CN109562889A - Glass plate bracket and glass plate package body - Google Patents
Glass plate bracket and glass plate package body Download PDFInfo
- Publication number
- CN109562889A CN109562889A CN201780048485.3A CN201780048485A CN109562889A CN 109562889 A CN109562889 A CN 109562889A CN 201780048485 A CN201780048485 A CN 201780048485A CN 109562889 A CN109562889 A CN 109562889A
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- China
- Prior art keywords
- glass plate
- buffer board
- supporting part
- interarea
- glass
- Prior art date
- Legal status (The legal status 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 status listed.)
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D81/00—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents
- B65D81/02—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage
- B65D81/05—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage maintaining contents at spaced relation from package walls, or from other contents
- B65D81/127—Containers, packaging elements, or packages, for contents presenting particular transport or storage problems, or adapted to be used for non-packaging purposes after removal of contents specially adapted to protect contents from mechanical damage maintaining contents at spaced relation from package walls, or from other contents using rigid or semi-rigid sheets of shock-absorbing material
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65D—CONTAINERS FOR STORAGE OR TRANSPORT OF ARTICLES OR MATERIALS, e.g. BAGS, BARRELS, BOTTLES, BOXES, CANS, CARTONS, CRATES, DRUMS, JARS, TANKS, HOPPERS, FORWARDING CONTAINERS; ACCESSORIES, CLOSURES, OR FITTINGS THEREFOR; PACKAGING ELEMENTS; PACKAGES
- B65D85/00—Containers, packaging elements or packages, specially adapted for particular articles or materials
- B65D85/30—Containers, packaging elements or packages, specially adapted for particular articles or materials for articles particularly sensitive to damage by shock or pressure
- B65D85/48—Containers, packaging elements or packages, specially adapted for particular articles or materials for articles particularly sensitive to damage by shock or pressure for glass sheets
Abstract
Glass plate package body (1) is by the way that made of bracket (2) supporting stack (5), which is alternately flatwise to stack glass plate (3) and screening glass (4).Bracket (2) has: abutment portion (6) is constituted by being formed with the skeleton of lattice-shaped in multiple holes;And interarea supporting part (11), it is set to the upper surface of abutment portion (6), and the interarea of the glass plate (3) of supporting stack (5) from below.The stepped construction comprising rigid plate (12), the first buffer board (14) and the second buffer board (15) is formed in interarea supporting part (11), the rigid plate (12) is layed in the upper surface of abutment portion 6 in a manner of plugging hole and is divided into multiple platelets in the in-plane direction, first buffer board (14) is layed in the upper surface of rigid plate 12, which is layed in the upper surface of the first buffer board (14).
Description
Technical field
The present invention relates to glass plate bracket and use the glass plate package body of the glass plate bracket.
Background technique
As known, for flat-panel monitors such as such as liquid crystal display, plasma scope, organic el displays
(FPD) glass plate that is utilized in various fields as the cover glass of glass substrate, organic EL illuminating is representative and
Speech, actual conditions are to be constantly required to enlargement in recent years and be thinning.Therefore, glass plate becomes easy generation breakage, protects
The bale packing form of glass plate when pipe, conveying is particularly important.
As the bale packing form of this glass plate, there is known multiple glass plates are flatwise stacked (horizontal on bracket
Ground stacking) made of laminated body the bale packing form that is packed of state (for example, referring to Patent Documents 1 to 2).In the bale packing shape
In state, the weight of glass plate is mainly supported by the interarea of glass plate (opposed face in a thickness direction), therefore, is had useless
Stress is difficult to the advantage that concentrating on being easy to cause the edge of damaged glass plate.
Here, being positioned in for having to the bracket that laminated body made of flatwise stacking multiple glass plates packs
Abutment portion on ground etc..According to light-weighted viewpoint etc., most cases are that abutment portion is usually made of the skeleton of lattice-shaped,
The skeleton of the lattice-shaped is made of metals such as aluminium alloys, in part corresponding with the support region of laminated body, is also formed with multiple
Hole.In addition, in general, being equipped with a buffer board in a manner of plugging hole (for example, referring to patent in the upper surface of abutment portion
Fig. 4 of document 2).In this case, buffer board becomes the interarea (lower surface) for the glass plate that supporting stack is included from below
Interarea supporting part.
In addition, the bale packing form as glass plate, it is also known that there are on bracket by multiple glass plates with longitudinal attitude layer
The bale packing form (such as patent document 3~4) that the state of laminated body made of folded is packed.In the bale packing form, due to
Glass plate is stacked with longitudinal attitude, therefore, have conveying when etc. space efficiency it is good the advantage that.
Here, for being configured to by multiple glass plates with the bracket that the laminated body that longitudinal attitude is laminated packs
The back carrier for having the abutment portion being positioned on ground etc. and being erected from the rear side of abutment portion, in the upper of abutment portion
Side and the front of back carrier are configured with the laminated body for being laminated multiple glass plates with longitudinal attitude.According to light-weighted
Viewpoint etc., most cases are that back carrier is usually made of the skeleton of lattice-shaped, and the skeleton of the lattice-shaped is by gold such as aluminium alloys
Belong to and constituting, in part corresponding with the support region of laminated body, is also formed with multiple holes.In addition, in general, being accepted at back
The front surface in portion is equipped with a buffer board in a manner of plugging hole.In this case, buffer board becomes to support from rear and be laminated
The interarea supporting part of the interarea for the glass plate that body is included.
Citation
Patent document
Patent document 1: Japanese Unexamined Patent Publication 2010-143599 bulletin
Patent document 2: Japanese Unexamined Patent Publication 2010-168046 bulletin
Patent document 3: Japanese Unexamined Patent Publication 2008-143539 bulletin
Patent document 4: Japanese Unexamined Patent Publication 2008-143541 bulletin
Summary of the invention
Subject to be solved by the invention
However, in the bracket for being packed to laminated body made of flatwise stacking multiple glass plates, for
When only blocking the structure in multiple holes of abutment portion with a biggish buffer board, enlargement and thin plate with glass plate,
It is possible that can lead to the problem of following.
First, with the enlargement of glass plate, become larger by the load supported as the buffer board of interarea supporting part, only
Sufficient rigidity is then difficult to ensure by buffer board.As a result, buffer board is sometimes in position corresponding with the hole of abutment portion
Generate flexure.In this case, with thin plate, glass plate itself is also easy to produce deformation, therefore, the glass that laminated body is included
Glass plate is also possible to copy the flexure of buffer board and be deformed.Especially, in the lower section of laminated body, the deformation of glass plate
Tend to get bigger, it is possible to become sheet breakage the reason of.
Second, since the buffer board as interarea supporting part is a continuous plate, due to from below etc.
Impact and when vibrating a part for being applied to buffer board, which is easy integrally to transmit to buffer board.As a result, it is possible to
Meeting is so that the glass plate that laminated body is included generates positional shift or sheet breakage.Although here, it is also contemplated that utilizing tool
There is the buffer board of higher vibration absorption, but in general, the rigidity of such buffer board is lower.Therefore, that is, allow to
Solve the problem of that the above-mentioned flexure of vibration can become larger instead.
For in the bracket for packing multiple glass plates with the laminated body that longitudinal attitude is laminated, to use
In the case where the structure in multiple holes of the interarea supporting part being made of a biggish buffer board to block back carrier, also have
Such problems may similarly be generated.
