JP2008062938A - Glass sheet packaging structure - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a glass sheet packaging structure capable of restricting an increase in number of working steps before transportation or an increase in weight, reducing a packaging cost by a simple configuration, saving resources and at the same time fixing laminated glass sheets rigidly and positively. <P>SOLUTION: This is a glass sheet packaging structure, wherein a plurality of rectangular glass sheets are packaged with the sheets inclined against a frame. This structure comprises a bottom wall member 13 for receiving the lower edges of laminated glass sheets 2, a back receiving member 9 for receiving one surface of an inmost glass sheet, and strips of bags 4 having air inlets 6 in which both longitudinal ends of the bags 4 are provided with connector members 5 that can removably connect both ends to both sides of the back receiving member 9. Feeding of air through the air inlets 6 causes a tension force to be applied to the bags 4 including connector members 5 and further fasten and fix the laminated glass sheets 2 to the back receiving member 9. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a glass plate packing structure in which a glass plate such as a liquid crystal glass plate is stood and stacked in a stacked state.

  When transporting a liquid crystal glass plate or the like, the glass plate may be broken or broken due to an impact during transport. For this reason, it is necessary to be able to relieve the impact from the outside when packing liquid crystal glass plates or the like during transportation.

  There is a method using a rack type as a method for packing a polymerized liquid crystal glass plate (Patent Document 1). The rack-type physical distribution tool described in Patent Document 1 is an L-shaped rack body in side view having a gantry that supports the lower end of a superposed body and a back support member that is provided upright at the rear end of the gantry. And a pair of left and right protection bars extending forward from the center of both side ends of the back support member.

And in order to fix a superposition | polymerization body to this rack type distribution tool, first, a superposition body is made to stand on a rack main body by making it support on a mount frame and latching to a back support member. Further, the polymerized body is sandwiched from the side by a pair of protective bars. Then, the front surface protection member which consists of a some support | pillar member is arrange | positioned in the front side of a superposition | polymerization body. In other words, the superposed body is held between the front protective member and the back support member. At this time, the front surface of the superposed body is pressed by a glass plate pressing member provided on the front protective member.
JP 2000-272684 A

  In the method of storing a polymerized body in a rack-type logistics tool as described in Patent Document 1, the polymerized body is fixed to the rack-type logistics tool. For this reason, the liquid crystal glass plate or the like is not displaced during transportation or the like, and the impact on the superposed body itself is alleviated, so that damage due to external impact or the like can be prevented. However, in the fixed state, a load is locally applied to the polymerized body by the glass plate pressing member. As a result, when an impact is given during the transfer, the glass plates (particularly the frontmost glass plates) of the polymer are cracked, cracked, and chipped due to the concentrated load on the glass plate pressing member contact portion of the polymer. Such damage will occur. Moreover, a front surface protection member is arrange | positioned at the front side of a superposition body by making it latch on the upper crosspiece provided in the upper end of the back support member. Moreover, since the locking is to lock the support member of the front protective member in the locking hole provided in the upper beam, depending on the thickness of the superposed body, there is a possibility that it cannot be adhered, and various thicknesses It is not compatible with the polymerized product.

  Conventionally, there are some that use a packing box. That is, a glass plate is placed on a pedestal and the pedestal is accommodated in a packing box. Also in this case, the glass plate is fastened to the pedestal with a band member. Therefore, even when a packing box is used, if an impact is applied during transportation, the band member loosens and the glass plate rattles.Further, the concentrated load on the glass plate by the band member causes cracks, cracks, and chipping. Damage may occur. In addition, when the packaging box is used, after the glass plate is fastened to the pedestal with the band member, it is necessary to accommodate the pedestal in the packaging box, so that there are many work steps and the workability is poor. Similarly, the unpacking work has many work processes.

  Furthermore, when the rack-type logistics tool and the packaging box as described above are used, there is a disadvantage that the overall weight and facilities are increased, and the packaging cost is increased. Since resources are consumed, it is not preferable from the viewpoint of resource problems and environmental problems.

  In view of the above-mentioned problems, the present invention suppresses an increase in work man-hours and weight before transportation, reduces packing costs and saves resources with a simple configuration, and firmly and securely fixes a laminated glass plate. Provided is a glass plate packing structure that can be used.

