TW200914337A - Glass plate packing body - Google Patents

Abstract

This invention relates to a glass plate packing body that adopts a packing configuration in which a pressure bar is arranged across the width direction of a glass plate laminate body and the two end portions of the pressure bar are fixed and kept on a pallet. The damage to the glass plate caused by a stress concentration of the two end portions in the width direction is reduced, and further the collapse of the goods on the glass plate laminate body is avoided. In a glass plate packing body 1, a pressure bar 4 is arranged across the width direction of a glass plate laminate body G that is laminated on a pallet 2, and the two end portions, which are exposed to the outer sides of the two sides in the width direction of the glass plate laminate body G, of the pressure bar 4 are fixed by a fixing member 5 so as to be pulled toward the side of the pallet 2. The glass plate laminate body G is kept in the glass plate packing body 1 on the. pallet 2. A press plate 6 is, in a state of contacting the pressure bar 4 and the glass plate laminate body G, interposed between the pressure bar 4 and the glass plate laminate body G, and the press plate 6 contacts a central portion in the width direction except the two end portions in the width direction of the glass plate laminate body G.

Description

Γ Ο 200914337 IX. OBJECTS OF THE INVENTION: 1. Field of the Invention The present invention relates to an improved technique for holding a glass sheet package body in which a glass sheet laminate in which a plurality of glass sheets are laminated is held on a pallet. [Prior Art] In the case of transporting various glass sheets such as a glass substrate for a flat panel display (hereinafter simply referred to as FPD) such as a liquid crystal display or a plasma display, it is generally a glass sheet formed by laminating a plurality of glass sheets. The laminate is held in a state in which the glass plate is packed on the pallet. As such a glass plate package, it is roughly divided into a state in which a plurality of glass plates are stacked in a vertical posture on a pallet, and a plurality of glass plates are stacked in a horizontal position on a pallet. . The package body of the f is a pallet having a base portion and a backrest portion, and the backrest portion is erected rearward of the base portion. Further, the base member is placed on the backrest portion and held in the vertical position on the base portion, and the front surface of the second glass sheet laminate body is pressed toward the backrest portion side to be held, thereby producing a package body. In this case, there are various types of enamel glass. The following patent document i discloses that this = 3 layer 2 method 'for example, the front is additionally raised - Fan Jin, 4 is at the base of the knives." The frame is set, and the hunting is carried out by the car in the front frame piece, and the (four) force of the glass connection is lowered. When the posture is changed, the ink piece is formed successively, so that the front frame backrest is 200914337. When the glass sheet laminate is pressed by the pressing piece, it is necessary to combine the rigid frame or the upper crosspiece in the shape of a city block. Therefore, it is not only complicated in the structure of the package body, but also in the production of the package body. Troubled homework. In particular, due to the erection of the upper cross lion _, the front frame must be larger than the glass plate. In this case, when the glass plate to be packaged is large, the size of the frame 4 is also increased, and the handling property is deteriorated. In addition to this, in this case, it is also necessary to perform the installation work of the upper crosspiece at a high place. It is difficult to perform the installation work smoothly. Therefore, in order to solve these problems, there has been proposed a technique in which the following structure is used to press and hold the glass laminate. In other words, the press bar is disposed in a manner of spanning the width direction of the glass sheet laminate laminated on the pallet, and the pressing member is exposed to the outside of both sides in the width direction of the glass sheet laminate. Both ends of the rod are fastened in a state of being pulled in toward the pallet side to press the glass sheet laminate to be held on the pallet (for example, Patent Document 2 below). Thus, it is not necessary to separately provide the front frame or the upper cross member on the pallet, and the glass plate laminate can be easily held on the pallet by fastening the both ends of the pressure bar with the fastening members. Patent Document 1. Japanese Laid-Open Patent Publication No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. No. Hei. When the glass sheet laminate is pressed toward the pallet side and the 200914337 is held, the stress tends to concentrate on both ends in the width direction of the glass sheet. Moreover, since the pressing bar itself is also deflected, the stress is more likely to concentrate on both ends of the glass plate. The end portion of the glass plate is a portion that is easily damaged. Therefore, when the pressure is concentrated on the end portion of the panel as described above due to the pressing force generated by the pressure bar, the package is opened before the pumping is started. A problem arises in the breakage of the glass sheet. In the case where the deflection of the press bar is large, only the both end portions in the width direction of the laminated body are held. Further, when the package body is transported, vibration or impact during transportation is caused by the problem that the center portion in the width direction of the plate is bent against the bent portion of the press bar. Moreover, the robot that transports the suction pad picks up the piece from the pallet. "If the cargo collapses as described above and the glass plate is bent, it is good." However, the glass plate cannot be properly adsorbed. The lining person asks for the removal operation. θ produces a situation in which it is virtually impossible to use the machine, the problem is fixed on the board and is bundled, and the multiple layers of glass are scattered and bundled in the text. The same is also produced. The