CN104071456B - Buffering packaging structure - Google Patents

Buffering packaging structure Download PDF

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Publication number
CN104071456B
CN104071456B CN201410127379.2A CN201410127379A CN104071456B CN 104071456 B CN104071456 B CN 104071456B CN 201410127379 A CN201410127379 A CN 201410127379A CN 104071456 B CN104071456 B CN 104071456B
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China
Prior art keywords
framework
stiffener
those
pillar
pillar stiffener
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CN201410127379.2A
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CN104071456A (en
Inventor
苏宏积
吕幸真
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AU Optronics Corp
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AU Optronics Corp
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Priority to CN201610081889.XA priority Critical patent/CN105620920B/en
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65DCONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
    • B65D81/00Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
    • B65D81/02Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage
    • B65D81/05Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage maintaining contents at spaced relation from package walls, or from other contents
    • B65D81/127Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage maintaining contents at spaced relation from package walls, or from other contents using rigid or semi-rigid sheets of shock-absorbing material

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Buffer Packaging (AREA)

Abstract

A cushion packaging structure comprises a packaging body structure, a horizontal supporting structure and a top structure. The lower end of the packaging body structure forms a frame, the frame is provided with a plurality of corners, the top surface of each corner extends to form a hollow supporting column along the same normal direction, a reinforcing piece is arranged in each supporting column, and each reinforcing piece abuts against the inner side surface of the corresponding supporting piece. The horizontal supporting structure is connected to the supporting column of the packaging body structure so as to form a substantially rectangular accommodating space with the packaging body structure. The top structure is connected to the horizontal support structure.

Description

Buffer packing structure
Technical field
The invention relates to a kind of buffer packing structure, and relate to a kind of corrugation paper wood buffer packing structure especially.
Background technology
In recent years; the more beneficial precision of part design of most of electronic products inside; therefore when transporting electronic product, needing the outer packaging buffer packing structure at electronic product, using the protective capability for electronic product when shaking or fall because of carelessness when increasing transport, carrying.At present, buffer packing structure is mostly with made by hard paper material (such as fluting board) or some foamed plastic materials.Due to the consideration of environmental consciousness surging and cost gradually, not only the consumption of foamed plastic material requires to simplify, and the consumption of hard paper material also needs to phase down.
The buffer packing structure be made up of hard paper material is mostly made in the interlaced mode engaged of cardboard and cardboard, and when buffer packing structure has the demand of larger cushion effect, buffer packing structure can need a large amount of hard paper materials to increase its cushion effect usually.For the buffer packing structure of two-d display panel, when the size of display panel is larger, the hard paper material amount needed for buffer packing structure is considerable, but the effect of buffering may not be certain very desirable.Side by side, general buffer packing structure mostly needs to expend the much time when assembling, and the efficiency made cannot be promoted.
In view of this, when utilizing hard paper material to make buffer packing structure, needing the unitized design of improvement hard paper material further, reducing, promote make efficiency and promoting the object of the buffering effect of packaging structure to meet paper wood consumption simultaneously.
Summary of the invention
The invention provides a kind of buffer packing structure, reduce the material usage of buffer packing structure with the buffering effect of Promoting Layered Buffer packaging structure, can make efficiency be promoted simultaneously.
According to one embodiment of the invention, a kind of buffer packing structure comprises packaging book body structure, horizontal support structure and top structure.The bottom of packaging book body structure forms framework, and framework has several corner, and the end face of each corner extends the pillar stiffener of hollow along same normal direction, the inside of each pillar stiffener has stiffener, and each stiffener is connected to the medial surface of corresponding strut member.Horizontal support structure is connected to the pillar stiffener of packaging book body structure, to form substantially rectangular accommodation space with packaging book body structure.Top structure is connected to pillar stiffener.
In an embodiment of the present invention, the longitudinal cross-section of framework and the lateral cross section of pillar stiffener are hollow, rectangular face.
In an embodiment of the present invention, the structure that packaging book body structure bends by cardboard, cardboard has substantially rectangular opening, and cardboard comprises several framework folding portion and several pillar stiffener folding portion.Framework folding portion is connected to each other and around opening, in order to be combined to form framework.Pillar stiffener folding portion is formed at the junction in adjacent framework folding portion, in order to form pillar stiffener and stiffener, wherein pillar stiffener with the direction of the end face towards framework upset and and framework composition.
