TW201004846A - Glass plate packing body - Google Patents

Abstract

By decreasing the offset occurred between a protection sheet and a glass plate contained in a glass plate integration body during transportation as far as possible, the damage occurred in the glass plate is prevented, and the operation efficiency of extracting a glass plate after transportation is kept well. A glass plate packing body 1 is formed by supporting a glass plate integration body 4, flat piled by inserting a protection sheet 5 respectively among several glass plates 6, from under side using a supporting surface 3 of a pallet 2, and if force is applied to the pallet 2 in a surface direction along the supporting surface 3, the sliding amount of a surface direction between the supporting surface 3 and the lowest layer of the glass plate integration body 4 is larger than the sliding amount of a surface direction between the glass plate 6 and the protection sheet 5.

Description

201004846 31891pif VI. Description of the Invention: [Technical Field] The present invention relates to an improved technique for packaging a glass sheet, which uses a support surface of a pallet to face a protective sheet from a plurality of sheets The bundled form of the glass sheet laminates of the plates and the flat piles are supported. [Prior Art] As is well known, such as a liquid crystal display (LCD), a PDP (Plasma Display Panel), a FED 'Field Emission Display, an organic electroluminescent display device ( In the case of a glass substrate used in a flat panel display device (FPD, Flat-Panel Display) such as OELD 'Organic Electro-Luminescent Display, the glass plate is required to be further increased in size and thickness in recent years. Therefore, in order to meet the demand, the shape of the glass sheet which has been enlarged and reduced in thickness is likely to cause damage, which further increases the importance of the form of packaging at the time of transportation. Further, as a packing form of the glass plate which is increased in size and has a reduced thickness, a glass plate layer in which a protective sheet is interposed between the plurality of glass sheets and which is flattened from each other is supported by a support surface of the disk. The form in which the body supports is spreading. The reason for this is that, in the form of the package, it is difficult to cause stress concentration in the peripheral portion of the glass sheet which is likely to be damaged. As a specific example of the above-described package form, as shown in the following Patent Document 1, a shock absorbing material is inserted between the glass sheet laminate and the tray 201004846

In the package form of the Jioyipu material, or as disclosed in the following Patent Documents 2 to 5, the glass sheet laminate is pressed against the support surface side of the tray from above and fixed in a bundled state. [PRIOR ART DOCUMENT] [Patent Document 1] Japanese Patent Laid-Open Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. 〇 _ _ _ 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 2007 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于 于When the damage occurs, there is a problem that the component cannot be formed on the surface or the wiring is cut at the damaged portion. Therefore, when transporting a glass substrate for FPD (hereinafter simply referred to as a glass substrate), it is needless to say that the glass substrate is prevented from being damaged, and the surface of the glass substrate is not damaged. Further, in the glass plate other than the glass substrate for FpD, the damage of the surface causes a decrease in the value of the product of the glass plate. Therefore, similarly to the glass substrate for FPD, the surface of the glass plate is not damaged. The way to carry it out is important. However, as disclosed in the above-mentioned Patent Document i, in the form of packing in which the impact absorbing material is disposed between the glass sheet laminate and the tray, there is a case where, during the transportation by the truck, the tray is along When a force is applied in the direction of the surface of the support surface, an offset occurs between the glass plate and the protective sheet. This situation is caused by the following reasons. 201004846 31891pif That is, the glass plate and the protective sheet located at the lower portion of the glass sheet laminate are pressed against the tray via the impact absorbing material by the load from above. Therefore, the glass sheet and the protective sheet are less likely to move relative to the tray, and the tray tends to move integrally with the tray when the sheet moves in the surface direction. On the other hand, the glass plate and the protective sheet located at the upper portion of the glass sheet laminate are weakened by the load from above, so that the relative movement between the glass sheet and the protective sheet is facilitated. Therefore, when the impact applied to the tray cannot be sufficiently absorbed by the impact of the absorbing material, the offset between the glass sheet and the protective sheet is likely to occur centering on the upper portion of the laminated body of the glass sheet. Further, if