CN101920815A - Damping device of packaging box - Google Patents

Abstract

The invention discloses a damping device of a packaging box, which comprises a connecting piece and at least one damping piece. The connecting piece is provided with a first side wall and a second side wall which are opposite, and a first fixing part is arranged on the connecting piece. The damping piece is arranged between the first side wall and the second side wall, a first fixing groove is arranged on the damping piece, the first fixing groove corresponds to the first fixing part so as to embed the fist fixing part and fix the damping piece on the connecting piece. The damping device of the packaging box is used for enhancing the structural correlation between a paper box and a damping material, improving the utilization rate of the damping space, and further reducing the probability of article damage when the paper box is compacted, the consumption of paper box materials and operations steps of assembling the paper box.

Description

The shock absorber of packing box

Technical field

The present invention relates to a kind of shock absorber, relate in particular to a kind of shock absorber of packing box.

Background technology

Article are when carrying, because the shock-absorbing buffering effect that carton itself can provide is limited, the operator can be incorporated into the padded coaming of tool buffering effect the both sides of article, and in the carton of packing into, article bump carton when shaking in can preventing to transport or move, and can reduce because of vibrating or take place the power that bump is produced.

Yet, because padded coaming only is positioned in the carton, do not have mutual connection relationship with carton, so carton can't be shared the suffered impact of padded coaming, also can't further provide extra buffering effect.Therefore; when carton when dropping or being subjected to clashing into; most impact will be absorbed by padded coaming; carton only fraction is shared the impact of padded coaming limitedly; so (buffer capacity that surpasses padded coaming) will cause the damage of article when impact is big than the buffer capacity of fender.

In addition, when carton in when assembling, the operator can be overlapped to reach the purpose of combination carton with two adjacent sides of carton.Yet when padded coaming was placed on the two ends of carton, fender added the cushion space that the overlapping thickness of upper paper box itself will be wasted carton, and simultaneously, the overlapping part of carton also repeats and waste carton material.

Therefore, how developing a solution, can effectively improve above-mentioned disappearance of bringing and inconvenience, is a present instant important topic to the associative operation person.

Summary of the invention

The objective of the invention is to disclose a kind of shock absorber of packing box, in order to the structural relationship of strengthening carton and padded coaming, promote the cushion space Occupation coefficient, and then when reducing carton and being impacted, cause the probability of article damage.

The shock absorber of packing box disclosed by the invention in order to reducing the consumption of carton material, and can reduce the control step of assembled cartons.

For achieving the above object, the invention provides a kind of shock absorber of packing box, comprising: a connection piece has one first side wall and one second side wall of opposite side, and also have one first fixed part on described attaching parts; And at least one damper element, be arranged between described first side wall and described second side wall, and has one first hold down groove on the described damper element, and described first hold down groove is corresponding with described first fixed part, embed for described first fixed part, so that described at least one damper element is fixed on the described attaching parts.

Further, described attaching parts has a bottom surface, described bottom surface connects described first side wall and described second side wall, and constitutes an accommodation space jointly with described first side wall and described second side wall, and wherein said first fixed position is in described first side wall.

Further, described first hold down groove is striden and is located on described damper element adjacent one first side and one second side, and parallel described first side wall of a normal direction of described first side, and described second side is towards described first side wall.

Further, described first fixed part comprises: one first connecting portion, extend towards described second side wall from described first side wall, and be positioned at described first hold down groove and support described damper element; And one first extension, extend towards described bottom surface from described first connecting portion, and be positioned at described first hold down groove.

Further, described first hold down groove is opened in the one side of described damper element towards described bottom surface.

Further, described first fixed part comprises: one first connecting portion, extend towards described second side wall from described first side wall, and outside described first hold down groove, support described damper element; One first extension extends towards described bottom surface from described first connecting portion; And one first fin, extend towards direction from described first extension, in order to embed in described first hold down groove back to described bottom surface.

Further, described attaching parts has a bottom surface, described bottom surface connects described first side wall and described second side wall, and constitutes an accommodation space jointly with described first side wall and described second side wall, and wherein said first fixed position is in described bottom surface.

Further, described first hold down groove is crossed on described damper element adjacent one first side and one second side, parallel described first side wall of a normal direction of described first side, and described second side is towards described bottom surface.

Further, described first fixed part comprises: one second fin, extend towards described accommodation space from described bottom surface, and be positioned at described first hold down groove.

Further, described first fixed part comprises: one second connecting portion, extend towards described accommodation space from described bottom surface, and be positioned at described first hold down groove; And one second extension,, be positioned at described first hold down groove and support described damper element towards described first side wall and described one of them extension of second side wall from described second connecting portion.

Further, described first fixed part comprises: one the 3rd fin, is positioned at described first hold down groove and supports described damper element towards described first side wall and wherein another extension of described second side wall from described second connecting portion.

Further, described first fixed part comprises: one the 4th fin, extend towards the direction back to described bottom surface from described second extension, and be positioned at described first hold down groove.

Further, described first hold down groove is opened in the one side of described damper element towards described bottom surface.

Further, described first fixed part comprises: one second fin, extend towards described accommodation space from described bottom surface, and the corresponding described first hold down groove setting, and embed in described first hold down groove.

Further, described first fixed part comprises: one second connecting portion, extend towards described accommodation space from described bottom surface; One second extension towards described first side wall and described one of them extension of second side wall, and supports described damper element from described second connecting portion outside described first hold down groove; And one the 4th fin, extend towards direction from described second extension back to described bottom surface, embed in described first hold down groove.

Further, described damper element also comprises: one second hold down groove; And described attaching parts also comprises: one second fixed part, be positioned at described second side wall, and corresponding with described second hold down groove, in order to embed in described second hold down groove.

