CN105523285A - Package buffering structure - Google Patents

Abstract

The invention discloses a packaging buffer structure which comprises at least one buffer body and a plate. The buffer body comprises a top surface and a bottom surface which are opposite to each other and a first accommodating groove arranged on the bottom surface, the first accommodating groove comprises a first side wall and a second side wall, the first side wall is inclined relative to the bottom surface and has a first included angle, the second side wall is inclined relative to the bottom surface and has a second included angle, and the angle of the first included angle is larger than or smaller than that of the second included angle. The plate comprises at least one hollow area and a buckling part which is turned outwards from the hollow area, the buckling part comprises a first buckling piece and a second buckling piece, the buckling part is inserted into the first accommodating groove of the buffer body, and the first buckling piece and the second buckling piece are buckled on the first side wall and the second side wall respectively. The invention has the advantages of easy assembly and disassembly, effectively reduced assembly time and saved assembly cost.

Description

Package buffering structure

The application is Chinese Patent Application No. 201410210396.2 (denomination of invention: package buffering structure; May 19 2014 applying date) division

Technical field

The invention relates to a kind of package buffering structure, be easy to assembling in particular to one, and with a kind of package buffering structure loaded for display panel or breakables.

Background technology

The packaging of breakables is always important topic when product transports.When packaging is appropriate not, often cause the damage of article in transportation, and then increase productive costs.Particularly there are the breakables of special size and shape, such as liquid-crystalline glasses or display panel etc., easily produce the situation that stress is concentrated because of its special size and shape, and increase destroyed possibility.

In order to reduce costs and shorten haulage time, packing can adopt the combination of corrugated board and padded coaming (being such as have elastomeric expanded material).But, the package material structure that corrugated board known at present and padded coaming combine, there is the shortcoming of assembling and dismounting difficulty, namely padded coaming is difficult to be assembled on corrugated board, under these circumstances, in the process of assembling, easily cause the damage of packing, and the haulage time that can save is also quite limited.Moreover, in order to enable padded coaming firm be assembled on corrugated board, buffering material structure intensity can be strengthened, and the volume of padded coaming is increased, cause the loading space of packing inside to reduce.Therefore, how carry out solving for art the problems referred to above and improve, reality is one of emphasis of paying close attention to of those skilled in the art for this reason.

Summary of the invention

Object of the present invention is providing a kind of package buffering structure exactly, and its structure design is easy to assembly and disassembly, effectively reduces built-up time, saves assembly cost.

Another object of the present invention is to provide a kind of package buffering structure, and its structure design can reach the packaging casing being configured at different size, in order to buffering and the protection of the display panel or breakables that provide different size.

Another object of the present invention is to provide a kind of package buffering structure, and its structure can carry out cutting use, all material all can be utilized, effectively saves material cost.

Another object of the present invention is to provide a kind of package buffering structure, and its structure design is easy to assembly and disassembly, effectively shortens haulage time, saves traffic cost.

For reaching above-mentioned advantage, a kind of package buffering structure provided by the present invention, comprises at least one buffer body and sheet material.Buffer body comprises the first relative side and engages block and at least one second with the second side, at least one first and engage block, first engaging block is configured at the first side and extends towards the direction away from the first side, and the second engaging block is configured at the second side and extends towards the direction away from the second side.Sheet material comprises at least one void region and at least one first buckling parts of outwards turning down from void region and at least one second buckling parts, buffer body is arranged in the void region of sheet material, and the first buckling parts is fastened on the first engaging block, the second buckling parts is fastened on the second engaging block.

In one embodiment of this invention, above-mentioned buffer body more comprises relative end face and bottom surface, end face is connected to the first side and the second side, bottom surface is connected to the first side and the second side, and bottom surface is positioned at the void region of sheet material, first side regards to the first buckling parts of sheet material, and the second side regards to this second buckling parts of sheet material.

In one embodiment of this invention, above-mentioned sheet material more comprises relative first surface and second surface, comparatively first surface is away from end face for second surface, and the first clamping block body is positioned between end face and first surface, and the second clamping block body is positioned between end face and first surface.

In one embodiment of this invention, the first engaging block of above-mentioned buffer body engages with second the first surface that block is resisted against sheet material respectively.

In one embodiment of this invention, the bottom surface of above-mentioned buffer body is between the first surface and second surface of sheet material.

In one embodiment of this invention, first buckling parts of above-mentioned sheet material comprises the first button apertured, second buckling parts comprises the second button apertured, first engaging block is through the first button apertured, second engaging block is through the second button apertured, and making the first buckling parts be fastened on the first engaging block, the second buckling parts is fastened on the second engaging block.

In one embodiment of this invention, above-mentioned buffer body more comprises at least one first salient and at least one second salient, first salient is configured at the first side and extends towards the direction away from the first side, second salient is configured at the second side and extends towards the direction away from the second side, first salient is adjacent to the first engaging block, and the second salient is adjacent to the second engaging block.

In one embodiment of this invention, the first salient of above-mentioned buffer body and the second salient extend to the bottom surface of buffer body respectively from the end face of buffer body.

In one embodiment of this invention, above-mentioned at least one first engaging block is respectively multiple with at least one second quantity engaging block, the quantity of at least one first salient and at least one second salient is respectively multiple, these first engaging block and the arrangements interlaced with each other of these the first salients, these second engaging block and the arrangements interlaced with each other of these the second salients.

In one embodiment of this invention, adjacent 2 first salients in these first salients above-mentioned and the first side are around the first groove, adjacent 2 second salients in these second salients and the second side are around the second groove, first buckling parts is arranged in the first groove, and the second buckling parts is arranged in the second groove.