an offset occurs between the glass sheet and the protective sheet as described above, the glass sheet and the protective sheet are rubbed against each other to cause minute damage on the surface of the glass sheet. Further, when the above-described offset occurs, the position of each of the laminated glass sheets on the tray becomes inconsistent when viewed from above. In the glass sheet take-out operation after the end of the transportation, the robot is usually used to automatically take out the glass sheets one by one from the tray, so if the positions of the glass sheets do not match as described above, It is necessary to align the positions of the respective glass plates to finely adjust the position of the manipulator, so that the workability of the glass plate take-out operation is remarkably lowered. Further, as disclosed in the above Patent Documents 2 to 5, the problem of the offset between the glass plate and the protective sheet may be similarly generated in a package form including a mechanism for pressing the glass sheet laminate to the tray side. . The reasons are as follows. That is, when the force of pressing the glass sheet laminate to the tray side is too strong, the glass sheet is damaged. Therefore, it is practically impossible to press the glass substrate laminate strength to the tray side and completely fix it on the tray, so when the dry tray is supported along the support surface of the tray (support for the glass substrate laminate) When a force is applied in the plane direction of the face, it is still possible to cause an offset between the glass plate and the protective sheet contained in the laminated layer of the glass sheet. In view of the above-described actual circumstances, the technical problem of the present invention is to prevent the glass sheet from being damaged by minimizing the offset between the glass sheet and the protective sheet contained in the glass sheet laminate during transportation. In the case of the work, the efficiency of the glass sheet take-out operation after the end of the conveyance is well maintained. SUMMARY OF THE INVENTION An object of the present invention to solve the above problems is a glass plate package body in which a protective sheet is interposed between a plurality of glass sheets and stacked by a support surface of the tray. The glass sheet laminate is supported by the shape 1. The glass sheet package is characterized in that, when the tray is applied with a force in a direction along the support surface, the lowermost layer of the glass laminate is The amount of sliding in the surface direction between the support faces is larger than the amount of sliding in the surface direction between the glass plate and the protective sheet. In addition, the "sliding amount" in the surface direction between the lowermost layer of the glass sheet laminate and the support surface means the distance between the lowermost layer and the support surface of the glass sheet laminate body. The "sliding amount" in the surface direction between the protective sheets refers to the relative moving distance between the glass sheet and the protective sheet. Further, the amount of sliding in the surface direction between the glass plate and the protective sheet of the latter includes a case where no slip occurs between the glass plate and the protective sheet, except for the case where the sliding between the glass plate and the protective sheet is included. Furthermore, in the application specification of the present application 201004846 31891pif, the direction of the plane of the surface supporting surface along the supporting surface of the tray or the parallel to the supporting surface is achieved by the above-mentioned composition 'when in the transportation process When a force is applied to the tray in the direction along the surface of the support surface due to an impact from the outside, etc., the amount of sliding in the plane direction between the lowermost layer and the support surface of the glass ginseng layer will be larger than that of the glass sheet and the protective sheet. Since the amount of sliding between the glass sheets and the protective sheet is shifted, the entire glass laminate body preferentially moves while sliding on the support surface of the tray. That is, even when the tray is applied with a force in the direction along the surface of the support surface, the entire glass sheet laminate is integrally moved on the support surface of the tray, thereby being capable of being applied to the surface of the tray. Since the force is absorbed, it is possible to reduce the occurrence of a deviation between the glass plate and the disc contained in the laminated body of the glass sheet as much as possible. Thereby, it is possible to surely reduce the mutual friction between the glass plate and the protective sheet, or the position of each of the glass sheets on the tray becomes inconsistent. Therefore, it is possible to prevent a situation in which the glass sheet is damaged during transportation, and it is not necessary to perform troublesome alignment of the robot when the glass sheet is taken out after the end of the transportation, thereby maintaining good work efficiency on the one hand. The aspect performs the job. In order to solve the above-described problems, a glass-clad-packaged body is a glass-plate laminate in which a protective sheet is interposed between a plurality of sheets of glass sheets by a tray supporting surface. Supporting the formation of the glass sheet bundle body is characterized in that the coefficient of friction between the lowermost layer of the glass sheet laminate and the support surface is smaller than the glass plate and the upper layer 8 201004846