invention is based on the construction of the 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 【 The part is protected by ―, the beam is arranged in the direction of the direction, the stress at both ends in the width direction is light, and the form of the bundle on the disk is reduced, and the glass plate caused by the material of the broken volume layer is also prevented. Damaged, 200914337 The present invention is characterized in that the present invention is characterized in that the surface of the slab is superimposed on the pallet, and the surface rod is fitted, and the fastening member is used to fasten == Therefore, the heart = body preparation house on the 4 (four) and turned to the Lang Lang board Between the rod and the aforementioned Lang_layer body, the pressing plate is brought into contact with the central portion in the width direction except for the laminated layer of the glass plate: the width direction 咏 phase. The width of the laminate and the glass laminate is == end: the force of the rod is not (four) the end of the glass is the width of the glass laminate. The thickness of the glass laminate is two. The damage of the plate and the glass plate laminate except the width direction: the pressing force of the pressure bar. Therefore, the glass plate == can be limited. Thus, even in the case of transporting the package body, It is sure to suppress the collapse of the laminated material of the glass sheet. It is preferable to contact the above-mentioned pressure bar in the above-mentioned money board. 34 The width direction of the panel _ formation time outside 4 === Saki width direction both ends The part is pressed continuously. If and ° are continuously pressed in the width direction, therefore, the width of the width of the laminar laminated body is increased along the width of 200914337. The damage of the broken glass or the collapse of the goods caused by the deformation is more restrained In the above configuration, the pressing plate is such that the front side of the front side of the glass sheet which is orthogonal to the width direction is larger than the front side of the layer body, and the width of the laminated rod and the laminated body of the glass sheet is made. The direction perpendicular to the direction of the ^ direction is orthogonal to the width direction of the glass plate; the deformation in the direction orthogonal to the width direction is suppressed, which is advantageous in preventing breakage of the glass sheet or collapse of the cargo.乂 防 Ϊ Ϊ Ϊ Ϊ layer 是 layer is made of a plurality of glass plate back U?, the above-mentioned pallet can also have a base portion and the glass seat to the lower edge of the glass plate support, the backrest direction (height direction = The upper and lower pedestals of the center of the glass plate and the lower end portion of the pressing plate are formed by laminating the glass plate in the longitudinal direction of the f-panel by the Li in the body of the pallet, or the self-seat portion of the slab To support, the lower side of the change B, ^ is small. Therefore, in the case where the pressing plate is pressed against the lower side portion and the pressing force acts on the lower side portion, the stress is not relieved by the deformation of the breaking plate due to the deformation of the broken plate or the like. The board is damaged. Therefore, from the viewpoint of preventing breakage of the glass sheet, it is preferable to separate the lower end portion of the audition from the base portion as in the above configuration without applying a pressing force to the lower side portion of the glass sheet. In this case, it is also possible to extend to the outside of both sides in the width direction of the glass sheet laminate by the both sides in the width direction of the pressing plate: 孑I3 and on the back of the sin of the pallet On both sides in the width direction, a guiding member extending along the laminating direction of the glass sheet laminate and slidably supporting the front portion is provided, and the guiding member is used to perform the pressing of the arm portion The lower end portion is separated from the base portion of the pallet. - In this way, by sliding the pressing plate along the guiding member, it is possible to position the pressing bar in a configuration of a dip that is appropriate to the position of the slab (10), and to cause the pressing bar to follow the glass. The laminated layer body is provided with a plurality of pressing forces to make the pressing force per unit area of the field i using the uppermost pressing bar, and the lowermost force is used: the glass plate is preferably used. The pressing layer body per unit area on the laminated body is usually a glass plate in which the lower glass plate is stacked in a vertical posture, whereas the upper side portion is relatively free; the upper portion of the 'destroyed plate laminated body The accumulation of. The effect of lowering the lower part is equivalent to the thickness of the upper part of the (four)' period. The thickness of the upper part is higher than that of the lower part (4), and the line capacity (four) is uneven. Γ When the unevenness in the laminated state occurs, the upper portion of the glass laminate body is held in a pressed state as compared with the lower portion. Therefore, when the package body is subjected to an impact from the lower side during transportation, the room for the operation of the glass plate can directly act on the lower side of the glass plate j to cause damage. Therefore, in order to cope with this-problem, as described above, the pressure-per-pressure that acts on the uppermost pressure bar on the glass laminate is lower than that of the lowermost pressure bar on the glass laminate. The pressing force of the area is still relatively small. In this way, the problem that the upper portion and the lower portion of the glass sheet (four) are pressed against each other can be prevented, and the problem of the laminated state of the glass sheet laminate can be prevented. Moreover, since the pressure of the upper part and the lower part of the glass sheet laminate can be maintained to the same extent, (4) even if the impact is raised upwards, the glass sheet can be temporarily retracted upward, so that the glass sheet is easily damaged. .