In one embodiment of this invention, above-mentioned buffer body more comprises the first Ka Gou and the second Ka Gou, first Ka Gou is between the first engaging block and the first side, second Ka Gou is between the second engaging block and the second side, first buckling parts is inserted in the first card ditch, and the second buckling parts is inserted in the second card ditch.

For reaching above-mentioned advantage, the present invention provides a kind of package buffering structure on the other hand, comprises at least one buffer body and sheet material.Buffer body comprises relative end face and bottom surface and is opened in the first storage tank of bottom surface.First storage tank has the first side wall and the second sidewall, and the first side wall has the first angle relative to inclined bottom surface, and the second sidewall has the second angle relative to inclined bottom surface, and wherein the angle of the first angle is greater than or less than the angle of the second angle.The buckling parts that sheet material comprises at least one void region and outwards turns down from void region.Buckling parts comprises the first buckling piece and the second buckling piece, and buckling parts is inserted in the first storage tank of buffer body, and the first buckling piece and the second buckling piece are fastened on the first side wall and the second sidewall respectively.

In one embodiment of this invention, above-mentioned storage tank more comprises one the 3rd sidewall, the first side wall is between the second sidewall and the 3rd sidewall, 3rd sidewall has the 3rd angle relative to inclined bottom surface, buckling parts more comprises the 3rd buckling piece, first buckling piece is between the second buckling piece and the 3rd buckling piece, and the 3rd buckling piece is fastened on the 3rd sidewall.

In one embodiment of this invention, the angle of the 3rd above-mentioned angle equals the angle of the second angle, and the angle of the 3rd angle is greater than or less than the angle of the first angle.

In one embodiment of this invention, the angle of the angle of the first above-mentioned angle, the angle of the second angle and the 3rd angle is unequal each other.

In one embodiment of this invention, the angle of the angle of the first above-mentioned angle, the angle of the second angle and the 3rd angle is less than 90 degree respectively.

In one embodiment of this invention, above-mentioned sheet material has relative first surface and second surface, and second surface is compared with the end face of first surface away from buffer body, and the bottom surface of buffer body is between first surface and second surface.

In one embodiment of this invention, above-mentioned buffer body more comprises the second storage tank, be opened in this bottom surface and be communicated in the first storage tank, and part sheet material is positioned at the second storage tank.

For reaching above-mentioned advantage, the present invention provides a kind of package buffering structure on the other hand, comprises at least one buffer body and sheet material.Buffer body comprises relative end face and bottom surface, the first storage tank and the second storage tank, and wherein the first storage tank is configured at end face, and the second storage tank is configured at bottom surface.Sheet material comprises at least one first void region, the first buckling parts outwards turned down from the first void region and second buckling parts adjacent with the first void region, first buckling parts comprises button apertured, buffer body is through button apertured, and the first buckling parts is inserted in the first storage tank, the second buckling parts is inserted in the second storage tank.

In one embodiment of this invention, the connection structure that the first above-mentioned buckling parts more comprises the first list structure, the second list structure and is connected between the first list structure and the second list structure, first list structure, the second list structure and connection structure are around button apertured, and the first strip anatomical connectivity is in the inner edge of the first void region, the second list structure is not attached to sheet material.

In one embodiment of this invention, above-mentioned sheet material more comprises the second void region being communicated in the first void region, and the second buckling parts goes out from the second void region turnover.

In one embodiment of this invention, above-mentioned buffer body more comprises Ka Gou, be communicated in the first storage tank and extend towards near the direction of sheet material, Ka Gou has the first side wall, first storage tank has the second sidewall, have angle between the first side wall and the second sidewall, angle is less than or equal to 90 degree, and the first buckling parts is fastened in card ditch.

In one embodiment of this invention, above-mentioned sheet material more comprises relative first surface and second surface, and second surface is compared with the end face of first surface away from buffer body, and the bottom surface of buffer body is between first surface and second surface.

For reaching above-mentioned advantage, the present invention provides a kind of package buffering structure on the other hand, comprises at least one buffer body and sheet material.Buffer body comprises relative end face and bottom surface, the first storage tank being opened in bottom surface and the engaging block be configured in the first storage tank.The buckling parts that sheet material comprises at least one void region and outwards turns down from void region, buckling parts comprises button apertured, and buckling parts is positioned at the first storage tank of buffer body, and engaging block passes in button apertured.

In one embodiment of this invention, first storage tank of above-mentioned buffer body comprises the first side wall, the second sidewall and the 3rd sidewall, the first side wall is relative to the second sidewall, 3rd sidewall is relative to sheet material and be connected between the first side wall and the second sidewall, engaging block is configured at the first side wall, and part second sidewall is resisted against sheet material.

In one embodiment of this invention, above-mentioned sheet material more comprises relative first surface and second surface, and second surface is compared with the end face of first surface away from buffer body, and the bottom surface of buffer body is between first surface and second surface.

In one embodiment of this invention, above-mentioned buffer body more comprises the second storage tank, be opened in bottom surface and be communicated in the first storage tank, and part sheet material is positioned at the second storage tank.

Package buffering structure described in the embodiment of the present invention, has the following advantages:

1. buffer body and sheet material are easy to assembly and disassembly each other, effectively reduce built-up time.

2. its structure design is when being configured in packaging casing, can not waste the loading space of packaging box house.

3. its structure design can reach the packaging casing being configured at different size, in order to buffering and the protection of the display panel or breakables that provide different size.

4. the material that its structure lefts in after cutting can proceed to use, and effectively saves material cost.

