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CN103213736A - Package assembly - Google Patents

Package assembly Download PDF

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Publication number
CN103213736A
CN103213736A CN2013101350173A CN201310135017A CN103213736A CN 103213736 A CN103213736 A CN 103213736A CN 2013101350173 A CN2013101350173 A CN 2013101350173A CN 201310135017 A CN201310135017 A CN 201310135017A CN 103213736 A CN103213736 A CN 103213736A
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CN
China
Prior art keywords
iterative structure
superimposed
load plate
load
male member
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Pending
Application number
CN2013101350173A
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Chinese (zh)
Inventor
赵令溪
杨雅芳
李佩如
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Darfon Electronics Suzhou Co Ltd
Darfon Electronics Corp
Original Assignee
Darfon Electronics Suzhou Co Ltd
Darfon Electronics Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by Darfon Electronics Suzhou Co Ltd, Darfon Electronics Corp filed Critical Darfon Electronics Suzhou Co Ltd
Priority to CN2013101350173A priority Critical patent/CN103213736A/en
Publication of CN103213736A publication Critical patent/CN103213736A/en
Pending legal-status Critical Current

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Abstract

The invention provides a package assembly which comprises multiple carrying discs, wherein each carrying disc comprises a bearing surface, at least two male members, a first laminating structure and a second laminating structure; each bearing surface extends along an X axis and a Y axis; the at least two male members are respectively erected on the opposite sides of the Y axis of the bearing surface and protrude at the bearing surface; the first laminating structures and the second laminating structures are vertical to the bearing surface respectively at the opposite sides of the Y axis, extend along the X axis, and are different in shape; when the multiple carrying discs are laminated in a manner that the first laminating structures are aligned to one another and the second laminating structures are aligned to one another, first laminating gaps exist among the adjacent carrying discs; and when the multiple carrying discs are rotated mutually so as to be laminated in a manner that the first overlapping structures are aligned to the second laminating structures, second laminating gaps exist among the adjacent carrying discs, and the second laminating gaps are greater than the first laminating gaps.

Description

Packaged combination
Technical field
The invention relates to a kind of packaged combination, particularly, the invention relates to the packaged combination that is used to pack thin type electronic device (for example keyboard).
Background technology
Along with scientific and technological progress, electronic product is tending towards the light and thin type design, makes various element design also correspondingly light more thin more.With the notebook computer is example, existing on the market now frivolous notebook computer to the document envelope of can packing into, and therefore the leading especially frivolous slim and graceful characteristic of its keyboard all has different changes in the past on outward appearance and material.The keyboard of this kind thin design generally is to utilize stainless steel, however because the load plate thickness of packing device is only had an appointment usually 0.2mm, make keyboard in transportation, be out of shape easily inadequately because of Material Strength.Therefore, in the Traditional Packing device, usually need to add the media that fender impacts as removal, and then the power of rocking when avoiding keyboard because of transportation causes distortion.
Figure 1A and Figure 1B are for showing the scheme drawing of conventional keyboard packing device and load plate thereof respectively.Shown in Figure 1A and Figure 1B, conventional keyboard packing device 10 comprises load plate 12 and fender 14, wherein load plate 12 has the accommodation space 12a of depression for ccontaining keyboard 20, fender 14 then is arranged between keyboard 20 and the load plate 12, for example be arranged among the accommodation space 12a of keyboard 20 belows, to slow down the impulsive force that acts on keyboard 20.In addition, Traditional Packing device 10 further can comprise packaging bag 16, and wherein keyboard 20 is positioned on the fender 14 that is positioned over again in the packaging bag 16 in the accommodation space 12a.So transport the impulsive force that acts on keyboard 20 in the way in order to slow down, this kind Traditional Packing device 10 must use mass expensive fender 14, not only increases packing thickness and packing cost, makes that simultaneously packet assembler is complicated.
In addition, even if used mass expensive fender 14, but because the mechanism that Traditional Packing device 10 and packaging bag 16 do not interfix between the two, so packaging bag 16 is not to be fixed among the accommodation space 12a.So cause in the process of transporting, easily because transport the vehicle than strenuous vibration, cause packaging bag 16 in accommodation space 12a, to be shifted, make keyboard 20 strike accommodation space 12a load plate 12 structures on every side, cause thickness keyboard 20 distortion even faults as thin as a wafer.
Therefore, how to provide the packing device of the slim electronic product of a kind of effective protection to be one of important now research subject under discussion.
Summary of the invention
The invention provides a kind of packaged combination, the use that it reduces packing effectively reduces packing cost.
