CN102985338A - Glass packaging structure and glass packaging method - Google Patents

Abstract

Disclosed is a glass packaging structure comprising a plurality of laminated glass plates and a plurality of sheet-shaped buffer materials inserted between laminate faces of the glass plates, wherein the buffer material has a smaller area than the laminate face of the glass; the plurality of buffer materials are arranged so that the ends of adjacent buffer materials do not overlap; [Mathematical formula 1] |tmax - tave| = 0.12 x tave, and [Mathematical formula 2] | tave - tmin | = 0.12 x tave are satisfied wherein t1 to tn respectively represent thicknesses of the plurality of buffer materials according to JIS P 8118 (n is the number of buffer materials, and is an integer of 2 or more), tave represents an arithmetic average value of the thicknesses of the n-pieces of buffer materials, and tmax represents the maximum value and tmin represents the minimum value of the thicknesses t1 to tn of the plurality of buffer materials; and the distance between the ends of the adjacent buffer materials is 0 to 20 mm.

Description

Glass packing structure and glass packaging method

Technical field

The present invention relates to glass packing structure and glass packaging method, especially relate to glass packing structure and glass packaging method that glass is packed with stacked state.

Background technology

For example, after the glass substrate that uses in LCD device etc. is manufactured in glass works, to truck etc. pack into and to telltale with the carrying of panel factory.Therefore, glass substrate in transit for lamination surface (principal plane) is not damaged between each glass substrate sandwiched padded coaming and packing.

In glass packing structure in the past, for example, when utilizing carrying with stacked each glass substrate of robot, between each glass substrate sandwiched have the area larger than glass substrate sheet padded coaming and with the lamination surface of each glass substrate each other discontiguous mode pack (for example, with reference to patent documentation 1).

As padded coaming, make paper using (holding paper) or resin molding etc., when stacked each glass substrate, be positioned in one by one on each glass substrate, thereon stacked following glass substrate.In recent years, glass substrate be accompanied by the large-scale picture of telltale and make be called as the 8th generation size large-area glass substrate.The 8th generation size the long limit * minor face of glass substrate be 2.5m * 2.2m or 2.4m * 2.1m.And, being accompanied by the maximization of glass substrate, the padded coaming of sandwiched also maximizes more between each stacked glass substrate.

Technical literature formerly

Patent documentation

Patent documentation 1: the JP 2006-327640 of Japan communique

Summary of the invention

Yet, in the operation of above-mentioned such each glass substrate that maximizes being carried out stacked and packing, the padded coaming of the sandwiched maximization that becomes between the lamination surface of each glass substrate, thereby the operation difficult when making padded coaming move on the glass substrate.For example, exist and to be difficult to make padded coaming not produce fold, mobile problem bendingly.

In addition, also there is the maximization be accompanied by padded coaming and the higher problem of manufacturing cost cost of padded coaming.

As the method for eliminating problem as described above, a plurality of padded coamings that will form the size less than glass substrate have been discussed have been folded in method between glass substrate.Yet, in the method, because the phenomenon that stress concentrates on the end (rim) of padded coaming is so-called edge effect (edge effect), and exist the constituent of problem, the padded coaming of the lamination surface of damage glass substrate to adhere to and the problem that is difficult to remove to glass substrate as dirt.Especially when the end of padded coaming overlapped each other, above-mentioned problem became more remarkable.And, when the separating distance between the end of padded coaming is large, stacked glass substrate can produce the damage that foregoing edge effect causes, the problem of dirt because of its deadweight by the bight of the end that is pressed in padded coaming, and glass substrate may directly contact each other and produce damage in addition.

Therefore, the present invention In view of the foregoing, its purpose is to provide a kind of glass packing structure and glass packaging method that solves above-mentioned problem.That is, though its purpose be to provide a kind of glass for situation about maximizing under, the quality that also can not produce the maximization of padded coaming and glass descends that ground is used for laminated glass and structure and the glass packaging method of packing.

In order to solve above-mentioned problem, the present invention has following unit.