Accompanying drawing explanation

Figure 1A illustrates the assembly decomposing schematic representation for the package buffering structure described in one embodiment of the invention;

Figure 1B illustrates the assembling schematic diagram for the package buffering structure shown in Figure 1A;

Fig. 1 C illustrates as the generalized section along the AA line segment shown in Figure 1B;

Fig. 2 illustrates the structural representation for the sheet material described in another embodiment of the present invention;

Fig. 2 A illustrates the top view for the buffer body described in another embodiment of the present invention;

Fig. 2 B illustrates the lateral plan for the buffer body described in another embodiment of the present invention;

Fig. 3 A illustrates the assembly decomposing schematic representation for the package buffering structure described in another embodiment of the present invention;

Fig. 3 B illustrates the assembling schematic diagram for the package buffering structure shown in Fig. 3 A;

Fig. 3 C illustrates as the generalized section along the BB line segment shown in Fig. 3 B;

Fig. 3 D illustrates as the generalized section along the CC line segment shown in Fig. 3 B;

Fig. 3 E illustrates as the generalized section along the DD line segment shown in Fig. 3 B;

Fig. 4 A illustrates the assembly decomposing schematic representation for the package buffering structure described in another embodiment of the present invention;

Fig. 4 B illustrates the assembling schematic diagram for the package buffering structure shown in Fig. 4 A;

Fig. 4 C illustrates as the generalized section along the EE line segment shown in Fig. 4 B;

Fig. 5 A illustrates the assembly decomposing schematic representation for the package buffering structure described in another embodiment of the present invention;

Fig. 5 B illustrates the assembling schematic diagram for the package buffering structure shown in Fig. 5 A;

Fig. 5 C illustrates as the generalized section along the FF line segment shown in Fig. 5 B;

Fig. 6 A illustrates the assembly decomposing schematic representation for the package buffering structure described in another embodiment of the present invention;

Fig. 6 B illustrates the assembling schematic diagram for the package buffering structure shown in Fig. 6 A;

Fig. 6 C illustrates as the generalized section along the GG line segment shown in Fig. 6 B.

[nomenclature]

1,2,3,4,5,6: package buffering structure

10,20,30,40,50,60: buffer body

11,21,31,41,51,61: sheet material

12: the first grooves

13: the second grooves

100,200,500: void region

101: the first sides

102: the second sides

103,201,301,401,501: end face

104,202,302,402,502: bottom surface

105: the first engaging blocks

106: the second engaging blocks

107: the first salients

108: the second salients

109,110,405: Ka Gou

111,311,411: the first buckling partss

112,312,412: the second buckling partss

113,213,313,413,513: first surface

114,214,314,414,514: second surface

115,215: inwall

1110,1120,3110,4110,5110: button apertured

203: storage tank

204,4050,5031: the first side wall

205,4030,5032: the second sidewalls

206,5033: the three sidewalls

207: groove

211,511: buckling parts

2111: the first buckling pieces

2112: the second buckling pieces

2113: the three buckling pieces

303,403,503: the first storage tanks

304,404,504: the second storage tanks

300,400: the first void region

310: the second void region

3111: the first list structures

3112: the second list structures

3113: connection structure

505: engaging block

S, S1, S2, S3, S4: reference plane

θ 1: the first angle

θ 2: the second angle

θ 3: the three angle

θ 4: angle

X1, X2, X3, X4: direction

Detailed description of the invention

Please refer to Figure 1A to Fig. 1 C, the assembly decomposing schematic representation that Figure 1A is the package buffering structure described in one embodiment of the invention.The assembling schematic diagram that Figure 1B is the package buffering structure shown in Figure 1A.Fig. 1 C is the generalized section along the AA line segment shown in Figure 1B.As shown in Figure 1A to Fig. 1 C, the package buffering structure 1 described in the present embodiment comprises at least one buffer body 10 and sheet material 11.Buffer body 10 comprises the first relative side 101 and engages block 105 and at least one second with the second side 102, at least one first and engage block 106.First engaging block 105 is configured at the first side 101 of buffer body 10 and extends towards the direction away from the first side 101.Second engaging block 106 is configured at the second side 102 of buffer body 10 and extends towards the direction away from the second side 102.At least one first buckling parts 111 and at least one second buckling parts 112 that sheet material 11 comprises at least one vacancy section 100 and outwards turns down from void region 100 and go out.As shown in Figure 1B, when buffer body 10 is arranged in the void region 100 of sheet material 11, first buckling parts 111 of sheet material 11 is fastened on the first engaging block 105 of buffer body 10, second buckling parts 112 of sheet material 11 is fastened on the second engaging block 106 of buffer body 10, and buffer body 10 is assembled on sheet material 11.

Specifically it is corresponding that the first engaging block 105 and second of buffer body 10 engages the quantity of the quantity of block 106 and the first buckling parts 111 of sheet material 11 and the second buckling parts 112.In the present embodiment, first engaging block 105 engages block 106 quantity with second is such as be respectively two, and the quantity of the first buckling parts 111 and the second buckling parts 112 is such as be respectively two, but the present invention is not as limit, the first engaging block 105, second engages the visual actual demand of quantity of block 106, first buckling parts 111 and the second buckling parts 112 and increases and decreases to some extent.In addition, as shown in Figure 2, the quantity of the void region 100 of sheet material 11 is such as multiple, and at least one first buckling parts 111 that these void region 100 all have outwards turnover respectively and go out and at least one second buckling parts 112, in order to assemble for corresponding buffer body 10 respectively, but the present invention is not as limit, the visual actual conditions demand of quantity of void region 100 and increasing and decreasing to some extent.Below be further described for the detail structure of the package buffering structure 1 described in the present embodiment again.