For achieving the above object, the invention provides a kind of packaged combination, comprise: a plurality of load plates, respectively this load plate comprises carrying surface, at least two male members, first iterative structure and second iterative structure, and wherein: this carrying surface extends along X-axis and Y-axis; This at least two male member is arranged at the opposite side of this carrying surface respectively and protrudes in this carrying surface; This first iterative structure and this second iterative structure are to be erected in this carrying surface respectively to extend in the opposite side of this Y-axis and along this X-axis, and this first iterative structure has different profiles with this second iterative structure; When these a plurality of load plates are superimposed in the mode that this first iterative structure aligns mutually and this second iterative structure aligns mutually, has the first superimposed gap between adjacent load plate; When mutually the rotation mode that aligns this second iterative structure with this first iterative structure is superimposed between these a plurality of load plates, have the second superimposed gap between adjacent load plate, this second superimposed gap is greater than this first superimposed gap.
Preferable, this packaged combination more comprises a plurality of packaging bags, and respectively this packaging bag has accommodation space and at least two connecting bores, and this accommodation space carries a part in order to take in, this at least two connecting bore be formed at this packaging bag around; Wherein working as these a plurality of packaging bags is arranged at respectively on this carrying surface of these a plurality of load plates, and during this at least two male member of this at least two connecting bore socket out of the ordinary, so on this X-axis and the defined XY of this Y-axis plane, the relative motion between this packaging bag and this load plate is restricted.
Preferable, this first iterative structure has a plurality of first location divisions, and this second iterative structure has a plurality of second location divisions, and these a plurality of first location divisions and these a plurality of second location divisions are along the interlaced setting of this X-axis.
Preferable, this first location division and this second location division have first locating surface and second locating surface respectively, and this first locating surface and this second locating surface are parallel to the upper surface of this first iterative structure and this second iterative structure and differ a preset distance with the upper surface of this first iterative structure and this second iterative structure.
Preferable, when these a plurality of load plates were superimposed in the overlapped mode of this first iterative structure, these a plurality of load plates were to carry out superimposedly in this mode that first locating surface is overlapped and this second locating surface is overlapped, and this first superimposed gap is zero.
Preferable, when these a plurality of load plates are superimposed in the mode of overlapping this second iterative structure of this first iterative structure, these a plurality of load plates are to carry out superimposedly in the mode of the upper surface of the upper surface of overlapping this second iterative structure of this first locating surface and overlapping this first iterative structure of this second locating surface, and this second superimposed gap equals this preset distance.
Preferable, this at least two male members below respectively has the hole, and when these a plurality of load plates were superimposed with each other, this male member to the small part of below load plate was contained in this hole of superimposed this load plate in the top.
Preferable, these a plurality of load plates respectively comprise extension, and this extension caves in around the root of this male member and from this carrying surface and extends the opposite side of this male member.
Preferable, this extension has the hole, and when these a plurality of load plates are superimposed with each other, and this male member to small part is contained in this hole of superimposed this load plate in the top.
Preferable, when these a plurality of load plates are superimposed with each other, this carrying surface of superimposed this load plate in the below of this extension butt.
Preferable, respectively this load plate has more depressed part, and to form the depressed part bottom surface, this depressed part bottom surface is parallel to this carrying surface and has a diff-H with this carrying surface this depressed part from this carrying surface depression.
Compared with prior art, packaged combination of the present invention can reduce the use of packing, can limit simultaneously to carry part moving in this packaged combination, plays the better protect effect.
Description of drawings
Figure 1A and Figure 1B are respectively the scheme drawing of conventional keyboard packing device and load plate thereof.
Fig. 2 A and Fig. 2 B are respectively the exploded drawings and the assembly drawing of packing device of an embodiment of packaged combination of the present invention.
Fig. 3 is the use scheme drawing of the packing device of packaging group unification embodiment of the present invention.
Fig. 4 A and Fig. 4 B are respectively the load plate of packing device of packaging group of the present invention unification embodiment in the block diagram of different visual angles.
Fig. 4 C to Fig. 4 E is respectively the lateral plan of the load plate of Fig. 4 A in different visual angles.
Fig. 5 A and Fig. 5 B are respectively the deployed condition of packaging bag of packing device of packaging group of the present invention unification embodiment and the scheme drawing of folded state.
Fig. 5 C is the running condition scheme drawing of the packaging bag of Fig. 5 A.
Fig. 6 and Fig. 6 A and Fig. 6 B are respectively the packaged combination of one embodiment of the invention and carry out the superimposed block diagram and the lateral plan of different visual angles with first closed state.
Fig. 6 C be the packaged combination of Fig. 6 with first closed state block diagram after superimposed.
Fig. 7 and Fig. 7 A are respectively the packaged combination of one embodiment of the invention and carry out superimposed block diagram and lateral plan with second closed state.
Fig. 7 B be the packaged combination of Fig. 7 with second closed state block diagram after superimposed.