In the above configuration, the pressing plate is separated from at least the upper portion, the lower portion, the upper portion, the upper portion, and the upper portion, and the lower plate is pressed by the lower portion. The rod is pressed to press the contact area of the Langer laminate H ^ pressure and the aforementioned sheet, and it is preferable that the contact area between the lower pressing plate and the glass sheet laminate is large. In this way, the contact area between the upper pressing plate and the glass plate laminated body is larger than that of the laminated plate of the glass plate, so that the force exerted by the plate on the laminated body of the glass plate, and the lower part = 12 200914337 Compared with the pressing force applied above, it is dispersed to a larger range. This can make the pressing force of the uppermost pressing bar on the glass plate laminated body smaller than the lowermost pressing bar in the glass plate laminated body. The pressing force per unit area acting on it is still small. In the above configuration, the pressing plate is a single member that is disposed between the lowermost pressing bars across the uppermost portion, and has a size above the uppermost pressing bar. The size exposed below the lowermost pressing bar of the lower part of the lower part is also better. Further, the exposed size of the lower portion of the lower portion of the lower portion of the pressing plate is not exposed to the lower portion of the pressing rod, that is, the value of the size of the package 3 is also zero. Happening. K-like, the pressing action of the uppermost pressing bar on the glass sheet laminate; i: the pressing of the lower pressing bar on the glass laminate is dispersed to a larger extent. Therefore, the pressing force per unit area exerted on the uppermost portion of the glass sheet laminate can be made smaller than that of the most pressing rod on the sheet laminate. In the above configuration, the glass sheet laminate is formed by laminating two glass sheets in a lateral posture, and the tray may have a base supporting the lower surface of the glass sheet. In this case, the The width direction of the glass laminate means a direction orthogonal to the front-rear direction of the glass sheet laminate. In the configuration described above, the reference wall that is in contact with the rear side of the glass sheet is provided on the pallet, and a plurality of the ink sticks are disposed along the front direction of the glass laminate, and the last part is repeatedly The pressing force per unit area of the rod acting on the above-mentioned glass 13 200914337 laminar body is preferably smaller than the pressing force per unit area of the foremost pressing strut acting on the glass sheet laminate. η

Usually, 'when the reference wall abutting on the side of the glass plate is formed on the pallet', from the viewpoint of preventing the collapse of the glass sheet, it is required that the side behind the glass plate is in contact with the reference wall before and after the conveyance. The state of the connection. Further, if the above configuration is employed, the requirement can be satisfied. In other words, when the package body is subjected to an impact during transportation, each of the glass sheets is guided to a rear side having a small pressing force per unit area, so that the side behind the glass sheet can be abutted against the reference wall. transport. In the above configuration, the pressing plate is separated from at least a front pressing plate and a pressing portion, wherein the front pressing plate presses the glass plate laminate by the frontmost lever, and the rear pressing plate is The glass plate laminate is pressed by the last press bar, and the contact area between the rear press 2 and the glass plate laminate is larger than the contact area between the front press plate and the glass laminate. Preferably. ^ Thus, the contact area between the rear pressing plate and the glass laminate is larger than the contact area between the front pressing plate and the glass laminate, so the pressing force acting on the glass plate body by the rear pressing plate and the front portion The pressing plate is made on the glass plate laminate (4), and the viewing force is reduced, and it is dispersed and weakened in a relatively narrow range. Therefore, the pressing force per unit of the pressure bar of the last portion can be made smaller on the glass sheet laminate than the pressing force per unit area which is hard to act on the glass sheet laminate at the foremost portion. In the above configuration, the pressing plate is a single member that is disposed between the frontmost portion of the pressure 200914337 rod and the rearmost moving rod, and the rear rear portion (four) is exposed at the rear of the last portion of the pressing rod. It is preferable that the size of the front portion of the front portion exposed to the front of the pressure bar at the most part of the rain is large. Further, the exposed size of the front side of the front panel of the front panel of the panel is also such that the front portion of the pressing panel is not exposed to the front of the frontmost roof, that is, the value of the size is also zero. Case. The pressing force acting on the glass sheet laminate by the k-shaped ^ rear part of the rod on the glass sheet laminate is dispersed in a large range by the action of the most σ卩 pressure rod on the glass sheet laminate. Therefore, the pressing force per unit area acting on the pressed-out laminated body at the last portion can be made smaller than the force per unit area of the most "rod" on the glass sheet laminate. In the above configuration, It is preferable that the glass sheet laminate is provided with a baffle plate on the surface on the side on which the member is pressed by the member. The effect of the invention is as follows: the second of the press plate and the glass plate laminate is not in the (four) crotch portion. The contact pressure formed by the pressing rod is not reversed at both ends in the width direction. Therefore, it is difficult to cause stress concentration at both end portions of the glass plate i-plate, and it is possible to effectively reduce the two ends of the glass. On the one hand, in the glass plate laminate, in addition to the width direction, the center portion of the visibility direction is in contact with the pressing plate, and the direction and the pressing force are concentrated on the width displacement of the glass plate laminate to ^. When the thickness of the central portion of the glass sheet laminate in the width direction is further set to 1, the result of the collapse of the 15 200914337 cargo on the glass sheet laminate can be reliably suppressed. f Embodiments BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic perspective view of a glass sheet package according to a first embodiment of the present invention, and Fig. 2 is a plan view thereof. As shown in these drawings, the glass sheet package 1 is provided. The plurality of glass sheets are laminated in a vertical position on the pallet 2 and the glass sheet laminate G is held on the pallet 2. Γ: This pallet 2 includes a base portion 2a which supports the glass plate The lower side portion; the backrest = 2b' is provided on the rear side of the base portion 2a and supports the glass sheet as a face. And 'by making the lower side portions of the plurality of glass sheets "on, and making the last tail The glass (four) f is placed on the face and the plurality of glass plates are stacked on the pallet 2 in a vertical position. In addition: the sheet is on the :: laminate layer G on the front side of the glass plate with the "tree 1曰i interposed between the glass plates, and is provided with a plate of 3 ° made of, for example, plastic f - = The buffer material is placed on the sand that is in contact with the pallet 2 in the glass sheet laminate g, but is not shown. In the front of the glass sheet laminate G (the buffer plate 3), it is opened in the up and down direction in a shape spanning the width direction thereof.