In an embodiment of the present invention, each pillar stiffener has at least one attachment lug, and the outside face of the sidewall of framework has the several location attachment lug of grooving for correspondence and is fitted and fixed with.
In an embodiment of the present invention, the end face of framework has several cell body, and has at least one tongue piece bottom each pillar stiffener, and tongue piece is in order to embed in cell body respectively.
In an embodiment of the present invention, the corner of the upper end of framework has several chimeric mouth, and each pillar stiffener bottom has at least one fitting portion, and the fitting portion of each pillar stiffener is in order to embed respectively in corresponding chimeric mouth.
In an embodiment of the present invention, each stiffener has the first plate body and the second plate body, first medial surface of the pillar stiffener that the surface contact of the first plate body is corresponding, the outer rim of the second plate body is connected to the coupling end of the second adjacent medial surface of corresponding pillar stiffener and the 3rd medial surface, 3rd medial surface is between the first medial surface and the second medial surface, and the second plate body and the first medial surface form acute angle.
In an embodiment of the present invention, each stiffener is bent to form a ㄩ type fitting, and the two side of each stiffener abuts the first relative medial surface of corresponding pillar stiffener and the second medial surface respectively.
In an embodiment of the present invention, horizontal support structure has at least two first horizontal support member and at least two second horizontal support member, and toward each other, and two second horizontal support member toward each other for two first horizontal support member.
In an embodiment of the present invention, each first horizontal support member connects the top of two adjacent pillar stiffeners, and each second horizontal support member connects between the top and bottom of two adjacent pillar stiffeners.
According to another embodiment of the present invention, a kind of buffer packing structure comprises packaging book body structure, horizontal support structure and top structure.Packaging book body structure comprises several ㄩ type strut member and several horizontal support rib, horizontal support rib connects the bottom of ㄩ type strut member respectively and forms framework, the end face of each ㄩ type strut member from its bottom extends two pillar stiffeners of hollow along same normal direction, wherein the inside of each pillar stiffener forms stiffener, and each stiffener is connected to the medial surface of corresponding strut member.Horizontal support structure is connected to the pillar stiffener of packaging book body structure, to form substantially rectangular accommodation space with packaging book body structure.Top structure is connected to horizontal support structure.
In an alternative embodiment of the invention, the longitudinal cross-section of the bottom of ㄩ type strut member and the lateral cross section of pillar stiffener are hollow, rectangular face.
In an alternative embodiment of the invention, the hollow support that each ㄩ type strut member bends by cardboard, each cardboard comprises horizontal ribs folding portion and two pillar stiffener folding portions.Horizontal ribs folding portion is in order to be combined to form the bottom of one of them of ㄩ type strut member, and combined horizontal strut member.Pillar stiffener folding portion, connects the opposite end in horizontal ribs folding portion, and in order to form pillar stiffener and stiffener, wherein pillar stiffener combines with the horizontal ribs folding portion after combination in order to the center position upset of the bottom of this ㄩ type strut member towards correspondence.
In an alternative embodiment of the invention, each pillar stiffener has at least one attachment lug, and the outside face of the sidewall of framework has several location grooving, is fitted and fixed with the attachment lug for correspondence.
In an alternative embodiment of the invention, the end face of framework has several cell body, and has tongue piece bottom each pillar stiffener, and tongue piece is in order to embed in cell body respectively.
In an alternative embodiment of the invention, the corner of the upper end of framework has several chimeric mouth, and each pillar stiffener bottom has fitting portion, and the fitting portion of each pillar stiffener is in order to embed respectively in corresponding chimeric mouth.
In an alternative embodiment of the invention, each this stiffener forms the first plate body and the second plate body, first plate body and the second plate body form angle, first medial surface of the pillar stiffener that the surface contact of the first plate body is corresponding, the outer rim of the second plate body is connected to the coupling end of the second adjacent medial surface of corresponding pillar stiffener and the 3rd medial surface, 3rd medial surface between the first medial surface and the second medial surface, and the second plate body and the first medial surface shape in an acute angle.
In an alternative embodiment of the invention, each this stiffener forms ㄩ type fitting, and the two side of each stiffener abuts the first relative medial surface of corresponding pillar stiffener and the second medial surface respectively.