(1) the present invention relates to a kind of glass packing structure, have a plurality of stacked tabular glass and between the lamination surface of each glass, insert the padded coaming of many sheet, wherein,

The area of the lamination surface of the described glass of Area Ratio of described padded coaming is little, and a plurality of padded coamings dispose in the nonoverlapping mode in each end of adjacent padded coaming,

If the thickness based on JIS P8118 of described a plurality of padded coamings is respectively t ₁~ t _n(n is the number of padded coaming, is the integer more than 2), to establish the thickness center line average values that described n opens padded coaming be t _Ave, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn maxim be t _Max, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn minimum value be t _Min, at this moment, satisfy following formula:

[mathematical expression 1]

| t _Max-t _Ave|≤0.12 * t _AveAnd

[mathematical expression 2]

|t _ave-t _min|≤0.12×t _ave，

The end of adjacent padded coaming each other be spaced apart 0 ~ 20mm.

(2) thin thickness of the described padded coaming that is measured to based on JIS P8118 of the Thickness Ratio of the front end of the end that joins with described glass of described padded coaming.

(3) end of described padded coaming is formed with curved surface, and this curved surface is to crooked with respect to become the direction more than 90 ° with contact surface that described glass joins.

(4) end of described padded coaming is formed with the dip plane, and this dip plane is to respect to become the direction more than 90 ° to tilt with contact surface that described glass joins.

(5) the end chamfering of described padded coaming is so that the bight of described end is to respect to become the direction more than 90 ° to tilt with contact surface that described glass joins.

(6) stagger in the mode that the lamination surface with respect to each adjacent glass is formed on different positions in docking section each other, the end of each padded coaming.

(7) described padded coaming is formed by paper or resin molding.

(8) the present invention relates to a kind of glass packaging method, have a plurality of stacked tabular glass and between the lamination surface of each glass, insert the padded coaming of many sheet, wherein,

The area of the lamination surface of the described glass of Area Ratio of described padded coaming is little, and a plurality of padded coamings dispose in the nonoverlapping mode in each end of adjacent padded coaming,

If the thickness based on JIS P8118 of described a plurality of padded coamings is respectively t ₁~ t _n(n is the number of padded coaming, is the integer more than 2), to establish the thickness center line average values that described n opens padded coaming be t _Ave, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn maxim be t _Max, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn minimum value be t _Min, at this moment, satisfy following formula:

[mathematical expression 3]

| t _Max-t _Ave|≤0.12 * t _AveAnd

[mathematical expression 4]

|t _ave-t _min|≤0.12×t _ave，

The end of adjacent padded coaming each other be spaced apart 0 ~ 20mm.

(9) thin thickness of the described padded coaming that is measured to based on JIS P8118 of the Thickness Ratio of the front end of the end that joins with described glass of described padded coaming.

(10) described padded coaming is formed by paper or resin molding.

(11) bight of the end of described padded coaming is processed in advance, to form to respect to become the direction more than 90 ° to tilt or crooked dip plane or curved surface with contact surface that described glass joins.

(12) stagger in the mode that the lamination surface with respect to each adjacent glass is formed on different positions in docking section each other, the end of each padded coaming.

The invention effect

According to the present invention, a plurality of padded coamings that will have the area less than the lamination surface of glass are folded between the lamination surface of each glass, and each end of a plurality of padded coamings is approached in nonoverlapping mode, the end that makes each adjacent padded coaming being spaced apart below the specified value each other, the situation on the surface of the overlapping and damage glass in the edge that a plurality of padded coamings therefore can not occur, and the area of padded coaming diminishes, thereby when padded coaming being loaded in glass surface, padded coaming is difficult to produce fold and can carries out expeditiously package handling.

Description of drawings

Fig. 1 is the front view of an embodiment of expression glass packing structure of the present invention.

Fig. 2 is the birds-eye view of observing from the top of glass packing structure of the present invention.

Fig. 3 is that Watch with magnifier is shown in the longitudinal sectional view that is folded with the state of padded coaming between the lamination surface of stacked glass.