  The glass plate packing structure of the present invention is a glass plate packing structure in which a plurality of rectangular glass plates are stacked and stacked in a stacked state, and a bottom wall member that receives the lower edge of the laminated glass plate, and the innermost glass plate A back receiving member that receives one side of the bag and a belt-like bag body having an air inlet, and connecting both ends of the bag body in the longitudinal direction to each other so that the both ends can be detachably connected to both sides of the back receiving member A bag body including the connecting member by air injection from the air inlet, and the laminated glass plate is fastened and fixed to the back support member by the tension. It is a thing.

  According to the glass plate packing structure of the present invention, air is injected from the air inlet provided in the bag body, and the bag body is inflated, whereby tension is applied to the connecting member, and tightening by this tension is performed. The laminated glass plate can be fixed.

  The back support member may be inclined obliquely rearward to support the laminated glass plate in an inclined state, or the bottom wall member may be fixed to the back support member at a right angle. Thereby, a laminated glass plate will be received by a back support member with dead weight, and a laminated glass plate can be loaded easily.

  The said bag body can be arrange | positioned in multiple steps in the height direction of the said laminated glass plate. Thereby, the contact area of a bag and a laminated glass plate becomes larger.

  The said bag body can surround the single side | surface of the near side glass plate among laminated glass plates, and the both-sides edge of a laminated glass plate. Thereby, the whole surface of a laminated glass plate can be covered from the outside with a bag and a back support member.

  A buffer plate can be disposed between the lower edge of the laminated glass plate and the bottom wall member, and between the innermost glass plate and the back member. Thereby, this buffer plate becomes a buffer material between the lower edge of the laminated glass plate and the bottom wall member that the bag body does not contact, and between the innermost glass plate and the back support member. It is possible to prevent the laminated glass plate and the bottom wall member from coming into direct contact with each other even in a region that does not correspond. The buffer plate can be formed of a buffer material made of a resin foam material or the like.

  A buffer plate can also be arranged between both side edges of the laminated glass plate and the bag body.

  The width of the buffer plate can correspond to the laminated thickness of the laminated glass plates.

  In the glass plate packaging structure of the present invention, tension is applied to the connecting members disposed at both ends in the longitudinal direction of the bag body, and the laminated glass plate can be fixed by tightening by this tension. A rack-type logistics tool, a box, or the like for storing the container can be omitted. As a result, it is possible to suppress an increase in man-hours and weight before transportation and to reduce packing costs and resources with a simple configuration. In addition, since the bag body inflated by air is in contact with the laminated glass plate, the concentrated load on the laminated glass plate can be alleviated, and damage such as cracks, cracks and chips due to the concentrated load can be prevented. The laminated glass plate can be fixed firmly and securely. Furthermore, the laminated glass plate can be protected from impact during transportation by having the air cushion function by inflating the bag with air.

  Since the laminated glass plate is received by the back support member by its own weight, the laminated glass plate can be easily loaded and workability can be improved. In particular, when the laminated glass plate is supported in an inclined state by tilting the back support member obliquely rearward, the laminated glass plate can be prevented from falling to the front side, and workability can be further improved. Can do.

  Since the bag body can be arranged in multiple stages in the height direction of the laminated glass plate, the contact area between the bag body and the laminated glass plate is further increased, making the laminated glass plate stronger and more reliable. Can be fixed. In addition, since a plurality of bag bodies are provided, even if any of the bag bodies is damaged, the laminated glass plate can be fixed by tightening the other bag bodies and the connecting member. Can be fixed.

  Since one side of the frontmost glass plate and both side edges of the laminated glass plate among the laminated glass plates can be surrounded, the entire surface of the laminated glass plate can be covered from the outside by the bag body and the back support member. Thereby, a laminated glass plate can be protected also from the impact from the outside in the middle of conveyance.

  Even between the lower edge of the laminated glass plate and the bottom wall member, and between the innermost glass plate and the back member, the buffer plate serves as a cushioning material, and the laminated glass is also used in the portion where the bag body does not correspond. It can prevent that a board and a bottom wall member contact directly. As a result, even if an impact or the like occurs during transportation, the laminated glass plate reduces the impact from all directions and prevents damage such as cracks, cracks and chips due to contact with the bottom wall member and the back member. Can be protected.