In an alternative embodiment of the invention, horizontal support structure has at least two first horizontal support member and at least two second horizontal support member, and toward each other, and the second horizontal support member toward each other for the first horizontal support member.
In an alternative embodiment of the invention, each first horizontal support member connects the top of two adjacent pillar stiffeners, and each second horizontal support member connects between the top and bottom of two adjacent pillar stiffeners.
According to yet another embodiment of the invention, a kind of buffer packing structure, comprises packaging book body structure, horizontal support structure and top structure.The bottom of packaging book body structure forms framework, framework has several corner, the end face of each corner extends the pillar stiffener of hollow along same normal direction, the folding ground, inside of each pillar stiffener forms stiffener, and each stiffener is connected to the medial surface of corresponding strut member.Horizontal support structure is connected to the pillar stiffener of packaging book body structure, to form substantially rectangular accommodation space with packaging book body structure.Top structure is connected on two adjacent pillar stiffeners, and wherein top structure comprises top connection rib and cap structure.Top connection rib is connected to the top of two adjacent pillar stiffeners.Cap structure is articulated in the side of top connection rib, to overturn away from accommodation space relative to top connection rib.
In yet another embodiment of the invention, the longitudinal cross-section of framework and the lateral cross section of pillar stiffener are hollow, rectangular face.
In yet another embodiment of the invention, the structure that packaging book body structure bends by cardboard, cardboard has substantially rectangular opening, and cardboard comprises framework folding portion and pillar stiffener folding portion.Framework folding portion is connected to each other and around opening, in order to be combined to form framework.Pillar stiffener folding portion is formed at the junction in adjacent framework folding portion, in order to form pillar stiffener and stiffener, wherein pillar stiffener with the direction of the end face towards framework upset and and framework composition.
In yet another embodiment of the invention, pillar stiffener respectively connecting frame relative two limits and form ㄩ type strut member, the hollow support that each ㄩ type strut member bends by cardboard, each cardboard comprises horizontal ribs folding portion and pillar stiffener folding portion.Horizontal ribs folding portion is in order to be combined to form one side of framework.Pillar stiffener folding portion connects the opposite end in horizontal ribs folding portion in order to form pillar stiffener and stiffener, and wherein pillar stiffener combines with the horizontal ribs folding portion after folding in order to the center position upset of the bottom of this ㄩ type strut member towards correspondence.
Stiffener is formed, so as to strengthening the buffer capacity of buffer packing structure in the pillar stiffener of buffer packing structure of the present invention.Further, after buffer packing structure system goes out several component by least one paper wood folding, and then formed with other Component composition, less owing to assembling required component, thus the assembling of buffer packing structure also can reduce man-hour, to increase the make efficiency of buffer packing structure, also can reduce paper wood use amount simultaneously, contribute to the cost saving paper wood, also meet the demand of environmental protection.
Describe the present invention below in conjunction with the drawings and specific embodiments, but not as a limitation of the invention.
Accompanying drawing explanation
For of the present invention describing can be become apparent with other object, feature, advantage and embodiment, being described as follows of institute's accompanying drawings:
Fig. 1 illustrates the exploded drawings of a kind of buffer packing structure according to one embodiment of the invention.
Fig. 2 illustrates the manufacture method of the packaging book body structure of Fig. 1.
The pillar stiffener that Fig. 3 illustrates the packaging book body structure of Fig. 1 and framework in conjunction with time partial schematic diagram.
Fig. 4 illustrates the cutaway view of the pillar stiffener of the packaging book body structure of Fig. 1.
Fig. 5 illustrates the exploded drawings of a kind of buffer packing structure according to another embodiment of the present invention.
Fig. 6 A ~ Fig. 6 D illustrate Fig. 5 the flow chart of steps of manufacture method of ㄩ type strut member.
The pillar stiffener that Fig. 7 illustrates the ㄩ type strut member of Fig. 5 and its bottom in conjunction with time partial schematic diagram.
Fig. 8 illustrates the cutaway view of the pillar stiffener of the packaging book body structure of Fig. 5.
Fig. 9 A ~ Fig. 9 I illustrates the flow chart of steps of the manufacture method of the top structure of Fig. 5.