Fig. 4 A is the longitudinal sectional view that amplifies the end of the padded coaming that represents variation 1.

Fig. 4 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 1 state between the lamination surface of glass.

Fig. 5 A is the longitudinal sectional view that amplifies the end of the padded coaming that represents variation 2.

Fig. 5 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 2 state between the lamination surface of glass.

Fig. 6 A is the longitudinal sectional view that amplifies the end of the padded coaming that represents variation 3.

Fig. 6 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 3 state between the lamination surface of glass.

Fig. 7 A is the longitudinal sectional view that amplifies the end of the padded coaming that represents variation 4.

Fig. 7 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 4 state between the lamination surface of glass.

Fig. 8 is the birds-eye view of observing from the top of the glass packing structure of variation 5.

Fig. 9 is the longitudinal sectional view that amplifies the glass packing structure of expression variation 5.

The specific embodiment

Below, with reference to accompanying drawing, illustrate to be used for implementing mode of the present invention.

Embodiment 1

Fig. 1 is the front view of an embodiment of expression glass packing structure of the present invention.Fig. 2 is the birds-eye view of observing from the top of glass packing structure of the present invention.

As shown in Figures 1 and 2, glass packing structure 10 in the size of utilizing carrying will form regulation with robot (for example, the 8th generation size) the stacked operation of glass substrate 20 in, sandwiched n opens (at least 2) padded coaming 30 between the lamination surface of each glass substrate 20.And, use the little structure of area of the area of contact (principal plane) of padded coaming 30 and contact area rate glass substrate 20 glass.In the present invention, the area of contact of padded coaming 30 can be any.If for example grow the glass of limit Amm, minor face Bmm, then as long as according to the n number of padded coaming and contact size padded coaming 30 and glass substrate 20 determines and use arbitrarily size below the Amm, below the Bmm.Contact size when supposing to use 2 dash plates is for below the long limit 0.5Amm, below the minor face Bmm, but also can be preferably long limit Amm following, below the minor face 0.5Bmm.

Padded coaming 30 is by formation such as the paper that forms sheet (holding paper) of thin thickness (for example, about thickness=0.050mm ~ 0.095mm) or resin moldings.And therefore padded coaming 30 is difficult to produce fold because the either party to the youthful and the elderly limit or the minor face becomes half the length of pact of padded coaming in the past, and treatability improves, the package handling easy, and cost also suppresses cheaply.

In addition, between the lamination surface of glass substrate 20 during with two padded coaming 30 disposed adjacent, separating distance with 32 of the ends of each padded coaming 30 becomes certain mode configured in parallel, and disposes in the mode that the circumference of padded coaming 30 exposes than the periphery edge of glass substrate 20.In addition, for the end 32 that makes two adjacent padded coamings 30 not overlapping at the middle body of glass substrate 20 each other, and the end 32 of each padded coaming 30 interval S each other be set as 0mm above ~ below the 20mm.

At this, the imposing a condition of end 32 interval S each other of each padded coaming 30 and each padded coaming 30 is described.

Establish a plurality of padded coamings 30 based on JIS P8118(1998) thickness be respectively t ₁~ t _n(n is the number of padded coaming, is the integer more than 2), to establish the center line average values that described n opens the thickness of padded coaming be t _Ave, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn maxim be t _Max, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn minimum value be t _MinThe time, the imposing a condition of each padded coaming 30 and interval S all satisfied following two formulas (A) and (B),

[mathematical expression 5]

|t _max-t _ave|≤0.12×t _ave …（A）

[mathematical expression 6]

|t _ave-t _min|≤0.12×t _ave …（B）

And the end 32 of each adjacent padded coaming 30 interval S each other becomes 0 ~ 20mm.At this, work as t _MaxThe coefficient of side was greater than 0.12 o'clock, and paper the thickest thick paper is outstanding, produced concentrating of pressure in the marginal portion, was difficult to remove dirt.On the other hand, work as t _MinThe coefficient of side was greater than 0.12 o'clock, and the edge of the paper adjacent with the thinnest paper can produce concentrating of pressure, is difficult to remove dirt.