Jio^lpu describes the coefficient of friction between the protective sheets. In addition, the "friction coefficient" S history referred to here is a value obtained as follows. That is, first, one material is fixed to a flat surface plate, and the other material is fixed to the above-mentioned bottom surface of a hammer having a flat bottom surface of 60 mm x 10 mm and weighing about lkg. Then, after the other material is placed on the one of the materials, the plate on which the one material is fixed is gradually tilted, and the tangent of the angle at which the hammer starts to move is performed a plurality of times (preferably In the measurement of A. 5: owing, the average value of these measured values is set to be equal to or less than the friction coefficient, and the value of the friction coefficient is also a value measured by the method. With the above configuration, the lowermost portion of the glass sheet laminate and the support surface of the tray are more easily slid between the glass sheet and the protective sheet. Therefore, when a force is applied to the tray in the direction of the surface along the support surface due to an impact from the outside or the like, the entire glass sheet laminate body is preferentially supported on the support surface of the tray before the offset occurs between the glass sheet and the protective sheet. Move while sliding on the upper side. That is, even if the tray is applied with a force in the direction of the surface along the support surface, the entire glass sheet laminate is integrally moved on the support surface of the tray, thereby applying to the tray. Since the force in the plane direction is absorbed, it is possible to reduce the occurrence of a deviation between the glass sheet and the protective sheet contained in the glass sheet laminate as much as possible. Thereby, it is possible to surely reduce the mutual friction between the glass sheet and the protective sheet, or to reduce the situation in which the positions of the respective glass sheets on the tray become inconsistent. Therefore, it is possible to prevent the glass sheet from being damaged, and it is possible to maintain good work efficiency while using the robot to perform the glass sheet removal operation after the end of the transportation. On the one hand, the operation of 201004846 31891pif is performed. In the above configuration, it is preferable that the support surface of the tray is formed of a low friction material disposed on the upper surface of the tray body. Thus, the support surface of the tray is formed of a low-friction material different from the tray body, so that the above-described effects can be achieved even if the disc body itself is not formed by a special material such as a low-friction material. Further, the low friction material t referred to herein includes, in addition to the sheet-shaped low friction material, a powdery or fine granule which is used, for example, directly spread on the upper surface of the tray body, or in the tray body. The surface is modified by sputtering or chemical dispersion. In the above configuration, the low friction material may be disposed on the upper surface of the tray main body via the impact absorbing material. Thus, the force applied to the disk is weakened by the impact absorbing material, so that the amount of sliding between the lowermost layer of the glass sheet laminate and the supporting surface itself can be lowered. Therefore, the ratio of the offset between the glass sheet and the protective sheet contained in the glass sheet laminate can be further reliably reduced. In the above configuration, it is preferable that the protective sheet is formed of paper or a foamed resin. That is, in the case where paper is used as the protective sheet, since the used protective sheet can be simply treated or reused after the end of the transportation, it is environmentally advantageous, and the foamed resin is used as the protective sheet. In the case, it is advantageous in terms of having a moderate cushioning property to protect the glass sheet. In the above configuration, a restriction member that limits the range of movement of the glass sheet laminate on the support surface of the tray may be erected around the glass sheet laminate. Thus, the movable range of the glass sheet laminate on the support surface of the tray is limited by the restriction member. Therefore, even when, for example, the tray is applied with an excessive impact which is generally assumed, it is possible to prevent the glass laminate from falling to the outside of the tray support surface. In the above configuration, it is preferable that the glass