Wherein, Reference numeral:
10: buffer packing structure
10a: accommodation space
20: buffer packing structure
100: packaging book body structure
100a: cardboard
101: opening
110: framework
110a: framework folding portion
111a: the first folding portion
112: corner
112a: the second folding portion
114a: draw-in groove
114b: auricle
116a: breach
116b: breach
116: location grooving
118: cell body
120: pillar stiffener
120a: pillar stiffener folding portion
121a: the first medial surface
121b: the second medial surface
122a: combination slot
122b: assembly set
123: attachment lug
124: tongue piece
130: stiffener
131: sidewall
132: sidewall
200: horizontal support structure
210: the first horizontal support member
220: the second horizontal support member
221: the second draw-in grooves
300: top structure
310: cap structure
310a: cardboard
311: the three draw-in grooves
312: compounded plate
320: top connection rib
320a: cardboard
322: combination slot
400: holding part
401: the first draw-in grooves
500: packaging book body structure
501: ㄩ type strut member
501a: cardboard
502: horizontal support rib
510: framework
510a: horizontal ribs folding portion
512: corner
512a: chimeric mouth
516a: breach
516b: breach
516: location grooving
520: pillar stiffener
521: fitting portion
520a: pillar stiffener folding portion
521a: the first medial surface
521b: the second medial surface
521c: the three medial surface
523: attachment lug
530: stiffener
531: the first plate bodys
532: the second plate bodys
532a: end
514a: draw-in groove
514b: auricle
D1: rotating shaft
L1-L1 ': hatching
L2-L2 ': hatching
L3-L3 ': hatching
L4-L4 ': hatching
θ: acute angle
Detailed description of the invention
Please refer to Fig. 1, it illustrates the exploded drawings of a kind of buffer packing structure 10 according to one embodiment of the invention.As shown in Figure 1, buffer packing structure 10 comprises packaging book body structure 100, horizontal support structure 200 and top structure 300.Buffer packing structure 10 has a substantially rectangular accommodation space 10a.Carton (not shown) can be put into when buffer packing structure 10 uses so as to jointly packing article in accommodation space 10a, the protection of this product buffering is provided whereby.In addition, the cap structure 310 of top structure 300 has turn over function, outwards or inwardly can overturn along a rotating shaft D 1, when cap structure 310 outwards overturns, cap structure 310, away from accommodation space 10a, puts into article to accommodation space 10a or from accommodation space 10a pulling items so as to supplying user.Otherwise when article are positioned in accommodation space 10a, cap structure 310 inwardly overturns and covers, so as to being accommodated in accommodation space 10a by complete for article, to complete the action of connection with wrapping of piece.
Moreover the bottom of packaging book body structure 100 forms framework 110.Framework 110 has several corner 112, the end face of each corner 112 extends the pillar stiffener 120 of hollow along same normal direction, the inside of each pillar stiffener 120 has stiffener 130 (please refer to Fig. 4), each stiffener 130 is connected to the medial surface of corresponding pillar stiffener 120, strengthen the supporting capacity of each pillar stiffener 120 whereby, and then strengthen the buffer capacity of buffer packing structure 10 entirety.In the present embodiment, the longitudinal cross-section along hatching L1-L1 ' of framework 110 and pillar stiffener 120 are hollow, rectangular face along the lateral cross section of hatching L2-L2 ', but not as limit.
On the other hand, horizontal support structure 200 is connected to the pillar stiffener 120 of packaging book body structure 100, and forms substantially rectangular accommodation space 10a with packaging book body structure 100.In the present embodiment, horizontal support structure 200 has at least two first horizontal support member 210 and at least two second horizontal support member 220, first horizontal support member 210 toward each other, and the second horizontal support member 220 toward each other.Further describe, each first horizontal support member 210 connects the top of two adjacent pillar stiffeners 120, and each second horizontal support member 220 is connected between the top and bottom of other two adjacent pillar stiffeners 120, but not as limit.
Top structure 300 is connected to the top of pillar stiffener 120.Further describe, top structure 300 is connected on two adjacent pillar stiffeners 120, and wherein top structure 300 comprises cap structure 310 and top connection rib 320.Top connection rib 320 is connected to the top of two adjacent pillar stiffeners 120.Cap structure 310 is articulated in the side of top connection rib 320, opens accommodation space 10a to overturn away from along rotating shaft D 1 relative to top connection rib 320 or oppositely covers accommodation space 10a.