Fig. 7 C be the packaged combination of one embodiment of the invention with second closed state schematic side view after superimposed.
The specific embodiment
For making purpose of the present invention, structure, feature and function thereof there are further understanding, cooperate embodiment to be described in detail as follows now.
The invention provides a kind of packaged combination, comprise a plurality of packing devices, it can be used for taking in any suitable year part, especially has frivolous characteristic or easy in impacting the impaired part that carries.Particularly, in this described year preferable electronics package that can be sheet-type of part, it is including but not limited to keyboard, keyboard spare part, LGP, circuit card or any easy in clashing into article impaired or distortion in transportation.
In a preferred embodiment, the packing device that packaged combination of the present invention comprises is to be that example describes in order to take in keyboard or keyboard spare part, but is not limited thereto.With reference to figure 2A and Fig. 2 B, packing device involved in the present invention comprises load plate 100 and packaging bag 200.Load plate 100 comprises carrying surface 110, the first male member 120a and the second male member 120b, and wherein carrying surface 110 extends along X-axis and Y-axis, and the first male member 120a and the second male member b are arranged at the opposite side of carrying surface 110 and protrude in carrying surface 110.Particularly, load plate 100 is preferably integrally formed disk-like structure, and can be used at least one packaging bag 200 of mounting.Be for example two packaging bags 200 in this embodiment, but be not limited thereto, but that is the only packaging bag more than or two of load plate 100 mountings.Shown in Fig. 2 A, the first male member 120a and the second male member 120b are arranged at the relative both sides of carrying surface 110 in X-direction respectively.Preferably, a plurality of first male member 120a and a plurality of second male member 120b are arranged at carrying surface 110 respectively and distribute in the relative both sides of X-direction and along Y direction.For example, be divided into the relative both sides of carrying surface 110 in this embodiment for showing four first male member 120a and four second male member 120b, but it is more or less that the number of the first male member 120a and the second male member 120b can be according to design requirement, do not exceed with shown in the embodiment.Must note at this, the first male member 120a and the second male member 120b are preferable to be one of the forming with carrying surface 110, that is shown in 2A figure, the first male member 120a and the second male member 120b can be earlier project upwards in carrying surface 110 (describing in detail in the back) to lower recess again, or can directly swell (not shown) from carrying surface 110.The first male member 120a and the second male member 120b can have Any shape according to the different designs demand and can be identical or differently, are not limited to the flattened conical shape shown in the present embodiment.
Shown in Fig. 2 A, packaging bag 200 has accommodation space 210, the first connecting bore 220a and the second connecting bore 220b, wherein accommodation space 210 carries a part 300 (keyboard for example shown in Figure 3) in order to take in, and the first connecting bore 220a and the second connecting bore 220b be formed at packaging bag 200 around.Shown in Fig. 2 B, be arranged at when packaging bag 200 on the carrying surface 110 of load plate 100, and when the first connecting bore 220a and the second connecting bore 220b difference socket first male member 120a and the second male member 120b, so on X-axis and the defined XY of Y-axis plane, the relative motion that packaging bag 200 and load plate are 100 is restricted.That is corresponding male member 120a, 120b by connecting bore 220a, the 220b of packaging bag 200 distinguishes socket load plate 100 then make packaging bag 200 levels contact the carrying surface 110 of load plate 100, and packaging bag 200 are restricted in the displacement of X-axis and Y direction.That is when packaging bag 200 was socketed on the load plate 100, packaging bag 200 was associated with connecting bore 220a, the 220b displacement with respect to male member 120a, 120b with respect to the displacement of the carrying surface 100 of load plate 100.
Fig. 3 is the use scheme drawing of the packing device of one embodiment of the invention.As shown in Figure 3, after a year part 300 (for example keyboard) is put into the accommodation space 210 of packaging bag 200, distinguish corresponding male member 120a, the 120b (or general designation male member 120) of socket load plate 100 by connecting bore 220a, the 220b of packaging bag 200, carry the carrying surface 110 that part 300 can smoothly be fixed in load plate 100, reduce when transporting because of rocking collision damage or the distortion that causes.Moreover the material of load plate 100 is generally polyester (PET) etc.The material of packaging bag 200 is generally poly-mer, polyethylene etc. for example, and therefore compared to load plate 100, packaging bag 200 has tough and soft characteristic.When transportation shakes, can utilize the be connected socket relation of hole 220a, 220b and male member 120a, 120b of the softness characteristics of packaging bag 200, effectively the displacement of part 300 on the XY plane carried in restriction, and then reduces the chance that year part 300 collision load plates 100 cause damage or distortion.The material that it should be noted that load plate 100 and packaging bag 200 can be considered and difference is arranged according to design requirement and cost, and it is described to be not limited to embodiment.