Technical task of the invention is, it is ensured that the rigidity of the interarea supporting part of the interarea of supporting stack, and make to apply
It is difficult to be transmitted to the glass plate that laminated body is included in the vibration of interarea supporting part.
Solution for solving the problem
In order to solve the above problems and create glass plate of the invention with bracket be used for by multiple glass plates flatwise
Laminated body made of stacking is packed, which is characterized in that the glass plate has with bracket: abutment portion, more by being formed with
The skeleton of the lattice-shaped in a hole is constituted;And interarea supporting part, it is set to the upper surface of abutment portion, and bearing stacking from below
The interarea of the glass plate of body, interarea supporting part have the stepped construction comprising rigid plate and buffer board, and the rigid plate is with plugging hole
Mode be layed in the upper surface of abutment portion, which is layed in the upper surface of rigid plate, rigid plate in the in-plane direction by
It is divided into multiple platelets.According to this structure, since the interarea of the interarea (lower surface) of the glass plate of supporting stack supports
There is the stepped construction for being reinforced buffer board using rigid plate therefore can be improved the rigidity of interarea supporting part in portion.In addition, by
It is divided into multiple platelets in the in-plane direction in rigid plate, therefore, even if due to from external impact etc. and in rigid plate
A part generate vibration, can also weaken the vibration using partitioning portion.Therefore, vibration is also difficult to be transmitted to by comprising this
The laminated body of the interarea supporting part bearing of the rigid plate of sample.
In said structure, it is preferred that buffer board is divided into multiple platelets in the in-plane direction.In this way, being applied to
The vibration of interarea supporting part becomes increasingly difficult to for delivery to laminated body.
In said structure, being also possible to rigid plate and buffer board, screw is fixed on the base in a manner of separation
Platform portion.It so, it is possible that rigid plate and buffer board are simply fixed on abutment portion or simply remove from abutment portion by rigid plate
And buffer board.Therefore, rigid plate, the replacement operation of buffer board become easy.
In said structure, it is preferred that the peripheral part of the respective platelet of rigid plate is provided with abutment portion
Skeleton.In this way, skeleton supporting of the peripheral part of the respective platelet of rigid plate by abutment portion.Therefore, even if rigid plate is thinned,
It is easy to ensure that the rigidity of interarea supporting part.
In said structure, being also possible to buffer board has comprising the stepped construction for the layer being made of Foamex.Such as
This, can assign the elastic force of buffer board appropriateness and improve impact absorbency.
The glass plate package body of the invention created in order to solve the above problems is characterized in that the glass plate packs
Body be by comprising suitably have above structure, for laminated body made of flatwise stacking multiple glass plates into
Made of the part supporting stack of the interarea supporting part of the glass plate bracket of row bale packing, the laminated body by by glass plate and
Screening glass alternately flatwise stacks.According to this structure, it can be ensured that the rigidity of interarea supporting part, and can make to apply
The vibration for being added on interarea supporting part is difficult to be transmitted to the glass plate that laminated body is included, and therefore, sheet position can be prevented inclined
The situation of shifting or breakage.
In said structure, it is preferred that in the layer that the thickness of glass plate is set as T [mm], interarea supporting part will be constituted
The thickness of each layer of stack structure is set as D1、D2…Dn[mm], the spring rate of each layer is set as E1、E2…EnIn the case where [GPa],
[mathematical expression 1]
Relationship set up.
Here, when interarea supporting part generates flexure in position corresponding with the hole of abutment portion, even if not produced in glass plate
In the case where raw breakage, it is also possible to lead to the problem of.That is, even if the flexure of interarea supporting part is that will not generate the breakage of glass plate
Lesser extent, in the case where glass plate is relatively thin, glass plate can also copy the shape of interarea supporting part and slightly deform.
In this way, the load of glass plate is easy to concentrate on position corresponding with the skeleton of abutment portion.As a result, screening glass etc. is included
Foreign matter is possible to that glass plate can be transferred in position corresponding with the skeleton of abutment portion.
Then, it according to the viewpoint for the transfer for preventing foreign matter, is supported for the thickness of glass plate and the interarea of abutment portion
Appropriateization of the rigidity in portion, has constantly carried out wholwe-hearted research, as a result, being finally derived such relationship shown in mathematical expression 1
Formula.That is, it is considered that the rigidity (flexural rigidity) of interarea supporting part is proportional to the spring rate of interarea supporting part, and and interarea
The cube of the thickness of supporting part is proportional.Therefore, in the value based on the left side expression by mathematical expression 1, (hereinafter referred to as rigidity is closed
Connection value.) and the thickness of glass plate come evaluate glass plate foreign matter transfer when, be finally derived and meeting the relationship of mathematical expression 1
In the case of, foreign matter can be reduced to the practical upper degree that there is no problem relative to the transfer of glass plate.
In which case it is preferable that the aggregate thickness of interarea supporting part is 20mm or less.It is further preferred, that glass
Plate with a thickness of 0.5mm or less.
In order to solve the above problems and create glass plate of the invention with bracket be used for by multiple glass plates with longitudinal direction
The laminated body that posture is laminated is packed, which is characterized in that the glass plate has with bracket: abutment portion;It accepts at back
Portion is constituted by the skeleton of lattice-shaped in multiple holes is erected and be formed with from the rear side of abutment portion;Interarea supporting part, setting
In the front surface of back carrier, and the interarea of the glass plate from rear supporting stack;And side supporting part, with abutment portion
And/or back carrier engagement ground setting, and the edge of the glass plate of supporting stack from below, interarea supporting part have comprising
The stepped construction of rigid plate and buffer board, the rigid plate are layed in the front surface of back carrier, institute in a manner of plugging hole
The front surface that buffer board is layed in rigid plate is stated, rigid plate is divided into multiple platelets in the in-plane direction.According to such knot
Structure reinforces buffer board using rigid plate since the interarea supporting part of the interarea (trailing flank) of the glass plate of supporting stack has
Stepped construction therefore can be improved the rigidity of interarea supporting part.In addition, since rigid plate is divided into the in-plane direction
Multiple platelets, therefore, even if due to generating vibration in a part of rigid plate from external impact etc., also can using point
Part is cut to weaken the vibration.Therefore, vibration is also difficult to be transmitted to by the interarea supporting part bearing comprising such rigid plate
Laminated body.
In said structure, it is preferred that buffer board is divided into multiple platelets in the in-plane direction.In this way, being applied to
The vibration of interarea supporting part becomes increasingly difficult to for delivery to laminated body.
In said structure, being also possible to rigid plate and buffer board, screw is fixed on back and holds in a manner of separation
Socket part.It so, it is possible that rigid plate and buffer board are simply fixed on back carrier or simply carrier removed from back
Rigid plate and buffer board.Therefore, rigid plate, the replacement operation of buffer board become easy.
In said structure, it is preferred that back carrier is arranged in the peripheral part along the respective platelet of rigid plate
Skeleton.In this way, skeleton supporting of the peripheral part of the respective platelet of rigid plate by back carrier.Therefore, even if rigidity is thinned
Plate, also it is easy to ensure that the rigidity of interarea supporting part.
In said structure, being also possible to buffer board has comprising the stepped construction for the layer being made of Foamex.Such as
This, can assign the elastic force of buffer board appropriateness and improve impact absorbency.