In this example, buffer packing structure 10 also can arrange a holding part 400 further, and holding part 400 is connected to wherein two relative edges of framework 110, after inserting accommodation space 10a for article, in being fixed on by these article whereby.In certain embodiments, the end face of holding part 400 can form several first draw-in groove 401, several second draw-in groove 221 of formation that second horizontal support member 220 of horizontal support structure 200 may correspond to, and several 3rd draw-in groove 311 of formation that the cap structure 310 of top structure 300 also may correspond to, by the first draw-in groove 401, second draw-in groove 221 and the 3rd draw-in groove 311 be the movable range of limits product (not shown) in accommodation space 10a jointly, move in accommodation space 10a to avoid article, impact that buffer packing structure 10 produces when being given a shock or collide can be reduced on the impact of article simultaneously.
Please refer to Fig. 2, it illustrates the manufacture method of the packaging book body structure 100 of Fig. 1.As shown in Figure 2, the structure that packaging book body structure 100 bends by cardboard 100a, cardboard 100a has substantially rectangular opening 101, and cardboard 100a comprises several framework folding portion 110a and several pillar stiffener folding portion 120a.Framework folding portion 110a is connected to each other and around opening 101, in order to be combined to form framework 110.Specifically, framework folding portion 110a comprises two relative the first folding portion 111a and two the second relative folding portion 112a, and wherein the first folding portion 111a is adjacent with the second folding portion 112a.First folding portion 111a is to become a hollow cylinder away from opening 101 direction upset folding.An end of the first folding portion 111a is provided with draw-in groove 114a simultaneously, its relative end has corresponding auricle 114b, therefore after as the first folding portion 111a, along broken line, folding becomes a hollow cylinder turningly, the configuration that auricle 114b plugs together the hollow cylinder that the first folding portion 111a is formed by corresponding draw-in groove 114a is whereby fixed.Second 112a system of folding portion forms a hollow cylinder to overturn folding towards opening 101 direction along broken line.After the second folding portion 112a forms a hollow cylinder, two breach 116a/116b on the second folding portion 112a can overlap each other and form a location grooving 116, and the end face of hollow cylinder that simultaneously the second folding portion 112a is formed has a cell body 118.Should be appreciated that, when the first folding portion 111a and the second folding portion 112a becomes hollow cylinder along the folding of broken line upset, several hollow cylinder jointly can be assembled and form framework 110.
Moreover, pillar stiffener folding portion 120a is formed at the junction of adjacent framework folding portion 110a, the junction of the first namely adjacent folding portion 111a and the second folding portion 112a, in order to form pillar stiffener 120 and stiffener 130 (please refer to Fig. 4) along broken line folding.In addition, pillar stiffener folding portion 120a has corresponding combination slot 122a and assembly set 122b.When pillar stiffener folding portion 120a along broken line turningly folding formed an inside there is the pillar stiffener 120 of stiffener 130 time, assembly set 122b can embed corresponding combination slot 122a, and the configuration of the pillar stiffener 120 formed by pillar stiffener folding portion 120a is fixed.In addition, each pillar stiffener 120 has at least one attachment lug 123, is fitted and fixed with several location grooving 116 of the outside face of the sidewall being positioned at framework 110.That is, pillar stiffener folding portion 120a is forming pillar stiffener 120 along broken line folding, and further with after the upset of the direction of the end face towards framework 110, the location grooving 116 that the attachment lug 123 of pillar stiffener 120 is fitted and fixed with framework 110 makes pillar stiffener 120 and framework 110 be assembled.
Further, referring to Fig. 3, its pillar stiffener 120 illustrating the packaging book body structure 100 of Fig. 1 and framework 110 in conjunction with time partial schematic diagram.In the present embodiment, the end face of framework 110 has several cell body 118, and has at least one tongue piece 124 bottom each pillar stiffener 120, and the tongue piece 124 of the present embodiment is two with the quantity of cell body 118, but not as limit.When tongue piece 124 can embed in cell body 118, the soundness after pillar stiffener 120 and framework 110 are assembled can be promoted.