Further, described first fixed part and described second fixed part are located at respectively on described first side wall and described second side wall alignedly or alternately.

Further, described damper element also comprises: one the 3rd hold down groove; And described attaching parts also comprises: one the 3rd fixed part, be positioned at described first side wall, corresponding with described the 3rd hold down groove, in order to embed described the 3rd hold down groove, more described first fixed part of wherein said the 3rd fixed part is near a bottom surface of described attaching parts.

Further, two described damper elements lay respectively at two opposite ends of described attaching parts.

Further, described damper element is fixed on two opposite ends of described attaching parts.

This shows that the shock absorber of packing box of the present invention comprises a connection piece and at least one damper element.Attaching parts has first side wall and second side wall of opposite side, and also has one first fixed part on attaching parts.Damper element is arranged between first side wall and second side wall, and has first hold down groove on the damper element, and first hold down groove is corresponding with first fixed part, embeds for first fixed part, uses that damper element is fixed on the attaching parts.In addition, attaching parts has a bottom surface, and the bottom surface connects first side wall and second side wall, and constitutes an accommodation space jointly with first side wall and second side wall.

Damper element of the present invention can be two damper elements of two opposite ends that lay respectively at attaching parts; Or be fixed in two opposite ends of this attaching parts for the single damper element of two opposite ends that is fixed in attaching parts.

According to design of the present invention, first fixed part can be positioned at first side wall.

According to design of the present invention, first hold down groove is striden and is located on this damper element adjacent one first side and one second side, parallel first side wall of a normal direction of first side wherein, and second side is towards first side wall.First fixed part comprises one first connecting portion and one first extension.First connecting portion extends towards second side wall from first side wall, is positioned at first hold down groove and supporting buffer member.First extension extends towards the bottom surface from first connecting portion, and is positioned at first hold down groove.

Change according to one of design of the present invention, first hold down groove is opened in the one side of damper element towards the bottom surface.First fixed part comprises one first connecting portion, one first extension and one first fin.First connecting portion extends towards second side wall from first side wall, supporting buffer member outside first hold down groove.First extension extends towards the bottom surface from first connecting portion.First fin extends towards the direction back to the bottom surface from first extension, in order to embed in first hold down groove.

According to design of the present invention, first fixed part can be positioned at the bottom surface.

According to design of the present invention, first hold down groove is striden and is located on damper element adjacent one first side and one second side, parallel first side wall of a normal direction of first side wherein, and second side is towards the bottom surface.First fixed part comprises one second fin.Second fin extends towards accommodation space from the bottom surface, and is positioned at first hold down groove.

In addition, first fixed part comprises one second connecting portion and one second extension.Second connecting portion extends towards accommodation space from the bottom surface, and is positioned at first hold down groove.Second extension towards first side wall and one of them extension of second side wall, is positioned at first hold down groove and supporting buffer member from second connecting portion.

During another changed, first fixed part was except that second connecting portion and second extension, and first fixed part also comprises one the 3rd fin.The 3rd fin towards first side wall and wherein another extension of second side wall, is positioned at first hold down groove and supporting buffer member from second connecting portion.

In the another variation, first fixed part is except that second connecting portion, second extension and the 3rd fin, and first fixed part comprises one the 4th fin.The 4th fin extends towards the direction back to the bottom surface from second extension, and is positioned at first hold down groove.

According to another variation of design of the present invention, first hold down groove is opened in the one side of damper element towards the bottom surface.First fixed part comprises one second fin.Second fin extends towards accommodation space from the bottom surface, the corresponding first hold down groove setting, and embed in first hold down groove.

In addition, first fixed part comprises one second connecting portion, one second extension and one the 4th fin.Second connecting portion extends towards accommodation space from the bottom surface.Second extension from second connecting portion towards first side wall and one of them extension of second side wall, and outside first hold down groove supporting buffer member.The 4th fin extends towards the direction back to the bottom surface from second extension, embeds in first hold down groove.

According to design of the present invention, damper element also comprises one second hold down groove.Attaching parts also comprises one second fixed part.Second fixed position is in second side wall, and is corresponding with second hold down groove, in order to embed in second hold down groove.Like this, first fixed part and second fixed part are located on first side wall and second side wall respectively alignedly or alternately.

According to design of the present invention, damper element also comprises one the 3rd hold down groove.Attaching parts also comprises one the 3rd fixed part.The 3rd fixed position is in first side wall, and is corresponding with the 3rd hold down groove, and in order to embed the 3rd hold down groove, wherein the 3rd fixed part is than the bottom surface of first fixed part near attaching parts.

In sum, the shock absorber of packing box of the present invention improves the structural strength of packing box; Simultaneously, the present invention reduces buffer distance, avoids the waste of repetition cushion space, to promote accommodation space; In addition, reduce paper using amount, reduce carton material, and then reach the control step that reduces assembled cartons, save built-up time.

The present invention is described in detail with detailed embodiment below in conjunction with accompanying drawing.

Description of drawings

Fig. 1 is the decomposing schematic representation of an embodiment of the shock absorber of packing box of the present invention and an outer box.

Fig. 2 is the decomposing schematic representation of another embodiment of the shock absorber of packing box of the present invention and an outer box.

Fig. 3 is the assembling scheme drawing of another embodiment of shock absorber of packing box of the present invention.

Fig. 4 is the decomposing schematic representation of another embodiment of shock absorber of packing box of the present invention.

Fig. 5 is the scheme drawing of a variation of first fixed part of the shock absorber of packing box of the present invention.

Fig. 6 is the lateral plan of the another embodiment of shock absorber of packing box of the present invention.

Fig. 7 A is the shock absorber of the packing box of the present invention decomposing schematic representation of an embodiment again.