  By the way, when air is inject | poured and inflated to a bag body, the outer surface of the formed air cushion part turns into a convex curve. For this reason, when it expand | swells so that two or more air cushion parts may be formed, a clearance gap is formed between each air cushion part and a laminated glass plate. If the side portion of the laminated glass plate corresponds to this gap, this gap becomes a gap that allows sliding of the glass plate in a direction orthogonal to the stacking direction of the laminated glass plates, and each glass plate is displaced. Or pass. Then, if a buffer plate is arrange | positioned between the both-sides edge of a laminated glass plate, and the said bag body, a laminated glass plate can be enclosed with a buffer plate and a bag body, without producing a clearance gap. Thereby, the glass plate of a laminated glass plate does not slip | deviate and a glass plate does not slip even with respect to the impact in the middle of conveyance.

  In addition, when a repulsive force is generated by tightening the bag body, the laminated glass plate can bite into the buffer plate to effectively exert a buffering function, and prevent the corners of the laminated glass plate from cracking or chipping. be able to.

  When the buffer plate is larger than the laminated glass plate, when surrounded by the bag, the outer portion of the buffer plate protrudes from the outer shape of the laminated glass plate, and the protruding portion may hinder tightening by the bag. Further, if the buffer plate is smaller than the laminated glass plate, the laminated glass plate is exposed from the buffer plate, and the laminated glass plate cannot be sufficiently protected. Therefore, the laminated glass plate is protected by matching the areas of the lower edge and both side edges of the buffer plate and the laminated glass plate and making the width of the buffer plate correspond to the laminated thickness of the laminated glass plates. At the same time, the laminated glass plate can be reliably fixed to the package.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS.

  As shown in FIG. 1, the glass plate packaging structure of the first embodiment of the present invention is a laminated glass plate (polymerized body such as a liquid crystal glass plate) accommodated in a packaging body 3 by a fixture 1 having an air cushion function. ) 2 is fixed. As shown in FIG. 3, the fixtures 1 are a plurality of bag bodies 4 that are in contact with the laminated glass plate 2, and a pair of the fasteners 1 at the longitudinal ends of each bag body 4. The connecting member 5 is connected to both sides of the back support member 9 of the package 3.

  As shown in FIGS. 1 and 2, the package 3 includes a rectangular bottom wall member 13 and a back member 9 that receives the innermost glass plate of the laminated glass plate 2. That is, the packing body 3 includes front and rear left and right frames 25a and 25b that connect the support columns 15a, 15b, 15c, and 15d disposed at the corners of the bottom wall member 13 and the upper ends of the support columns 15a, 15b, 15c, and 15d, 25c, 25d, horizontal rails 27a, 27b connected to the upper and lower sides of the columns 15a, 15b, and left and right frames 26c connecting the lower ends of the columns 15a, 15c and the columns 15b, 15d (above the bottom wall member 13), 26d, and the back support member 9 made of a lattice body disposed between the upper and lower horizontal rails 27a and 27b.

  As shown in FIG. 4A, engaging grooves 10 into which the connecting members 5 are fitted are provided at predetermined pitches along the vertical direction on the left and right support columns 28a and 28b of the lattice member of the back support member 9. Yes. That is, each engagement groove 10 is a so-called dovetail groove that is open to the column-facing side and has a wide portion 24 on the back side.

  The connecting member 5 includes a metal engaging tool 18 that engages with the engaging groove 10 and a flat flexible member 19 that connects the metal engaging tool 18 to the bag body 4. The metal engaging tool 18 is formed with a hook portion (folded portion) 29 formed by folding the tip end portion of the metal plate. As shown in FIG. Insert into the part 24 and lock. In this case, the width of the hook portion 29 of the metal engagement tool 18 is smaller than the wide portion 24 of the engagement groove 10 and larger than the narrow portion 23. Thereby, the narrow portion 23 on the opening side of the engagement groove 10 prevents the metal engagement tool 18 from coming off.

  As shown in FIG. 3, each bag body 4 includes an outer sheet 20 and an inner sheet 21, and an air cushion portion 8 into which air is injected is formed between the outer sheet 20 and the inner sheet 21. In other words, the outer sheet 20 and the inner sheet 21 are joined at their outer peripheral edges, and the narrowed portion 7 extending in the width direction is formed in which the outer sheet 20 and the inner sheet 21 are joined linearly at a desired location. .