plate is a glass substrate for a flat panel display device. ® [Effects of the Invention] As described above, with the present invention, it is possible to reduce as much as possible the offset between the glass sheet and the protective sheet contained in the glass sheet laminate during transportation. Therefore, it is possible to prevent the glass sheet from being damaged, and it is possible to satisfactorily maintain the work efficiency of the glass sheet take-out operation after the end of the conveyance. The above described features and advantages of the present invention will become more apparent from the description of the appended claims. [Embodiment] Hereinafter, embodiments of the present invention will be described based on the drawings. Fig. 1 is a perspective view schematically showing a glass sheet package according to a first embodiment of the present invention, and Fig. 2 is an exploded perspective view showing the parts of the glass sheet bundle shown in Fig. 1. As shown in Fig. 1, the glass plate package 1 is a package in which a glass laminate 11 is supported on a support surface 3 of the tray 2. As shown in FIG. 2, the above-mentioned supported glass sheet laminate 4 is formed by horizontally stacking the protective sheet 5 and the glass sheet 6 from below, and is in the form of 11 201004846 31891pif. It is formed with the top plate 7 stacked horizontally on the uppermost glass plate 6. As the protective sheet 5, a foamed resin sheet or paper made of virgin pulp can be used. Further, the protective sheet 5 is larger than the glass sheet 6, and is exposed from the four sides of the glass sheet 6 to the outside in a state of being inserted between the glass sheets 6, thereby also protecting the glass sheet 6 by the exposed portion. The role of the end face. Further, from the viewpoint of protecting the end surface of the glass sheet 6 as described above, the exposed size of the protective sheet 5 is preferably set to be equal to or larger than the thickness of the glass sheet 6 on each side of the glass sheet 6. The support surface 3 of the tray 2 is formed by laying and fixing a low friction sheet on the upper surface of the tray body 8. And 'the friction coefficient between the lowermost layer (the protective sheet 5 in the present embodiment) and the low friction sheet 3 of the glass sheet laminate 4 by forming the support surface 3 from the low friction sheet as described above. It becomes smaller than the coefficient of friction between the glass sheet 6 and the protective sheet 5, so that when the force is applied to the tray 2 in the plane direction along the support surface 3 (hereinafter referred to as the plane direction), the most is located in the glass sheet laminate 4. The amount of sliding in the surface direction between the lower protective sheet 5 and the low friction sheet 3 becomes larger than the amount of sliding in the surface direction between the glass sheet 6 and the protective sheet 5. Further, the amount of sliding in the surface direction between the protective sheet 5 at the lowermost layer of the glass sheet laminate 4 and the low friction sheet 3 is, for example, the protection at the lowermost layer of the glass laminate layer 4. The distance between the center point of the sheet 5 and the joint of the low-friction sheet 3 that is in contact with the center point before the conveyance is fixed, and between the glass sheet 6 and the protective sheet 5. The amount of sliding in the plane direction is such as, for example, the distance between the center point of the glass sheet 6 and the contact between the contact portion of the protective sheet 5 that is adjacent to the 12 201004846 3i «yipu center point. definition. Supporting pillars 9 are formed at four corners of the upper surface of the tray main body 8. The splaying convex portions 1 are formed on the upper surfaces of the support pillars 9, and the respective supporting pillars 9 are formed at the four corners of the lower surface of the tray main body 8. The convex portion 1 is fitted with a fitting recess (not shown). Thereby, the fitting concave portion of the tray 2 used in the other glass sheet packing body 1 is fitted by the fitting convex portion 1 of the tray 2 used in one glass sheet packing body 1 A plurality of glass plate bundles 1 can be stacked in the up and down direction. As described above, according to the glass plate package i of the first embodiment, even when a force is applied to the tray 2 in the surface direction due to an impact or the like from the outside, the entire glass sheet laminate 4 is preferentially placed. The low friction sheet 3 of the tray 2 moves while sliding. Therefore, even if a force is applied to the tray 2 in the surface direction due to an impact or the like from the outside, the entire glass is broken before the offset between the glass sheet 6 and the protective sheet 5 included in the glass sheet laminate 4. The laminated body 4 is integrally moved on the low friction sheet 3 of the tray 2, whereby the force applied to the surface direction of the tray 2 can be absorbed. Therefore, it is possible to reduce the occurrence of friction between the glass sheet 6 and the protective sheet 