Fig. 7 B is the decomposing schematic representation of the present invention's first fixed part extension from the variation of the embodiment of Fig. 7 A.

Fig. 7 C is the decomposing schematic representation of the present invention's first fixed part extension from the variation of the embodiment of Fig. 7 B.

Fig. 7 D is the decomposing schematic representation of the simultaneous embodiment of first fixed part of first fixed part of Fig. 7 A of the present invention and Fig. 2.

Fig. 8 A is the shock absorber of the packing box of the present invention decomposing schematic representation of an embodiment again.

Fig. 8 B is the decomposing schematic representation of the present invention's first fixed part extension from the variation of the embodiment of Fig. 8 A.

Fig. 8 C is the decomposing schematic representation of the simultaneous embodiment of first fixed part of first fixed part of Fig. 8 A of the present invention and Fig. 4.

[primary clustering nomenclature]

100: 373: the three fins of packing box

200: 374: the four fins of outer box

380: the second fixed parts of 210: the first buckling partss

300: 381: the three fixed parts of attaching parts

301: 390: the second buckling partss of fixed part

Side wall 400 in 310: the first: damper element

401: the first sides of 320: the second side walls

330: bottom surface 402,403: the second sides

331: 404: the three sides of opening port

340: accommodation space 405: article putting groove

406: the four sides of 350: the first fixed parts

Connecting portion 407 in 351: the first: projection

Extension 408 in 352: the first: hold down groove

Fin 410,420,430,440,450,460,470 in 353: the first:

360,370,375: the first fixed part first hold down grooves

465: depressed part

361: the second fins

468: groove

371: the second connecting portions

372: the second extensions 480,481: the second hold down grooves

The specific embodiment

Describe content of the present invention in detail below with reference to drawings clear, the personnel of any described technical field can make various corresponding changes and distortion according to the present invention, but not break away from spirit of the present invention and scope after understanding embodiments of the invention.

Fig. 1 figure is the assembling decomposing schematic representation of an embodiment of the shock absorber of packing box of the present invention and an outer box 200.

The present invention proposes a kind of shock absorber of packing box 100, and wherein shock absorber comprises attaching parts 300 and at least one damper element 400, and shock absorber is configured in the bottom surface of packing box 100, in the present embodiment shock absorber can be simultaneously as the bottom of packing box 100.

With reference to Fig. 1 and Fig. 2, in the embodiments of the invention, packing box 100 also comprises an outer box 200, and outer box 200 only has loam cake and four side covers, so the base section of present embodiment packing box 100 will be made of shock absorber.In addition, outer box 200 has a plurality of first buckling partss 210.Attaching parts 300 has a plurality of second buckling partss 390.By the mutual fastening of first buckling parts 210 and second buckling parts 390, outer box 200 is sleeved on the attaching parts 300, with the shock absorber that coats article and packing box in wherein.

During another changed, except box 200 is sleeved on the attaching parts 300, outer box 200 also can be sleeved on (not shown) on the damper element 400.

What need definition is, the material of damper element comprise polystyrene foamed (Expanded Polystyrene, EPS) or the expandability polyethylene (Expand aple poly ephylene, EPE) etc.In addition, attaching parts 300 the bests can be bent by stationery and be formed, and the fixed part 301 of attaching parts 300 can be from first side wall 310, second side wall 320 or bottom surface 330 turns down towards accommodation space and to form.But attaching parts 300 of the present invention is not limit only made by stationery, and plastics, metal, wood type also can be applicable among the present invention.

In sum, shock absorber comprises attaching parts 300 and at least one damper element 400, attaching parts 300 tools, one bottom surface 330 and be positioned at first side wall 310 and second side wall 320 of 330 two opposite sides, bottom surface.Have more a plurality of fixed parts 301 on the attaching parts 300.Damper element 400 is arranged between first side wall 310 and second side wall 320.Have a plurality of hold down grooves 408 on the damper element 400, these hold down grooves 408 are corresponding with these fixed parts 301 one by one, embed for cooresponding fixed part 301, so that damper element 400 is fixed on the attaching parts 300.Like this,, make that when packing box 100 was subjected to clashing into, attaching parts 300 can be shared the impact that damper element 400 is subjected to, and then reduce the probability of the institute's article of protecting damage because damper element 400 is fixed on the attaching parts 300.

Specifically, in an embodiment of the present invention, bottom surface 330 is rectangular, and first side wall 310 and second side wall 320 330 two opposite sides extend simultaneously in the same direction in the bottom surface.Wherein the two opposite sides in addition of bottom surface 330 do not have other side wall, and form an opening port 331 with first side wall 310 and second side wall 320 separately, make to constitute an open accommodation space 340 between bottom surface 330, first side wall 310 and second side wall 320 jointly.Because the two opposite sides in addition of bottom surface 330 are other side wall of tool not, thus, the material of its side wall just can be omitted in the two opposite sides in addition of attaching parts 300 relative bottom surfaces 330, and the thickness of the side wall of saving also can increase cushion space, so that place larger sized damper element 400, improve buffer capacity.

Damper element 400 can be the single damper element that is arranged in accommodation space 340 in an embodiment of the present invention, makes two opposite ends of this damper element 400 be fixed to two opposite ends (referring to Fig. 1) of attaching parts 300 respectively.

Fig. 2 is the assembling decomposing schematic representation of another embodiment of the shock absorber of packing box of the present invention and an outer box 200.

Compared to the single damper element of Fig. 1, damper element 400 is in another embodiment of the present invention, and its quantity also can be a plurality of, and for example two damper elements 400 are respectively in the accommodation space 340, and is positioned at two opposite ends of attaching parts 300.