  In addition, an air inlet 6 that allows air to be injected is provided at a substantially central portion of the bag body 4, and air is injected from the air inlet 6 to a portion excluding the outer peripheral edge and the throttle portion 7. And the air injection | pouring site | part expand | swells and the air cushion part 8 is formed. Note that a check valve (not shown) is attached to the air injection port 6 to allow air injection, but it is possible to regulate the escape of air. A plurality of apertures 7 are arranged at a predetermined pitch along the longitudinal direction.

  In addition, each bag body 4 has a length that can surround the frontmost glass plate and both side edges of the laminated glass plate 2 in contact with the laminated glass plate 2, and the laminated glass plate This length and width are determined in accordance with the size of 2 and the package 3 or the like. Moreover, in FIG. 1, although the three bag bodies 4 are integrally joined, you may isolate | separate and it is not restricted to three sheets.

  Next, a method for packing the glass plate packing structure will be described. In this case, the laminated glass plate 2 is a superposed body obtained by superposing a plurality of liquid crystal glass plates, for example. First, the laminated glass plate 2 is placed on the bottom wall member 13 of the packaging body 3 and pressed so that the innermost glass plate of the laminated glass plate 2 contacts the back member 9 of the packaging body 3. . In this embodiment, a plate-like member 11 (for example, made of plywood) is interposed between the back support member 9 and the innermost glass plate of the laminated glass plate 2.

  In this case, as shown in FIG. 6, the back support member 9 is inclined obliquely rearward to support the laminated glass plate 2 in an inclined state. Note that the package 3 may be stored in another outer frame (outer box) 30.

  Then, in a state where the bag body 4 is in contact with the frontmost glass plate and both side edges of the laminated glass plate 2, the bag body 4 and both sides of the back support member 9 are connected by the connecting member 5. That is, the hook portion 29 of the connecting member 5 is fitted into the engaging grooves 10 provided in the left and right support columns 28a and 28b of the lattice member of the back support member 9, and the bag 4 is closest to the laminated glass plate 2. Enclose the side glass plate and both side edges.

  At this time, it is possible to provide a buffer plate 12 interposed between the lower edge of the laminated glass plate 2 that is not in contact with the bag body 4 and the bottom wall member 13. Further, the buffer plate 12 can be provided between the bag body 4 and both side edges of the laminated glass plate 2, or the buffer plate 12 can be provided between the innermost glass plate and the back support member 9. In addition, as the buffer plate 12, it can be comprised by the buffer material which consists of resin foam materials etc., for example. The buffer plate 12 may be formed of a bag body into which air is injected, such as the bag body 4.

  Thereafter, the bag body 4 is inflated by injecting air into the bag body 4 from the air inlet 6 provided in the bag body 4. Thereby, as shown in FIG. 5, the air cushion part 8 is formed in a bag. And by this expansion | swelling, tension | tensile_strength is provided to the connection member 5 of the bag body 4, and the laminated glass plate 2 can be fixed by the clamp | tightening by this tension | tensile_strength.

  Thus, in the glass plate packaging structure of the present invention, tension is applied to the connecting members 5 disposed at both ends in the longitudinal direction of the bag body 4, and the laminated glass plate 2 is fixed by tightening with this tension. Therefore, a rack-type physical distribution tool or a box for storing the laminated glass plate 2 can be omitted. As a result, it is possible to suppress an increase in man-hours and weight before transportation and to reduce packing costs and resources with a simple configuration. Moreover, since the bag body 4 inflated by air is in contact with the laminated glass plate 2, the concentrated load on the laminated glass plate 2 can be alleviated, and damage such as cracks, cracks and chips due to the concentrated load can be prevented. In addition, the laminated glass plate 2 can be firmly and securely fixed. Further, the laminated glass plate 2 can be protected from impact during transportation by having the air cushion function by inflating the bag body 4 with air.

  As a glass plate packaging structure, the packaging body 3 includes a bottom wall member 13 and a rising wall (standing wall constituted only by a back member) rising from the bottom wall member 13. May be stored in another outer frame (outer box) 30. In this case, the laminated glass plate 2 can be supported in an inclined state by inclining the back support member 9 obliquely rearward. Thereby, the laminated glass plate 2 comes into contact with the back support member 9 of the package 3 by its own weight without generating a gap, and the laminated glass plate 2 can be easily loaded, thereby improving workability. be able to. In particular, when the back support member 9 is inclined obliquely backward and the laminated glass plate 2 is supported in an inclined state, the laminated glass plate 2 can be prevented from falling to the front side, further improving workability. Can be planned.

