TW200902399A - Packaging pallet for plate-like body - Google Patents

Abstract

A packaging pallet for a plate-like body, capable of excellently receiving a plate-like body without impairing its quality. The packaging pallet (10) is constructed mainly from a base (14), a plate-like body placement plate (16), and a laminated-paper pressing member (18). The placement plate (16) is a honeycomb plate and is fixed to the base by using a steel material (60). Because of high-rigidity characteristics of the honey comb plate, the load of glass substrates (G) layered on the placement plate (16) is not concentrated on a support point (P) of the steel material (60) but is evenly distributed to the entire placement plate (16). Since no load concentration portion occurs on the glass substrates (G), occurrence of streak-like transfer marks caused by transfer of particles, such as paper powder from laminated paper (12), on the glass substrate (G) can be prevented.

Description

200902399 IX. INSTRUCTIONS OF THE INVENTION [Technical Field] The present invention relates to a packaging tray for a plate, and more particularly to a glass substrate for a flat panel display (FPD) for packaging a liquid crystal display, a plasma display, etc., and a manufacturing process thereof The packaging tray of the glass plate of the intermediate product in the middle. [Prior Art] In recent years, the demand for a large-sized glass substrate for use in an FPD or the like has been increased. As a packaging tray for packaging such a large-sized glass substrate, it is known that the glass substrate of a plurality of sheets is erected side by side as disclosed in Patent Document 1. Packaging frame for glass substrates. However, since the packaging frame of Patent Document 1 is conveyed in a state in which the glass substrate is erected, it becomes a large glass substrate, and there is a case where the height of the aircraft is low (for example, 2 m or less) or the former truck (for example, 2 2 m or less) The height is limited and cannot be stored. In addition, when the glass substrate is transported in an upright state, the size of one side of the bottom surface must be large (for example, the height of the packaging tray is 5 times) in order to ensure the safety of the packaging tray being overturned. Therefore, the packaging rack of Patent Document 1 has a drawback in that the volume and weight of the packaging rack are increased as compared with the number of sheets of the glass substrate to be loaded. In order to solve this problem, the applicant of the present invention proposes a packaging box that overlaps and overlaps in Patent Document 2. The packaging box of Patent Document 2 is composed of a pedestal and a plate-shaped storage box placed on the pedestal -4-200902399. In the flat plate-shaped bottom plate of the plate-shaped storage box, the glass substrate is superimposed on the laminated paper to make it overlap. In addition, the packaging box bends the bottom plate into a V shape (V-angle: 160° to 180°), and the glass plate which is bent into a concave shape is placed along the V-shaped bottom plate by flattening and overlapping. Keep it. Further, the V-shaped bending line of the bottom plate is parallel to the longitudinal direction of the bottom plate, and the laminated paper is preferably a rough surface having a smoothness of 18 seconds or less (JIS P 81 19, 1 976), for example. The paper having a small contact area and not causing the resin component of the laminated paper to be transferred to the glass substrate to produce a paper surface pattern, burn marks, dirt, or the like is selected. Further, the resin component of the laminated paper is preferably 0.05% by mass or less (JIS P 82 05, 1 976 ), and depending on the composite effect with the above-mentioned paper surface roughness, a paper quality which does not affect the quality of the glass substrate itself is selected. It is also known to store a packaging box without laminating a laminated glass substrate. Patent Document 1: JP-A-2000-272684 (Patent Document 2) Japanese Laid-Open Patent Publication No. 2006-26478 No. 2006-A. The box may have a line-like scratch on the surface of the glass substrate. Further, as described above, the package of Patent Document 2 in which the laminated paper is not adversely affected by the quality of the glass substrate may have a glass. On the surface of the substrate, the particles of the laminated paper, such as -5 - 200902399 paper powder, are transferred. The occurrence of such scratches and the transfer of particles such as paper powder are caused by the fact that the load is concentrated on a certain portion of the surface of the glass substrate. That is, as shown in Fig. 12(A)(B), the flat bottom plate 2' in which the glass substrate G is laminated is supported by a plurality of steel materials 3, 3, ... which are different in degree. 