Sheet material 11 described in the present embodiment more comprises relative first surface 113 and second surface 114.Buffer body 10 more comprises relative end face 103 and bottom surface 104.The second surface 114 of sheet material 11 is compared with the end face 103 of first surface 113 away from buffer body 10.The end face 103 of buffer body 10 is connected between the first side 101 and the second side 102.The bottom surface 104 of buffer body 10 is connected between the first side 101 and the second side 102.As shown in Figure 1B, when buffer body 10 is assembled on sheet material 11, first side 101 of buffer body 10 regards to the first buckling parts 111 of sheet material 11, second side 102 of buffer body 10 regards to the second buckling parts 112 of sheet material 11, and first of buffer body 10 the engaging block 105 engages block 106 all between the end face 103 and the first surface 113 of sheet material 11 of buffer body 10 with second.Specifically, the first engaging block 105 of buffer body 10 engages the first surface 113 that block 106 is resisted against sheet material 11 respectively with second, make buffer body 10 can be fixed on sheet material 11 and can not come off from the void region 100 of sheet material 11.

Hold above-mentioned, the first buckling parts 111 of the sheet material 11 described in the present embodiment comprises button apertured 1110.Second buckling parts 112 of sheet material 11 comprises button apertured 1120.As shown in Figure 1B, when buffer body 10 is assembled on sheet material 11, first engaging block 105 of buffer body 10 makes the first buckling parts 111 be fastened on the first engaging block 105 through the first button apertured 1110, second engaging block 106 of buffer body 10 makes the second buckling parts 112 be fastened on the second engaging block 106 through the second button apertured 1120, and then buffer body 10 is fixed on sheet material 11.

Hold above-mentioned, as shown in Figure 1B and Fig. 1 C, when buffer body 10 is assembled on sheet material 11, the bottom surface 104 of buffer body 10 is positioned at the void region 100 of sheet material 11, in other words, the bottom surface 104 of buffer body 10 is between the first surface 113 and second surface 114 of sheet material 11.Specifically, the bottom surface 104 of buffer body 10 trims with the second surface 114 of sheet material 11, that is, the bottom surface 104 of buffer body 10 is roughly positioned on same reference plane S with the second surface 114 of sheet material 11, under such structure design, first side 101 of buffer body 10 and the second side 102 are close to the inwall 115 in being positioned at void region 100 respectively, make not have larger gap between the inwall 115 in the first side 101 of buffer body 10 and the second side 102 and void region 100 to produce, when display panel or breakables are placed on the package buffering structure 1 described in the present embodiment, effectively prevent the situation among display panel or breakables insertion gap.

Hold above-mentioned, the buffer body 10 described in the present embodiment more comprises at least one first salient 107 and at least one second salient 108.First salient 107 of buffer body 10 is configured at the first side 101 and extends towards the direction away from the first side 101.Second salient 108 of buffer body 10 is configured at the second side 102 and extends towards the direction away from the second side 102.First salient 107 engages block 106 adjacent to the first engaging block 105, second salient 108 adjacent to second.Specifically, the first salient 107 and the second salient 108 extend to bottom surface 104 from the end face 103 of buffer body 10 respectively.In the present embodiment, the quantity of the first salient 107 and the second salient 108 is such as be respectively two, but the present invention is not as limit, the demand of the visual actual conditions of quantity of the first salient 107 and the second salient 108 and increasing and decreasing to some extent.These first salients 107 first engage block 105 arrangement interlaced with each other with these, these second salients 108 second engage block 106 arrangement interlaced with each other with these, specifically, adjacent 2 first salients 107 in these first salients 107 and the first side 101 are around the first groove 12, and in these second salients 108, adjacent 2 second salients 108 and the second side 102 are around the second groove 13.As shown in Figure 1B, when buffer body 10 is assembled on sheet material 11, first groove 12 can engage the benchmark of contraposition between block 105 with first as the first buckling parts 111, in like manner, second groove 13 can engage the benchmark of contraposition between block 106 with second as the second buckling parts 112, specifically, the track that first buckling parts 111 and the second buckling parts 112 are formed by the first groove 12 and the second groove 13 and slip in the first groove 12 and the second groove 13 respectively, and take advantage of a situation and be fastened on the first engaging block 105 and the second engaging body 106 respectively.The advantage of said structure design is, shortens the time that buffer body 10 is assembled with sheet material 11, and then cost of effectively saving time.

It is worth mentioning that, the buffer body 10 described in the present embodiment more comprises card ditch 109,110, and card ditch 109 is between the first engaging block 105 and the first side 101, and card ditch 109 is adjacent to the end face 103 of buffer body 10.Card ditch 110 is between the first engaging block 106 and the second side 102, and card ditch 110 is adjacent to the end face 103 of buffer body 10.As shown in Figure 1B and Fig. 1 C, when buffer body 10 is assembled on sheet material 11, first buckling parts 111 of sheet material 11 and the second buckling parts 112 are inserted among card ditch 109,110 respectively, to engage block 105 and the second buckling parts 112 to engage fastening intensity between block 106 with second in order to strengthen the first buckling parts 111 with first.