The glass plate package body of the invention created in order to solve the above problems is characterized in that the glass plate packs
Body be by comprising suitably having above structure, for the stacking to being laminated multiple glass plates with longitudinal attitude
Made of the interarea supporting part for the glass plate bracket that body is packed and the part supporting stack of side supporting part, the laminated body
By the way that glass plate and screening glass are alternately laminated with longitudinal attitude.According to this structure, it can be ensured that interarea bearing
The rigidity in portion, and the vibration for being applied to interarea supporting part can be made to be difficult to be transmitted to the glass plate that laminated body is included, therefore, energy
Enough prevent the situation of sheet position offset or breakage.
In said structure, it is preferred that the front surface and vertical guide angulation of interarea supporting part are 13~23 °,
The thickness of glass plate is being set as T [mm], the thickness for each layer for constituting the stepped construction of the interarea supporting part is set as D1、
D2…Dn[mm], the spring rate of each layer is set as E1、E2…EnIn the case where [GPa],
[mathematical expression 2]
Relationship set up.It so, it is possible foreign matter being reduced to the practical upper journey that there is no problem relative to the transfer of glass plate
Degree.
Invention effect
According to the present invention, as described above, it is possible to ensure the rigid of the interarea supporting part of the interarea of the glass plate of supporting stack
Property, and the vibration for being applied to interarea supporting part can be made to be difficult to be transmitted to the glass plate that laminated body is included.
Detailed description of the invention
Fig. 1 is the perspective view for indicating the glass plate package body of first embodiment of the invention.
Fig. 2 is the solid for illustrating the major part of glass plate bracket used in the glass plate package body of Fig. 1
Figure.
Fig. 3 is the solid for illustrating the major part of glass plate bracket used in the glass plate package body of Fig. 1
Figure.
Fig. 4 is the solid for illustrating the major part of glass plate bracket used in the glass plate package body of Fig. 1
Figure.
Fig. 5 is the vertical view for illustrating the major part of glass plate bracket used in the glass plate package body of Fig. 1
Figure.
Fig. 6 is the A-A cross-sectional view of Fig. 5.
Fig. 7 is the solid for illustrating the major part of glass plate bracket used in the glass plate package body of Fig. 1
Figure.
Fig. 8 is the vertical view for illustrating the major part of glass plate bracket used in the glass plate package body of Fig. 1
Figure.
Fig. 9 is the top view for indicating an example of the glass plate after foreign matter transfer.
Figure 10 is the chart for indicating the inspection result of transfer foreign matter.
Figure 11 is the perspective view for indicating the glass plate package body of second embodiment of the present invention.
Figure 12 is for illustrating the vertical of the major part of glass plate bracket used in the glass plate package body of Figure 11
Body figure.
Figure 13 is for illustrating the vertical of the major part of glass plate bracket used in the glass plate package body of Figure 11
Body figure.
Figure 14 is for illustrating the vertical of the major part of glass plate bracket used in the glass plate package body of Figure 11
Body figure.
Figure 15 is the master for illustrating the major part of glass plate bracket used in the glass plate package body of Figure 11
View.
Figure 16 is the B-B cross-sectional view of Figure 15.
Figure 17 is for illustrating the vertical of the major part of glass plate bracket used in the glass plate package body of Figure 11
Body figure.
Figure 18 is the main view for illustrating the major part of glass plate bracket used in the glass plate body of Figure 11.
Figure 19 is the chart for indicating the inspection result of transfer foreign matter.
Specific embodiment
Hereinafter, being based on attached drawing, embodiments of the present invention will be described.
(first embodiment)
As shown in Figure 1, the glass plate package body 1 of first embodiment of the invention be by with glass plate bracket (with
Under be only called bracket) made of 2 supporting stacks 5, which passes through the alternately flatwise heap by glass plate 3 and screening glass 4
It is folded to form.In the present embodiment, there is screening glass 4 on the lower side surface of laminated body 5 and top side surface configuration.It needs to illustrate
, the direction X1 and the direction Y1 in figure are mutually orthogonal directions.
Preferably, glass plate 3 with a thickness of 0.2~1.8mm, it is further preferred that be 0.2~0.5mm.Glass plate 3 is
Rectangular shape, it is preferred that the length on one side is G5 size (1100~1300mm) or more, it is further preferred that being G8.5 size
More than (2200~2500mm).Preferably, the density of glass plate 3 is 2.0~3.0g/cm3.As glass plate 3, such as preferably
The glass substrate of the FPD such as liquid crystal display.
Preferably, screening glass 4 with a thickness of 0.05~0.2mm, it is further preferred that be 0.05~0.1mm.Screening glass 4
For rectangular shape, it is preferred that the length on one side is G5 size (1100~1300mm) or more, it is further preferred that being G8.5 ruler
More than very little (2200~2500mm).Preferably, screening glass 4 is bigger than glass plate 3 under vertical view, and is being folded in glass plate 3
Between in the state of stretched out outward from each side of glass plate 3.As screening glass 4, Foamex piece etc. can be used for example, but
In the present embodiment, using paper (stacking paper).
Bracket 2 has the abutment portion 6 being positioned on ground etc..In the present embodiment, abutment portion 6 has 7 He of lower section portion
Upper section portion 8, the upper section portion 8 are fixed integrally to lower section portion 7 by welding etc..Lower section portion 7 and upper section portion 8 are distinguished under vertical view
Rectangular shaped.Upper section portion 8 is smaller than lower section portion 7, and a part of the upper surface 7u in lower section portion 7 is exposed.It should be noted that base station
Portion 6 is not limited to such multistage shape, or the shape only constituted by one section.
At four angles of the exposed portion of the upper surface 7u in lower section portion 7, it is detachably provided with pillar 9, which exists
The glass plate package body 1 of upper section is supported when glass plate package body 1 is overlapped multistage.It should be noted that also can be omitted pillar
9。
Four side 7s in lower section portion 7 are respectively arranged with the fork hole 10 of the fork insertion for fork truck.
Upper surface 8u in upper section portion 8 is provided with the lower surface 5b's (interarea of glass plate 3) of supporting stack 5 from below
Interarea supporting part (lower surface supporting part) 11.Interarea supporting part 11 has the stacking for being laminated rigid plate 12 and buffer board 13
Structure, the rigid plate 12 are configured at 6 side of abutment portion (lower side), which is configured at 5 side of laminated body (upper side).At this
In embodiment, buffer board 13 is the multilayered structure for being laminated the first buffer board 14 and the second buffer board 15.Here, increasing
When the aggregate thickness of big interarea supporting part 11, the stacking space of glass plate 3 is reduced, and the stacking efficiency of glass plate 3 reduces, therefore,
Preferably, the aggregate thickness of interarea supporting part 11 is 20mm or less.
In order to which the horizontal direction for limiting laminated body 5 is mobile, using retainers such as screws respectively by multiple side pressing plates 16
Lower end four side 8s in upper section portion 8 are installed in a manner of assemble and unassemble.In the present embodiment, in upper section portion 8
Every one side 8s is equipped with two side pressing plates 16, total to be equipped with eight side pressing plates 16.Preferably, side pressing plate 16 with
The ora terminalis of the screening glass 4 stretched out around to glass plate 3 abuts.In other words, it is preferred that side pressing plate 16 not with glass plate 3
Directly contact.It should be noted that also can be omitted side pressing plate 16.
In the state of glass plate package body 1, laminated body 5 upper surface 5u (in the present embodiment for positioned at most upper
The upper surface of the screening glass 4 of side surface) configuration upper surface pressing plate (illustration omitted), and tightly will be on this with connecting piece using band etc.