4, it is transformed into a V shape or curved downward to form a convex shape. When the plurality of glass substrates G, G, ... are laminated on the bottom plate 2 of such a support structure, the load of the glass substrates G, G, ... in Fig. 1 2 (C) is concentrated on the support points P of the steel materials 3, 3, ... supporting the bottom plate 2. On the surface of the glass substrate G of the load-concentrating portion 6, the above-described scratches may occur, or particles 7 such as paper powder of the paper 5 may be transferred into a line shape. The smaller the number of the glass substrates G laminated on the bottom plate 2, the less the fear of the scratches or the transfer marks is reduced, but the plurality of glass substrates G, G, ... are accommodated in one package 1 as much as possible. It is preferable to carry out the transportation efficiency. Therefore, it is not practical to reduce the number of sheets of the glass substrate G accommodated in the packaging box 1 of one unit. The present invention has been made in view of the above circumstances, and it is an object of the invention to provide a plate-like shape in which, even if a laminate of a plurality of sheets is laminated flatly using a laminated paper, the quality of the plate can be prevented from being affected. a packaging tray for the board of matter. [Means for Solving the Problem] In order to achieve the above object, the present invention provides a packaging tray having a pedestal and a plate-like plate-shaped plate, wherein the plate-shaped mounting plate is provided via the supporting member. The pedestal is formed by laminating the upper surface of the plurality of plates from about -6 - 200902399, and the upper surface is formed into a packaging tray transverse to the plate of the surface loading plate, the characteristic plate is Honeycomb plate. In the present invention, the plate of the plurality of sheets is preferably laminated by pressing each of the sheets. In the present invention, preferably, the packaging tray has a side surface of the special plate pressing the laminated paper pressing member of the laminated paper beyond the side of the plate, and the binding member of the laminated paper is gradually separated from the upper portion to the lower portion. In the present invention, the packaging tray preferably has a bottom surface of a plurality of guiding member pedestals protruding upward from the corner portion of the pedestal and a plurality of opening portions of the packaging tray positioned below the pedestal. The tray lamination means. [Effects of the Invention] According to the present invention, the package pallet loading plate of the related plate material is lightweight, has a soft, hollow plate, and suppresses the occurrence of scratches on the surface of the plate. Since the particles are transferred to the plate, the plate can be excellently accommodated without being affected. [Embodiment] [Best Mode for Carrying Out the Invention] Hereinafter, in accordance with the drawings, a plate-shaped system in which a V-shaped shape of the present invention is placed is provided. The plurality of laminated paper pressing faces of the edge portions form an inclined surface. The fascia is provided with a tray that is fitted to the guide member, because the bee is made of a high-rigidity bee and the package 200902399 which suppresses the quality of the laminate to the quality of the plate. Preferred embodiment. Fig. 1 is an external view of the packaging tray 1 of the plate material of the present embodiment. Fig. 2 is a perspective view showing the configuration of the packaging tray 10 of a glass substrate (plate) G, G, ... containing a plurality of sheets. On the packaging tray 10, a plurality of (for example, 80 to 150) rectangular glass substrates G, G, ... are horizontally disposed. The glass substrates G are interposed between each other to form a large-area and rectangular shape of the ® ® paper 1 2 , 1 2... is laminated and stored. The glass substrate G shown in this example is a large glass substrate used for a thin plate for FPD, for example, a plate thickness of 0.5 mm to 2.8 mm, and an aspect ratio of about 2,400 mm x 2 1 0 0 mm to 3 2 0 A large glass substrate of 0 mm x 3 00 0 mm, in addition, the laminated paper 12 has, for example, a rough surface having a smoothness of 18 seconds or less (JIS P 8 1 1 9, 1 9 7 6 ), and the contact area is small and does not occur. The resin component of the laminated paper 12 is not transferred to the glass substrate to produce a paper surface pattern, burn marks, dirt, or the like. In addition, the resin component of the laminated paper 12 is 〇.