It is worth mentioning that, in the present embodiment, the first engaging block 105, second engaging block 106, first salient 107 of buffer body 10 and the quantity of the second salient 108 are such as be respectively two.But in other embodiments, illustrate the top view for the buffer body 10 described in another embodiment of the present invention referring to Fig. 2 A and Fig. 2 B, Fig. 2 A.Fig. 2 B illustrates the lateral plan for the buffer body 10 described in another embodiment of the present invention.First engaging block 105, second engaging block 106, first salient 107 of buffer body 10 and the quantity of the second salient 108 are such as be respectively more than two.For example, when manufacturing buffer body 10, can in processing procedure once, produce the buffer body 10 that the first engaging block 105, second with more than two (being such as once produce ten or 20 or more) engages block 106, first salient 107 and the second salient 108, in response to the first buckling parts 111 of sheet material 11 and the quantity of the second buckling parts 112, buffer body 10 is cut again afterwards, and remaining buffer body 10 still can proceed to use after cutting, effectively save material cost.

In addition, due to the first engaging block 105 of buffer body 10, second engaging block 106, first salient 107, the quantity of the quantity of the second salient 108 and the first buckling parts 111 of sheet material 11 and the second buckling parts 112 is all decide according to the size of the size or display panel of packing casing, that is, cut out according to packaging casing or the size of display panel and there is right quantity first engage block 105, second engaging block 106, first salient 107, the buffer body 10 of the second salient 108 and produce corresponding to the first engaging block 105 on sheet material 11, second engaging block 106, first salient 107, first buckling parts 111 and the second buckling parts 112 of the second salient 108 quantity, and then the display panel of different size or the buffering of breakables and protection are provided.

Please refer to Fig. 3 A to Fig. 3 D, the assembly decomposing schematic representation that Fig. 3 A is the package buffering structure described in another embodiment of the present invention.Fig. 3 B is the assembling schematic diagram of the package buffering structure shown in Fig. 3 A.Fig. 3 C is the generalized section along the BB line segment shown in Fig. 3 B.Fig. 3 D is the generalized section along the CC line segment shown in Fig. 3 B.As Fig. 3 A to Fig. 3 D shows, the package buffering structure 2 described in the present embodiment comprises buffer body 20 and sheet material 21.Buffer body 20 comprises relative end face 201 and bottom surface 202 and the storage tank 203 being opened in bottom surface 202.Storage tank 203 comprises the first side wall 204 and the second sidewall 205.The first side wall 204 tilts relative to bottom surface 202 and has the first angle theta 1, second sidewall 205 tilts relative to bottom surface 202 and has the second angle theta 2 (in detail in this figure, in order to clearly indicate the angle of the second angle theta 2, and indicate with the second sidewall 205 and the angle of boost line L, the bottom surface 202 of the parallel buffer body 20 of index contour L), wherein the angle of the first angle theta 1 is greater than or less than the angle of the second angle theta 2, in the present embodiment, the angle of the first angle theta 1 is such as the angle being less than the second angle theta 2, but the present invention is not as limit.The buckling parts 211 that sheet material 21 comprises at least one void region 200 and outwards turns down from void region 200 and go out.Buckling parts 211 comprises the first buckling piece 2111 and the second fastener 2112.As shown in Figure 3 B, when buffer body 20 is assembled on sheet material 21, the buckling parts 211 of sheet material 21 is inserted in the storage tank 203 of buffer body 20, and the first buckling piece 2111 of buckling parts 211 is fastened on the first side wall 204 of storage tank 203, the second buckling parts 2112 of buckling parts 211 is fastened on the second sidewall 205 of storage tank 203.Below be further described for the detail structure of the package buffering structure 2 described in the present embodiment again.

Hold above-mentioned, please refer to Fig. 3 E, it is the generalized section along the DD line segment shown in Fig. 3 B.As shown in FIGURE 3 E, the storage tank 203 described in the present embodiment more comprises the 3rd sidewall 206.The first side wall 204 is between the second sidewall 205 and the 3rd sidewall 206.3rd sidewall 206 tilts relative to bottom surface 202 and has the 3rd angle theta 3.Specifically, the angle of the 3rd angle theta 3 equals the angle of the second angle theta 2, and the angle of the 3rd angle theta 3 is greater than or less than the angle of the first angle theta 1, in the present embodiment, the angle of the 3rd angle theta 3 is such as the angle being less than the first angle theta 1, but the present invention is not as limit.

Hold above-mentioned, as shown in Fig. 3 A, Fig. 3 B and Fig. 3 E, the buckling parts 211 described in the present embodiment more comprises the 3rd buckling piece 2113.First buckling piece 2111 is between the second buckling piece 2112 and the 3rd buckling piece 2113.When buffer body 20 is assembled on sheet material 21, the buckling parts 211 of sheet material 21 is inserted in the storage tank 203 of buffer body 20, and the 3rd buckling piece 2113 of buckling parts 211 is fastened on the first side wall 206 of storage tank 203.

It is worth mentioning that, the first side wall 204 of the storage tank 203 described in the present embodiment and the angle of the first angle theta 1 of bottom surface 202, the second sidewall 205 are such as unequal each other with the angle of the angle of the second angle theta 2 of bottom surface 202 and the 3rd angle theta 3 of the 3rd sidewall 206 and bottom surface 202, but the present invention is not as limit.In addition, the angle of the angle of the first angle theta 1, the angle of the second angle theta 2 and the 3rd angle theta 3 is such as be less than 90 degree respectively, but the present invention is not as limit.

