CN101190736B - Buffering packaging apparatus single selvage capable of being spread - Google Patents

Abstract

The invention discloses a cushion packaging device the single edge of which can be flattened and the device comprises two cushion modules and each cushion module comprises a main cushion unit and a folding cushion unit. The main cushion unit comprises two first encircling walls, a second encircling wall and a base plate which comprises two first peripheries which are parallel to a first line and relative to each other and a second periphery which is parallel to a second line, wherein, the first line and the second line vertically intersect at the geometric center of the base plate. The foldingcushion unit is attached to the base plate and comprises a movable wall which extends far away from the basic plate along the first line to the direction opposite to the second encircling wall. The movable wall can rotate between a flattening position and an upright position opposite to the base plate to lead the cushion modules to be correspondingly combined into a first packaging condition or asecond packaging condition.

Description

The monolateral buffering and packaging apparatus that shakeouts

Technical field

The present invention relates to a kind of buffering and packaging apparatus, particularly relate to a kind of monolateral buffering and packaging apparatus that shakeouts that is applicable to the different things to be packaged of packing.

Background technology

General common on the market computer housing has suitable plurality of specifications, comprise that into the rank technology expands (Advanced Technology Extended, ATX), MicroATX, balancing technique expand (BalancedTechnology Extended, BTX), MicroBTX or the like, wherein, modal still Intel formulates the ATX specification in nineteen ninety-five.According to the casing that the ATX specification is produced, 7 expansion slots (Slot), 3.5 o'clock storage facilitiess more than three must be able to be installed, and 5.25 o'clock storage facilitiess more than three, total volume is approximately more than 15 liters.When most computer housing maker makes casing according to the ATX specification, all make with integrally formed notion die sinking, therefore during shipment, each computer housing the volume that must occupy want at least more than 15 liters, coat the packing of buffering usefulness if add the outside, be common in the Polaroid material buffering side plate 1 of computer housing folder being established packing as shown in Figure 1, will make the volume of each computer housing commodity will be up to more than 20 liters.

Therefore, the computer housing after another improvement can be taken each side plate of this computer housing apart, reaches the demand of leveling, up to the path merchant install various spare part in the computer housing after, again this computer housing is assembled.Thus, new computer housing reduces the volume when computer housing is by maker's shipment originally really significantly, but as mentioned above, after the computer housing assembling, the profile of whole computer housing is existing significantly to be changed, the path merchant must prepare suitable shock-resistant packaging material separately and use for the computer housing after assembling, just can be transported in client's the hand, certainly will cause the increase of packing cost, use packing also to increase doubt in the environmental protection in addition in a large number, therefore, be necessary to seek solution.

Summary of the invention

Therefore, the object of the present invention is to provide a kind of buffering and packaging apparatus that can monolaterally shakeout.

So the monolateral buffering and packaging apparatus that shakeouts of the present invention comprises two buffer modules, each buffer module comprises a main buffer cell and a folding buffer cell.

This main buffer cell has a substrate, 2 first surrounding walls and one second surrounding wall.This substrate has two and 1 first straight line parallel and first periphery respect to one another, and second periphery of one and 1 second straight line parallel, and wherein this first straight line and second straight line are vertically intersected on this substrate geometric centre.This first surrounding wall, along this second linear interval arrange and certainly this substrate periphery perpendicular distal from extension.From extension, and both sides are connected with the lateral margin of described first surrounding wall respectively this second surrounding wall from this substrate periphery perpendicular distal.

Should be attached on this substrate by folding buffer cell, and has a direction along this first straight line in contrast to this second surrounding wall away from the removable wall that extends outside this substrate, this removable wall can shakeout between a position and a upright position in one with respect to this substrate and rotate, so that described buffer module is combined into one first packed state or one second packed state accordingly.

When first packed state, removable wall that should folding buffer cell is parallel with the substrate of this main buffer cell to be this and to shakeout the position, and described buffer module is along this first straight line turned upside down before and after the ground that cooperatively interacts, and arbitrary removable wall is covered on described first surrounding wall of main buffer cell of another buffer module and the apical margin of this second surrounding wall.

When second packed state, the removable wall that should fold buffer cell is vertical with the substrate of this main buffer cell, the removable wall of the substrate of the main buffer cell of each buffer module, described first surrounding wall, this second surrounding wall and this folding buffer cell is around a hold down groove, and described buffer module is provided with described hold down groove relative to one another at interval.