〇5 mass% or less (JIS P 82 05,1 976 ). Based on the composite effect with the above-mentioned paper surface roughness, a paper quality which does not affect the quality of the glass substrate G itself is selected. use. The packaging tray 10' is formed as shown in Fig. 2, which is mainly a rectangular pedestal 14 and a plate loading plate 16, and a laminated paper pressing member 18, because the four packaging trays 10 In the corner portion, the guide members 20, 20, ... which constitute the tray laminating means are provided. Therefore, it is advantageous to laminate the packaging tray 10 in a plurality of stages in the longitudinal direction, and this laminating means will be described later. As shown in Fig. 3, the pedestal 14 is formed in a frame shape by a plurality of steel materials 22, 22, .... The steel material 22 is manufactured, for example, by cutting an extruded -8 - 200902399 material or a steel plate made of an aluminum alloy into a predetermined shape, and producing at least two steel materials 22, 22, ... which are combined in a lattice shape in the vertical and horizontal directions. The lattice faces are arranged in parallel in a slightly parallel manner to form a frame. In addition, 'the material is rigid', as long as it is a material that does not generate particles, all metals and resins can be used. However, it is preferable to use aluminum or aluminum alloy in terms of weight, rigidity, and cost. In addition, the pedestal 14 As shown in Fig. 1 and Fig. 2, the opening portion 28 for the fork lifter inserted by the fork of the forklift (not shown) forms two places on each side of the pedestal 14, thereby being opposed to The packaging tray 1 can be inserted into the fork of the fork lift from either of the longitudinal and lateral sides of the pedestal 14, so that it can work efficiently. The plate-mounting plate 166 of Fig. 3 is mounted on the pedestal 14 via the damper member 30 and the inclination angle setting member 312. The vibration damping member 30 is composed of a plurality of shrinkage absorbing materials 3 4, 3 4 ... and elongated absorbing materials 3 6 , 3 6 , and is interposed between the pedestal i 4 and the receiving tray 3 on which the inclination angle setting member 32 is disposed. Between 8, there is absorption function from the pedestal 14 to the plate mounting plate 16. As shown in Fig. 4 (A), the shrinkage absorbing material 34 is provided with a gel material 40 having elasticity. The upper end and the lower end of the gel material 4 are recessed by a metal plate 42 and 42'. 44 is fixed by bolts 46, 46, and then the lower bracket 4 is fixed to the base 14 by screws 48, while the upper bracket 4 4 is fixed to the receiving disc 38 by screws 48. Composition. The elongated absorbent material 3 6 ' is provided with a resilient gel material 50' as shown in Fig. 4 (b). The bracket 52 of the upper end of the gel material 5〇 is slightly inverted C. The shape of the bracket 52 is reversed by the pin 54 Fixed, the lower end of the bracket 52 is fixed to the pedestal 14' by bolts 56. Then, the bracket 58 which is slightly inverted c-shaped under the gel material is arranged with a predetermined gap, and the upper end of the bracket 58 is borrowed. The plug 59 is fixed to the receiving disk 38. The shrink-receiving member 34 and the elongated absorbent member 3 6, as shown in Fig. 3, are regularly disposed on the lower surface of the receiving tray 38, and are thereby placed on the pedestal 14 via the receiving tray 38. In the plate-shaped mounting plate 16, the vibration in the vertical direction accompanying the shaking of the pedestal 14 due to the vibration during transportation is absorbed. That is, the compression disk 38 and the pedestal 14 are compressed (in the direction of the arrow F 如图 in Fig. 4 (A)), and the gel material 40 constituting the shrinkage absorbing material 34 is compressed and contracted, which is effective. Absorbs vibration in the direction of the arrow pi. Further, the 'withstand disk 38 and the pedestal 14 are elongated (in the direction of the arrow F2 in Fig. 4(B))' by the gel material 4 constituting the shrinkage absorbing material 36, which is compressed by the bracket 52 and the bracket 58. The contraction effectively absorbs the vibration in the direction of the arrow F 2 . In either case, the gel material 4 〇, 50 itself absorbs vibration when compressed, so that it can prevent the glass from being transmitted from the pedestal 14 to the plate mounting plate 16 via the receiving disk 38. A poor condition such as a positional deviation of the substrate G. Furthermore, the 'gel material 40, 50' considers the number of fixed vibrations generated by the vehicle or the aircraft during land transportation or air transportation. For example, a material that can efficiently absorb the vibration frequency of 8 to 20 Hz is preferable, for example, rubber can be used. A vibration absorbing material such as a resin or a poly-aluminum fer is used. In addition, an elastic body such as a compression rubber or a compression spring made of metal may be used instead of the kneading material 40, 50'. Stretching Elastic Body -10-200902399 The receiving disc 38 is as shown in Figs. 2 and 3, for example, a press material or a steel plate made of an aluminum alloy is cut into a plurality of steel materials 6 1 , 6 1 ... of a predetermined shape, The receiving disk frame 39 which is formed in a lattice shape in the vertical and horizontal directions, and the inclination angle setting member 32 which is composed of a plurality of steel materials (support members) and 60 which are different in height from the fixed receiving disk 39 are formed. In other words, the steel materials 60, 60, . . . are arranged in a stepped manner so as to be parallel to the short