With reference to figure 4A to Fig. 4 E, the load plate of the packing device of packaged combination preferred embodiment according to the present invention is described.Fig. 4 A and Fig. 4 B are respectively the block diagram of load plate in different visual angles, and wherein Fig. 4 A shows the Facad structure of load plate 100, and Fig. 4 B shows the reverse side structure of load plate 100.Shown in Fig. 4 A and Fig. 4 B, load plate 100 has more depressed part 130, and wherein depressed part 130 is to cave in formation depressed part bottom surface 130a from carrying surface 110, and depressed part bottom surface 130a is parallel to carrying surface 110 and has a diff-H h with carrying surface 110.Particularly, load plate 100 can have a plurality of depressed parts 130 and the aiding support portion 140 between depressed part 130, wherein a plurality of depressed parts respectively have depressed part bottom surface 130a, depressed part bottom surface 130a is parallel to carrying surface 110 and has diff-H h with carrying surface 110, and aiding support portion 140 is between two adjacent depressed parts 130 and have areal of support 140a, areal of support 140a and carrying surface 110 coplines.That is, shown in Fig. 4 A, carrying surface 110, depressed part 130 and aiding support portion 140 constitute continuous male and fomale(M﹠F), and this kind male and fomale(M﹠F) structure helps increasing the rigidity of load plate 100 on the one hand, when a plurality of packing devices are overlapped into packaged combination, help limiting packaging bag 200 on the other hand in the back with respect to the displacement (describing in detail) of load plate 100 in Z-direction.In addition, the quantity and the shape of depressed part 130 and aiding support portion 140 can change according to design requirement, are not limited to shown in the embodiment.For example, load plate 100 can only have single depressed part 130 and omit aiding support portion 140.
Moreover shown in Fig. 4 A, in the Facad structure of load plate 100, the depressed part bottom surface 130a of depressed part 130 is recessed relatively part with respect to carrying surface 110 and areal of support 140a.Yet shown in Fig. 4 B, in the reverse side structure of load plate 100, the depressed part bottom surface 130a of depressed part 130 is following relatively protruding part with respect to carrying surface 110 and areal of support 140a.That is, the carrying surface 110 of load plate 100 is from the first downwards bending extended height difference h and extend in parallel and form depressed part bottom surface 130a of a side that connects depressed part 130, upwards bends extended height difference h and is connected in the areal of support 140a when existing (if) of aiding support portion 140 or carrying surface 110 when portion 140 (if no aiding support) from depressed part bottom surface 130a in opposite side again.In other words, load plate 100 has a same thickness in the part of carrying surface 110, depressed part bottom surface 130a and areal of support 140a is preferable.
Shown in Fig. 4 A to Fig. 4 C, load plate 100 more comprises first iterative structure 150 and second iterative structure 160 and is erected in carrying surface 110 respectively and extends in the opposite side of Y-axis and along X-axis, wherein first iterative structure 150, second iterative structure 160 and 110 of carrying surfaces form bearing space 400 (with reference to figure 4C), for ccontaining packaging bag 200.Particularly, first iterative structure 150 and second iterative structure 160 are upwards bending extensions of the opposite side in Y direction from carrying surface 110 respectively, and then outwards be bent to form the upper surface 150a of first iterative structure 150 and the upper surface 160a of second iterative structure 160, bending is downwards extended again afterwards, the structure of " the fall U " font that forms that to have that Open Side Down similar.In this embodiment, first iterative structure 150 and second iterative structure 160 have preset space length X along Y direction, and can prevent that virtually any size from entering bearing space 400 greater than the foreign object of this preset space length X.Moreover when a plurality of load plates 100 were superimposed with each other, first iterative structure 150 and second iterative structure 160 were in order to locate the relative position of each load plate 100.
Shown in Fig. 4 A to Fig. 4 C, first iterative structure 150 has different profiles with second iterative structure 160.Particularly, first iterative structure 150 has a plurality of first location divisions 152, the second iterative structures 160 and has a plurality of second location divisions 162.For example, Facad structure from load plate 100, first location division 152 and second location division 162 can be the positioning groove structure that lays respectively at iterative structure 150,160 outsides, it is to cave in to the inside and form the positioning groove structure from iterative structure upper surface 150a, the 160a of Outboard Sections, shown in Fig. 4 A.Relatively, reverse side structure from load plate 100, first location division 152 and second location division 162 can be the positioning groove structure that lays respectively at iterative structure 150,160 outsides, it forms down male structure for iterative structure upper surface 150a, 160a from Outboard Sections cave in to the inside, shown in Fig. 4 B.
