area 107, the second non-gas column area 108, the third non-gas column area 109 and the fourth non-gas column area 110, so that after the gas columns 2 in the six gas column areas are filled with gas, a box body can be quickly formed, and the first non-gas column area 107, the second non-gas column area 108, the third non-gas column area 109 and the fourth non-gas column area 110 which are not filled with gas can be folded into the box body or outside the box body.

Preferably, a double-sided adhesive sticker 401 for sealing is bonded to one end, away from the air passage 3, of the plastic film material 1, and after articles with proper sizes are stored in the box body, the cover body air column area 104 and the inner side of the front body plate air column area 101 can be quickly bonded and fixed through the double-sided adhesive sticker 401.

When the box type buffer box structure is used, two layers of plastic film materials 1 are overlapped on a heat seal die to extrude a plurality of gas column die pressing lines, die pressing lines of an air passage 3 and creasing lines of non-gas column areas to form six gas column areas, four non-gas column areas and an air passage 3, circular die pressing points 201 are formed at the communication positions of the gas columns 2 of the six gas column areas by hot pressing, then the wide die pressing lines between a left body plate gas column area 105 and a third non-gas column area 109 and the wide edges between a right body plate gas column area 106 and a fourth non-gas column area 110 are connected by a cutter in a hot-pressing way and are broken to form a notch 111, then two hot pressing seaming lines 4 positioned at two sides of the front body plate gas column area 101 are respectively connected with a hot pressing seaming line 4 at one side of the left body plate gas column area 105 and a hot pressing seaming line 4 at one side of the right body plate gas column area 106 in a hot pressing way to form a pocket type bag body, gas is filled into an inflation inlet 302 by an air pump, gas enters the gas channel 3 through the one-way gas valve 303, the gas injected into the gas channel 3 enters the plurality of gas columns 2 of the front body plate gas column area 101 through the gas blocking valve film 301, the gas can be rapidly injected into the gas columns 2 of the five gas column areas because the gas columns 2 of the front body plate gas column area 101, the bottom plate gas column area 102, the back body plate gas column area 103 and the cover body gas column area 104 are sequentially communicated, simultaneously, the two gas columns 2 of the back body plate gas column area 103 positioned at two sides are respectively communicated with the left body plate gas column area 105 and the right body plate gas column area 106 through the notch 202, then, when the gas is injected into the back body plate gas column area 103, the gas also can rapidly enter the left body plate gas column area 105 and the right body plate gas column area 106 through the notch 202, along with the continuous injection of the gas, the bag body becomes a three-dimensional box shape, and simultaneously, the first non-gas column area 107 and the second non-gas column area 108 without the gas are respectively folded into the inner side or the outer side of the box wall of the, the outer wall or the inner wall of the formed box body is kept smooth, the first non-air column area 107 and the second non-air column area 108 can be basically pasted on the inner surface and the outer surface of the outer box body flatly, so that the internal accommodation proportion and the space utilization rate are increased, then, the formed box body can be used for storing articles with proper sizes, after the articles are placed in the box body, the third non-air column area 109 and the fourth non-air column area 110 are folded towards the inner side of the cover body air column area 104, the release paper of the double-sided self-adhesive sticker 401 on the outer side of one end of the plastic film material 1 is torn off, the cover body air column area 104 is folded towards the box mouth, the third non-air column area 109 and the fourth non-air column area 110 are inserted into the box body and are respectively in smooth contact with the inner walls on two sides of the box body, finally, the adhesive surface of the double-sided self-adhesive sticker 401 is adhered and fixed with the inner side of the front body air column area 101, the packaging of the articles is completed, plays a certain role in theft prevention and deformation prevention of the box opening.

And adopt the box body of this structure in the in-process that uses, because the one-way pneumatic valve 303 of air flue 3 inflation inlet 302 department can not accomplish complete 100% sealed, the box body uses after the longer time, can the ubiquitous gaseous problem of leaking to the external world through one-way pneumatic valve 303 is final, so this scheme designs inflation inlet 302 to the intermediate position of the preceding body board gas column district 101 of box mouth, firstly, the person of facilitating the use finds fast, secondly, be convenient for aerify the back and conveniently heat-seal 3 complete bellied air flues, let the air in the air flue 3 enter into the air flue 3 through stifled air valve membrane 301 after, can't leak to the external world again, reach the purpose of fully protecting the gas, the life of improvement box body.

It should be added and explained that on the basis of the structure of the box body, the surface of the plastic film material 1 can be attached with soft base materials (such as materials of attaching leatheroid, non-woven fabrics and the like), the puncture resistance of the product structure is enhanced, the comprehensive production and manufacturing cost of the box body and the inflatable buffer body is effectively reduced, the actual product is applied to the express logistics transportation industry, the mode that the inflatable bag and the box body are combined into a whole is realized, and the inflatable express box has the functions of low cost, light weight, falling resistance and shock resistance. Can also all use the breach 202 intercommunication of crisscross distribution through each gas post 2 with box gas post district, fill gassing used repeatedly to the box body, and then solved among the prior art express packaging product with high costs, the content of the multiple specification of adaptation that can not be fine, unable used repeatedly, more can not prevent falling shock-resistant technical problem.