sides of the tops of the entire steel materials 60, 60.., which are arranged in parallel with the long sides of the loading tray 10. The line segments in the direction are V-shaped. Further, each of the steel materials 60 is formed to be about the same length as the long side of the plate-shaped mounting plate 16, and the inclined angle setting member 3 2 is placed on the plate-shaped mounting plate because the plate-shaped member is loaded. The weight of the board 16 is itself, and the board mounting board 16 is bent along the short side of the packaging tray 10 into a V-shaped cross section. Then, the plate-mounting plate 16 is adhered to the steel members 60, 60, ... by, for example, a double-sided adhesive tape or an adhesive to maintain a V-shaped curved surface. Further, the shape of the plate-shaped mounting plate 16 is not limited to the shape of the cross-section V, and may be curved downward to be convex, that is, the glass substrate G laminated to the plate-like plate 16 is correspondingly The shape of the shape deformed by its own weight, or a shape similar thereto. Therefore, in the case of the V-shaped cross section of the present invention, there is no particular limitation, and it is also included in a downwardly curved shape, whereby 'the glass substrate G is bent by the plate-shaped plate by its own weight. In the state of being laminated, it is stably held on the object mounting plate 16 while the vibration in the lateral direction can suppress the positional deviation between the glass substrates G and G, and is maintained in a stable packaging state. Squeezed in the 60-gauge part such as 16 , the character-loaded shape is convex along the plate glass -11 - "78 ° 200902399 V-angle angle is 160 ° ~ less than 180 ° better, 170. ~ Not up to better. Further, the V-shaped bending line E of the plate-shaped mounting plate 16 is preferably in the longitudinal direction of the plate-shaped mounting plate 16 and is bent to be convex when the plate-shaped mounting plate is bent downward. The cross section of the cross section along the curved surface of the short side plate mounting plate 16 is preferably parallel to the long side. Thereby, even if the number of laminated sheets is the same, the bus bar formed by the V-shaped line D and the curved surface is formed along the short side, and the laminated glass substrates G, G, and the like can be depressed. In addition, the position between the glass substrates G and G due to vibration can be suppressed. Further, the upper surface of the plate-shaped mounting plate 16 is coated with the resin sheet 62 for the vibration generated by the buffering, and the resin sheet 62 is placed on the resin sheet 62. 2, 1 2... laminate a plurality of glass substrates G, G... Further, 1 2, the laminated paper 1 2 is placed in comparison with the plane direction of the glass substrate G, so that the laminate line 1 2 is laminated beyond the respective rows of the glass substrate g by a predetermined amount. Further, in the present embodiment, the resin sheet 6 2 is preferably a high amine ester foam (POR.ON: manufactured by ROGERS CORP), but is not particularly limited to a material, and is excellent in workability and has little thermal deformation as long as it is a cushion. The material that does not affect the glass can be used. As shown in Fig. 1, the laminated paper pressing member 18 is fixed to the receiving disk 38 by, for example, two at a predetermined interval on each side of the receiving disk. Further, by pressing the member 1 8 by the screw 64, the glass substrate G is pressed by the laminated paper f > and is bent in a convex shape (i.e.,) in a curved shape to be flattened. The paper is laminated on the center of the laminated paper, and the function of the INO AC is excellent. The degassing of the 3 8 is made by the screw knot. Yin 18 from -12- 200902399 The side is pressed, with each layer of 4 sides The platen pressing members 18, 18, ... hold four sides, and, as shown in Fig. 6, the laminated paper 1 2 which is pressed beyond the respective sides of the glass substrate G by the laminated paper pressing member 18, laminated paper 1 2 is fixed to the plate-shaped mounting plate 1 by the laminated paper pressing members 18, 18, ..., whereby the laminated glass substrates G, G are fixed by the laminated paper 12 The plate is placed on the plate 16. Further, in the present embodiment, two laminated paper pressing members 18 and 18 are disposed on each side of the receiving tray 38. However, the present invention is not limited thereto, and only one side of each of the receiving trays 38 may be provided. Three or more short laminated paper pressing members are provided corresponding to the length of each side or along each side. Further, as shown in FIG. 6, the laminated paper pressing member 18 is pressed against the side surface of the glass substrate G by the laminated paper 12 which is notched beyond the side surface of the glass substrate G, and so on, because of the drooping laminated paper. Since the overlapping portion of the edge of the 12 is pressed by the laminated paper