Be convenient description hereinafter, these damper element 400 opposed facing one sides are called first side 401, promptly parallel first side wall 310 of a normal direction of first side 401 (being Y direction) and face in; Each damper element 400 is called second side 402,403 in the face of the one side of first side wall 310 or second side wall 320; Each damper element 400 all is called the 3rd side 404 in the face of the one side of this bottom surface 330, and each damper element 400 all is called the 4th side 406 back to the one side of this bottom surface 330.In addition, first side 401 and the 4th side 406 of each damper element 400 offer an article putting groove 405, and article putting groove 405 is in order to place the article (for example LCD screen) of desire carrying.

According to above description, the present invention will disclose a plurality of embodiment further to illustrate technical characterictic of the present invention.

Ginseng figure the 2nd and Fig. 3, Fig. 3 finishes scheme drawing for the assembling of another embodiment of shock absorber of packing box of the present invention.

The present invention is that first side wall 310 of open attaching parts 300 has a plurality of first fixed parts 350 in this embodiment, and for example two first fixed parts 350 lay respectively at two ends of first side wall 310.In addition, with respect to these first fixed parts 350 of first side wall 310, present embodiment provides a plurality of second fixed parts 380 symmetrically on second side wall 320, and for example two second fixed parts 380 lay respectively at two ends of second side wall 320.Each second fixed part 380 has in the present embodiment and is same as the above-mentioned structure of first fixed part 350.

Each first fixed part 350 comprises one first connecting portion 351 and one first extension 352 at least, wherein first connecting portion 351 from first side wall 310 direction towards second side wall 320 extend, and first extension 352 from first connecting portion 351 towards the bottom surface 330 direction extend.

Be same as the above-mentioned structure of first fixed part 350 because each second fixed part 380 has in the present embodiment, promptly each second fixed part 380 also has the structure that is same as first connecting portion 351 and first extension 352, so do not repeated to give unnecessary details at this.Be that example is illustrated only below with each first fixed part 350.

When present embodiment is that second side 402 that each damper element 400 extends to from first side 401 in the face of first side wall 310 offers one first hold down groove 410 when arranging in pairs or groups two opposite ends in attaching parts 300 with two damper elements 400.Promptly first hold down groove 410 stride be located at first side 401 with in the face of on second side 402 of first side wall 310, all corresponding first fixed part 350 of the position of first hold down groove 410 and external form and designing wherein.

When each damper element 400 respectively by two opening ports, 331 translations of attaching parts 300 when entering the accommodation space 340 of attaching parts 300 (referring to Fig. 2), each first fixed part 350 just embeds in cooresponding first hold down groove 410.

Specifically, first connecting portion 351 stretches in first hold down groove 410 and supporting buffer member 400, can limit damper element 400 and can't move towards the direction (being Z-direction) of opposite bottom surface 330.First extension 352 is positioned at first hold down groove 410, and first side wall 310 is close proximity to second side 402 of each damper element 400 simultaneously.Like this, first extension 352 and first side wall 310 can limit damper element 400 and can't move towards the direction (being X-direction) of parallel bottom surface 330.

In addition, when each first fixed part 350 embedded cooresponding first hold down groove 410, each damper element 400 can limit the direction (being Y direction) that damper element 400 can't continue towards another damper element 400 back to the one side of first side 401 and move.Therefore, each damper element 400 can be located in the accommodation space 340, produces when avoiding carrying and rocks.

Same, also have groove design on each damper element 400 corresponding to each second fixed part, 380 external form, wherein the direction that extends to from first side 401 in the face of second side 403 of second side wall 320 of each damper element 400 offers one second hold down groove 480.Second hold down groove 480 is striden and is located at first side 401 and faces on second side 403 of second side wall 320.Similarly, all corresponding second fixed part 380 of the position of second hold down groove 480 and external form and designing makes each second fixed part 380 also can embed in cooresponding second hold down groove 480.Yet, this paper only illustrates so that parallel first side wall 310 of a normal direction of damper element 400 and face inwardly are called first side 401, but be not limited to this, also parallel first side wall 310 of a normal direction of damper element 400 and face outwardly can be made as first side 401 (not drawing), the direction of its damper element 400 combined connecting components 300 then illustrates that with this paper institute is opposite.

Like this; shown in Figure 3 referring to seeing; when each damper element 400 as the above-mentioned accommodation space 340 that is located in attaching parts 300; in case packing box 100 (as Fig. 2) is because of dropping or being clashed into; because attaching parts 300 has mutual connection relationship with damper element 400, attaching parts 300 just can be shared the part impact that damper element 400 is impacted.Therefore, when packing box 100 when dropping or being subjected to clashing into, these first fixed parts 350, second fixed part 380, first side wall 310 and second side wall 320 just can be shared the impact of damper element 400 parts, and then strengthen the buffer capacity of damper element 400.

In addition, as shown in Figure 2, one of this embodiment can select in the variation, and each first fixed part 350 also comprises one first fin 353.First fin 353 from first extension 352 towards back to the bottom surface 330 direction extend.Therefore, when each first fixed part 350 embeds cooresponding first hold down groove 410, first fin 353 is positioned at first hold down groove 410, more can strengthen the structural strength of first fixed part 350, can't be towards the mobile stationkeeping ability of parallel bottom surface 330 directions (being X-direction) to improve restriction damper element 400.In the present embodiment, first fin, 353 preferable being formed by turning down from attaching parts 300.

Fig. 4 is the assembling decomposing schematic representation of another embodiment of shock absorber of packing box of the present invention.This another embodiment is first fixed part 350 of continuity Fig. 2, and each first fixed part 350 also comprises one first fin 353 except that first connecting portion 351 and first extension 352.First fin 353 from first extension 352 towards back to the bottom surface 330 direction extend and preferable being formed by turning down from attaching parts 300.