St: "In this state, the both ends of the bribes 4 on both sides of the width direction of the glass sheet laminate G are exposed, and are fastened to the backrest portion 2b side. The configuration of the fastening member 5 is not particularly limited, but in the middle of FIG. 3, the main configuration includes that both sides of the rack 5^邛& extend along the lamination direction of the glass sheet; The gear 5b, r is i in the 16 200914337 f rod 2 = end. And 'by the pinion 5b without the strip 5a biting? ' can be fixed to the rack 5a by the _ 4. Also: two [and teeth In the state in which the engagement of the strip 5a is released, the press lever 4 is paired with the rack 5a: 1 t^5c (crank Sha^) 5e Γ., G by the spring mounted on the second shaft 5d

殳' and the edge of the towel® is applied in the left direction, and the towel J is engaged with the human rack 5a, so that the pinion % i is moved by the direction of the bullet (counterclockwise in the figure) Between the glass sheets and the laminates, as shown in Figures i and 2, there is a pressboard 6. The pressing plate 6 is in contact with the pressing bar 4 and the glass = ', and the contact area thereof is continuous in the width direction of the width and the end portions of the glass sheet laminated body g + the central portion is continuous, and the width direction of the rod 4 The central pressing plate 6 is in the state of being sounded toward the laminated body of the glass plate. Therefore, 'between the pressing bar 4 and the glass plate laminated body G: between two W in the width direction', a thickness is formed on the thickness of the pressing plate 6 and the thickness of the pressing plate 6 is formed. The pressing force does not act on the rupture plate; the both ends of the layer body in the width direction. On the other hand, the center portion in the width direction of the pressing plate 6 is along the width direction = the pressing force formed by the body rod 4 The needle phase is placed on the center portion of the glass sheet laminate G in the direction of the Moment. Therefore, the glass sheet laminate G can be held on the pallet 2 without causing the stress to gather at both end portions in the width direction of the glass sheet laminate G. Because ^^ 17 200914337 is effective enough to reduce the stress concentration in the Youwei handle and cause the glass plate to break. And: by two t == pressure: = continued to act on the glass core layer: :=== suppression. Therefore, it is possible to effectively _vibrate the material so that the thickness of the pressing plate 6 is greater than #5=== 40 mm, preferably greater than or equal to 1〇mm and less than; 4^ 2== width direction dimension is set at the minimum:: plate 2: end direction two 50mm hr two ends of the two directions are inward to the inner (four) plate (four) (four) width of 2/3 more佳 ^ 4 in the glass of her laminate body (four) width direction size: Ben = energy two, the pressing plate 6 can also be formed separately from the pressure bar 4, but in the stipulation of the shape is the integration with the pressure bar 4. The glass sheet package 5 according to the second embodiment of the present invention is a side view. As shown in these drawings, the second package 1 is different from the glass package of the first embodiment described above in that In the upper and lower 2_rod 4, the pressing force per unit area of the upper surface of the dry glass laminar body G acting on the upper surface of the dry glass laminating body G is also pressed downward (four), and the pressing force per unit area acting on the glass laminar layer G is also =. In the case where a plurality of glass sheets are stacked in a vertical position, the lower side of the glass sheet is in contact with the base portion 2a of the pallet 2, so that it is in the state of 200914337, whereas the upper side is relatively free. The upper part and the lower part of the moving body G are grounded. The thickness of the layer on the side of the laminated glass plate is lower than the lower part of the body. It is easy to become uneven. And when it is thinner than in the case of laminating, the glass plate 浐 (4) Γ 3 ^ The uneven state of the laminated state L _ money upper part and lower part are subject to the star force r Therefore, when the glass plate bundle 1 is subjected to the slamming during transportation, the glass plate does not move upward, and the damage: the moon 匕 ~ impact directly acts on the lower side of the glass plate to form a break. This problem is caused by the upper cypress pressure in the upper and lower pressure bars 4; the force per unit area of the pressure exerted on the slab laminate (4), and the lower pressure bar 4 acting on the glass plate laminate G The pressing force per unit area is also preferably small. In the case where the upper portion and the lower portion of the glass laminate (10) are pressed (four) and the problem of holding is maintained, the problem that the laminated state of the glass sheet laminate G becomes uneven can be prevented. Further, since the pressing state of the upper portion and the lower portion of the sheet laminate body (4) can be maintained to the same extent, even if the bale body 1 is subjected to an impact from the bottom up in the transportation, the glass sheet can be temporarily retracted upward without Will cause the glass plate to be easily damaged. More specifically, in this embodiment, as shown in FIGS. 4 and 5, the contact area of the pressing plate 6 of the glass sheet laminate G with the glass sheet laminate G is pressed by the upper pressing rod 4, and the lower contact area is used. The pressing plate 4 presses the contact area of the pressing plate 6 of the body G of the 2009 G. 19 and the glass plate layer g of the body G, and uses the force of the upper pressing bar 4 to press the m force. The effect of the age of the laminate layer on the glass laminate body 0 can be dispersed in a larger manner. As a result, the pressing force per unit area of the