Surface pressing plate is pressed against abutment portion 6, and thus laminated body 5 is maintained on interarea supporting part 11.It should be noted that for example,
Can be as Japanese Unexamined Patent Publication 2009-202900 bulletin disclose, for such as flowering structure: in upper surface, the upper surface of pressing plate is arranged side by side
Ground is configured with more compression bars, using fastening coupling member (band, can in the rod-shaped of the specified position compression column with fixed of longitudinal direction or
The clava of tubulose) and the both ends of each compression bar stretched out from laminated body 5 are pressed against 6 side of abutment portion.As upper surface pressing plate,
Such as it is able to use 4 thickness of wall ratio screening glass and the buffer boards such as higher Foamex piece of hardness.In addition, in order to prevent in glass
Dust is attached to the glass plate 3 that laminated body 5 is included in the state of plate bundling body 1, as needed, such as can also be in glass plate
The Flexible film of surrounding's circumvolution resin of bundling body 1 puts on sack.
Then, each element for constituting glass plate package body 1 is described in detail.
As shown in Fig. 2, the upper section portion 8 of abutment portion 6 is made of the skeleton 8c of lattice-shaped, the skeleton 8c of the lattice-shaped is closed by aluminium
The metals such as gold are constituted.In other words, upper section portion 8 has the upper and lower surface in upper section portion 8 perforative in the part that skeleton 8c is not present
Multiple hole 8h.In addition, though illustration omitted, but the lower section portion 7 of abutment portion 6 is also made of the skeleton of lattice-shaped, the lattice-shaped
Skeleton is made of metals such as aluminium alloys, and has the upper and lower surface in lower section portion 7 perforative multiple in the part that skeleton is not present
Hole.It should be noted that being provided with the insert port 17 for being inserted into pillar 9 at four angles in upper section portion 8.Certainly, it is being not provided with
In the case where pillar 9, insert port 17 also can be omitted.
As shown in figure 3, the upper surface 8u in upper section portion 8 is equipped with rigid plate 12 in a manner of plugging hole 8h.Rigid plate 12
It is divided into multiple platelet 12p in the in-plane direction.In the present embodiment, rigid plate 12 is in the one side along upper section portion 8
Three are divided on the direction X1 of 8s.In addition, though rigid plate 12 can also be orthogonal with the direction X1 along upper section portion 8
It is split on the direction Y1 of another side 8s, but in the present embodiment, it is not divided and continuous on the direction Y1.Although
Gap can be formed with each other in adjacent platelet 12p, but in the present embodiment, adjacent platelet 12p not across
Gap and be in contact with each other.As rigid plate 12, it is preferred that use the metal plates such as aluminium alloy, stainless steel (SUS).Preferably,
Rigid plate 12 with a thickness of 2~20mm.
As shown in figure 4, being equipped with the first buffer board 14 in the upper surface 12u of rigid plate 12.First buffer board 14 is in plane
Multiple platelet 14p are divided on direction.In the present embodiment, the first buffer board 14 is on position identical with rigid plate 12 edge
The direction X1 is divided into three.Rigid plate 12 and the division position of the first buffer board 14 both may be the same or different.Separately
Outside, although the first buffer board 14 can also be split on the direction Y1, in the present embodiment, do not divided on the direction Y1
It cuts and continuous.Although gap can also be formed with each other in adjacent platelet 14p, in the present embodiment, in phase
The not formed gap each other of adjacent platelet 14p and be in contact with each other.As the first buffer board 14, it is preferred that for example using
Rubber, sponge rubber, resin, Foamex, silicone etc..It is excellent in the case where using Foamex as the first buffer board 14
Choosing, the harder Foamex for the use of expansion ratio being 3~5 times.In the present embodiment, it is sent out using polypropylene three times
Steep resin.Preferably, the first buffer board 14 with a thickness of 2~20mm.
As shown in figure 5, in the state that rigid plate 12 and the first buffer board 14 are layed in the upper section portion 8 of abutment portion 6, just
The week of the respective platelet 14p of the peripheral part (region of border shape) and the first buffer board 14 of the respective platelet 12p of property plate 12
Edge (region of border shape) is supported from below by the skeleton 8c in upper section portion 8.In other words, in the respective platelet with rigid plate 12
The corresponding position in peripheral part of the respective platelet 12p of the peripheral part of 12p and the first buffer board 14, is not formed upper section portion 8
Hole 8h.
As shown in fig. 6, the platelet 14p's of the platelet 12p of rigid plate 12 and the first buffer board 14 provides such as four angles
Position can discretely be fixed on the upper section portion 8 of abutment portion 6 in such a way that screw is fixed.In the present embodiment, rigid plate 12
Platelet 12p and the platelet 14p of the first buffer board 14 screw carried out by shared screw 18 fix.Specifically, slow first
The fixed position of the screw of punching 14 is formed with recess portion 19, and the head 18h of screw 18 is stored in the recess portion 19.That is, screw 18
It is made a concession downwards from the upper surface 14u of the first buffer board 14 front end of head 18h.In this state, the axle portion 18s of screw 18 from
First buffer board 14 extends through upper section portion 8 via rigid plate 12.It should be noted that preferably, screw fixed bit installs
It sets outside the region of actual disposition laminated body 5.
As shown in fig. 7, being equipped with the second buffer board 15 in the upper surface 14u of the first buffer board 14.Second buffer board 15 exists
Multiple platelet 15p are divided on in-plane.In the present embodiment, the second buffer board 15 is divided into four on the direction X1
It is a.That is, the second buffer board 15 is compared to the first buffer board 14 and the segmentation number on the direction X1 is more.Moreover, in present embodiment
In, the division position of the second buffer board 15 is not overlapped with the division position of the first buffer board 14.It should be noted that the second buffering
The segmentation number and division position of plate 15 can also be identical as the first buffer board 14.In addition, though the second buffer board 15 can also be
Y1 is split on direction, but in the present embodiment, not divided and continuous on the direction Y1.Although can also be adjacent
Platelet 15p's is formed with gap each other, but in the present embodiment, in the not formed each other of adjacent platelet 15p
Gap and be in contact with each other.As the second buffer board 15, it is preferred that for example using rubber, sponge rubber, resin, Foamex,
Silicone.In the case where using Foamex as the second buffer board 15, it is preferred that using than 14 softness of the first buffer board
Foamex.In the present embodiment, using polyurethane foam plastic.Second buffer board 15 is for example adhesively secured slow in first
Punching 14.Preferably, the second buffer board 15 with a thickness of 2~20mm.It should be noted that in the present embodiment, second
The thickness of buffer board 15 is smaller than the thickness of the first buffer board 14.
The configuration layer stack on the interarea supporting part 11 constituted as described above, i.e. on the upper surface of the second buffer board 15
5.In this state, as shown in figure 8, laminated body 5 actual configuring area (in figure by the rectangle shape shown in chain-dotted line
The comparable region in the region of shape), (have there are the part of the skeleton 8c in the upper section portion 8 of abutment portion 6 and without the part of skeleton 8c
The part of hole 8h), but interarea supporting part 11 has been set as to reinforce the structure of buffer board 13 using rigid plate 12.Therefore, and only
The case where interarea supporting part 11 is formed by buffer board 13 is compared, and is easy to improve the rigidity of interarea supporting part 11.Therefore, even if subtracting
The thickness of thin interarea supporting part 11, being also able to suppress interarea supporting part 11, generation is scratched in position corresponding with the hole 8h in upper section portion 8
It is bent.In addition, since rigid plate 12 is divided into multiple platelet 12p in the in-plane direction, even if due to from external (example
Such as lower section) impact and rigid plate 12 a part generate vibration, can also be weakened using partitioning portion, Neng Goufang
It only vibrates and laminated body 5 is had an impact.