So, by imposing a condition of predetermined distance S, and can not separate necessary above mode with the end 32 of each adjacent padded coaming 30 each padded coaming 30 is not configured on the lamination surface of glass substrate 20.Therefore, in the operation of laminated glass substrate 20, the load of the glass substrate 20 on upper strata is distributed on the plane of each padded coaming 30.Thus, glass substrate 20 can prevent damage, the dirt of the lamination surface that the end 32 of padded coaming 30 contacts, and can prevent glass substrate contact each other.

In addition, preferably make the thin thickness of the described padded coaming 30 that the Thickness Ratio of front end of the end 32 of the described padded coaming 30 that joins with described glass substrate 20 determines based on JIS P8118.For example, by roller etc. pressurizeed in the end 32 of padded coaming 30 and can make front end thinner.

And the front end of the end 32 by making described padded coaming 30 is thinner, can prevent that the load concentration of the glass substrate 20 that contacts is in the situation of the end 32 of padded coaming 30.

Next variation is described.

(variation 1)

Fig. 4 A is the longitudinal sectional view that the end of the padded coaming of variation 1 is amplified expression.Fig. 4 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 1 state between the lamination surface of glass.

Shown in Fig. 4 A, by grind or the end 32a of the formation padded coaming 30a such as punch process to respect to the curved surface 36a that becomes the direction bending more than 90 ° with the contact surface 34a that glass substrate 20 joins.

Shown in Fig. 4 B, in the operation of laminated glass substrate 20, two padded coaming 30a are configured on the glass substrate 20 across the mode that certain interval S faces with end 32a.

Above-mentioned result is, forms curved surface 36a at the end of padded coaming 30a 32a, so the load of glass substrate 20 do not concentrate on the bight of the end 32a of padded coaming 30a, and disperses to the curved surface 36a of each padded coaming 30a.Thus, for glass substrate 20, prevent that damage, the dirt of glass substrate 20 of the end 32a contact of padded coaming 30a from adhering to glass substrate 20.

In padded coaming 30a, also be impose a condition all satisfy formula (A) and (B) and the curved surface 36a of each the adjacent padded coaming 30a interval S each other mode that becomes 0 ~ 20mm set.

(variation 2)

Fig. 5 A is the longitudinal sectional view that amplifies the end of the padded coaming that represents variation 2.Fig. 5 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 2 state between the lamination surface of glass.

Shown in Fig. 5 A, the end 32b of padded coaming 30b arranges chamfering 36b in the bight.This chamfering 36b forms to the direction with respect to the angled α of contact surface 34b that joins with glass substrate 20 (α=90 ° more than) by grind or punch process etc.

Shown in Fig. 5 B, in the operation of laminated glass substrate 20, two padded coaming 30b are configured on the glass substrate 20 across the mode that certain interval S faces with end 32b.

Above-mentioned result is, is provided with chamfering 36b in the bight of the end of padded coaming 30b 32b, so the load of glass substrate 20 is not concentrated in the bight of the end 32b of padded coaming 30b, and disperses to the chamfering 36b of each padded coaming 30b.Thus, in the glass substrate 20, prevent that damage, the dirt of glass substrate 20 of the end 32b contact of padded coaming 30b from adhering to glass substrate 20.

In padded coaming 30b, also be impose a condition all satisfy formula (A) and (B) and the end 32b of each the adjacent padded coaming 30b interval S each other mode that becomes 0 ~ 20mm set.

(variation 3)

Fig. 6 A is the longitudinal sectional view that the end of the padded coaming of variation 3 is amplified expression.Fig. 6 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 3 state between the lamination surface of glass.

As shown in Figure 6A, the end 32c of padded coaming 30c is provided with dip plane 36c.This dip plane 36c forms to the direction with respect to a side's of joining with glass substrate 20 the angled α of contact surface 34c (α=90 ° more than) by grind or punch process etc.

Shown in Fig. 6 B, in the operation of laminated glass substrate 20, two padded coaming 30c are configured on the glass substrate 20 across the mode that certain interval S faces with end 36c.