Please refer to Fig. 4, illustrate the cutaway view of the pillar stiffener 120 of the packaging book body structure 100 of Fig. 1.As shown in Figure 4, stiffener 130 is bent to form a ㄩ type fitting, and the two side 131/132 of stiffener 130 abuts corresponding pillar stiffener 120 the first relative medial surface 121a and the second medial surface 121b respectively.The elastic force produced when stiffener 130 bends and replys, to strengthen supporting capacity and the buffer capacity of pillar stiffener 120.
Please refer to Fig. 5, it illustrates the exploded drawings of a kind of buffer packing structure 20 according to another embodiment of the present invention.As shown in Figure 5, the buffer packing structure 20 of the present embodiment and the architectural feature of the buffer packing structure 10 of the embodiment shown in Fig. 1 are mainly that the number of components forming packaging book body structure 500 is different.The packaging book body structure 500 of the present embodiment is assembled mutually by several ㄩ type strut member 501 and several horizontal support rib 502 and is formed.For example, the quantity of ㄩ type strut member 501 is two and the quantity of horizontal support rib 502 is two, but not as limit.On the other hand, the both ends of horizontal support rib 502 connect the bottom of ㄩ type strut member 501 respectively and form framework 510, and that is, framework 510 is jointly be made up of the bottom of ㄩ type strut member 501 and horizontal support rib 502.
The end face of each ㄩ type strut member 501 from its bottom extends two pillar stiffeners 520 of hollow along same normal direction, wherein the folding ground, inside of each pillar stiffener 520 forms stiffener 530 (please refer to Fig. 8), in order to strengthen the supporting capacity of pillar stiffener 520.In the present embodiment, the bottom of ㄩ type strut member 501 is all hollow, rectangular face along the longitudinal cross-section of hatching L3-L3 ' and pillar stiffener 520 along the lateral cross section of hatching L4-L4 '.
Please refer to Fig. 6 A ~ Fig. 6 D, its illustrate Fig. 5 the flow chart of steps of manufacture method of ㄩ type strut member 501.Each ㄩ type strut member 501 for cardboard 501a along broken line the hollow support that bends, each cardboard 501a comprises horizontal ribs folding portion 510a and two pillar stiffener folding portion 520a, and wherein two pillar stiffener folding portion 520a connect two opposed ends of horizontal ribs folding portion 510a respectively.Horizontal ribs folding portion 510a can form the bottom of ㄩ type strut member 501 after combining, and then combined horizontal ribs 502(please refer to Fig. 5) to form framework 510.In the present embodiment, after horizontal ribs folding portion 510a forms a hollow cylinder along broken line upset folding, two breach 516a/516b on horizontal ribs folding portion 510a can overlap each other and form a location grooving 516.
On the other hand, pillar stiffener folding portion 520a connects the opposite end of horizontal ribs folding portion 510a, in order to be combined to form pillar stiffener 520 and stiffener 530 turningly along broken line folding.Further, pillar stiffener 520 combines with the horizontal ribs folding portion 510a after combination along broken line upset in order to the center position of the bottom towards ㄩ type strut member 501.
Specifically, referring to Fig. 7, its pillar stiffener 520 illustrating the ㄩ type strut member 501 of Fig. 5 and its bottom in conjunction with time partial schematic diagram.As shown in FIG. 6 and 7, the end face of the corner 512 of the bottom of ㄩ type strut member 501 has several chimeric mouth 512a, and pillar stiffener 520 overturns in order to the center position of the bottom towards ㄩ type strut member 501.That is, bottom and the horizontal support rib 502 of ㄩ type strut member 501 are combined to form framework 510, and the corner 512 of the upper end of framework 510 has several chimeric mouth 512a.In addition, pillar stiffener 520 bottom has fitting portion 521, and the fitting portion 521 of pillar stiffener 520 can embed in corresponding chimeric mouth 512a.On the other hand, pillar stiffener 520 has at least one attachment lug 523, so as to embedding the location grooving 516 of the bottom of ㄩ type strut member 501.Location grooving 516 and the chimeric mouth 512a of fitting portion 521 embedding is embedded by attachment lug 523, fixing with the configuration assembling of the ㄩ type strut member 501 that cardboard 501a is formed after broken line upset folding.