Shown in Fig. 4 A and Fig. 4 D, first iterative structure 150 has for example three first location divisions 152; Shown in Fig. 4 A and Fig. 4 E, second iterative structure 160 has for example two second location divisions 162, and wherein a plurality of first location divisions 152 and a plurality of second location divisions 162 are along the interlaced setting of X-axis." interlaced setting " described herein refers to that first location division 152 and second location division 162 are not arranged on the Y direction overlapping or only overlap along X-direction.Shown in Fig. 4 A and Fig. 4 D, first location division 152 and second location division 162 have the first locating surface 152a and the second locating surface 162a respectively, and wherein the first locating surface 152a and the second locating surface 162a are parallel to upper surface 150a, the 160a of first iterative structure 150 and second iterative structure 160 and differ a predetermined distance d with upper surface 150a, the 160a of first iterative structure 150 and second iterative structure 160.That is upper surface 150a, the 160a of first iterative structure 150 and second iterative structure 160 be common to form the superposed surfaces parallel with carrying surface 110, can be used as the contact surface that load plate 100 is superimposed with each other.
Shown in Fig. 4 A and Fig. 4 C, load plate 100 more comprises at least one support portion 170, wherein support portion 170 protrudes in carrying surface 110 central authorities, and upper surface 150a, the 160a copline of the upper surface 170a of support portion 170 and first iterative structure 150 and second iterative structure 160.Particularly, support portion 170 is divided into a plurality of sub-bearing spaces 410 with bearing space 400, and each sub-bearing space 410 can supply a ccontaining packaging bag 200.Shown in Fig. 4 C, support portion 170 is divided into two sub-bearing spaces 410 with bearing space 400, and each sub-bearing space 410 can supply a ccontaining packaging bag 200.Must note at this, though it is that bearing space 400 is divided into two sub-bearing spaces 410 that embodiment shows support portion 170, but according to support portion 170 position and design requirement be set, bearing space 400 can be divided into how sub-bearing space 410 or not divide bearing space 400.
In addition, can have hole 122 under male member 120a, the 120b, wherein the top of the corresponding male member 120a of the size in hole 122,120b.In other words, if male member 120a, 120b are when carrying surface 110 directly swells, its shape can be convex cone on the hollow, thereby then the bottom opening of hollow cone can be considered as the opening in hole 122 in the reverse side structure of load plate 100.Moreover, shown in Fig. 4 B, if male member 120a, 120b are for earlier when lower recess projects upwards in carrying surface 110 again, load plate 100 can more comprise extension 180, and wherein extension 180 is around the root of male member 120a, 120b and extend the opposite side of male member 120a, 120b from carrying surface 110 depressions.In other words, see it (Fig. 4 A) by the Facad structure of load plate 100, the outside face of male member 120a, 120b is for extending the inside face that becomes extension 180 downwards, and by the reverse side structure view it (Fig. 4 B) of load plate 100, the inside face of extension 180 surrounds and forms hole 122, and around the outside face that extends to form extension 180, and the outside face of extension 180 extends upward connection carrying surface 110 again.In preferred embodiment, the top of the corresponding male member 120a of the size in hole 122,120b.By this, when load plate 100 was superimposed with each other, the top of male member 120a, 120b can be contained in the hole 122 to small part.In the present embodiment, respectively this male member below has the hole, and when these a plurality of load plates are superimposed with each other, male member to the small part of this load plate that is arranged in the below is contained in this hole of superimposed this load plate in the top, utilize mutually combining of this male member and this hole, make these a plurality of load plates keep the state that is superimposed with each other, be beneficial to the packing and the transportation of carrying part.
Fig. 5 A and Fig. 5 B are respectively the deployed condition of packaging bag of packing device of one embodiment of the invention and the scheme drawing of folded state.Shown in Fig. 5 A, packaging bag 200 has more marsupial film calmodulin binding domain CaM 230, wherein bag film calmodulin binding domain CaM 230 makes connecting bore 220a, 220b not be communicated with accommodation space 210 between connecting bore 220a, 220b and accommodation space 210, collides male member 120a, 120b to avoid carrying part 300.That is bag film calmodulin binding domain CaM 230 is separated accommodation space 210 and connecting bore 220a, 220b, and the displacement range of part 300 in accommodation space 210 carried in restriction by this, further reduces a year part 300 and collides male member 120a, 120b and impaired chance.Generally speaking, the continuum that bag film calmodulin binding domain CaM 230 can be along Y direction, and the accommodation space 210 of packaging bag 200 is separated fully with connecting bore 220a, 220b; That is carrying part 300 is in two totally disconnected zones with connecting bore 220a, 220b.Moreover, according to design consideration such as material, packaging bag intensity, flexibilities, bag film calmodulin binding domain CaM 230 can be the discontinuity zone that is arranged on corresponding connecting bore 220a, 220b position along Y direction, and the accommodation space 210 of packaging bag 200 is partly separated with connecting bore 220a, 220b; That is carrying part 300 is in two disconnected zones of part with connecting bore 220a, 220b.