When present embodiment is when arranging in pairs or groups in two opposite ends of attaching parts 300 (damper element 400 only is shown among the figure) with two damper elements 400, first hold down groove 420 of each damper element 400 is the positions that are opened in above-mentioned the 3rd side 404 and are positioned at corresponding first fin 353, i.e. all corresponding first fin 353 of the position of first hold down groove 420 and size and designing.In addition, also convex with a projection 407 on the 3rd side 404 of damper element 400.

Similarly, with respect to these first fixed parts 350 of first side wall 310, present embodiment provides a plurality of second fixed parts 380 symmetrically on second side wall 320, and for example two second fixed parts 380 lay respectively at two ends of second side wall 320.Because having in the present embodiment, each second fixed part 380 is same as the above-mentioned structure of first fixed part 350, promptly each second fixed part 380 also has the structure that is same as first connecting portion 351, first extension 352 and first fin 353, so do not repeated to give unnecessary details at this.

Relatively, on the 3rd side 404 of each damper element 400, the opposite side of projection 407 relative first hold down grooves 420 also offers one second hold down groove 481.Similarly, all corresponding first fin 353 of the position of second hold down groove 481 and size and designing makes first fin 353 of each second fixed part 380 also can embed cooresponding second hold down groove 481.

When each damper element 400 respectively by attaching parts 300 tops, when a normal direction N of 330 vertically enters the accommodation space 340 of attaching parts 300 along the bottom surface, first fin 353 of each first fixed part 350 just embeds in cooresponding first hold down groove 420, and first connecting portion 351 leans the 3rd side 404 of damper element 400, and outside first hold down groove 420 supporting buffer member 400, first fin 353 of each second fixed part 380 just embeds in cooresponding second hold down groove 481, and first connecting portion 351 of each second fixed part 380 leans the 3rd side 404 of damper element 400, and outside first hold down groove 420 supporting buffer member 400; Simultaneously, a side of first extension 352 of each first fixed part 350 and each second fixed part 380 can be close proximity to two opposite faces of projection 407, and the bottom surface 330 of projection 407 these attaching partss 300 of contact of damper element 400.

At this moment, when article are positioned over the article putting groove 405 (referring to Fig. 2) of damper element 400, the weight of article can limit damper element 400 and can't move towards the direction (being Z-direction) of opposite bottom surface 330, and each first fixed part 350 can limit damper element 400 respectively with first fin 353 and can't move towards the direction (being X-direction) of parallel bottom surface 330 with first extension 352, first side wall 310 of each second fixed part 380, and the direction (being Y direction) that restriction damper element 400 can't continue towards another damper element (not shown) moves.Therefore, each damper element 400 can be positioned in the accommodation space 340 with being stabilized, produces when avoiding carrying and rocks.

Like this; as shown in Figure 4; when each damper element 400 as the above-mentioned accommodation space 340 that is located in attaching parts 300; in case packing box 100 (referring to Fig. 2) is because of dropping or being clashed into; because attaching parts 300 has mutual connection relationship with damper element 400, attaching parts 300 just can be shared the part impact that damper element 400 is impacted.Therefore, when packing box 100 when dropping or being subjected to clashing into, these first fixed parts 350, second fixed part 380, first side wall 310 and second side wall 320 just can be shared the impact of damper element 400 parts, and then strengthen the buffer capacity of damper element 400.

(not shown) in the design in addition, when first extension 352 against to bottom surface 330 time, also can share the impact of damper element 400 parts, strengthen the buffer capacity of damper element 400.

In addition, also can have a depressed part 465 on damper element 400, this kind embodiment for convenience of description is that the embodiment with Fig. 4 describes, and please refer to Fig. 4.Second side 402,403 that two depressed parts 465 are formed at each damper element 400 respectively makes when each damper element 400 enters the accommodation space 340 of attaching parts 300, the edge of first side wall 310 (or and second side wall 320) can stretch into each depressed part 465 respectively, make the side wall 310 of winning (or and second side wall 320) and the outside wall surface of damper element 400 can be mutually same plane, except that the effect that can reach the location, also can make when shock absorber is disposed at packing box 100 bottom surfaces, the contact surface of the two is more smooth, and is more certain in the assembling.

Among aforesaid each embodiment, have a plurality of first fixed parts 350 and a plurality of second fixed parts 380 (as shown in Figure 2) on first side wall 310 of attaching parts 300 and second side wall 320 symmetrically.

But the present invention is not limited only to this.Fig. 5 is the scheme drawing of a variation of first fixed part of the shock absorber of packing box of the present invention.Also can have a plurality of first fixed parts 350 and a plurality of second fixed parts 380 on first side wall 310 of attaching parts 300 and second side wall 320 alternately.Like this, when each damper element 400 translation ground or when vertically entering the accommodation space 340 of attaching parts 300 respectively, staggered first fixed part 350 and second fixed part 380 more can provide more uniform buffer capacity and positioning function.

Fig. 6 is the lateral plan of the another embodiment of shock absorber of packing box of the present invention.

Among this another embodiment, first side wall 310 or second side wall 320 perhaps on first side wall 310 and second side wall 320, also can provide at least one the 3rd fixed part 381 in addition.For instance, Fig. 6 provides the 3rd fixed part 381 on first side wall 310.The 3rd fixed part 381 relative first fixed parts 350 are more near the bottom surface 330 of attaching parts 300.In addition, the position of the 3rd fixed part 381 relative first fixed parts 350, but consistency from top to bottom first fixed part 350, promptly the 3rd fixed part 381 be positioned at first fixed part 350 under; Perhaps, the position of the 3rd fixed part 381 relative first fixed parts 350, consistency from top to bottom is not in first fixed part 350.