pressing member 18, the laminated paper pressing member 18 does not directly contact the side surface of the glass substrate G, and the glass substrate G is protected by the flexibility of the laminated paper 12. The laminate of the glass substrate G can be reliably pressed from the side faces of the four sides. Further, even if the glass substrate G moves up and down due to vibration, the drooping laminated paper 12 is held between the laminated paper pressing member 18 and the side surface of the glass substrate G, and the laminated paper is fixed to the plate loading plate 16 Therefore, the vertical movement of the glass substrate G can be suppressed, and the positional deviation of the glass substrate G in the lateral direction can be prevented. However, the laminated paper pressing surface 19 of the laminated paper pressing member 18 forms an inclined surface in a direction away from the glass substrate G from the upper portion to the lower portion in accordance with the thickness of the laminated laminated papers 1, 2, 121. Thereby, since the laminated paper pressing member 18 can positively press the laminated papers 12, 12, ..., at the same time, the edges of the glass substrates G, G, ... laminated by the layer 13-200902399 can be laminated. Since the applied pressing force is equal, there is no excessive force applied to the glass substrate G to damage the glass substrate G. 7 is a graph showing the relationship between the thickness of the laminated paper on the side surface and the number of laminated glass substrates G. Further, in the graph of FIG. 7, the number of laminated sheets means that 120 glass substrates G are loaded. The position of each of the glass substrates G on the upper surface of the resin sheet 62 when the tray 10 is packaged is 0, and the right direction from 0 in the graph indicates the position in which the number of sheets of the glass substrate G in the downward direction of the resin sheet 62 is converted. According to the graph of Fig. 7, it is understood that the position of the resin sheet 62 from the position where the number of laminated sheets is 0 to the position of the 70th sheet, and the overlapping thickness of the laminated papers 1, 2, 1 2, ... on the side of the glass substrate G are about 4 mm, from the position of the 71st sheet to the position of the 120th sheet, the overlapping thickness of the side laminated papers 1, 2, 1 2... is reduced by about 4 mm to 0 mm. That is, when the laminated paper pressing surface 19 of the laminated paper pressing member 18 is formed vertically, the laminated paper 12 from the first sheet to the seventh sheet can be pressed, but after the seventh sheet The laminated paper 1 2 has a gap with the laminated paper pressing surface 19, so that it becomes difficult to reliably press the laminated paper 1 2 ' Therefore, the laminated paper pressing member 1 8 ' of the present embodiment is The laminate paper 12 after the 71st sheet is pressed, and the laminated paper pressing surface 19 is inclined upward toward the glass substrate g side, whereby the laminated paper pressing member 18 can reliably press the laminated paper. Further, at the same time, the pressing force of the laminated paper pressing member 18 can be equally applied to all of the laminated glass substrates G, G, . Furthermore, in this embodiment, the angle of inclination of the pressing surface 19 of the laminated paper is preferably 5 ° to 15 °, but the thickness of the laminated paper 12 and the number of overlapping sheets of the laminated paper 12 are also The number of loaded glass substrates g is appropriately set from -14 to 200902399. Next, the characteristics of the packaging tray 10 configured as described above will be described. Since the packaging tray 10 is conveyed in a state in which the glass substrate G is horizontally overlapped, it is conveyed in comparison with the conventional vertical storage type. In addition, it is possible to provide sufficient device efficiency, and even a low-top collection such as an airplane or a truck can be easily stored in comparison with the vertical placement type. Further, the plate-like mounting plate 16 of the packaging tray 10 has a surface on which the glass substrate G is placed and is bent in a V-shaped cross section along the short side of the glass substrate G or curved downward in a convex shape. The glass substrate G which is placed on the plate-like mounting plate 16 is placed in a concave shape by its own weight, but at this time, the surface of the plate-mounted plate 16 is bent into a V-shaped cross section or bent downward. Since the glass substrate G is formed by being bent along the surface of the plate-shaped mounting plate 16 by its own weight, it is laminated. Thereby, the glass substrate G is stably held on the plate-shaped mounting plate 16 and the positional deviation between the glass substrates G and G can be suppressed with respect to the vibration, and the package state can be maintained in a stable state. Further, as shown in FIG. 8, when the packaging tray 10 is grounded by the truck 70, the bending line D of