Please refer to Fig. 8, it illustrates the cutaway view of the pillar stiffener 520 of the packaging book body structure 500 of Fig. 5.Should be appreciated that, please first get back to shown in Fig. 6, stiffener 530 and pillar stiffener 520 are combined along broken line folding by same pillar stiffener folding portion 520a.Shown in Fig. 8, stiffener 530 has the first plate body 531 and the second plate body 532, first medial surface 521a of the pillar stiffener 520 that the surface contact of the first plate body 531 is corresponding, the end 532a of the second plate body 532 is connected to the coupling end of pillar stiffener 520 the second adjacent medial surface 521b and the 3rd medial surface 521c, 3rd medial surface 521c is between the first medial surface 521a and the second medial surface 521b, and the second plate body 532 and the first medial surface 521a form acute angle theta.Abut the inside of pillar stiffener 520 by the first plate body 531 and the second plate body 532, supporting capacity and the buffer capacity of pillar stiffener 520 can be strengthened.Should be appreciated that, in other embodiments, as long as with reference to the structure design of Fig. 2 and Fig. 4 about pillar stiffener, and then the configuration of change cardboard, the stiffener 530 of pillar stiffener 520 inside of ㄩ type strut member 501 also can be designed to the configuration of the stiffener 130 of embodiment as shown in Figure 4.In other words, the stiffener 130 of pillar stiffener 120 inside shown in Fig. 1 also can be designed to the configuration of the stiffener 530 of the embodiment shown in Fig. 8, but not as limit.
Please refer to Fig. 9 A ~ Fig. 9 I, it illustrates the manufacture method of the top structure 300 of Fig. 5.Top structure 300 is combined by cap structure 310 and top connection rib 320.Cap structure 310 is assembled along broken line folding by cardboard 310a, and top connection rib 320 also assembles along broken line folding with a cardboard 310a.Further, utilize the compounded plate 312 of cap structure 310 to plug together the combination slot 322 of top connection rib 320, make cap structure 310 combine with top connection rib 320 and form top structure 300.Should be appreciated that, the top structure 300 described in the present embodiment is identical with the top structure 300 of the embodiment described in Fig. 1.In addition, simultaneously known with reference to Fig. 5, top structure 300 can push up connection rib 320 by two cap structures 310 and two and combine accordingly respectively, in certain embodiments, top structure 300 can push up connection rib 320 by a cap structure 310 and one and combine, but not as limit.
From the invention described above embodiment, application the present invention have the following advantages.Stiffener is formed, so as to strengthening the buffer capacity of buffer packing structure in the pillar stiffener of buffer packing structure.Further, after buffer packing structure system goes out several component by least one paper wood folding, and then formed with other Component composition, less owing to assembling required component, thus the assembling of buffer packing structure also can reduce man-hour, to increase the make efficiency of buffer packing structure, also can reduce paper wood use amount simultaneously, contribute to the cost saving paper wood, also meet the demand of environmental protection.
Certainly; the present invention also can have other various embodiments; when not deviating from the present invention's spirit and essence thereof; those of ordinary skill in the art can make various corresponding change and distortion according to the present invention, but these change accordingly and are out of shape the protection domain that all should belong to the claims in the present invention.

Claims (12)

1. a buffer packing structure, is characterized in that, comprises:
One packaging book body structure, the bottom of this packaging book body structure forms a framework, this framework has multiple corner, the end face of each this corner extends a pillar stiffener of hollow along same normal direction, the inside of each this pillar stiffener has a stiffener, and each this stiffener is connected to the medial surface of this corresponding strut member;
One horizontal support structure, is connected to those pillar stiffeners of this packaging book body structure, to form a substantially rectangular accommodation space with this packaging book body structure; And
One top structure, is connected to those pillar stiffeners;
Wherein, the structure that this packaging book body structure bends by the cardboard, this cardboard has a substantially rectangular opening, and this cardboard comprises:
Multiple framework folding portion, those framework folding portions are connected to each other and around this opening, in order to be combined to form this framework; And
Multiple pillar stiffener folding portion, is formed at the junction in those adjacent framework folding portions, in order to form those pillar stiffeners and those stiffeners, wherein those pillar stiffeners with the direction of the end face towards this framework upset and with this framework composition.