Hold above-mentioned, as shown in Fig. 3 A to Fig. 3 D, the sheet material 21 described in the present embodiment more comprises first surface 213 and second surface 214.The second surface 214 of sheet material 21 is compared with the end face 201 of first surface 213 away from buffer body 20.When buffer body 20 is assembled on sheet material 21, the bottom surface 202 of buffer body 20 is between the first surface 213 and second surface 214 of sheet material 21.Specifically, the bottom surface 202 of buffer body 20 trims with the second surface 214 of sheet material 21, that is, the bottom surface 202 of buffer body 20 is roughly positioned on same reference plane S1 with the second surface 214 of sheet material 21, under such structure design, the inwall 215 being positioned at void region 200 is close proximity to buffer body 20, make between buffer body 20 and the inwall in void region 200 115, not have larger gap to produce, when display panel or breakables are placed on the package buffering structure 2 described in the present embodiment, effectively prevent the situation among display panel or breakables insertion gap.In addition, the buffer body 20 described in the present embodiment more comprises groove 207.This groove 207 is opened in bottom surface 202 and is communicated with storage tank 203, when buffer body 20 is assembled on sheet material 21, height due to groove 207 is more than or equal to the thickness of sheet material 21, therefore, the sheet material 21 (the part sheet material 21 adjacent with void region 200) of part is arranged in the groove 207 of buffer body 20, to make the bottom surface 202 of buffer body 20 between the first surface 213 and second surface 214 of sheet material 21.

Please refer to Fig. 4 A to Fig. 4 C, the assembly decomposing schematic representation that Fig. 4 A is the package buffering structure described in another embodiment of the present invention.Fig. 4 B is the assembling schematic diagram of the package buffering structure shown in Fig. 4 A.Fig. 4 C is the generalized section along the EE line segment shown in Fig. 4 B.As shown in Fig. 4 A to Fig. 4 C, the package buffering structure 3 described in the present embodiment comprises at least one buffer body 30 and sheet material 31.Buffer body 30 comprises relative end face 301 and bottom surface 302, first storage tank 303 and the second storage tank 304.First storage tank 303 is opened in end face 301, and the second storage tank 304 is opened in bottom surface 302.Sheet material 31 comprises at least one first void region 300, outwards turnover and the first buckling parts 311 of going out and second buckling parts 312 adjacent with the first void region 300 from the first void region 300.First buckling parts 311 comprises button apertured 3110.As shown in Figure 4 B, when buffer body 30 is assembled on sheet material 31, buffer body 30 is through the button apertured 3110 of the first buckling parts 311, and the first buckling parts 311 of sheet material 31 is inserted in the first storage tank 303 of buffer body 30, the second buckling parts 312 of sheet material 31 is inserted in the second storage tank 304 of buffer body 30.Below be further described for the detail structure of the package buffering structure 3 described in the present embodiment again.

Hold above-mentioned, as shown in Fig. 4 A to Fig. 4 C, the first buckling parts 311 described in the present embodiment more comprises the first list structure 3111, second list structure 3112 and is connected to the connection structure 3113 between the first list structure 3111 and the second list structure 3112.First list structure 3111, second list structure 3112 and be connected to the first list structure 3111 and connection structure 3113 around button apertured 3110.It is worth mentioning that, in the present embodiment, the first list structure 3111 is connected to the inner edge of the first void region 300, and the second list structure 3112 is then not attached to sheet material 31.Under such structure design, first buckling parts 311 can with the junction of the first list structure 3111 and the first inner edge, void region 300 for axle, and move in X1 direction and X2 direction, to make, the first buckling parts 311 of sheet material 31 is easier to be inserted in the first storage tank 303.

Hold above-mentioned, as shown in Fig. 4 A to Fig. 4 C, the sheet material 31 described in the present embodiment more comprises the second void region 314 being communicated in the first void region 300.Second buckling parts 312 of sheet material 31 turns down from the second void region 314.Specifically, the second buckling parts 312 has relative first end 3121 and the second end 3122.The first end 3121 of the second buckling parts 312 is connected with the inner edge of the second void region 314, and 3122, second end of the second buckling parts 312 is not attached to the inner edge of the second void region 314.Under such structure design, second buckling parts 312 can with the junction of first end 3121 and the second inner edge, void region 314 for axle, and move in X3 direction and X4 direction, to make, the second buckling parts 312 of sheet material 31 is easier to be inserted in the second storage tank 304.

Hold above-mentioned, as shown in Fig. 4 A to Fig. 4 C, the sheet material 31 described in the present embodiment more comprises first surface 313 and second surface 314.The second surface 314 of sheet material 31 is compared with the end face 301 of first surface 313 away from buffer body 30.When buffer body 30 is assembled on sheet material 31, the bottom surface 302 of buffer body 30 is between the first surface 313 and second surface 314 of sheet material 31.Specifically, the bottom surface 302 of buffer body 30 trims with the second surface 314 of sheet material 31, that is, the bottom surface 302 of buffer body 30 is roughly positioned on same reference plane S2 with the second surface 314 of sheet material 31, under such structure design, do not have the generation in gap between buffer body 30 and sheet material 31, when display panel or breakables are placed on the package buffering structure 3 described in the present embodiment, effectively prevent the situation among display panel or breakables insertion gap.