upper dry/glazed laminate G can be made to be (4) the pressing force per unit area of the pressing rod 4 acting on the glass sheet body G is small, and the above-described effects can be felt. . Early, you, as K 2 Qing, is also sold by the pair of small silk 5b along the molars ^? The force of the viscous sauce 5e in the direction of the force, the pressure of the lower pressure: G 1 is the pressure of the 捍4, and the pressing force of the maternal area of the glass sheet T 7 is set to the above difference 0. A perspective view of a glass plate body of a third embodiment of the invention. As shown in the figure, the glass plate trapped body 1 of the third embodiment is similar to the glass plate bundle j of the above-described second to second embodiments in that a single press is performed by the upper and lower press bars 4 The plate 6 is pressed. In particular, the pressing plate 6 is formed of a flat plate that is continuous without a gap, and the upper pressing rod 4 is disposed so as to cross the lower pressing bar 4. The squeezing plate 6 is smaller than the glass plate and is not in contact with the peripheral portion of the glass plate. In this way, the pressing force formed by the pressing rod 4 acts not only on the width direction of the glass sheet laminate G but also on the upper and lower sides orthogonal to the width direction. Therefore, the glass sheet is formed in a state in which deformation is more difficult, and it is advantageous in suppressing breakage or collapse of the cargo. 20 200914337 Further, from the viewpoint of weight reduction, the pressing plate 6 may be constituted by a grid plate as shown in Figs. 7(a) and 7(b). In this case, as shown in FIG. 7 (the center of the pressing plate 4 is disposed at the position where the pressing rod 4 is disposed, the grid frame 6a is disposed along the width direction, and the pressing of the pressing rod 4 can be performed. ^Continues in the width direction of the glass laminate G. Further, as described in the second embodiment, the upper presser 4 of the upper and lower pressrods is placed on the glass laminate. The pressing force per area of the upper surface to be acted upon is smaller than the (four) force per unit area in which the lower roof 4 acts on the glass sheet laminate 4, and is preferably as follows. As shown in Fig. 6 and Fig. 7 (a), the center position of the pressing plate 6 in the vertical direction is higher than the center position in the vertical direction between the upper and lower pressure bars 4, and the upper portion of the pressing plate 6 is provided. The size from the upper pressing rod 4 to the upper portion is preferably larger when the lower portion of the pressing plate 6 is exposed from the lower pressing rod 4 to the lower side. Thus, the upper pressing rod 4 is used in the glass sheet laminated body. The pressing force acting on g and the action of the lower pressing bar 4 on the glass sheet laminate g Compared with the pressure, it can be dispersed in a larger range and weakened. Therefore, 'the upper pressure bar 4 can be applied to the glass plate layer G per unit area, and the pressure 'below the lower pressure bar 4 on the glass plate. The pressing force per unit area of the laminated body G is also small. Fig. 8(a) and Fig. 8(b) are perspective views showing the glass plate package of the fourth embodiment of the present invention. As shown in the figure, the glass plate package i of the fourth embodiment differs from the glass plate package 1 of the above-described ith to third embodiments in that it is "by both sides 21 in the width direction of the pressing plate 6. The arm portion 7 extending on the outer side of 200914337 is attached to the rack 5a provided on the pallet 2, and is supported in a state where the pressing plate 6 is separated from the base portion (four) of the pallet 2. Further, in this implementation In the form, the guide member that supports the pressing plate 6 is supported by the roof. The arm 7 of the pressing plate 6 is also hung in the shape of the rack 5a, and is placed along the reading strip 5a. Long side direction

f = easily positioned at the top end of the SI portion 7 corresponding to the number of laminated sheets of the glass plate, the claw portion extending downward is provided, and the outer surface of the strip is wide; In the example, the pressure bar 4 below the lower pressure bar 4 of the gentleman is pressed to support the field 2=_board 6, but the pressing plate 6 can also be hung on the upper pressing bar. 4 carry out ## 1 / 6 for support. Further, the platen portion 7' may be supported by the platen portion 7'. 1^ & respectively, the arm is attached. In this case, it is preferable that the arm portion 7 is non-contact with both ends of the glass plate. This is because the visibility direction of the 9-body body is also prevented by the factory arm portion 7 in the width direction of the glass laminate body (4). Specifically, for example, the thickness of the arm portion 7 can be made such that the thickness of the arm portion 7 is different from that of the thicker member of the pressing plate 6 as shown in Fig. 9(1), and the laminated body from the glass plate is laminated. The front side* is separated from the glass laminate. . 7* is attached to the pressing plate 6 22 200914337 Further, as shown in Fig. 10 (a) and Fig. 10 (b), the pressing plate 6 may be made at the leg portion 8 of the JF end portion of the pressing plate 6 downwardly. The lower end portion is separated from the base portion 23 of the pallet 2. In this case as well, it is preferable that the leg portion 8 and the glass sheet laminate G are not in contact with each other. Specifically, for example, as shown in FIG. 11( a ), the thickness of the leg portion 8 may be made thinner than the thickness of the pressing plate 6 and separated from the glass sheet laminate G, or as shown in FIG. foot.卩8 text is mounted on the front side of the pressing plate 6 and is divided from the glass plate laminated body G.