Moreover, in an embodiment, shown in Fig. 5 A, packaging bag 200 is that to have the opening of two ccontaining pocket 240a, 240b and two ccontaining pocket 240a, 240b be in the face of (promptly near central part) is set, and wherein packaging bag 200 is just to be arranged at (shown in Fig. 3 and Fig. 5 B) on the carrying surface 110 behind the opening of first doubling sealing two ccontaining pocket 240a, 240b.Particularly, packaging bag 200 has the first ccontaining pocket 240a and the second ccontaining pocket 240b, wherein the first ccontaining pocket 240a and the second ccontaining pocket 240b respectively have the first pocket hole 242 and the second pocket hole 244, and wherein the first pocket hole 242 and the second pocket hole 244 are arranged at the first ccontaining pocket 240a and the second ccontaining pocket 240b opposite side along X-direction respectively.When packing, packaging bag 200 is first doublings, make the first pocket hole 242 of the first ccontaining pocket 240a and the second ccontaining pocket 240b align the formation first connecting bore 220a mutually, and the second pocket hole 244 of the first ccontaining pocket 240a and the second ccontaining pocket 240b just is arranged on the carrying surface 300 after aligning mutually and forming the second connecting bore 220b.That is packaging bag 200 can be designed to have a plurality of ccontaining pocket 240a, 240b, and then can take in a plurality of identical or different year parts 300 in corresponding ccontaining pocket 240a, 240b.Moreover by folding design, packaging bag 200 not only can ccontaining a plurality of years parts 300, more can effectively seal the opening of each ccontaining pocket 240a, 240b, and the demand of exempting extra enclosed mechanism will be carried part 300 effectively simultaneously again and is limited in the accommodation space 210.Shown in Fig. 5 C, after a year part 300 is positioned over the accommodation space 210 of corresponding ccontaining pocket 240a, 240b, with the opening of the ccontaining pocket 240a of packaging bag 200 fold closes, 240b, connecting bore 220a, the 220b of packaging bag 200 can be socketed on male member 120a, the 120b (as shown in Figure 3) of load plate 100 respectively.
Compared to the Traditional Packing device; packing device of the present invention utilizes the improvement design of load plate and packaging bag; need not to use fender effectively to protect and be accommodated in the part that carries in the packaging bag, and have fixing function of carrying part simultaneously, reach and reduce the effect of carrying the part displacement collision.
Moreover, in another embodiment, the invention provides a kind of packaged combination, it is made up of a plurality of above-mentioned load plate 100.Particularly, with reference to figure 6 and Fig. 7, as mentioned above, each load plate 100 comprises carrying surface 110, at least two male members 120, first iterative structure 150 and second iterative structure 160, wherein carrying surface 110 extends along X-axis and Y-axis in fact, and at least two male members 120 are arranged at the opposite side of carrying surface 110 respectively and protrude in carrying surface 110.Moreover first iterative structure 150 and second iterative structure 160 are erected in carrying surface 110 respectively and extend in the opposite side of Y-axis and along X-axis, and first iterative structure 150 has different profiles with second iterative structure 160.(first closed state, as shown in Figure 6), 100 of adjacent load plates have the first superimposed gap g1 when a plurality of load plates 100 are superimposed in the mode that first iterative structure 150 aligns mutually and second iterative structure 160 aligns mutually.When 100 of a plurality of load plates mutually rotation align the mode of second iterative structure 160 (second closed state when superimposed with first iterative structure 150, as shown in Figure 7), 100 of adjacent load plates have the second superimposed gap g2, and wherein the second superimposed gap g2 is greater than the first superimposed gap g1.
Refer now to Fig. 6 and Fig. 6 A to Fig. 6 C, illustrate that a plurality of load plates 100 carry out superimposed with first closed state in the packaged combination.As mentioned above, first iterative structure 150 has a plurality of first location divisions 152, the second iterative structures 160 and has a plurality of second location divisions 162, and each first location division 152 reaches respectively, and second location division 162 has the first locating surface 152a and the second locating surface 162a respectively.The first locating surface 152a and the second locating surface 162a are parallel to upper surface 150a, the 160a of first iterative structure 150 and second iterative structure 160 and differ predetermined distance d with upper surface 150a, the 160a of first iterative structure 150 and second iterative structure 160.When a plurality of load plates 100 are superimposed in the overlapped mode of first iterative structure 150 (first closed state), a plurality of load plates 100 are that overlapped and second locating surface, 162 overlapped modes are carried out superimposed (shown in Fig. 6 A and 6B) with first locating surface 152, and the first superimposed gap g1 is zero.That is the mode that aligns mutually with Facad structure when a plurality of load plates 100 is carried out when superimposed, and the surface of each element or bottom surface can be corresponding mutually, and so load plate 100 can be superimposed closely mutually, makes to have minimum distance between the load plate 100.In other words, mean the thickness of a plurality of load plates 100 possibilities in this described " the first superimposed gap g1 is zero ", and make the first superimposed gap g1 of a plurality of load plates 100 when first closed state be slightly larger than zero because of production tolerance or load plate itself.Stand-by state when first closed state helps load plate 100 as yet not with packaging bag 200 sockets because of minimizing the superimposed gap of 100 of load plates, can reduce the required storage shallow storage space of load plate 100, reaches the maximum benefit of taking in.