5 contained in the glass sheet laminate 4 and damage of the glass sheet 6 as much as possible. At the same time, it is possible to prevent the positions of the respective glass sheets 6 included in the glass sheet laminate 4 from being inconsistent when viewed from above, and thus it is possible to maintain good work efficiency. The glass plate removal operation using the robot is smoothly performed. Furthermore, the above-described effects can be achieved by sliding the entire glass sheet laminate 4 on the low friction sheet 3 first, 201004846 31891pif, so that it is not necessary to additionally laminate the glass sheet 4 from above. The mechanism pressed against the side of the tray 2. Therefore, the configuration of the glass sheet package 1 is not unreasonably complicated, and the weight of the glass sheet bundle body is increased.囷3 is a perspective view showing a glass plate package according to a second embodiment of the present invention. The glass plate package body 不同 is different from the glass plate package 1 of the second embodiment in that the low friction sheet 3 is worn on the upper surface of the tray body 8 via the impact absorbing material 11. Thus, the force applied to the tray 2 is weakened by the impact absorbing material 11, so that the amount of sliding between the lowermost layer of the glass sheet laminate 4 and the low friction sheet 3 itself can be lowered, thereby forming a more stable bundle. Package form. At this time, the impact absorbing material n may be partially in contact with the lower surface of the low friction sheet 3 as shown in the figure, in addition to the entire surface of the low friction sheet 3. Moreover, the impact absorbing material 11 may be fixed to at least one of the low friction sheet 3 and the tray body 8, and may of course not be fixed to any of the low friction sheet 3 and the tray body 8 but only The two sides are in physical contact. Fig. 4 is a perspective view showing a glass plate package according to a third embodiment of the present invention. The glass-glass board package 1 differs from the glass sheet package 1 of the first embodiment in that it is erected on the four sides of the glass sheet laminate 4 supported by the support surface 3 of the tray 2. There is a restriction member 12 that restricts the movable range of the glass sheet laminate 4 on the support surface 3 of the tray 2. Further, each of the restriction members 12 is laminated on the glass laminate 11; on the support surface 3 of the tray In the initial state, it is separated from the side surface of the glass sheet laminate 4 by, for example, 15 to 25 mm. Further, it is preferable that the movable plate in the limit of 201004846 3I891plf 4 is actually in contact with the (four) glass plate layer: the movable portion is mounted with an impact absorbing material such as rubber. The glass plate is bundled as above - ❹ The tray body Γ __ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ [Examples] The first embodiment of the glass sheet package 1 of the present invention is a glass sheet package in which the above-described form shown in Fig. 4 is produced. This glass is produced as follows. First of all, 'on the top of the aluminum tray body 8 whose width is recommended, the horizontal length is the recommended stomach, and the thickness is 150 mm, the poly-width is 2200 mm, the horizontal length is 25 mm, and the thickness is 5 mm. A low friction sheet 3 made of propylene 3 times foamed resin. A foamed resin sheet made of a polyethylene 40-fold foamed resin having a width of 2,260 mm, a lateral length of 2,560 mm, and a thickness of 0.50 stomach was placed on the low-friction sheet 3 as a glass laminate layer 4. The lowermost protective sheet 5 ^ is on the lowermost protective sheet $, and a total of 200 sheets (one glass sheet and one protective sheet) are sequentially stacked one by one from the bottom, and have a vertical width of 2,200 mm and a horizontal length of a glass plate 6 having a thickness of 2,500 mm and a thickness of 〇.7 mm, and a foamed resin sheet made of a 40-fold foamed resin of polyethylene having a width of 2,260 mm, a lateral length of 2,560 mm, and a thickness of 〇·5 mm. Protective sheet 5. Further, in the uppermost layer of the glass sheet laminate 4, a polypropylene having a width of 2,200 mm, a lateral length of 2,500 mm, and a thickness of 5 mm 15 201004846 31891pif was cut into a 7-fold foamed resin. Further, in this state, each of the glass sheets 6 included in the glass sheet laminate 4 is held in a horizontal posture without being curved. Further, in the initial state immediately after the lamination operation of the glass sheet laminate 4 is completed, an interval of about 20 mm is provided between the glass sheet laminate 4 and each of the regulating members 12. ❿ At this time, the low-friction sheet 3 is fixed to the tray body 8 of the original shape, so that the sliding between the low-friction sheet 3 and the tray main body 8 can be substantially ignored. On the other hand, if the friction coefficient of the low friction sheet 3 and the protection month (foaming tree) 5 which are not fixed to each other is measured, the value is 〇·3 and 'ground' if the protection is