Please refer to Fig. 5 A to Fig. 5 C, the assembly decomposing schematic representation that Fig. 5 A is the package buffering structure described in another embodiment of the present invention.Fig. 5 B is the assembling schematic diagram of the package buffering structure shown in Fig. 5 A.Fig. 5 C is the generalized section along the FF line segment shown in Fig. 5 B.As shown in Figure 5 A to FIG. 5 C, the package buffering structure 4 described in the present embodiment comprises at least one buffer body 40 and sheet material 41.Buffer body 40 comprises relative end face 401 and bottom surface 402, first storage tank 403 and the second storage tank 404.First storage tank 403 is opened in end face 401, and the second storage tank 404 is opened in bottom surface 402.Sheet material 41 comprises at least one first void region 400, outwards turnover and the first buckling parts 411 of going out and second buckling parts 412 adjacent with the first void region 400 from the first void region 400.First buckling parts 411 comprises button apertured 4110.As shown in Figure 5 B, when buffer body 40 is assembled on sheet material 41, buffer body 40 is through the button apertured 4110 of the first buckling parts 411, and the first buckling parts 411 of sheet material 41 is inserted in the first storage tank 403 of buffer body 40, the second buckling parts 412 of sheet material 41 is inserted in the second storage tank 404 of buffer body 40.Below be further described for the detail structure of the package buffering structure 4 described in the present embodiment again.

Hold above-mentioned, as shown in Figure 5 A to FIG. 5 C, the package buffering structure 4 described in the present embodiment more comprises card ditch 405.Ka Gou is communicated in the first storage tank 403 and extends towards near the direction of sheet material 41.Specifically, card ditch 405 has the first side wall 4050, and the first storage tank 403 has the second sidewall 4030.Have an angle theta 4 between the first side wall 4050 and the second sidewall 4030, the angle of this angle theta 4 is less than or equal to 90 degree.When buffer body 40 is assembled on sheet material 41, is fastened in card ditch 405 in the first storage tank 403 that the first buckling parts 411 of sheet material 41 is inserted in buffer body 40, can be fixed on sheet material 41 to make buffer body 40.

Hold above-mentioned, as shown in Figure 5 A to FIG. 5 C, the sheet material 41 described in the present embodiment more comprises first surface 413 and second surface 414.The second surface 414 of sheet material 41 is compared with the end face 401 of first surface 413 away from buffer body 40.When buffer body 40 is assembled on sheet material 41, the bottom surface 402 of buffer body 40 is between the first surface 413 and second surface 414 of sheet material 41.Specifically, the bottom surface 402 of buffer body 40 trims with the second surface 414 of sheet material 41, that is, the bottom surface 402 of buffer body 40 is roughly positioned on same reference plane S3 with the second surface 414 of sheet material 41, under such structure design, do not have the generation in gap between buffer body 40 and sheet material 41, when display panel or breakables are placed on the package buffering structure 4 described in the present embodiment, effectively prevent the situation among display panel or breakables insertion gap.

Please refer to Fig. 6 A to Fig. 6 C, the assembly decomposing schematic representation that Fig. 6 A is the package buffering structure described in another embodiment of the present invention.Fig. 6 B is the assembling schematic diagram of the package buffering structure shown in Fig. 6 A.Fig. 6 C is the generalized section along the GG line segment shown in Fig. 6 B.As shown in Fig. 6 A to Fig. 6 C, the package buffering structure 5 described in the present embodiment comprises at least one buffer body 50 and sheet material 51.Buffer body 50 comprises relative end face 501 and bottom surface 502, the first storage tank 503 being opened in bottom surface 502 and the engaging block 505 be configured in the first storage tank 503.Sheet material 51 comprises at least one void region 500, outwards turnover and the buckling parts 511 that goes out from void region 500.Buckling parts 511 comprises button apertured 5110.As shown in Figure 6B, when buffer body 50 is assembled on sheet material 51, the buckling parts 511 of sheet material 51 is positioned at the first storage tank 503 of buffer body 50, and the engaging block 505 of buffer body 50 is through the button apertured 5110 of sheet material 51.Below be further described for the detail structure of the package buffering structure 5 described in the present embodiment again.

Hold above-mentioned, as shown in Fig. 6 A to Fig. 6 C, the first storage tank 503 described in the present embodiment comprises the first side wall 5031, second sidewall 5032 and the 3rd sidewall 5033.The first side wall 5031 is connected between the first side wall 5031 and the second sidewall 5032 relative to sheet material 51 relative to second sidewall the 5032, three sidewall 5033.Specifically, engaging block 505 is configured at the first side wall 5031, and when buffer body 50 is assembled on sheet material 51, part second sidewall 5032 is resisted against sheet material 51.

Hold above-mentioned, as shown in Fig. 6 A to Fig. 6 C, the sheet material 51 described in the present embodiment more comprises first surface 513 and second surface 514.The second surface 514 of sheet material 51 is compared with the end face 501 of first surface 513 away from buffer body 50.When buffer body 50 is assembled on sheet material 51, the bottom surface 502 of buffer body 50 is between the first surface 513 and second surface 514 of sheet material 51.Specifically, the bottom surface 502 of buffer body 50 trims with the second surface 514 of sheet material 51, that is, the bottom surface 502 of buffer body 50 is roughly positioned on same reference plane S4 with the second surface 514 of sheet material 51, under such structure design, do not have the generation in gap between buffer body 50 and sheet material 51, when display panel or breakables are placed on the package buffering structure 5 described in the present embodiment, effectively prevent the situation among display panel or breakables insertion gap.In addition, the buffer body 20 described in the present embodiment more comprises the second storage tank 504.Second storage tank 504 is opened in bottom surface 202 and is communicated with the first storage tank 503, when buffer body 50 is assembled on sheet material 51, height due to the second storage tank 504 is more than or equal to the thickness of sheet material 51, therefore, the sheet material 51 (the part sheet material 51 adjacent with void region 500) of part is arranged in the second storage tank 504 of buffer body 50, to make the bottom surface 502 of buffer body 50 between the first surface 513 and second surface 514 of sheet material 51.