Fig. 12 is a perspective view showing a glass plate package according to a fifth embodiment of the present invention. The glass plate package body 第 of the fifth embodiment differs from the glass plate package body 第 of the first to fourth embodiments described above in that the fastener 5 is constituted by a belt. Specifically, the pressure bar 4 which is disposed across the width direction of the glass sheet laminate G is provided with a belt 5 which is fixed to the backrest portion 2b at both ends, and an intermediate portion, and in this state, the belt 5 is used. On the other hand, the two sides of the presser bar 4 are fastened to the outside of the #back 2b side, and the ratchet type strap can be used as the skin. Further, as shown in the "I13", the skin Φ 5 may be placed between the both end portions of the pressing rod 4 and the backrest, and the both end portions of the pressing rod 4 may be fastened to the backrest portion L side. With. However, the pressure bar 4 can be fixed by the two sigma 2 of the pressure bar 4 on the back side of the sinus portion 2b and on the back side of the backrest portion 2, as shown in FIG. Both end portions pull the person toward the backrest portion 2b side. Fig. 15 is a perspective view showing a glass pole phase package 23 200914337 according to a sixth embodiment of the present invention. Fig. 16 is a plan view thereof. As shown in these examples, the glass plate body 1 of the sixth embodiment differs from the glass plate package 1 of the first to fifth embodiments described above in that the glass plate laminate is made of a W glass plate. The base portion 2a of the pallet 2 is laminated in a horizontal posture. In other words, the matters described in the first to fifth embodiments can be similarly applied to a case where a plurality of glass sheets are stacked in a lateral position and bundled. However, in this case, it is necessary to consider the vibration during transportation or the lateral deviation of the glass plate caused by the shaking. Therefore, when the glass-clad laminate G which is laminated in the horizontal posture is bundled, the reference wall 2c may be provided on the pallet 2 as shown in Figs. 15 and 16, and the reference wall may be The rear side of the glass plate which is laminated in the horizontal posture abuts. In this case, from the viewpoint of preventing the collapse of the cargo of the glass sheet laminate G, it is necessary to bring the side of the rear side of the glass sheet into contact with the reference wall 2c before and after the conveyance. Therefore, in the glass sheet package body of the embodiment, the rear pressing rod 4 of the two pressure bars 4 disposed at intervals in the front-to-back direction is used, and the unit area per unit area of the glass sheet laminate is applied. The pressing force is smaller than the pressing force per unit area acting on the glass sheet laminate G by the front pressing rod 4. Specifically, the contact area of the pressing plate 6 pressed by the rear pressing bar 4 against the glass plate laminated body g is pressed against the glass plate laminated body G by the front pressing bar 4 The contact area of the plate 6 with the glass sheet laminate G is also large. In this way, even when the glass plate is loaded, the package body is rushed 24 f

200914337, the glass sheets are also guided to the rear side with a small pressing force per unit. Therefore, the glass sheet can be conveyed while the rear side of the glass sheet is in contact with the reference wall 2. In addition, as shown in FIG. 17 and FIG. 18, when the single-pressing plate 6 is pressed by the two front and rear pressure bars 4, the position of the front-back direction of the remaining six can be changed by two. The center positions of the four front and rear directions are more rearward, so that the size of the pressing bar 4 behind the rear side of the pressing plate 6 is exposed, and the front portion of the pressing plate 6 is directed by the front pressing bar 4: The size is still large. Further, in the case where the pressing plate 6 is configured by a grid plate as in the example, the crucible 6a is placed at a position where the turn 4 is disposed, and the pressing force formed by the pressing force is equal to 1 degree of the glass plate laminated body. The direction acts continuously. 1 'The pressing force at the rear of the continent 4 on the _ plate layer G is 'distributed to a larger range than the pressing force for the front (10) rod 4 on the glass sheet laminate G. Therefore, the pressure per unit area of the pressing force of (4) on the glass plate layer #G can be increased by the pressure per front area of the W-shaped pressure bar 4 acting on the glass laminate (4). small. Moreover, as shown in Fig. 2, the force of the spring 5e for biasing the direction of the occlusal movement of the (4) strips outside the pinion gear can be made to be in front; the rod 4 is stronger than the rear rod 4, The difference between (4) per unit = ^ is made from (4) the front glazed laminate G. " Also, in order to understand whether this is a Danglang _ purpose, the following test 25 200914337 and its discussion. β is an embodiment of the present invention in which a glass plate is bundled in a vertical position. 50 pieces of the glass plate package 1 of the above-described form shown in Figs. 1 and 2 are: and are on a highway of about 300 km in a single journey. The round trip was performed at a speed of about 100 km/h, and the damage of the glass sheet after the conveyance and the thickness of the broken layer of the broken sheet before the conveyance were confirmed. Further, as the glass plate, a glass substrate for a liquid crystal display having a visibility dimension of 2,250 mm and a vertical dimension of 195 mm and a thickness is used. Then, 2 (8) pieces of the glass were laminated in the longitudinal direction, and each glass plate package 1 was produced. Further, as the mast 4, a stainless steel angle tube having a width of 2,538 faces in the width direction and a dimension of 80 mm in the up and down direction of 40 mm was used. Further, as the pressing plate 6, a stainless steel angle tube having a width of 1500 mm in the width direction, a size of 8 mm in the vertical direction, and a thickness of 2 mm was used, and the pressing plate 6 and the pressing rod 4 were joined and integrated. The σ junction, 10,000 pieces (50 pieces of Χ200 pieces) of the glass plate after the shipment has a number of pieces of zero, which gives extremely good results. Further, the laminated thickness of the glass plate = the maximum variation amount of the average drop was 6 mm, and the maximum drop was 2 mm before the feeding and 7 mm after the conveyance. The maximum drop in the fear of the person is the difference in the thickness of the laminate from the front to the back in the stacking direction of the glass sheet laminate G (the difference between the maximum thickness dimension and the minimum thickness dimension), usually, If the glass sheet is collapsed and the maximum thickness difference of the laminate thickness exceeds 15 mm, the glass sheet cannot be automatically taken out from the pallet 2 by the robot having the crucible. Therefore, the result of a maximum drop of 9 mm is a good result that is practically no problem. 