2. buffer packing structure according to claim 1, is characterized in that, the lateral cross section of the longitudinal cross-section of this framework and those pillar stiffeners is hollow, rectangular face.
3. buffer packing structure according to claim 1, it is characterized in that, each this pillar stiffener has at least one attachment lug, and the outside face of the sidewall of this framework has multiple location grooving, and those attachment lugs respectively correspondence are fitted and fixed with in those location groovings.
4. buffer packing structure according to claim 3, is characterized in that, the end face of this framework has multiple cell body, and has at least one tongue piece bottom each this pillar stiffener, and those tongue pieces embed in those cell bodies respectively.
5. buffer packing structure according to claim 3, it is characterized in that, those corners of the upper end of this framework have multiple chimeric mouth, and each this pillar stiffener bottom has at least one fitting portion, and this fitting portion of each this pillar stiffener embeds in this corresponding chimeric mouth respectively.
6. buffer packing structure according to claim 1, it is characterized in that, each this stiffener has one first plate body and one second plate body, this first plate body and this second plate body shape have angle, one first medial surface of this pillar stiffener that the surface contact of this first plate body is corresponding, the end abutment of this second plate body is in the coupling end of adjacent one second medial surface of this pillar stiffener of correspondence and one the 3rd medial surface, 3rd medial surface between this first medial surface and this second medial surface, and this second plate body and this first medial surface shape in an acute angle.
7. buffer packing structure according to claim 1, is characterized in that, each this stiffener forms a ㄩ type fitting, and the two side of each this stiffener abuts one first relative medial surface of this corresponding pillar stiffener and one second medial surface respectively.
8. buffer packing structure according to claim 1, it is characterized in that, this horizontal support structure has at least two first horizontal support member and at least two second horizontal support member, and toward each other, and this 2 second horizontal support member toward each other for this 2 first horizontal support member.
9. buffer packing structure according to claim 8, is characterized in that, each this first horizontal support member connects the top of this adjacent two pillar stiffener, and each this second horizontal support member connects between the top and bottom of this adjacent two pillar stiffener.
10. a buffer packing structure, is characterized in that, comprises:
One packaging book body structure, the bottom of this packaging book body structure forms a framework, this framework has multiple corner, the end face of each this corner extends a pillar stiffener of hollow along same normal direction, the folding ground, inside of each this pillar stiffener forms a stiffener, and each this stiffener is connected to the medial surface of this corresponding strut member;
One horizontal support structure, is connected to those pillar stiffeners of this packaging book body structure, to form a substantially rectangular accommodation space with this packaging book body structure; And
One top structure, be connected to this adjacent two pillar stiffener, wherein this top structure comprises:
One top connection rib, is connected to the top of this adjacent two pillar stiffener; And
One cap structure, is articulated in the side of this top connection rib, to overturn away from this accommodation space relative to this top connection rib;
Wherein, the structure that this packaging book body structure bends by the cardboard, this cardboard has a substantially rectangular opening, and this cardboard comprises:
Multiple framework folding portion, those framework folding portions are connected to each other and around this opening, in order to be combined to form this framework; And
Multiple pillar stiffener folding portion, is formed at the junction in those adjacent framework folding portions, in order to form those pillar stiffeners and those stiffeners, wherein those pillar stiffeners with the direction of the end face towards this framework upset and with this framework composition.
11. buffer packing structures according to claim 10, is characterized in that, the lateral cross section of the longitudinal cross-section of this framework and those pillar stiffeners is hollow, rectangular face.
12. buffer packing structures according to claim 11, it is characterized in that, those pillar stiffeners connect relative two limits of this framework respectively and form two ㄩ type strut members, the hollow support that each this ㄩ type strut member bends by the cardboard, and each this cardboard comprises:
One horizontal ribs folding portion, in order to be combined to form this framework; And
Two pillar stiffener folding portions, connect the opposite end in this horizontal ribs folding portion, in order to form those pillar stiffeners and those stiffeners, wherein those pillar stiffeners combine with this horizontal ribs folding portion after folding in order to the center position upset of the bottom of this ㄩ type strut member towards correspondence.
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CN112830099A (en) * 2021-02-26 2021-05-25 东莞旺诠纸品有限公司 Supporting member for packaging buffer material and production process thereof

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