Effect of the present invention is to change described buffer module and is this first packed state or this second packed state, can pack the thing to be packaged of different volumes, provides maker's sufficient elasticity to pack its product, and can reach the environmental protection effectiveness of saving the packing use.

Description of drawings

Fig. 1 is a block diagram, and it illustrates the existing buffering side plate that the packaging computer casing is used that is used for;

Fig. 2 is a three-dimensional exploded view, the preferred embodiment of the monolateral buffering and packaging apparatus that shakeouts of its explanation the present invention;

Fig. 3 is a birds-eye view, and it illustrates the buffer module of this preferred embodiment;

Fig. 4 is a side sectional view, and it illustrates that this preferred embodiment is in first packed state;

Fig. 5 is a schematic perspective view, and it illustrates that this preferred embodiment is in this first packed state;

Fig. 6 is a vertical view cutaway drawing, and it illustrates that this preferred embodiment is in second packed state;

Fig. 7 is a schematic perspective view, and it illustrates that this preferred embodiment is in this second packed state; And

Fig. 8 is a side sectional view, and it illustrates a wherein buffer module of this second packed state.

The main element nomenclature:

2 buffer modules

3 main buffer cells

31 substrates

311 first peripheries

312 second peripheries

313 extraction apertures

314 buckling grooves

32 first surrounding walls

33 second surrounding walls

331 draw-in grooves

4 folding buffer cells

40 removable walls

401 first wall portions

402 second wall portions

41 first folding lines

42 second folding lines

43 buckling partss

44 perforation

5 damper elements

6 fixed plates

7 computer housings

71 side plates

8 hold down grooves

L1 first straight line

L2 second straight line

S length

The specific embodiment

About aforementioned and other technology contents, characteristics and effect of the present invention, in the following detailed description that cooperates with reference to a graphic preferred embodiment, can clearly present.

Consult Fig. 2, Fig. 3, the preferred embodiment of the monolateral buffering and packaging apparatus that shakeouts of the present invention comprises two buffer modules 2.

Each buffer module 2 comprises main buffer cell 3, one folding buffer cell 4, a damper element 5 and two fixed plates 6.

This main buffer cell 3 has a substrate 31,2 first surrounding walls 32, and one second surrounding wall 33.This substrate 31 has two and respect to one another first periphery 311, with one second straight line L2 parallel second peripheries 312 parallel with one first straight line L1, two and is spaced and is positioned at the extraction aperture 313 of the second straight line L2 opposition side along the first straight line L1, and two are located at the lateral margin of this substrate 31 and are positioned at the buckling groove 314 of this first straight line L1 opposition side.Wherein this first straight line L1 and the second straight line L2 are vertically intersected on the geometric centre of this substrate 31.Described first surrounding wall 32 along this second straight line L2 be spaced and certainly these substrate 31 peripheries extend vertically upward.This second surrounding wall 33 is positioned at the periphery that described buckling groove 314 tosses about from this substrate 31 and extends vertically upward, and the both sides of this second surrounding wall 33 are connected with the lateral margin of described first surrounding wall 32 respectively, and the apical margin of this second surrounding wall 33 also forms two draw-in grooves 331 that are positioned at this first straight line L1 both sides.Described first surrounding wall 32 and this second surrounding wall 33 connect the back and form the U font.In addition, in this preferred embodiment, this main buffer cell 3 is that the Polaroid material is made.

Should be attached at this substrate 31 bottom surfaces by folding buffer cell 4, and have a direction along this first straight line L1 in contrast to this second surrounding wall 33 away from the removable wall 40 that extends outside this substrate 31.Wherein, the folding buffer cell 4 of each buffer module 2 have parallel second a straight line L2 and fold along the substrate 31 of this main buffer cell 3 and this buffer cell 4 removable wall 40 intersection and be positioned at first folding line 41 between described first surrounding wall, 32 lateral margins, two away from this substrate 31 and parallel this first folding line 41 and with this first folding line 41 second folding line 42 of a length S at interval, this length S equals the distance of 31 of these first surrounding wall, 32 apical margins and this substrates, and two are formed at a plurality of buckling partss 43 of this folding buffer cell 4 away from the outer rim of these substrate 31 directions.In addition, this removable wall 40 has one and is positioned at a first wall portion 401 of 42 of this first folding line 41 and described second folding lines, and is positioned at described second folding line 42 and this removable wall 40 one second wall portion 402 away from the lateral margin of this substrate 31.In this preferred embodiment, the folding buffer cell 4 of described buffer module 2 is the millboard material.In addition, this folding buffer cell 4 is for fear of the described extraction aperture 313 of the substrate 31 that covers this main buffer cell 3, and therefore corresponding formation two bores a hole 44.