the V-shaped top of the board mounting plate 16 (refer to FIG. 5), or the busbar of the convex curved surface, with respect to the truck 7 The traveling direction of 0 is a parallel direction, and it is preferable to mount the packaging tray 1〇 on the trunk 72 of the truck. As a result, the force applied during acceleration and deceleration of the truck 70 can be prevented from being displaced from each other between the glass substrates G and G even if applied to the laminated glass substrates G and G. -15-200902399 However, Fig. 8 shows a form in which the three-stage laminated packaging trays i, i, and 10 are fixed to the trunk 72 of the truck 70 by the obliquely intersecting belts 74 and 74. On the lower edge portion of the pedestal 14 of the packaging tray 10, as shown in Fig. 9, the fitting member 80 in which the plurality of fitting holes 78, 78 fitted by the hook portion 76 of the strap 74 are inserted and fixed is fixed to the truck 70. The same fitting fitting member 80 is also fixed to the trunk 72. The hook portions 76 and 76 provided at both ends of the strap 74 are fitted to the fitting member 80 of the packaging tray and the predetermined fitting hole 78 of the fitting member 80 of the trunk 72, by the fitting members 80, A strap 74 is erected between the 80, and the laminated packaging trays 10, 10, ... are securely fixed to the trunk 72 of the truck 70. Further, in the present embodiment, although the frame of the strap is intended to have an oblique cross shape, the present invention is not limited to this embodiment, as long as the laminated packaging trays 10, 10, ... are stably fixed to the trunk 72 of the truck 70. The way is, the belts can not cross each other. Fig. 10 is a view showing a supporting structure of the plate-shaped mounting plate 16 of the present embodiment, and (B) showing the load applied to the plate-shaped mounting plate 16 when the glass substrate G is loaded on the packaging tray 10. The distribution diagram, the plate-mounting plate 16 is a honeycomb plate as shown in Fig. 5, so that the glass substrate of the honeycomb substrate has a high rigidity characteristic, as shown in Figs. 10(A) and (B). The load of G is not concentrated on the support point P of the steel material 60, and is equally applied to the entire plate mounting plate 16. As a result, since the load-concentrating portion does not occur in the glass substrate G, occurrence of linear transfer marks caused by transfer of particles such as paper powder of the laminated paper 12 to the glass substrate G can be suppressed. Further, even if the glass substrates G, G, ... which are laminated without laminating a plurality of sheets under the laminated paper 12, the scratches caused by the concentration of the load on the glass substrate G do not occur, so even In the packaging tray in which the laminated glass substrate G is laid flat, the glass substrate G can be excellently accommodated without affecting the quality of the glass substrate G. Further, when the material of the honeycomb plate is made of aluminum, it is preferable to provide a lightweight and highly rigid plate-mounting plate 16 and the honeycomb plate is placed on the upper surface of the inclination angle setting member 3 2 . When it is necessary to follow the top of the V shape, it has to have a V shape (the honeycomb plate has a V-shaped cross section due to its own weight), that is, because the honeycomb plate has flexibility in the surface direction, and has a load-bearing glass substrate in the thickness direction. Since the weight of G is rigid, it is suitable as the plate-shaped mounting plate 16. In the present embodiment, in order to prevent foreign matter such as dust and dust from entering from the outside, the upper and lower sheets of the honeycomb panel are also suitable for application. Further, the thickness of the honeycomb panel is 4 mm, and the thickness of the upper and lower sheets of the honeycomb panel is 0.6. Mm. The thicker the thickness is, the higher the rigidity is. However, in order to suppress the volume of the package, the thickness is preferably thin. When the thickness of the honeycomb plate exceeds 10 mm, the softness in the surface direction disappears, and it is difficult to follow the inclination angle setting member 32. The shape becomes a V shape. Further, when the thickness is smaller than 3 mm, for example, when 120 sheets of the glass substrate G are laminated, the weight of the glass substrate G exceeds the rigidity in the thickness direction of the honeycomb sheet, so that the load is concentrated on the glass substrate G. For the above reasons, when the material of the honeycomb plate is made of aluminum, when the glass substrate G of 120 sheets is laminated, the thickness of the honeycomb plate is preferably 3 to 10 mm. In addition, when the number of the glass substrates G is less than 120, the thickness may not be concentrated on the thickness of 3 mm or less of the glass substrate G. The material of the honeycomb plate is not limited to aluminum-17-200902399, and may have rigidity in the surface direction and rigidity