26 200914337 As a second embodiment of the present invention, a glass plate package 1 of the shape shown in Figs. 4 and 5 is produced. On the lower lever 4, as the pressing plate 6, a non-recorded steel angle tube having a width of 1500 mm in the width direction and a thickness of 20 mm in the up-and-down direction is required. Further, in the upper pressing member 4, as the pressing plate 6, it is necessary to join a non-contractable steel angle tube having a size in the width direction and a size of 160 mm in the downward direction and a thickness of 20 mm. In addition, other conditions are the same as those of the above-described first embodiment. 〇 , , '°果' 10000 pieces (50 pieces x 2 pieces) The number of pieces of the glass plate after transportation was zero, and extremely good results were obtained. Further, the thickness variation of the glass plate was 4 mm on average, and the maximum A drop was 7 mm (the drop before transport was 2 mm + the change in drop after transport was 7 mm). Therefore, the maximum drop is an allowable range of 15 mm or less, which is a more favorable result than that of the second embodiment. As a third embodiment of the present invention, 50 sheets of the glass sheet package body i of the above-described form shown in Fig. 8(a) are produced. The pressing plate 6 has an average variation of the difference of the section 40 mm x 27 200914337 to 2 mm, and the maximum drop is 5 mm, and the variation of the drop after the movement of the 2nd position + 3 mm). In the case of Example 2, which is more than the allowable range of i5 mm, in the fourth embodiment of the present invention, 50 sheets of the glass plate package 1 of the above-described Fig. 10 (a) are produced. As the pressing plate 6, the same panel as that of the above-described Example 3 was used, and the leg portion 8 was attached instead of the arm portion 7. In addition, other conditions are the same as those in the first embodiment. Mouth... Fruit, 10,000 pieces (50 pieces of X200 pieces) of the glass plate have zero damage months after shipment, and have extremely good results. On the other hand, the maximum variation of the thickness of the laminated glass layer after the conveyance was 2 mm on average, and the maximum drop was 6 mm (the difference before the conveyance was 2 mm + the variation after the conveyance was 4 mm). Therefore, the maximum drop becomes an allowable range of 15 mm or less, which is a more favorable result than that of the second embodiment. As a comparative example 1' of the first to fourth embodiments, 50 sheets of the glass sheet body 50 in which the pressing sheet 6 of the first embodiment was removed and the glass sheet laminated body g was directly pressed by the pressing rod 4 were produced. Further, other conditions were the same as in the first embodiment. As a result, the number of damaged sheets of 10,000 sheets (50 sheets of χ200 sheets) after transportation was four. Specifically, there are two glass sheets which are broken by the lower edge portion of the glass sheet as a starting point, and two glass sheets which are broken at the rain end portion in the width direction of the glass sheet. On the other hand, the maximum drop variation of the thickness of the laminated glass layer after the conveyance is 17 mm on average, and the maximum drop is 2 mm (the difference before the conveyance is 2 mm + the variation of the drop after the conveyance is 18 mm). Therefore, the maximum drop is more than 15 mm. Allowable range results ° 28 f

200914337 Bundle: The glass plate of the form shown in Fig. 18 is produced in a horizontal position == 丄, and 200 pieces of the same glass embodiment as the above are applied. As the board 6, the same pressing plate as that of the second board is used, and the rear portion of the rear portion is exposed from the rear pressing bar 4 = wall Mi. In addition, the number of pieces of the damaged piece (5G piece X2QG piece) after the conveyance was zero, and extremely excellent results were obtained. Further, the maximum thickness of the glass laminate after the conveyance is 2_, and the maximum drop is mm (the drop of the transport is 2 mm + the amount of change after the transport is 2). Therefore, a good result is formed in which the maximum drop is less than or equal to 15 m_allowable range. As a comparative example 2 of the fifth embodiment, the pressing plate 6 of the fifth embodiment was removed, and the pressing plate 4 of the glass plate laminated body G was directly pressed by the pressing bar 4. In addition, other conditions are the same as those in the fifth embodiment. As a result, the number of damaged sheets of 10,000 sheets (50 pieces x 2 pieces) after being conveyed was two. Specifically, the two damaged glass sheets were broken at the same time as the starting point of the glass sheet. On the other hand, the maximum drop variation of the thickness of the glass sheet after the conveyance was 13 mm on average, and the maximum drop was 16 mm (the drop before shipment was 2 mm + the variation after the conveyance was 14 mm). Regarding the lateral deviation of the glass sheet, the entire glass sheet after the conveyance moved to a direction of about 20 mm from the reference wall 2c. Therefore, the maximum drop exceeds the allowable range of 15 mm, which is the result of lateral displacement of the glass sheet or damage of 200914337. 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 plan view showing the glass plate package body shown in Fig. 1. Fig. 3 is a cross-sectional view of the fastening member shown in Fig. 1. Fig. 4 is a perspective view showing a glass sheet package according to a second embodiment of the present invention. Fig. 5 is a side view of the glass plate package shown in Fig. 4; Fig. 6 is a perspective view showing a glass sheet package according to a third embodiment of the present invention. Fig. 7 (a) is a perspective view showing a modification of the glass sheet package according to the third embodiment of the present invention. Fig. 7 (b) is a perspective view showing the exploded arrangement of the glass plate package shown in Fig. 7 (a). Fig. 8 (a) is a perspective view showing a glass plate package according to a fourth embodiment of the present invention. Fig. 8 (b) is a perspective view showing the exploded arrangement of the glass plate package shown in Fig. 8 (a). Fig. 9 (a) is an enlarged view showing a connecting portion between the pressing plate and the arm portion in Fig. 8 (a). Fig. 9 (b) is an enlarged view showing a modification of the connecting portion between the pressing plate and the arm portion in Fig. 9 (a). Fig. 10 (a) is a perspective view showing a modification of the glass sheet package 30 200914337 of the fourth embodiment. Fig. 10 (b) is a perspective view showing the arrangement of members of the glass sheet package shown in Fig. 10 (a). Fig. 11 (a) is an enlarged view showing a connecting portion between the pressing plate and the leg portion in Figs. 10(a) and 10(b). Fig. 11 (b) is an enlarged view showing a modification