These damper element 5 glutinous being located on the described folding buffer cell 4, and be positioned at the second wall portion 402 of the removable wall 40 of this folding buffer cell 4.In addition, this damper element 5 is shockproof Polaroid material.

Described fixed plate 6 glutinous first surrounding wall, 32 lateral surfaces of being located at the main buffer cell 3 of described buffer module 2, and extend away from the direction of second surrounding wall 33 of this main buffer cell 3.

Consult Fig. 5, Fig. 7, described buffer module 2 can cooperate the different conditions of a computer housing 7 to pack accordingly, and this computer housing 7 comprises a plurality of side plates 71, and described side plate 71 detachably is blocks of stacked mutually so that save volume.Removable wall 40 that should folding buffer cell 4 can shakeout between a position and a upright position in one with respect to this substrate 31 and rotate, so that described buffer module 2 is combined into one first packed state or one second packed state and the same attitude of this computer housing 7 is carried out correspondence pack.

Consult Fig. 4, Fig. 5, when first packed state, described buffer module 2 is along this first straight line L1 turned upside down before and after the ground that cooperatively interacts, and the removable wall 40 of the folding buffer cell 4 of arbitrary buffer module 2 is covered on described first surrounding wall 32 of another buffer module 2 and the apical margin of this second surrounding wall 33, and described buckling parts 43 clips that make the folding buffer cell 4 of a buffer module 2 wherein are in the draw-in groove 331 of second surrounding wall 33 of the main buffer cell 2 of another buffer module 2.

This computer housing 7 is to take apart blocks of side plate 71 stacked mutually when maker's shipment, and just can use the first above-mentioned packed state to pack this computer housing 7 this moment.As shown in Figure 4, this computer housing 7 entirely is closed in the described buffer module 2 formed rooms, sufficient buffer protection is provided.

Consult Fig. 6, Fig. 7, when second packed state, the removable wall 40 of the substrate 31 of the main buffer cell 3 of each buffer module 2, described first surrounding wall 32, this second surrounding wall 33 and this folding buffer cell 4 is around a hold down groove 8, described buffer module 2 is provided with described hold down groove 8 relative to one another at interval, and these computer housing 7 folders are established packing.This removable wall is positioned at this stand up position 40 this moments, and its upright stack-mounted method is as follows:

Consult Fig. 3, Fig. 6, wherein Fig. 3 can be considered the state that this first packed state is formed in a wherein buffer module 2 preparations.At first, be S. A. with the removable wall 40 of this folding buffer cell 4 with this first folding line 41, with the upwards bending of first wall portion 401 of this removable wall 40;

Then, consult Fig. 3, Fig. 6, Fig. 8, to the bending of removable wall 40 directions of this folding buffer cell 4, and the first wall portion 401 of cemented removable wall 40 in this folding buffer cell 4 is towards one of the substrate 31 of this main buffer cell 3 side with described fixed plate 6; Then, utilize described second folding line 42 that the second wall portion 402 of this removable wall 40 is bent again downwards, establish and cemented this fixed plate 6 with these first wall portion 401 folders;

Then, this removable wall 40 of the substrate 31 of the main buffer cell 3 of each buffer module 2, described first surrounding wall 32, this second surrounding wall 33 and this folding buffer cell 4 is around forming this hold down groove 8, and described buffer module 2 reaches the effect of this computer housing 7 of packing with described hold down groove 8;

At last, with the described buckling parts 43 of this folding buffer cell 4 and the described buckling groove 314 mutual clips of the substrate 31 of this main buffer cell 3.

After computer housing 7 is assembled the state that becomes solid by the side plate 71 of slices, can use second packed state to pack this computer housing 7, as shown in Figure 7, this computer housing 7 is clamped in 2 of described buffer modules, to reach the purpose of buffering package.

In sum, the monolateral buffering and packaging apparatus that shakeouts of the present invention, really can change its stack-mounted mode, the article of packing different volumes, when first packed state, can effectively save volume, when second packed state, can pack the article of larger volume and do not need the more packing of transducer package.