  Since the bag body 4 can be arrange | positioned in multiple steps in the height direction of the laminated glass plate 2, the contact area of the bag body 4 and the laminated glass plate 2 becomes still larger, and the laminated glass plate 2 becomes stronger. And it can fix reliably. In addition, since a plurality of bag bodies 4 are provided, even if any of the bag bodies 4 is damaged, the laminated glass plate 2 can be fixed by tightening the other bag bodies 4 and the connecting members 5. A stable fixation over a long period of time is possible.

  The bag body 4 can surround one side of the front glass plate of the laminated glass plate 2 and both side edges of the laminated glass plate 2. Thereby, since the whole surface of the laminated glass plate 2 can be covered from the outside with the bag body 4 and the back support member 9, the laminated glass plate 2 can be firmly fixed against an impact in the middle of conveyance.

  A buffer plate 12 can be provided between the lower edge of the laminated glass plate 2 and the bottom wall member 13 and between the innermost glass plate and the back member 9. Thereby, the said buffer plate 12 becomes a buffer material, and it can prevent that the laminated glass plate 2 and the package 3 contact directly also in the site | part which the bag body 4 does not respond | correspond. That is, even if an impact or the like occurs during transportation, damage such as cracks, cracks, and chips due to contact with the package 3 can be prevented, and the laminated glass plate 2 can be protected.

  By the way, when the bag body 4 is inflated by injecting air, the outer surface of the formed air cushion portion 8 becomes a convex curved surface. For this reason, when it expand | swells so that two or more air cushion parts 8 may be formed, a clearance gap is formed between the air cushion parts between the laminated glass plates 2. FIG. And if the side part of the laminated glass plate 2 corresponds to this gap, this gap becomes a gap that allows sliding of the glass plate in the direction orthogonal to the stacking direction of the laminated glass plate 2, and each glass plate Slips or slips. Therefore, when the buffer plate 12 is disposed between both side edges of the laminated glass plate 2 and the bag body 4, the laminated glass plate 2 is surrounded by the buffer plate 12 and the bag body 4 without generating a gap. Thereby, the glass plate 2 does not slip | deviate or a glass plate slips also with respect to the impact in the middle of conveyance.

  Further, the repulsive force is generated by the tightening of the bag body 4, so that the laminated glass plate 2 can bite into the buffer plate 12 to effectively exert the buffer function, and the corners of the laminated glass plate 2 are cracked or chipped. Etc. can be prevented.

  When the buffer plate 12 is larger than the laminated glass plate 2, when surrounded by the bag body 4, the outer shape portion of the buffer plate 12 protrudes from the outer shape of the laminated glass plate 2, and the protruding portion is tightened by the bag body 4. May interfere. If the buffer plate 12 is smaller than the laminated glass plate 2, the laminated glass plate 2 is exposed from the buffer plate 12, and the laminated glass plate 2 cannot be sufficiently protected. Then, the area of the buffer plate 12 and the lower edge and both side edges of the laminated glass plate 2 are made to coincide, and the width of the buffer plate 12 is made to correspond to the laminated thickness of the laminated glass plates. And the laminated glass plate 2 can be securely fixed to the package 3.

  As described above, the embodiment of the present invention has been described. However, the present invention is not limited to the above-described embodiment, and various modifications are possible. For example, the material of the bag body 4 is expanded by injecting air. If so, various materials such as fabric, polyethylene, nylon, and polyester can be used. It is desirable that the length of the connecting member 5 can be adjusted. Furthermore, the position and number of the air inlet 6, the connecting member 5, and the throttle portion 7 can be variously changed. As the diaphragm portion 7, a plurality of locations where the length in the width direction of the diaphragm portion 7 becomes large may be provided. In this case, as shown in FIG. 5, the narrowed portion 7 is made to correspond to the corner portion of the laminated glass plate 2 (for example, the corner portion between the front surface and the side surface). Thereby, the aperture | diaphragm | squeeze part 7 can be closely_contact | adhered corresponding to the corner part of the laminated glass plate 2, and the laminated glass plate 2 can be fixed more stably. Further, the amount of air injected can be reduced, and the working time can be shortened. As the laminated glass plate 2, the number and thickness of glass plates and the like can be variously changed.