Here, in the case where glass plate 3 is relatively thin (especially, in the situation with a thickness of 0.5mm or less of glass plate 3
Under), when interarea supporting part 11 is when position corresponding with the hole 8h in upper section portion 8 generates flexure, even if not damaged, glass plate 3
It is possible that copying the shape of interarea supporting part 11 and being deformed.In this way, position corresponding with skeleton 8c is maintained at relatively
Higher position.As a result, the load of glass plate 3 can be concentrated in position corresponding with skeleton 8c, as shown in figure 9, screening glass 4
The foreign matter P for being included is possible to be transferred on glass plate 3.Then, in the case where being conceived to the transfer of foreign matter P, preferably
, glass plate package body 1 is also equipped with following structure.
Namely it is preferred that in the stepped construction that the thickness of glass plate 3 is set as T [mm], interarea supporting part 11 will be constituted
The thickness of each layer is set as D1、D2…Dn[mm], the spring rate of each layer is set as E1、E2…EnIn the case where [GPa], glass plate bale packing
Body 1 meets relationship as defined in above-mentioned mathematical expression 1.Thereby, it is possible to be reduced as far as transfer of the foreign matter P to glass plate 3.
Mathematical expression 1 is by the derived formula of experiment.Its basis described below.
Experiment carries out in the following way: to lay flat on the bracket of the material and thickness that change interarea supporting part
The mode laminated glass plate of ground stacking is simultaneously transported, and later, is counted to the quantity of the foreign matter transfer of the glass plate of each bracket
Number.Detailed experiment condition is as described below.
As glass plate, lateral dimension is used: the Nippon Electric Glass Co., Ltd of 2200mm, longitudinal size: 2500mm
The OA-10G of system.Glass plate with a thickness of 0.7mm, 0.5mm, 0.4mm, 0.3mm these four.The glass plate of each thickness is flat on
Each bracket simultaneously stacks identical weight, thus makes glass bundling body.It is removed along the same routes that distance is 200km with truck
Send and cleaned after each glass plate package body produced, using image testing device to 1 μm on the surface of glass plate with
Under transfer foreign matter number counted.Transfer foreign matter more than 1 μm is removed by cleaning.For transferring foreign matter number,
In view of the bad generation rate in the manufacturing process of past liquid crystal display, by 1 μm of transfer foreign matter number below less than 100
The case where be set as " qualification ", the situation for 100 or more is set as " unqualified ".It should be noted that transfer foreign matter number is pair
The transfer foreign matter number for each glass plate being stacked on bracket is counted and is made the summation of the quantity of the transfer foreign matter of each glass plate
It is worth divided by obtained from stacking number, that is, be the average value of each glass plate.
The plate used in the interarea supporting part of bracket is expanded polypropylene (PP), Hard PVC (PVC), stainless
Steel plate (SUS304), aluminium sheet (A1), respective spring rate are PP:1.5GPa, PVC:4GPa, SUS:200GPa, A1:70GPa.And
And two or more of one or different are selected from these plates and are used for interarea supporting part.Plate more than selection two is opened
In the case where, it is set as stepped construction and being overlapped the plate of selection (wherein, buffer board is upper surface side).In addition, constituting master
Each layer in surface bearing portion is divided into three (for example, referring to Fig. 3 or Fig. 4) in the in-plane direction.
Above experimental result has been shown in table 1.
[table 1]
Figure 10, which is shown, to be set as glass plate thickness for horizontal axis and the longitudinal axis is set as to the rigidity association indicated by the left side of mathematical expression 1
It is worth and carries out the figure after pictorialization to the result of the table 1.It should be noted that the feelings of foreign matter number qualification will be transferred in Figure 10
Condition is recorded as "○", and the transfer underproof situation of foreign matter number is recorded as "×".
According to the Figure 10's as a result, solving becomes the qualified curve of approximation C1 with underproof boundary.Curve of approximation C1 is y
=a/T+b.Here, T is the variable (thickness of glass plate) of horizontal axis, y is variable (the rigidity association of interarea supporting part of the longitudinal axis
Value), a and b are constant.In this way, a is " 1513 " in the curve of approximation C1 solved, b is " -771 ", solves mathematical expression 1
Right side.Also, it as shown in Figure 10, in the rigid relating value of the interarea supporting part region bigger than curve of approximation C1, can identify
Meet qualified benchmark for transfer foreign matter number.Therefore, relational expression as defined in mathematical expression 1 is exported.
(second embodiment)
As shown in figure 11, the glass plate package body 21 of second embodiment of the present invention is laminated by being supported with bracket 22
Made of body 25, the laminated body 25 is by the way that glass plate 23 and screening glass 24 to be alternately laminated with longitudinal attitude.In this reality
It applies in mode, is configured with screening glass 24 in the most front side surface of laminated body 25 and last side.It should be noted that the X2 in figure
Direction and the direction Y2 are mutually orthogonal directions.
The preferred example of thickness, size, the density of glass plate 23 etc. and the glass plate 3 illustrated in the first embodiment
It is identical.
The preferred example of thickness, size, the material of screening glass 24 etc. and the screening glass 4 illustrated in the first embodiment
It is identical.Preferably, screening glass 24 is stretched out to two side of width direction of glass plate 23 and top.Preferably, screening glass 24
Lower position it is consistent with the lower position of glass plate 23.Namely it is preferred that screening glass 24 is not stretched to the lower section of glass plate 23
Out.
Bracket 22 has the abutment portion 26 being positioned on ground etc..In the present embodiment, abutment portion 26 is under vertical view
Rectangular shape.
The fork hole 27 of the fork insertion for fork truck is respectively arranged in four side 26s of abutment portion 26.
Back carrier 28 is provided for erecting the rear side in the upper surface 26u of abutment portion 26.Before back carrier 28
Surface 28f is provided with the interarea supporting part (trailing flank from the trailing flank 25b (interarea of glass plate 23) of rear supporting stack 25
Supporting part) 29.Interarea supporting part 29 tilts in such a way that top portion is located at than lower section position rearward.Interarea supporting part 29
Have the stepped construction for being laminated rigid plate 30 and buffer board 31, the rigid plate 30 be configured at 28 side of back carrier (after
Square side), which is configured at 25 side of laminated body (front side).In the present embodiment, buffer board 31 is by the first buffering
The multilayered structure that plate 32 and the second buffer board 33 are laminated.Here, when increasing the aggregate thickness of interarea supporting part 29, glass
The stacking space of plate 23 is reduced, and the stacking efficiency of glass plate 23 reduces, it is preferred, therefore, that total thickness of interarea supporting part 29
Degree is 20mm or less.
In the top of abutment portion 26 and the front of back carrier 28, engaged with abutment portion 26 and/or back carrier 28
Ground is provided with side supporting part 34.Side supporting part 34 is following 251 (glass plate 23 following) of supporting stack 25 from below
Position.In the present embodiment, although side supporting part 34 is only fixed on abutment portion 26, for example, can both be fixed on abutment portion
26 and back carrier 28 this two side, it can also only be fixed on back carrier 28.In the latter case, side supporting part 34
It can be separated in the state of being fixed in back carrier 28 from abutment portion 26.