But above-described only is preferred embodiment of the present invention, when not limiting scope of the invention process with this, promptly the simple equivalent of being done according to claim of the present invention and invention description content generally changes and modifies, and all still belongs in the scope that patent of the present invention contains.

Claims (12)

1. a monolateral buffering and packaging apparatus that shakeouts comprises two buffer modules, and each buffer module comprises a main buffer cell and a folding buffer cell,

Wherein this main buffer cell has:

One substrate has two and 1 first straight line parallel and first periphery respect to one another, and second periphery of one and 1 second straight line parallel, and wherein this first straight line and second straight line are vertically intersected on this substrate geometric centre;

2 first surrounding walls, along this second linear interval arrange and certainly this substrate periphery perpendicular distal from extension; And

One second surrounding wall, this substrate periphery perpendicular distal is from extension certainly, and both sides are connected with the lateral margin of described first surrounding wall respectively;

Wherein should be attached on this substrate by folding buffer cell, and has a direction along this first straight line in contrast to this second surrounding wall away from the removable wall that extends outside this substrate, this removable wall can shakeout between a position and a upright position in one with respect to this substrate and rotate, so that described buffer module is combined into one first packed state or one second packed state accordingly;

When first packed state, removable wall that should folding buffer cell is parallel with the substrate of this main buffer cell to be this and to shakeout the position, and described buffer module is along this first straight line turned upside down before and after the ground that cooperatively interacts, and arbitrary removable wall is covered on described first surrounding wall of main buffer cell of another buffer module and the apical margin of this second surrounding wall;

When second packed state, the removable wall that should fold buffer cell is vertical with the substrate of this main buffer cell, the removable wall of the substrate of the main buffer cell of each buffer module, described first surrounding wall, this second surrounding wall and this folding buffer cell is around a hold down groove, and described buffer module is provided with described hold down groove relative to one another at interval.

2. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 1, wherein the folding buffer cell of each buffer module has the substrate of parallel second straight line and this main buffer cell of edge and is somebody's turn to do the intersection of the removable wall that folds buffer cell and is positioned at the curved line that protects of first between the described first surrounding wall lateral margin, and two away from this substrate and parallel this first folding line and with this first folding line second folding line of a length at interval, this length equals the distance between this first surrounding wall apical margin and this substrate, this removable wall has a first wall portion that is positioned between this first folding line and described second folding line, and is positioned at described second folding line and this removable wall one second wall portion away from the lateral margin of this substrate.

3. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 2, can be S. A. wherein with this first folding line, with the upwards bending of this first wall portion, utilize described second folding line that the second wall portion is bent this first wall portion again, with near this substrate, and the lateral margin of this second wall portion is fixedly arranged on this substrate, thereby make this removable wall turn to this stand up position.

4. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 2, wherein each buffer module comprises that more one sticks the damper element of the second wall portion of the removable wall of being located at this folding buffer cell.

5. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 4, wherein the damper element of this buffer module is the Polaroid material.

6. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 3, wherein said buffer module more comprises a plurality of glutinous first surrounding wall lateral surfaces of being located at the main buffer cell of described buffer module, and the fixed plate to extend away from the direction of second surrounding wall of this main buffer cell.

7. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 6, wherein when second packed state, the fixed plate of described buffer module can bend to this removable wall direction, and slotting stretching between the first wall portion and the second wall portion of this removable wall.

8. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 2, the folding buffer cell of wherein said buffer module forms a plurality of buckling partss away from the outer rim of the substrate of the main buffer cell of this buffer module, and the substrate of the main buffer cell of described buffer module is near the periphery at the removable wall place of described buffer module, form cooresponding buckling groove, when second packed state, described buckling parts and described buckling groove be clip mutually.

9. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 1, the folding buffer cell of wherein said buffer module forms a plurality of buckling partss away from the outer rim of the substrate of the main buffer cell of this buffer module, and the apical margin in second surrounding wall of the main buffer cell of described buffer module forms cooresponding draw-in groove, when first packed state, described buckling parts and described draw-in groove be clip mutually.

10. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 1, the main buffer cell of wherein said buffer module is the Polaroid material.

11. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 1, the folding buffer cell of wherein said buffer module is the millboard material.

12. according to the described monolateral buffering and packaging apparatus that shakeouts of claim 1, the substrate of the main buffer cell of wherein said buffer module forms a plurality of extraction apertures.

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