Above-mentioned result is, 32c is provided with dip plane 36c in the end of padded coaming 30c, so the load of glass substrate 20 is not concentrated in the bight of the end 32c of padded coaming 30c, and disperses to plane and the dip plane 36c of each padded coaming 30c.Thus, in the glass substrate 20, prevent that damage, the dirt of glass substrate 20 of the end 32c contact of padded coaming 30c from adhering to glass substrate 20.

In padded coaming 30c, also be impose a condition all satisfy formula (A) and (B) and the dip plane 36c front end interval S each other of each the adjacent padded coaming 30c mode that becomes 0 ~ 20mm set.

(variation 4)

Fig. 7 A is the longitudinal sectional view that the end of the padded coaming of variation 4 is amplified expression.Fig. 7 B amplifies the longitudinal sectional view that expression is folded in the padded coaming of variation 4 state between the lamination surface of glass.

Shown in Fig. 7 A, the end 32d of padded coaming 30d is provided with the first dip plane 36d, the second dip plane 38d.This first dip plane 36d, the second dip plane 38d are by grinding or the punch process philosophy forms in the mode that tilts to the direction with respect to the angled α of contact surface 34d that joins with glass substrate 20 (α=90 ° more than).

Shown in Fig. 7 B, in the operation of laminated glass substrate 20, the mode that two padded coaming 30d are faced with end 36d is configured on the glass substrate 20.

Above-mentioned result is, be provided with the first dip plane 36d, the second dip plane 38d at the end of padded coaming 30d 32d, therefore the load of glass substrate 20 is not concentrated in the bight of the end 32d of padded coaming 30d, and disperses to the first dip plane 36d, the second dip plane 38d of each padded coaming 30d.Thus, in the glass substrate 20, prevent that damage, the dirt of glass substrate 20 of the end 32d contact of padded coaming 30d from adhering to glass substrate 20.

In padded coaming 30d, also be impose a condition all satisfy formula (A) and (B) and the first dip plane 36d of each adjacent padded coaming 30b, the second dip plane 38d front end interval S each other mode that becomes 0 ~ 20mm set.

As described during the end 32a of variation 1 ~ variation 4 such processing buffer material 30a ~ 30d ~ 32d, illustration utilize the such pressing element of roller flatten end 32a ~ 32d method, utilize the method that anchor clamps (cutter etc.) tilt to cut off etc. of cutting off.And, when padded coaming 30a ~ 30d is plastic film, also can make end 32a ~ 32d curved surface owing to add het expansion.

(variation 5)

Fig. 8 is the birds-eye view of observing from the top of the glass packing structure of variation 5.Fig. 9 is the longitudinal sectional view that the glass packing structure of variation 5 is amplified expression.

As shown in Figure 8, glass packing structure 40 in the operation of laminated glass substrate 20, sandwiched varies in size between the lamination surface of each glass substrate 20 two padded coaming 30e, 30f. Padded coaming 30e, 30f use respectively the padded coaming of the area less than the area of the lamination surface of glass substrate 20, and for example, the bond length L1 of the first padded coaming 30e is less than the bond length L2(L1 of the second padded coaming 30f＜L2).

Half of the total horizontal wide size L of the bond length L1 of the first padded coaming 30e when arranging two padded coaming 30e, 30f following (L1≤L/2), the bond length L2 of the second padded coaming 30f with become described L over half (mode of L2 〉=L/2) is by severing.Need to prove that the difference of L1 and L2 is preferably more than the 1mm, more preferably more than the 20mm, more preferably more than the 40mm.

Therefore, two padded coaming 30e, 30f are arranged on the glass substrate 20 and when disposing in the mode that end 32 is faced each other, the interval S that adjacent end is 32 is positioned at the position to the skew of X1 direction than the line of centers O of glass substrate 20.So has interval S and adjacent end 32 is called the docking section each other, end of padded coaming.

In addition, in the glass packing structure 40 of variation 5, the mode that also becomes 0 ~ 20mm with the interval S that all satisfies 32 of formula (A), (B) and adjacent ends is as described above set.