Preferably, interarea supporting part 29 and vertical guide angulation α be 10~45 ° (in the present embodiment for
18°).Preferably, interarea supporting part 29 and 34 angulation β of side supporting part be 85~95 ° (in the present embodiment for
90°)。
Here, although screw etc. also can be used only in order to which the width direction for limiting laminated body 25 is mobile in illustration omitted
Moving part and detachably seating side pressing plate.Preferably, have can be relative to the side 25s of laminated body 25 for side pressing plate
And the mechanism moved forward and backward, it is the structure that position adjustment can be carried out according to the width direction size of laminated body 25.It is excellent
Choosing, side pressing plate are abutted with the ora terminalis of the screening glass 24 for two sides for reaching glass plate 23.In other words, it is preferred that
Side pressing plate does not contact directly with glass plate 23.It should be noted that also can be omitted side pressing plate.
It (is in the present embodiment most front side in the front surface 25f of laminated body 25 in the state of glass plate package body 1
The front surface of the screening glass 24 on surface) configuration front surface pressing plate (illustration omitted), and should using the fastening coupling member such as band
Front surface pressing plate is leaned on to 28 side pressure of back carrier, and laminated body 25 is thus maintained at side supporting part 34 and interarea supporting part 29
On.It should be noted that for example can also be as Japanese Unexamined Patent Publication 2009-57051 bulletin discloses, for such as flowering structure:
The front surface of front surface pressing plate, by transversely across setting in a manner of configure more compression bars side by side at spaced intervals along the vertical direction,
Using fastening coupling member (band, can be in rod-shaped or tubulose the clava of the specified position compression column with fixed of longitudinal direction) incite somebody to action
The both ends of each compression bar stretched out from laminated body 25 are leaned on to 28 side pressure of back carrier.As front surface pressing plate, such as can make
The thick and buffer boards such as higher Foamex piece of hardness with wall ratio screening glass 24.In addition, in order to prevent in glass plate package body
Dust is attached to the glass plate 23 that laminated body 25 is included in the state of 21, as needed, such as can also pack in glass plate
The Flexible film of surrounding's circumvolution resin of body 21 puts on sack.
Then, each element for constituting glass plate package body 21 is described in detail.
As shown in figure 12, back carrier 28 is made of the skeleton 28c of lattice-shaped, and the skeleton 28c of the lattice-shaped is closed by aluminium
The metals such as gold are constituted.In other words, back carrier 28 has before and after back carrier 28 in the part that skeleton 28c is not present
The perforative multiple hole 28h in surface.
As shown in figure 13, rigid plate 30 is equipped in a manner of plugging hole 28h in the front surface 28f of back carrier 28.
Rigid plate 30 is divided into multiple platelet 30p in the in-plane direction.In the present embodiment, rigid plate 30 is (longitudinal in the direction X2
(up and down direction)) on be divided into three.In addition, though rigid plate 12 can also be (lateral in the Y2 direction orthogonal with the direction X2
(width direction)) on be split, it is but in the present embodiment, not divided and continuous on the direction Y2.It should be noted that
Rigid plate 30 can also be not divided on the direction X2 and it is continuous in the state of, be divided on the direction Y2 multiple.Although
Gap can be formed with each other in adjacent platelet 30p, but in the present embodiment, adjacent platelet 30p not across
Gap and be in contact with each other.As rigid plate 30, it is preferred that use the metal plates such as aluminium alloy, stainless steel (SUS).Preferably,
Rigid plate 30 with a thickness of 2~20mm.
As shown in figure 14, the first buffer board 32 is equipped in the front surface 30f of rigid plate 30.First buffer board 32 is in plane
Multiple platelet 32p are divided on direction.In the present embodiment, the first buffer board 32 is on position identical with rigid plate 30 edge
The direction X2 is divided into three.Rigid plate 30 and the division position of the first buffer board 32 both may be the same or different.Separately
Outside, it although the first buffer board 32 can also be split on the direction Y2, in the present embodiment, is not divided on the direction Y2
And it is continuous.It should be noted that the first buffer board 32 can also be not divided on the direction X2 and it is continuous in the state of, in the side Y2
It is divided into upwards multiple.Although gap can also be formed with each other in adjacent platelet 32p, in present embodiment
In, it is in contact with each other in the not formed gap each other of adjacent platelet 32p.As the first buffer board 32, it is preferred that example
Such as use rubber, sponge rubber, resin, Foamex, silicone.Using the case where Foamex is as the first buffer board 32
Under, it is preferred that the harder Foamex for the use of expansion ratio being 3~5 times.In the present embodiment, using polypropylene
Three times Foamex.Preferably, the first buffer board 32 with a thickness of 2~20mm.
As shown in figure 15, in the state that rigid plate 30 and the first buffer board 32 are layed in back carrier 28, rigidity
The periphery of the respective platelet 32p of the peripheral part (region of border shape) and the first buffer board 32 of the respective platelet 30p of plate 30
Portion (region of border shape) is supported by the skeleton 28c of back carrier 28 from rear.In other words, respective with rigid plate 30
The corresponding position in peripheral part of the respective platelet 32p of the peripheral part of platelet 30p and the first buffer board 32, is not formed back and holds
The hole 28h of socket part 28.
As shown in figure 16, the regulation such as four angles of the platelet 32p of the platelet 30p of rigid plate 30 and the first buffer board 32
Position can discretely be fixed on back carrier 28 in such a way that screw is fixed.In the present embodiment, rigid plate 30 is small
The platelet 32p of plate 30p and the first buffer board 32 carries out screw by shared screw 35 and fixes.Specifically, in the first buffer board
The fixed position of 32 screw is formed with recess portion 36, and the head 35h of screw 35 is stored in the recess portion 36.That is, the head of screw 35
The front end of 35h Back allows from the front surface 32f of the first buffer board 32.In this state, the axle portion 35s of screw 35 is from first
Buffer board 32 extends through back carrier 28 via rigid plate 30.It should be noted that preferably, screw fixed bit installs
It sets outside the region of actual disposition laminated body 25.
As shown in figure 17, the second buffer board 33 is equipped in the front surface 32f of the first buffer board 32.Second buffer board 33 exists
Multiple platelet 33p are divided on in-plane.In the present embodiment, the second buffer board 33 is divided into four on the direction X2
It is a.That is, the second buffer board 33 is compared to the first buffer board 32 and the segmentation number on the direction X2 is more.Moreover, in present embodiment
In, the division position of the second buffer board 33 is not overlapped with the division position of the first buffer board 32.It should be noted that the second buffering
The segmentation number and division position of plate 33 can also be identical as the first buffer board 32.In addition, though the second buffer board 33 can also be
Y2 is split on direction, but in the present embodiment, not divided and continuous on the direction Y2.It should be noted that second
Buffer board 33 can also be not divided along the direction X2 and it is continuous in the state of, be divided on the direction Y2 multiple.Although
It can be formed with gap each other in adjacent platelet 33p, but in the present embodiment, in that of adjacent platelet 33p
Not formed gap between this and be in contact with each other.As the second buffer board 33, it is preferred that for example using rubber, sponge rubber, tree
Rouge, Foamex, silicone etc..In the case where using Foamex as the second buffer board 33, it is preferred that use is than first
The soft Foamex of buffer board 32.In the present embodiment, using polyurethane foam plastic.Second buffer board 33 is for example bonded
It is fixed on the first buffer board 32.Preferably, the second buffer board 33 with a thickness of 2~20mm.It should be noted that in this implementation
In mode, the thickness of the second buffer board 33 is smaller than the thickness of the first buffer board 32.