To sum up institute is old, and the package buffering structure described in the embodiment of the present invention, has the following advantages:

1. buffer body and sheet material are easy to assembly and disassembly each other, effectively reduce built-up time, save assembly cost.

2. its structure design can not waste the loading space of packaging box house when being configured in packaging casing.

3. its structure design can reach the packaging casing being configured at different size, in order to buffering and the protection of the display panel or breakables that provide different size.

4. the material that its structure lefts in after cutting can proceed to use, and effectively saves material cost.

Claims (16)

1. a package buffering structure, is characterized in that, comprising:

At least one buffer body, comprise a relative end face and a bottom surface and be opened in one first storage tank of this bottom surface, this first storage tank comprises a first side wall and one second sidewall, this the first side wall has one first angle relative to this inclined bottom surface, this second sidewall has one second angle relative to this inclined bottom surface, and wherein the angle of this first angle is greater than or less than the angle of this second angle; And

One sheet material, the buckling parts comprising at least one void region and outwards turn down from this void region, this buckling parts comprises one first buckling piece and one second buckling piece, this buckling parts is inserted in this first storage tank of this buffer body, and this first buckling piece and this second buckling piece are fastened on this first side wall and this second sidewall respectively.

2. package buffering structure as claimed in claim 1, it is characterized in that, this storage tank more comprises one the 3rd sidewall, this the first side wall is between this second sidewall and the 3rd sidewall, 3rd sidewall has one the 3rd angle relative to this inclined bottom surface, this buckling parts more comprises one the 3rd buckling piece, and this first buckling piece is between this second buckling piece and the 3rd buckling piece, and the 3rd buckling piece is fastened on the 3rd sidewall.

3. package buffering structure as claimed in claim 2, it is characterized in that, the angle of the 3rd angle equals the angle of this second angle, and the angle of the 3rd angle is greater than or less than the angle of this first angle.

4. package buffering structure as claimed in claim 2, it is characterized in that, the angle of the angle of this first angle, the angle of this second angle and the 3rd angle is unequal each other.

5. package buffering structure as claimed in claim 2, it is characterized in that, the angle of the angle of this first angle, the angle of this second angle and the 3rd angle is less than 90 degree respectively.

6. package buffering structure as claimed in claim 1, it is characterized in that, this sheet material more comprises a relative first surface and a second surface, and comparatively this first surface is away from this end face of this buffer body for this second surface, and this bottom surface of this buffer body is between this first surface and this second surface.

7. package buffering structure as claimed in claim 1, it is characterized in that, this buffer body more comprises one second storage tank, is opened in this bottom surface and is communicated in this first storage tank, and this sheet material of part is positioned at this second storage tank.

8. a package buffering structure, is characterized in that, comprising:

At least one buffer body, comprise a relative end face and a bottom surface, one first storage tank and one second storage tank, wherein this first storage tank is configured at this end face, and this second storage tank is configured at this bottom surface; And

One sheet material, comprise at least one first void region, one first buckling parts outwards turned down from this first void region and one second buckling parts adjacent with this first void region, this first buckling parts comprises a button apertured, this buffer body is through this button apertured, and this first buckling parts is inserted in this first storage tank, this second buckling parts is inserted in this second storage tank.

9. package buffering structure as claimed in claim 8, it is characterized in that, the connection structure that this first buckling parts more comprises one first list structure, one second list structure and is connected between this first list structure and this second list structure, this first list structure, this second list structure and this connection structure are around this button apertured, and this first strip anatomical connectivity is in the inner edge of this first void region, this second list structure is not attached to this sheet material.

10. package buffering structure as claimed in claim 8, it is characterized in that, this sheet material more comprises one second void region being communicated in this first void region, and this second buckling parts goes out from the turnover of this second void region.

11. package buffering structures as claimed in claim 8, it is characterized in that, this buffer body more comprises Yi Kagou, be communicated in this first storage tank and extend towards near the direction of this sheet material, this Ka Gou has a first side wall, and this first storage tank has one second sidewall, has an angle between this first side wall and this second sidewall, this angle is less than or equal to 90 degree, and this first buckling parts is fastened in this card ditch.

12. package buffering structures as claimed in claim 8, it is characterized in that, this sheet material more comprises a relative first surface and a second surface, and comparatively this first surface is away from this end face of this buffer body for this second surface, and this bottom surface of this buffer body is between this first surface and this second surface.

13. 1 kinds of package buffering structures, comprising:

At least one buffer body, comprises a relative end face and a bottom surface, is opened in one first storage tank of this bottom surface and is configured at one in this first storage tank and engage block; And

One sheet material, the buckling parts comprising at least one void region and outwards turn down from this void region, this buckling parts comprises a button apertured, and this buckling parts is positioned at this first storage tank of this buffer body, and this engaging block passes in this button apertured.

14. package buffering structures as claimed in claim 13, it is characterized in that, this first storage tank of this buffer body comprises a first side wall, one second sidewall and one the 3rd sidewall, this the first side wall is relative to this second sidewall, 3rd sidewall is relative to this sheet material and be connected between this first side wall and this second sidewall, this engaging block is configured at this first side wall, and this second sidewall of part is resisted against this sheet material.

15. package buffering structures as claimed in claim 13, it is characterized in that, this sheet material more comprises a relative first surface and a second surface, and comparatively this first surface is away from this end face of this buffer body for this second surface, and this bottom surface of this buffer body is between this first surface and this second surface.

16. package buffering structures as claimed in claim 13, it is characterized in that, this buffer body more comprises one second storage tank, is opened in this bottom surface and is communicated in this first storage tank, and this sheet material of part is positioned at this second storage tank.