Under the embodiment of this embodiment, each damper element 400 also relatively offers cooresponding the 3rd hold down groove (not shown) to second side 402,403 respectively by first side 401.All corresponding the 3rd fixed part 381 of the position of the 3rd hold down groove and external form and designing makes the 3rd fixed part 381 also can embed in cooresponding the 3rd hold down groove.The 3rd fixed part 381 has the structure that is same as first fixed part 350 in the present embodiment, promptly the 3rd fixed part 381 also has the structure that is same as first connecting portion 351, first extension 352 (the 2nd figure) or is same as the structure of first connecting portion 351, first extension 352 and first fin 353 (the 4th figure), so do not repeated to give unnecessary details at this.

Fig. 7 A is the shock absorber of the packing box of the present invention assembling decomposing schematic representation of an embodiment again.For presenting the appearance of first fixed part 360 fully, 7A figure is second side wall 320 of clipped.Among this another embodiment of the present invention, be to have a plurality of first fixed parts 360 on the bottom surface 330 of open attaching parts 300.For example two first fixed parts 360 lay respectively at two ends (among the figure only signal wherein first fixed part 360 of an end) of bottom surface 330.Each first fixed part 360 330 extends towards accommodation space 340 from the bottom surface.First fixed part 360 has in the form of sheets second fin 361 for example.In addition, second fin 361 preferable by 330 being turned down and form from the bottom surface.

When present embodiment is during with two opposite ends of two damper elements 400 (among the figure only signal wherein a damper element 400) collocation at attaching parts 300, damper element 400 extends to the 3rd side 404 from first side 401 direction offers one first hold down groove 430, and promptly first hold down groove 430 is striden and is located at first side 401 and faces on the 3rd side 404 of bottom surface 330.All corresponding first fixed part 360 of the position of first hold down groove 430 and external form and designing.

Therefore, when damper element 400 by opening port 331 translations of attaching parts 300 when entering the accommodation space 340 of attaching parts 300, second fin 361 of each first fixed part 360 just embeds cooresponding first hold down groove 430.Like this, in damper element 400 was positioned in accommodation space 340, second fin 361 can help to locate damper element 400, restriction damper element 400 can't be inwardly and parallel bottom surface 330 directions (being X-direction) move, produce when avoiding carrying and rock.In addition, when packing box 100 when dropping or being subjected to clashing into, second fin 361 can provide support the strength of damper element 400, shares the impact of damper element 400 parts, and then strengthens the buffer capacity of damper element 400.

Fig. 7 B is the assembling decomposing schematic representation of the present invention's first fixed part extension from the variation of the embodiment of Fig. 7 A.Each first fixed part 370 is the variations of extending from first fixed part 360 of Fig. 7 A, and for presenting the appearance of first fixed part 370 fully, Fig. 7 B is second side wall 320 of clipped.

Each first fixed part 370 comprises one second connecting portion 371 and one second extension 372.Second connecting portion 371 330 extends towards accommodation space 340 from the bottom surface, for example in the form of sheets (as shown) or columns etc.Second extension 372 extends towards second side wall 320 from second connecting portion 371.In addition, each first fixed part 370 also comprises one the 3rd fin 373.The 3rd fin 373 is the extension of the direction towards first side wall 310 from second connecting portion 371.But, in the present embodiment, 370 preferable being formed of first fixed part by turning down from attaching parts 300.

When present embodiment is during with two opposite ends of two damper elements 400 (among the figure only signal wherein a damper element 400) collocation at attaching parts 300, each damper element 400 extends to the 3rd side 404 from first side 401 direction offers one first hold down groove 440.All corresponding first fixed part 370 of the position of first hold down groove 440 and external form and designing.

When each damper element 400 respectively by two opening ports, 331 translations of attaching parts 300 when entering the accommodation space 340 of attaching parts 300, each first fixed part 370 just embeds in cooresponding first hold down groove 440.

Specifically, second connecting portion 371, second extension 372 and the 3rd fin 373 all are positioned at first hold down groove 440, and supporting buffer member 400.So, second extension 372 and the 3rd fin 373 can limit damper element 400 and can't move towards the direction (being Z-direction) of opposite bottom surface 330, and second connecting portion 371, first side wall 310 can limit damper element 400 with second side wall 320 can't be mobile towards the direction (being X-direction) of parallel bottom surface 330; Add that each damper element 400 can limit the direction (being Y direction) that damper element 400 can't continue towards another damper element 400 back to the one side of first side 401 and move.Therefore, each damper element 400 can be located in the accommodation space 340, produces when avoiding carrying and rocks.

Fig. 7 C figure is the assembling decomposing schematic representation of the present invention's first fixed part extension from the variation of the embodiment of Fig. 7 B.First fixed part 375 is the variations of extending from first fixed part 370 of Fig. 7 B.For presenting the appearance of first fixed part 375 fully, second side wall 320 of Fig. 7 C clipped.Each first fixed part 375 also comprises one the 4th fin 374.The 4th fin 374 from second extension 372 towards back to the bottom surface 330 direction extend.Relatively, all corresponding first fixed part 375 of the position of first hold down groove 450 and external form and designing.Like this, when first fixed part 375 embedded cooresponding first hold down groove 450, the 4th fin 374 can more be strengthened the positioning function and the buffer capacity of attaching parts 300, and 374 preferable being formed by turning down from attaching parts 300 of the 4th fin.