On the interarea supporting part 29 constituted as described above, i.e. in the front surface configuration layer stack of the second buffer board 33
25.At this point, for the glass plate 23 that laminated body 25 is included, interarea is by the front surface of the second buffer board 33 from rear branch
It holds, is supported from below by side supporting part 34 below.In this state, as shown in figure 18, in the actual configuration of laminated body 25
Region (with the comparable region in the region by the rectangular shape shown in chain-dotted line in figure), there are the skeletons of back carrier 28
The part of 28c and part (part for having hole 28h) without skeleton 28c, but interarea supporting part 29 has been set as to utilize rigid plate
30 reinforce the structure of buffer board 31.Therefore, it compared with the case where only forming interarea supporting part 29 by buffer board 31, is easy to mention
The rigidity of high interarea supporting part 29.Therefore, it even if the thickness of interarea supporting part 29 is thinned, is also able to suppress interarea supporting part 29 and exists
Position corresponding with the hole 28h of back carrier 28 generates flexure.In addition, since rigid plate 30 is divided into the in-plane direction
Multiple platelet 30p, therefore, even if a part due to the impact from external (such as rear, lower section) and in rigid plate 30 produces
Raw vibration, can also be weakened using partitioning portion, can prevent vibration from having an impact to laminated body 25.
Here, the sight for being transferred to the situation on glass plate 23 according to the foreign matter (referring to Fig. 9) that screening glass 24 is included is reduced
Point, it is preferred that glass plate package body 21 is also equipped with following structure.
Namely it is preferred that in the stepped construction that the thickness of glass plate 23 is set as T [mm], interarea supporting part 29 will be constituted
The thickness of each layer be set as D1、D2…Dn[mm], the spring rate of each layer is set as E1、E2…EnIn the case where [GPa], glass plate bundle
Backpack body 21 meets relationship as defined in above-mentioned mathematical expression 2.Thereby, it is possible to be reduced as far as transfer of the foreign matter to glass plate 23.
Mathematical expression 2 is by the derived formula of experiment.Its basis described below.
Experiment carries out in the following way: by glass on the bracket of the material and thickness that change interarea supporting part
Plate is laminated and is transported with longitudinal attitude, later, is counted to the quantity of the foreign matter transfer of the glass plate of each bracket.In detail
Experiment condition it is as described below.
As glass plate, lateral dimension is used: the Nippon Electric Glass Co., Ltd of 2200mm, longitudinal size: 2500mm
The OA-10G of system.Glass plate with a thickness of 0.7mm, 0.5mm, 0.4mm, 0.3mm these four.By the glass plate of each thickness it is longitudinal in
Each bracket simultaneously stacks identical weight, thus makes glass bundling body.It is removed along the same routes that distance is 200km with truck
Send and cleaned after each glass plate package body produced, using image testing device to 1 μm on the surface of glass plate with
Under transfer foreign matter number counted.Transfer foreign matter more than 1 μm is removed by cleaning.For transferring foreign matter number,
In view of the bad generation rate in the manufacturing process of past liquid crystal display, by 1 μm of transfer foreign matter number below less than 100
In the case where be set as " qualification ", 100 or more situations are set as " unqualified ".It should be noted that transfer foreign matter number is pair
The transfer foreign matter number for each glass plate being stacked on bracket is counted and is made the summation of the quantity of the transfer foreign matter of each glass plate
It is worth divided by obtained from stacking number, that is, be the average value of each glass plate.
The plate used in the interarea supporting part of bracket is expanded polypropylene (PP), Hard PVC (PVC), stainless
Steel plate (SUS304), aluminium sheet (A1), respective spring rate are PP:1.5GPa, PVC:4GPa, SUS:200GPa, Al:70GPa.And
And two or more of one or different are selected from these plates and are used for interarea supporting part.Plate more than selection two is opened
In the case where, it is set as stepped construction and being overlapped the plate of selection (wherein, buffer board is upper surface side).In addition, constituting master
Each layer in surface bearing portion is divided into three (for example, referring to Figure 13 or Figure 14) in the in-plane direction.
Above experimental result has been shown in table 2.
[table 2]
Figure 19, which is shown, to be set as glass plate thickness for horizontal axis and the longitudinal axis is set as to the rigidity association indicated by the left side of mathematical expression 2
It is worth and carries out the figure after pictorialization to the result of the table 2.It should be noted that the feelings of foreign matter number qualification will be transferred in Figure 19
Condition is recorded as " o ", and the transfer underproof situation of foreign matter number is recorded as "×".
According to the Figure 19's as a result, solving becomes the qualified curve of approximation C2 with underproof boundary.Curve of approximation C2 is y
=a/T+b.Here, T is the variable (thickness of glass plate) of horizontal axis, y is variable (the rigidity association of interarea supporting part of the longitudinal axis
Value), a and b are constant.In this way, a is " 801 " in the curve of approximation C2 solved, b is " 289 ", solves the right side of mathematical expression 2
Side.Also, it as shown in figure 19, in the rigid relating value of the interarea supporting part region bigger than curve of approximation C2, can be identified as
It transfers foreign matter number and meets qualified benchmark.Therefore, export mathematical expression 2 regulation is relational expression.Here, passing through experiment, it is thus identified that mathematics
The relationship of formula 2 maintains interarea supporting part and vertical guide angulation in the range of 13~23 °.On the other hand, pass through reality
It tests, it is thus identified that interarea supporting part can't be affected with side supporting part angulation directly to the relationship of mathematical expression 2.
More than, the glass plate bracket to embodiments of the present invention and the glass plate bale packing using the glass plate bracket
Body is illustrated, but it's not limited to that for embodiments of the present invention, can be without departing from the spirit and scope of the invention
Implement various changes.
In the above-described embodiment, the case where being made of to buffer board the first buffer board and the second buffer board is said
It is bright, but buffer board both can be single layer, or three layers or more of multilayer.
In addition, in the above-described embodiment, being fixed on abutment portion, back undertaking to by rigid plate and the first buffer board screw
Portion and the case where the second buffer board is adhered to the first buffer board is illustrated, but each layer for constituting interarea supporting part is consolidated
Determine method and be not specifically limited, any means can be used.For example, it is also possible to constitute whole layers of interarea supporting part into
Row is adhesively fixed.As the method for being adhesively fixed, such as double faced adhesive tape, bonding agent, welding can be enumerated etc..Alternatively, it is also possible to simultaneously
Method is adhesively fixed with these and screw fixes to fix each layer for constituting interarea supporting part.
Description of symbols:
1 glass plate package body
2 brackets
3 glass plates
4 screening glass
5 laminated bodies
6 abutment portions
7 lower section portions
8 upper section portions
8c skeleton
The hole 8h
9 pillars
10 fork holes
11 interarea supporting parts
12 rigid plates
12p platelet
13 buffer boards
14 first buffer boards
14p platelet
15 second buffer boards
15p platelet
16 side pressing plates
17 insert ports
18 screws
21 glass plate package bodies
22 brackets
23 glass plates
24 screening glass
25 laminated bodies
26 abutment portions
27 fork holes
28 back carriers
28c skeleton
The hole 28h
29 interarea supporting parts
30 rigid plates
30p platelet
31 buffer boards
32 first buffer boards
32p platelet
33 second buffer boards
33p platelet
34 side supporting parts
35 screws.