  In the said embodiment, although the package 3 received only the back surface of the laminated glass plate 2, it may have a side-plate part which receives a side surface. The back support member 9 of the package 3 is not limited to a lattice-shaped member, and may be a plate-shaped member. As the shape of the engaging groove 10, various shapes can be used as long as the hook portion 29 of the connecting member 5 is locked.

  Various things can be adopted as the size, thickness, shape and material of the buffer plate 12. The buffer plate 12 can be omitted. In this case, only one of the bottom surface, back surface, and both side surfaces of the laminated glass plate 2 may be omitted, or two or three locations may be omitted. Further, the buffer plate 12 may be disposed in place of the plate-like member 11 of the back support member 9.

  The contact portion of the bag body 4 with the laminated glass plate 2 may be the front surface and the right side surface of the laminated glass plate 2, or the front surface and the left side surface of the laminated glass plate 2. Any one of the right side surface and the left side surface may be used.

  In the above-described embodiment, each air cushion portion 8 communicates, but may be an independent one that does not communicate. In this case, it is necessary to provide a plurality of independent air chambers (air cushion portions 8), and to provide the air inlet 6 for each air chamber. Thus, if the air cushion part 8 is made independent, in use, only the desired air cushion part 8 can be inflated according to the laminated glass plate 2.

It is a perspective view of the glass plate packing structure of this invention. FIG. 2 is a perspective view of the back surface of FIG. 1. It is a simplified front view of the fixture of the present invention. The connection member of the said fixture is shown, (a) is an enlarged view of a connection member and an engagement groove | channel, (b) is explanatory drawing which shows a connection method. It is a principal part expansion simplified top view using the said fixing tool. It is a perspective view of the back surface in the state where the back support member of the present invention was inclined diagonally backward.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Fixture 2 Laminated glass plate 3 Packing body 4 Bag body 5 Connection member 6 Air injection port 7 Restriction part 8 Air cushion part 9 Back support member 10 Engagement board 11 Plywood 12 Buffer board 13 Bottom wall member 15a, 15b, 15c, 15d Post 18 Metal engagement tool 19 Flat flexible member 20 Outer sheet 21 Inner sheet 23 Narrow part 24 Wide parts 25a, 25b, 25c, 25d Frames 26c, 26d Horizontal rails 27a, 27b Horizontal rails 28a, 28b Post 29 Hook 30 outer frame

Claims (8)

In the glass plate packing structure in which a plurality of rectangular glass plates are stood and stacked in a stacked state,
A bottom wall member that receives the lower edge of the laminated glass plate;
A back support member for receiving one side of the innermost glass plate;
A belt-shaped bag body having an air inlet, the bag body having both ends in the longitudinal direction of the bag body and connecting members that can be removably connected to both sides of the back member. And
A glass plate packaging structure characterized in that tension is applied to the bag body including the connecting member by air injection from the air inlet, and the laminated glass plate is fastened and fixed to the back support member by this tension. .   The glass plate packaging structure according to claim 1, wherein the back support member is inclined obliquely rearward to support the laminated glass plate in an inclined state.   The glass plate packaging structure according to claim 1 or 2, wherein the bottom wall member is fixed at a right angle to the back support member.   The glass sheet packing structure according to any one of claims 1 to 3, wherein the bags are arranged in multiple stages in the height direction of the laminated glass sheet.   The said bag body surrounds the single side | surface of the front side glass plate among laminated glass plates, and the both-sides edge of a laminated glass plate, The glass plate packing structure in any one of Claims 1-4 characterized by the above-mentioned.   6. The glass plate according to claim 1, wherein a buffer plate is disposed between the lower edge of the laminated glass plate and the bottom wall member and between the innermost glass plate and the back member. Packing structure.   The glass plate packing structure according to any one of claims 1 to 6, wherein a buffer plate is disposed between both side edges of the laminated glass plate and the bag body.   The glass plate packing structure according to claim 6 or 7, wherein a width of the buffer plate corresponds to a laminated thickness of the laminated glass plates.

Images