in the thickness direction to carry the weight of the glass substrate G, and may be metal such as stainless steel or iron. And resin or paper. When iron is used, it is preferably treated by rust prevention. Further, since the honeycomb plate made of aluminum is durable and lightweight, it is suitable as the plate-mounted plate 16 and, in addition, the honeycomb plate is available in a honeycomb structure. In the range of substantially equivalent functions, the form can be changed. Therefore, according to the packaging tray 10 of the present embodiment, the glass substrate G can be excellently accommodated without affecting the quality of the glass substrate G. Further, by making the honeycomb plate made of aluminum, it is preferable to provide the plate-like plate 16 having high rigidity and light weight. On the other hand, by the packaging tray 10, the laminated paper 12 coated on the laminated glass substrates G, G, ..., the portion beyond the side surface of the glass substrate G, is disposed on the glass substrate G The plurality of laminated paper pressing members 18, 18, ... are pressed from the side of the glass substrate G, and the laminated paper 12 is fixed to the plate-like body by a plurality of laminated paper pressing members 18, 18. At the same time as the mounting of the plate 16, the laminated glass substrates G and G are fixed to the plate-shaped body mounting plate 16 by holding the glass substrates G and G. As a result, since it is not necessary to provide a functional upper cover or a cushioning material that is pressed against the upper surface of the coated glass substrate G, it is possible to provide a simple, compact and lightweight packaging tray 10. Further, when the glass substrate G is packaged and when it is opened to the destination, the operation of attaching and removing the upper cover of the press machine can be omitted. Therefore, the package can be easily and efficiently packaged and opened. Further, since the laminated paper pressing surface 197 of the laminated paper pressing member 18 is formed to have an inclined surface in response to the thickness of the laminated laminated paper 12, the laminated paper pressing member can be used as a solid-fixed laminated -18-200902399. The paper and the pressing force of the laminated paper pressing member 18 can be equally applied to the laminated glass substrates G, G, . Further, according to the packaging tray 10, as shown in Fig. 11, since the tray laminating means for the multi-stage laminated packaging and packaging tray 10 is provided, the laminated glass substrate G can be laid flat in the height direction. A plurality of packaging trays 10, 10.... The tray laminating means is formed by the four guide members 20, 20 which are protruded upward from the four corners of the upper surface of the pedestal 14, and the four corners formed on the lower surface of the pedestal 14 and formed on the guide member 20. Preferably, the upper end sharp portion 2 1 is fitted with four openings 90, 90. Further, the guide member 20 has a tip end sharp portion 2 1 and a peripheral end flat portion 20A on the upper surface thereof, but the impact flat absorbent pad 92 is attached to the front end flat portion 20A, whereby the impact absorption pad 92 is used to relax the packaging tray 1 from the lower side. The impact transmitted to the upper packaging tray 10 is transmitted. Further, the corner cylindrical member 94 is fixed around the upper portion of the opening portion 90, and the corner columnar base portion 21A of the distal end sharp portion 21 of the opening portion 90 is fitted to the angular cylindrical member 94, thereby ensuring stability. Loadability. Further, the tip end sharp portion 21 of the present embodiment is illustrated as a square hammer shape, but may be, for example, a conical shape. By the tray laminating means, the plurality of packaging trays 10 are placed in a flat state, and the opening portions 90 of the respective packaging trays (excluding the lowermost packaging trays) 10 are the same as the packaging trays 1 located below them. The corner columnar base portion 21A of the distal end sharp portion 21 of the guiding member 20 is fitted to maintain a stable laminated state. Further, when the packaging tray 1 is laminated, the upper packaging tray 10 guides the position to the normal position while guiding the leading end sharp portion 2 of the guiding member 20 of the lower packaging tray 10. Therefore, the leading end sharp portion 21 of the guiding member -19-200902399 20 is formed as a sharp-shaped tray laminating means, and can also be used as a position determining means for the packaging trays 1 and 10 at the upper and lower positions. Further, the packaging tray 10, after packaging and transporting the glass substrate G, and opening the package to take out the glass substrate G, the empty packaging tray 10 can be directly used again, and such reuse can be repeated many times. [Industrial Applicability] As an example of use of the present invention, not only the glass substrate G but also a plate-like product and a flat product may be