By Fig. 7 A to Fig. 7 C as can be known, when each first fixed part extend more directly to or during horizontal fin, the positioning function of attaching parts 300 and buffer capacity are just good more.Therefore, the designer therefore idea design first fixed part that has more positioning function and buffer capacity.In addition, for increasing the positioning function and the buffer capacity of attaching parts 300, in further embodiment of this invention, each first fixed part wherein one changes in Fig. 7 A to Fig. 7 C, also can be in addition provides a plurality of aforesaid fixed parts and hold down groove (as Fig. 2) on first side wall 310 of attaching parts 300, second side wall 320.

For instance, referring to shown in Fig. 7 D.Fig. 7 D is the assembling decomposing schematic representation of the simultaneous embodiment of first fixed part of first fixed part of Fig. 7 A of the present invention and Fig. 2.Except that first fixed part 360 of Fig. 7 A, also can there be a plurality of first fixed part 350, first hold down groove 410, second fixed part 380, second hold down grooves 480 as described in Figure 2 on first side wall 310 of attaching parts 300.

Fig. 8 A is the assembling decomposing schematic representation of an embodiment again of the shock absorber of packing box of the present invention.

This again an embodiment be second fin 361 of continuity Fig. 7 A.External form with respect to second fin 361, first hold down groove 460 of each damper element 400 (only illustrate among the figure damper element 400) is the position that is opened in above-mentioned the 3rd side 404 and is positioned at corresponding second fin 361, i.e. all corresponding second fin 361 of the position of first hold down groove 460 and size and designing.

Like this, when damper element 400 respectively by attaching parts 300 tops when a normal direction N of its bottom surface 330 vertically enters the accommodation space 340 of attaching parts 300, second fin 361 of first fixed part 360 just embeds in cooresponding first hold down groove 460, and in first hold down groove 460 supporting buffer member 400, simultaneously, bottom surface 330 is close proximity to the 3rd side 404 of damper element 400, with fixing and supporting buffer member 400.

Like this, in damper element 400 was located in accommodation space 340, second fin 361 can help to locate damper element 400, and restriction damper element 400 can't move towards parallel bottom surface 330 directions, produced when avoiding carrying and rocked.In addition, when packing box 100 when dropping or being subjected to clashing into, second fin 361 can provide support the strength of damper element 400, shares the impact of damper element 400 parts, and then strengthens the buffer capacity of damper element 400.

Fig. 8 B figure is the assembling decomposing schematic representation that the present invention's first fixed part extends the variation under the embodiment of Fig. 8 A.

First fixed part 375 is the variations of extending from first fixed part 360 of Fig. 8 A, also comprises one second connecting portion 371, one second extension 372, one the 3rd fin 373 and one the 4th fin 374.Second connecting portion 371 330 extends towards accommodation space 340 from the bottom surface, for example in the form of sheets (as shown) or columns etc.Second extension 372 extends towards second side wall 320 from second connecting portion 371.The 3rd fin 373 is the extension of the direction towards first side wall 310 from second connecting portion 371.The 4th fin 374 from second extension 372 towards back to the bottom surface 330 direction extend.In addition, the 3rd fin 373 can form from 371 turnovers of second connecting portion; The 4th fin 374 can turn down from second extension 372 and form.

External form with respect to first fixed part 375, the 3rd side 404 of damper element 400 (only illustrate among the figure damper element 400) has a groove 468, corresponding first fixed part 375 of the position of groove 468 and size and designing, first hold down groove 470 is the bottoms that are opened in groove 468, and corresponding the 4th fin 374 of the position of first hold down groove 470 and size and designing.

Like this, when damper element 400 respectively by attaching parts 300 tops when a normal direction N of its bottom surface 330 vertically enters the accommodation space 340 of attaching parts 300, first fixed part 375 stretches in the groove 468, and in first hold down groove 470 that the 4th fin 374 embeds in the groove 468, thereby second connecting portion 371, second extension 372 and the 3rd fin 373 all can be fixed and supporting buffer member 400.

At this moment, when article are positioned over the article putting groove 405 (referring to Fig. 2) of damper element 400, the weight of article can limit damper element 400 and can't move towards the direction (being Z-direction) of opposite bottom surface 330, and first fixed part 375 that is positioned at groove 468 can limit damper element 400 and can't move towards the direction (being X and Y direction) of parallel bottom surface 330, and restriction damper element 400 continues to move towards another damper element (not shown).Therefore, each damper element 400 can be located in the accommodation space 340, produces when avoiding carrying and rocks.Similarly, when packing box 100 when dropping or being subjected to clashing into, each first fixed part 375 can be shared the impact of damper element 400 parts with bottom surface 330, and then strengthens the buffer capacity of damper element 400.

In addition, for increasing the positioning function and the buffer capacity of attaching parts 300, in further embodiment of this invention, first fixed part wherein one changes in Fig. 8 A to Fig. 8 B, also can be in addition provides a plurality of aforesaid fixed parts and hold down groove (as shown in Figure 3) on first side wall 310 of attaching parts 300, second side wall 320.

For instance, referring to shown in Fig. 8 C.Fig. 8 C is the assembling decomposing schematic representation under the simultaneous embodiment of first fixed part of first fixed part of Fig. 8 A of the present invention and Fig. 4.Except that first fixed part 360 of Fig. 8 A, also can there be a plurality of first fixed part 350, first hold down groove 420, second fixed part 380, second hold down grooves 481 as described in Figure 4 on first side wall 310 of attaching parts 300.But, when attaching parts 300 has a plurality of fixed parts and hold down groove simultaneously, all need identically in this structure that does not also limit a plurality of fixed parts, the combination of different structure can be arranged according to demand, also can form a plurality of hold down grooves of different counter structures simultaneously.