not fixed to each other. The coefficient of friction of the sheet 5 and the glass sheet 6 was measured and found to be 186. That is, regarding the ease of sliding between the glass sheet 6 and the protective sheet 5 contained in the glass sheet laminate 4, she is easy to slide between the sheet laminate 4 and the low friction material 3, which is very difficult to slide. . In this case, when the glass plate assembly 1 is subjected to an impact, the glass plate 6 of the glass sheet laminate 4 and the protective sheet 5 move substantially on the low friction sheet 3 in a substantially body manner. In the second embodiment of the glass sheet package 1 of the present invention, the sheet metal package of the first embodiment is packaged in the same manner as the glass sheet of the first embodiment. The above is used for protection: raw width: two::: one, the basis weight is ‘material 3舆 tray between her sliding. Further _ = upper == 16 201004846 The friction coefficient of the low friction sheet 3 and the protective sheet (paper) 5 is 〇25, and similarly, the friction coefficient of the protective sheet 5 and the glass sheet 6 which are not fixed to each other is 〇.44 . In this case, as in the first embodiment, the slab is applied to the glass sheet packing body 1, and the slab 6 of the glass slab 4 and the protective sheet 5 are integrally moved on the low friction sheet 3. As the glass plate package of the present invention! In the third embodiment, a glass plate phase inclusion of the form shown in Fig. 5 described above is produced. Specifically, the glass plate package 1 is produced in the following manner. First, at the four corners and the center of the same tray main body 8 of the i-th embodiment, the impact of the three-fold foamed polypropylene having a vertical width of 500 mm, a horizontal length of 500 mm, and a thickness of 2 mm is fixed. The low friction sheet 3 made of a polypropylene three-fold foaming resin similar to that of Example i was placed and fixed so as to straddle the respective impact absorbing materials u. Other conditions are the same as in the third embodiment. In a fourth embodiment of the glass sheet body 1 of the present invention, a sheet of the glass sheet of the third embodiment is produced in the case where the sheet 5 is inserted between the glass sheets only one by one. 1 different glass plate bundles. As a comparative example, after a total of four sheets of paper made of virgin pulp were laminated on the upper surface of the same aluminum pallet main body as in the first embodiment, the same size as in the first embodiment was alternately stacked one by one. The glass plate and the paper made of the virgin pulp were further placed on the glass plate and the paper on the top plate made of polypropylene three times foamed resin to prepare a glass plate package. Then, in order to reproduce the sway during transportation, the glass plate package 1 of Examples 1 to 4 produced as described above and the glass plate package of the comparative example were respectively placed on a vibration damper to vibrate. test. The vibration test by the vibration absorbing device 17 201004846 31891pif is performed by giving an average acceleration of ± 〇 5 G for two hours in the horizontal direction (X direction and γ direction), respectively The acceleration of the average soil G is given in the vertical direction (Z direction) for two hours, and during this period, three times the acceleration of the horizontal direction and the vertical direction are randomly given in the respective directions (X direction: ±1.5 G, Y direction: ±1.5 G, Z direction: ±3.0 G). Then, after the above vibration test, the offset amount Aa of the glass sheet laminate 4 of Examples 1 to 4 and the glass sheet laminate of the comparative example was measured. The measurement results are shown in Table 1 below. Further, in the first to fourth embodiments, the offset amount & as shown in Fig. 6 is the glass plate 6 included in the glass plate layer 4 after the conveyance, and the glass plate 6 located at the lowermost portion and The amount of displacement in the horizontal direction between the glass plates 6 located at the uppermost portion is measured. In addition, the layer Aa of the glass sheet laminate 4 before transport is zero. Further, in the comparative example, Aa was also measured in the same manner. [Example 1] Example 1 Example 2 Example 3 Example 4 Comparative Example A a (mm) 0.0 0.0 0.0 0.0 7.0 According to the above results, it was confirmed that in the glass plate package of the comparative example, the glass was accompanied by transportation. A large offset Aa is generated in the laminate body. On the other hand, in the glass sheet package 1 of the first to fourth embodiments, the offset amount Aa of the glass sheet laminate 4 was not generated even after the conveyance. From this, it is also recognized that in the glass sheet package 1 of the embodiments 1 to 4, the offset generated between the glass sheet 6 and the protective sheet 5 during transportation can be reduced by 18 201004846 ^ Ι δνίρΐΙ. Further, as shown in FIG. 7, each of the glass plate package bodies i of the first to fourth embodiments was measured and the amount of movement Ab before and after the conveyance on the tray 2 of the lowermost layer of the glass plate laminate 4 was measured.