Claims (16)
1. a kind of glass plate bracket is used to pack laminated body made of flatwise stacking multiple glass plates,
It is characterized in that,
The glass plate has with bracket:
Abutment portion is constituted by being formed with the skeleton of lattice-shaped in multiple holes;And
Interarea supporting part is set to the upper surface of the abutment portion, and supports the glass plate of the laminated body from below
Interarea,
The interarea supporting part has the stepped construction comprising rigid plate and buffer board, and the rigid plate is to block the side in the hole
Formula is layed in the upper surface of the abutment portion, and the buffer board is layed in the upper surface of the rigid plate,
The rigid plate is divided into multiple platelets in the in-plane direction.
2. glass plate bracket according to claim 1, which is characterized in that
The buffer board is divided into multiple platelets in the in-plane direction.
3. glass plate bracket according to claim 1 or 2, which is characterized in that
Screw is fixed on the abutment portion in a manner of separation for the rigid plate and the buffer board.
4. glass plate bracket described in any one of claim 1 to 3, which is characterized in that
The skeleton of the abutment portion is set along the peripheral part of each platelet of the rigid plate.
5. glass plate bracket according to any one of claims 1 to 4, which is characterized in that
The buffer board, which has, includes the stepped construction for the layer being made of Foamex.
6. a kind of glass plate package body, which is characterized in that
The glass plate package body is by including the master by glass plate bracket according to any one of claims 1 to 5
The part in surface bearing portion is carried out supporting stack and is formed, and the laminated body is flatwise stacked by replacing glass plate with screening glass
At.
7. glass plate package body according to claim 6, which is characterized in that
By the thickness of the glass plate be set as T [mm], the stepped construction that the interarea supporting part will be constituted each layer thickness
It is set as D1、D2…Dn[mm], the spring rate of each layer is set as E1、E2…EnIn the case where [GPa],
Relationship set up.
8. glass plate package body according to claim 7, which is characterized in that
The aggregate thickness of the interarea supporting part is 20mm or less.
9. glass plate package body according to claim 7 or 8, which is characterized in that
The glass plate with a thickness of 0.5mm or less.
10. a kind of glass plate bracket is used to tie to by multiple glass plates with the laminated body that longitudinal attitude is laminated
Packet, which is characterized in that
The glass plate has with bracket:
Abutment portion;
Back carrier is erected from the rear side of the abutment portion, and is made of the skeleton for the lattice-shaped for being formed with multiple holes;
Interarea supporting part is set to the front surface of the back carrier, and the glass of the laminated body is supported from rear
The interarea of glass plate;And
Side supporting part is arranged with the abutment portion and/or the back carrier, and supports the stacking from below with engaging
The edge of the glass plate of body,
The interarea supporting part has the stepped construction comprising rigid plate and buffer board, and the rigid plate is to block the side in the hole
Formula is layed in the front surface of the back carrier, and the buffer board is layed in the front surface of the rigid plate,
The rigid plate is divided into multiple platelets in the in-plane direction.
11. glass plate bracket according to claim 10, which is characterized in that
The buffer board is divided into multiple platelets in the in-plane direction.
12. glass plate bracket described in 0 or 11 according to claim 1, which is characterized in that
Screw is fixed on the back carrier in a manner of separation for the rigid plate and the buffer board.
13. glass plate bracket described in any one of 0~12 according to claim 1, which is characterized in that
The skeleton of the back carrier is set along the peripheral part of each platelet of the rigid plate.
14. glass plate bracket described in any one of 0~13 according to claim 1, which is characterized in that
The buffer board, which has, includes the stepped construction for the layer being made of Foamex.
15. a kind of glass plate package body, which is characterized in that
The glass plate package body is by the glass plate bracket as described in any one of claim 10~14 comprising described
The part of interarea supporting part and the side supporting part is carried out supporting stack and is formed, and the laminated body is by by glass plate and screening glass
Alternately it is laminated with longitudinal attitude.
16. glass plate package body according to claim 15, which is characterized in that
The interarea supporting part and vertical guide angulation are 13 °~23 °,
By the thickness of the glass plate be set as T [mm], the stepped construction that the interarea supporting part will be constituted each layer thickness
It is set as D1、D2…Dn[mm], the spring rate of each layer is set as E1、E2…EnIn the case where [GPa],
Relationship set up.
Applications Claiming Priority (5)
Application Number | Priority Date | Filing Date | Title |
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JP2016-159689 | 2016-08-16 | ||
JP2016159689 | 2016-08-16 | ||
JPPCT/JP2017/017284 | 2017-05-02 | ||
PCT/JP2017/017284 WO2018034025A1 (en) | 2016-08-16 | 2017-05-02 | Pallet for glass plate and glass plate package |
PCT/JP2017/028548 WO2018034180A1 (en) | 2016-08-16 | 2017-08-07 | Pallet for glass plate and glass plate packed body |
Publications (2)
Publication Number | Publication Date |
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CN109562889A true CN109562889A (en) | 2019-04-02 |
CN109562889B CN109562889B (en) | 2020-12-11 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201780048485.3A Active CN109562889B (en) | 2016-08-16 | 2017-08-07 | Bracket for glass plate and glass plate package body |
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JP (1) | JP6711403B2 (en) |
CN (1) | CN109562889B (en) |
TW (1) | TWI734822B (en) |
WO (1) | WO2018034025A1 (en) |
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WO2022107584A1 (en) * | 2020-11-20 | 2022-05-27 | 日本電気硝子株式会社 | Glass substrate production method and electronic device production method |
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JP2004099150A (en) * | 2002-09-12 | 2004-04-02 | Ricoh Co Ltd | Article carrying tool |
CN1958405A (en) * | 2005-11-02 | 2007-05-09 | 群康科技(深圳)有限公司 | Packing box for glass base plates, and packed composition |
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JP5354280B2 (en) * | 2008-07-29 | 2013-11-27 | 日本電気硝子株式会社 | Glass plate package |
JP2010168045A (en) * | 2008-12-26 | 2010-08-05 | Nippon Electric Glass Co Ltd | Glass plate packing body |
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- 2017-05-02 WO PCT/JP2017/017284 patent/WO2018034025A1/en active Application Filing
- 2017-08-07 JP JP2018534350A patent/JP6711403B2/en active Active
- 2017-08-07 CN CN201780048485.3A patent/CN109562889B/en active Active
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JP2004099150A (en) * | 2002-09-12 | 2004-04-02 | Ricoh Co Ltd | Article carrying tool |
CN1958405A (en) * | 2005-11-02 | 2007-05-09 | 群康科技(深圳)有限公司 | Packing box for glass base plates, and packed composition |
KR20080005625A (en) * | 2006-07-10 | 2008-01-15 | 한화테크엠주식회사 | The pallet |
KR20090114351A (en) * | 2007-02-26 | 2009-11-03 | 아사히 가라스 가부시키가이샤 | Packaging pallet for plate-like body |
KR101091020B1 (en) * | 2011-07-05 | 2011-12-09 | 주식회사 코아테크시스템 | Lcd glass crate |
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Also Published As
Publication number | Publication date |
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TWI734822B (en) | 2021-08-01 |
JP6711403B2 (en) | 2020-06-17 |
TW201811631A (en) | 2018-04-01 |
WO2018034025A1 (en) | 2018-02-22 |
JPWO2018034180A1 (en) | 2019-06-13 |
CN109562889B (en) | 2020-12-11 |
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