stacked, and a plate such as a resin plate or a metal plate may be packaged in the present invention. The packaging tray 10 of the invention. It is effective to carry out large and thin plates efficiently and safely, especially for glass substrates, and also for large FPD glass substrates. In addition, the present invention is incorporated by reference in its entirety, the entire contents of the specification of the disclosure of the disclosure of the disclosure of the disclosure of the disclosure of the entire disclosure of BRIEF DESCRIPTION OF THE DRAWINGS [Fig. 1] A perspective view of a packaging tray according to an embodiment of the present invention. FIG. 2 is a perspective view showing a configuration of a packaging tray shown in FIG. Fig. 3 is an explanatory view showing a cross section of the packaging tray shown in Fig. 1 in a model manner. Fig. 4 is a cross-sectional view showing the configuration of a vibration damping member. Fig. 5 is a perspective view showing a plate-shaped mounting plate of the packaging tray shown in Fig. 5; -20- 200902399 [Fig. 6] An explanatory view of a laminated paper pressing member. Fig. 7 is an explanatory view showing the relationship between the thickness of the laminated paper on the side surface and the number of laminated sheets on the glass base. [Fig. 8] An explanatory view of a stacking tray on a trunk of a truck. Fig. 9 is an explanatory view showing a fixing means for fixing a laminated packaging tray on a trunk of a truck. [Fig. 1] Fig. 1A is a view showing a support structure of a plate-shaped mounting plate of the present embodiment (B), and (B) is an explanatory view showing a load distribution applied to the plate-shaped mounting plate. Fig. 11 is a perspective view showing an enlarged portion of an important portion of a tray laminating means for a packaging tray. [Fig. 1 2] The prior art (a) an overall view of the support structure of the plate-mounting plate, (B) a detailed view of the support structure of the plate-mounting plate, and (C) shows the application to the plate-like material. An illustration of the load distribution of the board. [Main component symbol description] 1 : Packing box 2 : Base plate 3 : Steel 4 : Bench 5 : Laminated paper 6 : Load concentration part 7 : Paper powder and other particles 10 : Packing tray 21 - 200902399 1 2 : Laminated paper 14: pedestal 1 6 : plate-shaped mounting plate 1 7 : plate-shaped mounting plate 1 8 : laminated paper pressing member 1 9 : laminated paper pressing surface 20 : guiding member 20A : apex flat portion 2 1 : apex Sharp portion 2 1 A : angular columnar base 22 : steel material 28 : fork lift 3 0 : vibration damping member 3 2 : inclination angle setting member 3 4 : shrinking absorbent member 3 6 : elongated absorbent member 3 8 : receiving disk 3 9 : Receptive disk frame 40: gel material 42: metal plate 44: bracket 46: bolt 50: gel material 60: steel (support member) -22 200902399 61: steel (frame member) 62: resin sheet 7 0 : truck 72 : car box 74 : belt 7 6 : hook portion 78 : fitting hole 8 〇 : fitting member 90 : opening portion 92 : impact absorbing pad 94 : angular tubular member -23

Claims (1)

200902399 X. Patent Application No. 1 A packaging tray for a plate, which is a packaging tray having a pedestal and a plate-like plate, the plate-mounted plate being set by a supporting member The plate is placed on the pedestal and is formed by horizontally laminating the upper surface of the plurality of plates, and the upper surface is formed as a V-shaped plate-shaped mounting plate having a transverse cross-section, characterized in that the plate is placed The plate is composed of a honeycomb plate. 2. A packaging tray for a board according to the first aspect of the invention, wherein the plurality of sheets are laminated by laminating paper between the sheets. [3] The packaging tray of the plate of claim 2, wherein the packaging tray is provided with a plurality of laminated papers pressed from a side of the plate to a portion of the laminated paper beyond the edge of the plate The pressing member, the laminated paper pressing surface of the laminated paper pressing member, forms an inclined surface in a direction away from the upper portion toward the lower portion of the sheet. 4. The packaging tray of the plate of the first, second or third aspect of the patent application, wherein the packaging tray is provided with a plurality of guiding members projecting upward from the corner portion of the pedestal and formed on the pedestal A tray lamination means formed by a plurality of openings in which the bottom surface is fitted to the guide member of the packaging tray positioned below. 5. The packaging tray for a plate according to any one of claims 1 to 4, wherein the plate mounting plate is mounted on the pedestal via a vibration damping material and an inclination angle setting member. 6. For the packaging tray of the plate of the fifth paragraph of the patent application, the vibration-damping material of the -24-200902399 is provided with a shrinking absorbent material and an elongated absorbent material -25-