Refer now to Fig. 7 and Fig. 7 A and Fig. 7 B, illustrate that a plurality of load plates 100 carry out superimposed with second closed state in the packaged combination.When a plurality of load plates 100 are superimposed in the mode of first iterative structure, 150 overlapping second iterative structures 160 (second closed state), a plurality of load plates 100 are to carry out superimposedly in the mode of the upper surface 150a of the upper surface 160a of overlapping second iterative structure 160 of the first locating surface 152a and second locating surface, 162 overlapping first iterative structures 150, and wherein the second superimposed gap g2 equals the predetermined distance d of locating surface 152a, 162a and upper surface 160a, 160b.That is, when a plurality of load plates 100 carry out when superimposed in the interlaced mode of first iterative structure 150 of Facad structure and second iterative structure 160, the upper surface 160a of second iterative structure 160 of top load plate is first location division 152 of corresponding below load plate, and the upper surface 150a of first iterative structure 150 of second location division, the 162 corresponding below load plates of top load plate is shown in Fig. 7 A.Similarly, the upper surface 150a of first iterative structure 150 of top load plate is second location division 162 of corresponding below load plate, and first location division 152 of top load plate is the upper surface 160a of second iterative structure 160 of corresponding below load plate.
In this second closed state, 100 of load plates can be because of the difference of iterative structure 150,160, and interfere with location division 162,152 generations of another iterative structure 160,150, can't be closely superimposed when making load plate 100 overlapping and produce the second superimposed gap g2 greater than the first superimposed gap g1 and the preferable predeterminable range d that equals of the second superimposed gap g2.Packed state when second closed state helps load plate 100 with packaging bag 200 sockets because of 100 of load plates have the superimposed gap of preset distance, can define and carry part in the space of Z-direction, helps limiting and carries part in the displacement of Z-direction.For example, the diff-H h that cooperates depressed part 130 and carrying surface 110, when a plurality of load plates 100 carry out when superimposed with second closed state, the depressed part bottom surface 130a of top load plate can compress and carry part 300 in the packaging bag 200 of institute's socket on the load plate of below, further limits packaging bag 200 and ccontaining carries part 300 with respect to the displacement (as Fig. 7 C shown in) of load plate 100 in Z-direction.
Moreover, utilize hole 122 design of above-mentioned male member 120 belows, when a plurality of load plates 100 were superimposed with each other, male member 120 to the small part of below load plate was contained in the hole 122 of superimposed load plate in the top.Particularly, when a plurality of load plates 100 were superimposed with each other, male member 120 to small part was contained in the hole 122 of extension 180 of superimposed load plate in the top, and the extension 180 of top load plate is the carrying surface 110 of the superimposed load plate 100 in the below of butt.In other words, by extension 180 and hole 122 and cooperate the design of male member 120, when being socketed on load plate 100, packaging bag 200 forms packing device, and when a plurality of packing devices are superimposed with each other, but the superimposed packaging bag 200 on the load plate carrying surface 110 of below of extension 180 butts, and then the packaging bag 200 that limits superimposed 100 sockets of load plate in the below is in the displacement of Z-direction.
Compared to the Traditional Packing device, packaged combination of the present invention is by the design of iterative structure, can have multiple superimposed configuration with in response to different service condition, for example stand-by state and packed state, and can effectively limit the displacement of packaging bag on X-axis, Y-axis and Z-direction.
The present invention is described by above-mentioned related embodiment, yet the foregoing description is only for implementing example of the present invention.Must be pointed out that the embodiment that has disclosed does not limit the scope of the invention.On the contrary, change of being done and retouching without departing from the spirit and scope of the present invention all belongs to scope of patent protection of the present invention.