Meanwhile, the gas columns 2 and the gas passages 3 in the gas column area can be longitudinally hot-pressed and formed in one of 3 modes as shown in fig. 3, the mould pressing lines between each gas column 2 are communicated through the notches 202, the mould pressing lines between each gas column 2 can be transversely hot-pressed and formed in one of 3 modes as shown in fig. 4, the mould pressing lines between each gas column 2 can be communicated through the notches 202, the mould pressing lines between each gas column 2 can be vertically hot-pressed and formed in one of 3 modes as shown in fig. 5, the mould pressing lines between each gas column 2 can be communicated through the notches 202, the inflating ports 302 can be provided with inflating nozzles with covers as shown in fig. 3, 4 and 5, the inflating ports 302 can be blocked, the gas passages 3 can be communicated with one gas column 2 in the gas column area through one-way gas valve 303, the gas passages 3 can be communicated with the gas columns 2 corresponding to the gas column area through a plurality of one-way gas valves 303, when the gas passages 3, each gas column 2 can not leak gas, improves the life of buffering box, and the used repeatedly that fills the gassing to the box body can all be realized to above-mentioned three kinds of modes simultaneously.

In the description of the present invention, it should be understood that the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the indicated device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly connected, detachably connected, or integrated; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate medium, and may be connected through the inside of two elements or in an interaction relationship between two elements, unless otherwise specifically defined, and the specific meaning of the above terms in the present invention will be understood by those skilled in the art according to specific situations.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The box type buffer box structure comprises a single-piece type plastic film material (1) and is characterized in that the plastic film material (1) is sealed and synthesized into a plurality of gas columns (2) and air passages (3) through a gas column mould pressing line, the gas columns (2) form six gas column areas and four non-gas column areas, and the six gas column areas and the four non-gas column areas are folded and sealed and synthesized into the box type buffer box through hot-pressing suture lines (4) arranged on two sides of the plastic film material (1) after sealing and pressing are completed;

the gas column area comprises a front body plate gas column area (101), wherein the top ends of a plurality of gas columns (2) of the front body plate gas column area (101) are communicated with the inside of an air passage (3) through gas blocking valve films (301) connected in a heat sealing mode, the bottom ends of the plurality of gas columns (2) of the front body plate gas column area (101) are communicated with the top ends of a plurality of gas columns (2) of a bottom plate gas column area (102), the bottom ends of the plurality of gas columns (2) of the bottom plate gas column area (102) are communicated with the top ends of a plurality of gas columns (2) of a rear body plate gas column area (103), the bottom ends of the plurality of gas columns (2) of the rear body plate gas column area (103) are communicated with the top ends of a plurality of gas columns (2) of a cover body gas column area (104), a left body plate gas column area (105) and a right body plate gas column area (106) are symmetrically arranged on two sides of the rear body plate gas column area (103), and a gas column mold pressing line between a plurality of adjacent gas columns (2) of a left body plate gas column area (105) and a plurality of air column pressing lines The mould pressing line is provided with a plurality of gaps (202) which are used for staggered distribution and mutual communication of the gas columns (2), and the bottom ends of the gas columns (2) in the cover body gas column area (104) are sealed through the mould pressing line.

2. A box-type buffer box structure according to claim 1, wherein: the non-gas column area comprises a first non-gas column area (107) and a second non-gas column area (108) which are respectively heat-sealed at two sides of the bottom plate gas column area (102) through mould pressing lines, the non-gas column area further comprises a third non-gas column area (109) and a fourth non-gas column area (110) which are respectively heat-sealed at two sides of the cover body gas column area (104) through the mould pressing lines, and the top end of the third non-gas column area (109) and the top end of the fourth non-gas column area (110) are both provided with a notch (111).

3. A box-type buffer box structure according to claim 1, wherein: mould pressing points (201) are arranged at the communication positions of the plurality of gas columns (2) in the front body plate gas column area (101) and the plurality of gas columns (2) in the bottom plate gas column area (102), the communication positions of the plurality of gas columns (2) in the bottom plate gas column area (102) and the plurality of gas columns (2) in the rear body plate gas column area (103), and the communication positions of the plurality of gas columns (2) in the rear body plate gas column area (103) and the plurality of gas columns (2) in the cover body gas column area (104).

4. A box-type buffer box structure according to claim 1, wherein: be located a breach (202) that left side body board gas column district (105) rightmost side with be located through the breach (202) of seting up back body board gas column district (103) leftmost gas column (2) communicate each other, be located a breach (202) through seting up and being located right side body board gas column district (106) leftmost gas column (2) with be located back body board gas column district (103) rightmost side one gas column (2) communicate each other, and be located a plurality of breach (202) in left side body board gas column district (105) and a plurality of breach (202) positions that are located right side body board gas column district (106) are all relative.

5. A box-type buffer box structure according to claim 1, wherein: the middle of the top end of the air passage (3) is provided with an inflation inlet (302) communicated with the interior of the air passage, and the interior of the inflation inlet (302) is heat-sealed with a one-way air valve (303).

6. A box-type buffer box structure according to claim 2, wherein: the size of the first non-gas column area (107) is the same as that of the second non-gas column area (108), the length of the first non-gas column area (107) is equal to that of the bottom plate gas column area (102) while the length of the second non-gas column area (108) is equal to that of the bottom plate gas column area (102), the width of the first non-gas column area (107) is equal to that of the left plate gas column area (105) and that of the right plate gas column area (106) while the middle parts of the first non-gas column area (107), the second non-gas column area (108), the third non-gas column area (109) and the fourth non-gas column area (110) are provided with triangular crease lines.

7. A box-type buffer box structure according to claim 1, wherein: and a double-sided self-adhesive sticker (401) for sealing is adhered to one end, far away from the air passage (3), of the plastic film material (1).

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