In sum, because the attaching parts and the damper element of the shock absorber of packing box of the present invention have mutual connection relationship, make the shock absorber of packing box of the present invention can improve the structural strength of packing box; Simultaneously, the present invention replaces side wall with damper element, except the thickness that reduces side wall, also can save the space, dead angle that in the past formed between the damper element and side wall, the cushion space that is increased, and can avoid the space waste and promote accommodation space; In addition, the shock absorber of packing box of the present invention also can reduce paper using amount, reduces carton material, and then reaches the control step that reduces assembled cartons, saves built-up time.

As above each embodiment disclosed in this invention; do not limit the present invention; those of ordinary skill in the art; under the premise without departing from the spirit and scope of the present invention; can make various corresponding changes and distortion to the present invention, but these changes and distortion should belong to all in the scope that claims of the present invention and equivalent thereof protect.

Claims (20)

1. the shock absorber of a packing box comprises:

A connection piece has one first side wall and one second side wall of opposite side, and also have one first fixed part on described attaching parts; And

At least one damper element, be arranged between described first side wall and described second side wall, and has one first hold down groove on the described damper element, and described first hold down groove is corresponding with described first fixed part, embed for described first fixed part, so that described at least one damper element is fixed on the described attaching parts.

2. the shock absorber of packing box as claimed in claim 1, it is characterized in that, described attaching parts has a bottom surface, described bottom surface connects described first side wall and described second side wall, and constituting an accommodation space with described first side wall and described second side wall are common, wherein said first fixed position is in described first side wall.

3. the shock absorber of packing box as claimed in claim 2, it is characterized in that, described first hold down groove is striden and is located on described damper element adjacent one first side and one second side, and parallel described first side wall of a normal direction of described first side, described second side is towards described first side wall.

4. the shock absorber of packing box as claimed in claim 3 is characterized in that, described first fixed part comprises:

One first connecting portion extends towards described second side wall from described first side wall, is positioned at described first hold down groove and supports described damper element; And

One first extension extends towards described bottom surface from described first connecting portion, and is positioned at described first hold down groove.

5. the shock absorber of packing box as claimed in claim 2 is characterized in that, described first hold down groove is opened in the one side of described damper element towards described bottom surface.

6. the shock absorber of packing box as claimed in claim 5 is characterized in that, described first fixed part comprises:

One first connecting portion extends towards described second side wall from described first side wall, supports described damper element outside described first hold down groove;

One first extension extends towards described bottom surface from described first connecting portion; And

One first fin extends towards the direction back to described bottom surface from described first extension, in order to embed in described first hold down groove.

7. the shock absorber of packing box as claimed in claim 1, it is characterized in that, described attaching parts has a bottom surface, described bottom surface connects described first side wall and described second side wall, and constituting an accommodation space with described first side wall and described second side wall are common, wherein said first fixed position is in described bottom surface.

8. the shock absorber of packing box as claimed in claim 7, it is characterized in that, described first hold down groove is crossed on described damper element adjacent one first side and one second side, parallel described first side wall of a normal direction of described first side, and described second side is towards described bottom surface.

9. the shock absorber of packing box as claimed in claim 8 is characterized in that, described first fixed part comprises:

One second fin extends towards described accommodation space from described bottom surface, and is positioned at described first hold down groove.

10. the shock absorber of packing box as claimed in claim 8 is characterized in that, described first fixed part comprises:

One second connecting portion extends towards described accommodation space from described bottom surface, and is positioned at described first hold down groove; And

One second extension, is positioned at described first hold down groove and supports described damper element towards described first side wall and described one of them extension of second side wall from described second connecting portion.

11. the shock absorber of packing box as claimed in claim 10 is characterized in that, described first fixed part comprises:

One the 3rd fin, is positioned at described first hold down groove and supports described damper element towards described first side wall and wherein another extension of described second side wall from described second connecting portion.

12. the shock absorber of packing box as claimed in claim 10 is characterized in that, described first fixed part comprises:

One the 4th fin extends towards the direction back to described bottom surface from described second extension, and is positioned at described first hold down groove.

13. the shock absorber of packing box as claimed in claim 7 is characterized in that, described first hold down groove is opened in the one side of described damper element towards described bottom surface.

14. the shock absorber of packing box as claimed in claim 13 is characterized in that, described first fixed part comprises:

One second fin extends towards described accommodation space from described bottom surface, the corresponding described first hold down groove setting, and embed in described first hold down groove.

15. the shock absorber of packing box as claimed in claim 13 is characterized in that, described first fixed part comprises:

One second connecting portion extends towards described accommodation space from described bottom surface;

One second extension towards described first side wall and described one of them extension of second side wall, and supports described damper element from described second connecting portion outside described first hold down groove; And

One the 4th fin extends towards the direction back to described bottom surface from described second extension, embeds in described first hold down groove.

16. the shock absorber as claim 2 or 7 described packing boxes is characterized in that, described damper element also comprises:

One second hold down groove; And

Described attaching parts also comprises:

One second fixed part is positioned at described second side wall, and is corresponding with described second hold down groove, in order to embed in described second hold down groove.

17. the shock absorber of packing box as claimed in claim 16 is characterized in that, described first fixed part and described second fixed part are located at respectively on described first side wall and described second side wall alignedly or alternately.

18. the shock absorber of packing box as claimed in claim 1 is characterized in that, described damper element also comprises:

One the 3rd hold down groove; And

Described attaching parts also comprises:

One the 3rd fixed part is positioned at described first side wall, and is corresponding with described the 3rd hold down groove, and in order to embed described the 3rd hold down groove, more described first fixed part of wherein said the 3rd fixed part is near a bottom surface of described attaching parts.

19. the shock absorber of packing box as claimed in claim 1 is characterized in that, two described damper elements lay respectively at two opposite ends of described attaching parts.

20. the shock absorber of packing box as claimed in claim 1 is characterized in that, described damper element is fixed on two opposite ends of described attaching parts.

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