of the connecting portion between the pressing plate and the leg portion in Fig. 11 (a). Fig. 12 is a perspective view showing a glass sheet package according to a fifth embodiment of the present invention. Fig. 13 is a perspective view showing a modified example of the glass sheet package of the fifth embodiment. Fig. 14 is a perspective view showing a modification of the glass sheet package according to the fifth embodiment of the present invention. Fig. 15 is a perspective view showing a glass sheet package according to a sixth embodiment of the present invention. Figure 16 is a plan view of the glass sheet package shown in Figure 15; Fig. 17 is a perspective view showing a modified example of the glass plate package of the sixth embodiment. Fig. 18 is a plan view showing the glass plate package body shown in Fig. 17; [Description of main component symbols] 1. Glass plate pumping body 2: Pallet 2a: Base portion 2b: Backrest portion 31 200914337 2c: Reference wall 3: Buffer plate 4: Pressure bar 5: Fastening member 5a: Rack 5b • Pinion 5c: 1st bending axis 5d: 2nd bending axis 5e: Spring 6 · Pressing plate 6a: Grid frame 7: Arm part 7a: Claw part 8: Foot part G: Glass plate laminated body

Claims (1)

200914337 X. The scope of application for patents: The smear of the slabs of the slabs of the slabs of the slabs of the slabs of the slabs of the above-mentioned _ The outer side of the both sides in the width direction, and the side of the goods side is pulled in, and the anti-stacking body is pressed against the pallet and the glass plate package body of the temple is protected, and (5) the C pole is described. And the glass laminate 3 = Γί intervenes, and the pressing plate is in contact with the θ. The θ body is in the center of the width direction other than the both ends in the visibility direction, and the π patent range The glass plate package according to Item 1, wherein the glazing layer is formed by laminating a plurality of glass sheets in a vertical posture to form a f-disk having a base portion and a portion, and the base portion is opposite to the glass plate. Under the π, line support, the back of the back of the glass plate supports the back. The glass sheet package according to the second aspect of the invention, wherein the portion of the pressing sheet that is in contact with the pressing rod is continuously formed along the width direction of the glass sheet laminate. The glass plate bundle a according to the second aspect of the invention, wherein the pressing plate has a dimension in a direction orthogonal to the width direction of the glass sheet laminate larger than the pressure bar. The glass plate package according to the second aspect of the invention, wherein the lower end portion of the pressing plate is separated from the base portion of the pallet. 6. The glass sheet package according to claim 5, wherein 33 200914337 is provided on both sides in the width direction of the pressing plate to extend to the outside of both sides in the width direction of the glass sheet laminate. The arm portion is provided on both sides in the width direction of the backrest portion of the pallet, and a guide member that extends along the stacking direction of the glass sheet laminate and slidably supports the arm portion, and the arm is used to guide the arm The support is supported such that the lower end portion of the pressing plate is separated from the base portion of the pallet. 7. The glass body according to claim 2, 5 or 6 wherein the cup is drawn along the upper and lower directions of the glass sheet laminate, and the uppermost pressing rod is in the foregoing The pressing force per unit area of the glass laminate is smaller than the pressing force per unit area acting on the lowermost 峨 = glass laminate. The above-mentioned circumference is the first = the glass plate is wrapped, and the pressure is The η brake is separated from the upper finger pressing plate and the lower pressing plate, and the upper pressing pin is pressed to take the upper pressing bar to press the glass plate laminated body, body = 疋 = the lowermost rotating rod to press the aforementioned glass plate Surface _, 卓...^ The upper plate is in contact with the glass plate laminate, and the lower portion of the laminate is in contact with the panel laminate, and the glass plate package described in the above item 7 is disposed therebetween. The most = 1 of the lowermost pole is exposed to the lowermost dust bar than the lower part. The invention relates to a glass slab package according to the first aspect of the invention, wherein the glass sheet laminate body is formed by laminating a plurality of glass sheets in a lateral position to form a 'the tray has a lower surface supporting the glass sheet. Base part. 11. The glass sheet package according to the above aspect of the invention, wherein the portion of the pressing plate that is in contact with the pressing rod is continuously formed along a width direction of the glass sheet laminate. 12. The glass sheet package according to the above aspect, wherein the pressing plate has a dimension in a direction orthogonal to a width direction of the glass sheet laminate, which is larger than the pressing rod. The glass plate package according to claim 10, wherein a reference wall abutting on a side of the rear side of the glass plate is disposed on the four trays, and the laminated body along the glass plate is laminated. a plurality of Sit ink cups are arranged in the front-rear direction, and a pressing force per unit area acting on the glass sheet laminate body at the rear portion is applied to the glass sheet laminate body at the front portion. The pressing force per unit area is still small. 14. The glass sheet package according to claim 13 wherein, wherein the pressure plate is at least separated into a front pressing plate and a rear pressing plate, the front pressing plate is formed by using the frontmost pressing bar. Pressing the glass sheet laminate, the rear pressing plate presses the glass sheet laminate by the last pressing rod, and the contact area of the rear pressing plate with the glass sheet laminate is higher than the front pressing plate The contact area with the aforementioned glass plate laminate is also large. [2] The glass plate package according to claim 13, wherein the pressing plate is a single member that is disposed between the pressing portion of the frontmost portion and the pressure of the last portion. And the dimension of the rear part of the rear part exposed to the rear of the 35 200914337 pressure bar, 鲂1 π i Bi / / month j square. (The size of the 5 is exposed to the front of the pressure bar of the other part.) 16. The bundle of glass plates as described in item i, item 2, item 3, item 5 or item 6 of the patent application scope. a package body in which a buffer plate is disposed on a surface of a side of the glass sheet laminate pressed by the pressing member. 17. The scope of claim 10, item 11, item 13, item 14, or item 15 The glass sheet package according to the above aspect, wherein the glass sheet laminate is provided with a buffer plate on a surface of the side pressed by the pressing member.