Claims (11)

1. a packaged combination is characterized in that, comprises:
A plurality of load plates, respectively this load plate comprises carrying surface, at least two male members, first iterative structure and second iterative structure, wherein:
This carrying surface extends along X-axis and Y-axis;
This at least two male member is arranged at the opposite side of this carrying surface respectively and protrudes in this carrying surface;
This first iterative structure and this second iterative structure are to be erected in this carrying surface respectively to extend in the opposite side of this Y-axis and along this X-axis, and this first iterative structure has different profiles with this second iterative structure;
When these a plurality of load plates are superimposed in the mode that this first iterative structure aligns mutually and this second iterative structure aligns mutually, has the first superimposed gap between adjacent load plate; When mutually the rotation mode that aligns this second iterative structure with this first iterative structure is superimposed between these a plurality of load plates, have the second superimposed gap between adjacent load plate, this second superimposed gap is greater than this first superimposed gap.
2. packaged combination as claimed in claim 1, it is characterized in that this packaged combination more comprises a plurality of packaging bags, respectively this packaging bag has accommodation space and at least two connecting bores, this accommodation space carries a part in order to take in, this at least two connecting bore be formed at this packaging bag around;
Wherein working as these a plurality of packaging bags is arranged at respectively on this carrying surface of these a plurality of load plates, and during this at least two male member of this at least two connecting bore socket out of the ordinary, so on this X-axis and the defined XY of this Y-axis plane, the relative motion between this packaging bag and this load plate is restricted.
3. packaged combination as claimed in claim 1, it is characterized in that, this first iterative structure has a plurality of first location divisions, and this second iterative structure has a plurality of second location divisions, and these a plurality of first location divisions and these a plurality of second location divisions are along the interlaced setting of this X-axis.
4. packaged combination as claimed in claim 3, it is characterized in that, this first location division and this second location division have first locating surface and second locating surface respectively, and this first locating surface and this second locating surface are parallel to the upper surface of this first iterative structure and this second iterative structure and differ a preset distance with the upper surface of this first iterative structure and this second iterative structure.
5. packaged combination as claimed in claim 4, it is characterized in that, when these a plurality of load plates are superimposed in the overlapped mode of this first iterative structure, these a plurality of load plates are to carry out superimposedly in this mode that first locating surface is overlapped and this second locating surface is overlapped, and this first superimposed gap is zero.
6. packaged combination as claimed in claim 4, it is characterized in that, when these a plurality of load plates are superimposed in the mode of overlapping this second iterative structure of this first iterative structure, these a plurality of load plates are to carry out superimposedly in the mode of the upper surface of the upper surface of overlapping this second iterative structure of this first locating surface and overlapping this first iterative structure of this second locating surface, and this second superimposed gap equals this preset distance.
7. packaged combination as claimed in claim 1 is characterized in that, this at least two male member below respectively has the hole, and when these a plurality of load plates were superimposed with each other, this male member to the small part of below load plate was contained in this hole of superimposed this load plate in the top.
8. packaged combination as claimed in claim 1 is characterized in that, these a plurality of load plates respectively comprise extension, and this extension caves in around the root of this male member and from this carrying surface and extends the opposite side of this male member.
9. packaged combination as claimed in claim 8 is characterized in that this extension has the hole, and when these a plurality of load plates are superimposed with each other, and this male member to small part is contained in this hole of superimposed this load plate in the top.
10. packaged combination as claimed in claim 9 is characterized in that, when these a plurality of load plates are superimposed with each other, and this carrying surface of superimposed this load plate in the below of this extension butt.
11. packaged combination as claimed in claim 1 is characterized in that, respectively this load plate has more depressed part, and to form the depressed part bottom surface, this depressed part bottom surface is parallel to this carrying surface and has a diff-H with this carrying surface this depressed part from this carrying surface depression.
CN2013101350173A 2013-04-18 2013-04-18 Package assembly Pending CN103213736A (en)

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CN2013101350173A CN103213736A (en) 2013-04-18 2013-04-18 Package assembly

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CN2013101350173A CN103213736A (en) 2013-04-18 2013-04-18 Package assembly

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Publication number Priority date Publication date Assignee Title
CN2067269U (en) * 1990-03-03 1990-12-12 朴铁军 Combined container
CN1132173A (en) * 1994-12-02 1996-10-02 吉奥里街股份有限公司 Stacking board for depositing stack of sheets, and automatic handling apparatus for stacking boards of this type
CN1169387A (en) * 1996-06-25 1998-01-07 东罐兴业株式会社 Liquid dispensing bag and quantitative chamber forming jig for liquid dispensing device
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CN103508116A (en) * 2013-10-16 2014-01-15 镇江华印电路板有限公司 Flexible printed wiring board lifting appliance
CN103738595A (en) * 2013-12-20 2014-04-23 东莞豪顺家具有限公司 Module backboard packaging and positioning column
CN103738595B (en) * 2013-12-20 2016-06-01 东莞市豪顺精密科技有限公司 Module backboard packaging locating dowel

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Application publication date: 20130724