实施7 mm in the embodiment i, 1.8 mm in the embodiment 2, 0.4 mm in the embodiment 3, and 〇.5 mm in the embodiment 4. From the above results, it was confirmed that the low friction sheet 3 and the tray were compared with the glass sheet package 1 of the embodiment 2 in which the impact absorbing material 12 was not inserted between the low friction sheet ❹ 3 and the tray main body 8. In the glass sheet package 1 of the third and fourth embodiments in which the impact absorbing material 12 is interposed between the main bodies 8, the movement amount Ah of the glass sheet laminate 4 before and after the conveyance becomes small. Therefore, it is also recognized that in the glass plate package of Examples 3 and 4 in which the impact absorbing material 12 is inserted, in order to absorb the impact applied to the tray 2, the amount of movement of the glass sheet laminate 4 necessary is changed. Small, thus forming a more stable bale form. Further, in the same type of packing form, a foamed resin sheet is used as a protective sheet as compared with a packing form (Examples 2 and 4) in which paper is used as the protective sheet 5 interposed between the glass sheets 6. In the bundle form of the fifth embodiment (the examples i and 3), the amount of movement Δ[) of the glass sheet laminate/body 4 is small. From this, it is also recognized that the use of a foamed resin sheet (polyethylene 40-fold foaming tree) as the protective sheet 5 is a more stable packing form. The present invention has been disclosed in the above embodiments, and it is not intended to limit the invention to those skilled in the art, and it is possible to make some modifications and refinements without departing from the spirit and scope of the invention. The scope of protection of this invention shall be subject to the definition of the scope of the patent application. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a glass plate package according to a first embodiment of the present invention. Fig. 2 is a perspective view showing the exploded arrangement of the glass plate package of the first embodiment; Fig. 3 is a perspective view showing a glass plate package according to a second embodiment of the present invention. Fig. 4 is a perspective view showing a glass plate package according to a third embodiment of the present invention. Fig. 5 is a perspective view showing a modification of the glass sheet package according to the third embodiment. Fig. 6 is a view for explaining the offset amount A a of the glass sheet laminate in the embodiment. Fig. 7 is a view for explaining the amount of movement Δ b of the glass sheet laminate in the embodiment. [Description of main component symbols] 〇1: Glass plate package body 2: Tray 3: Support surface (low friction sheet) 4: Glass plate laminate 5: Protective sheet 6: Glass plate 7: Top plate 20 201004846 jieyipii 8 : Tray Main body 9: support post 10: fitting convex portion 11: impact absorbing material 12: restricting member Δ a : offset amount Δ b : amount of movement

Claims (1)

201004846 31891pif VII. Patent application scope: 1. A glass plate package body, which is made of a glass plate laminate body with a protective sheet interposed between each other and stacked in a plurality of glass sheets by a support surface of the tray Supported by the support, the glass sheet bundle is characterized in that: when the tray is applied with a force in a direction along a surface of the support surface, the above-mentioned between the lowermost layer of the glass sheet laminate and the support surface The amount of sliding in the plane direction is larger than the amount of sliding in the above-described plane direction between the glass sheet and the protective sheet. _ 2·- a glass plate package body is formed by supporting a glass plate laminate body in which a protective sheet is interposed between each other and stacked in a plurality of glass sheets by a support surface of the tray, the glass The sheet bundle body is characterized in that a coefficient of friction between a lowermost layer of the glass sheet laminate and the support surface is smaller than a coefficient of friction between the glass sheet and the protective sheet. 3. The glass sheet package according to claim 1 or 2, wherein the support surface of the tray is formed of a low friction material disposed on the upper surface of the tray body. 4. The glass sheet package according to claim 3, wherein the low friction material is disposed on the upper surface of the tray body via an impact absorbing material. 5. The glass sheet packaged body according to any one of the items 1 to 4 wherein the protective sheet is formed of paper or a foamed resin. 6. The glass sheet package according to any one of the preceding claims, wherein the glass sheet laminate is provided on the support surface around the glass sheet laminate. The range of movement is limited to 22 201004846 JlO^ipiI restricted components. The glass plate package according to any one of claims 1 to 6, wherein the glass plate is a glass substrate for a flat panel display device.