Need to prove, in the glass packing structure 40 of variation 5, also can suitably use the shape of the end 32 of aforesaid variation 1 ~ variation 4.

As shown in Figure 9, in the operation of laminated glass substrate 20, be positioned among two padded coaming 30e, the 30f between glass substrate 20-1 and the glass substrate 20-2, the first padded coaming 30e is configured in left side among Fig. 9, the second padded coaming 30f is configured in right side among Fig. 9.In this case, the interval S of 32 of adjacent ends is positioned at the position to the skew of X1 direction than the line of centers O of glass substrate 20.

In addition, be positioned among two padded coaming 30e, the 30f between glass substrate 20-2 and the glass substrate 20-3, the first padded coaming 30e is configured in right side among Fig. 9, the second padded coaming 30f is configured in left side among Fig. 9.In this case, the interval S of 32 of adjacent ends is positioned at the position to the skew of X2 direction than the line of centers O of glass substrate 20.

So, by making the configuration alternating inversion of padded coaming 30e, 30f, and the position of the interval S of 32 of ends is to left side or the right side skew of the line of centers O of glass substrate 20.

Consequently, can prevent that the small bending of interval S generation from concentrating on the situation of the same position of each stacked glass substrate 20.

In addition, in order promptly to carry out separating of padded coaming 30 and glass substrate 20, and the section that dig through also can be set in the part of padded coaming, or for the processing that makes the padded coaming after removing is easy perforation (perforation) is set in the part of padded coaming.

In detail and with reference to specific example the present invention has been described, but it is self-evident to those skilled in the art not depart from the scope of the present invention the situation that can apply various corrections, change with spirit.

The application is based on the Japanese patent application 2010-155924 of on July 8th, 2010 application, and with its content as with reference to and be contained in this.

Industrial applicibility

In the above description, having illustrated two padded coamings are set up in parallel situation on identical glass substrate, but be not limited to, for example, can certainly be the structure of the padded coaming of configuration more than 3.

In addition, in the above description, illustrated for a plurality of glass substrates that in the thin display device, use and carried out packaging structure when stacked, but be not limited to this, in that to carry out also can being suitable for situation of the present invention when stacked self-evident for the tabular glass that forms beyond the glass substrate.

Label declaration

10,40 glass packing structures

20 glass substrates

30,30a ~ 30f padded coaming

32,32a ~ 32d end

34a ~ 34d contact surface

The 36a curved surface

The 36b chamfering

The 36c dip plane

36d the first dip plane

38d the second dip plane

Claims (12)

1. glass packing structure has a plurality of stacked tabular glass and insert the padded coaming of many sheet between the lamination surface of each glass, wherein,

The area of the lamination surface of the described glass of Area Ratio of described padded coaming is little, and a plurality of padded coamings dispose in the nonoverlapping mode in each end of adjacent padded coaming,

If the thickness based on JIS P8118 of described a plurality of padded coamings is respectively t ₁~ t _n(n is the number of padded coaming, is the integer more than 2), to establish the thickness center line average values that described n opens padded coaming be t _Ave, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn maxim be t _Max, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn minimum value be t _Min, at this moment, satisfy following formula:

[mathematical expression 1]

| t _Max-t _Ave|≤0.12 * t _AveAnd

[mathematical expression 2]

|t _ave-t _min|≤0.12×t _ave，

The end of adjacent padded coaming each other be spaced apart 0 ~ 20mm.

2. glass packing structure according to claim 1, wherein,

The thin thickness of the described padded coaming that the Thickness Ratio of the front end of the end that joins with described glass of described padded coaming is measured to based on JISP8118.

3. glass packing structure according to claim 1 and 2, wherein,

The end of described padded coaming is formed with curved surface, and this curved surface is to crooked with respect to become the direction more than 90 ° with contact surface that described glass joins.

4. glass packing structure according to claim 1 and 2, wherein,

The end of described padded coaming is formed with the dip plane, and this dip plane is to respect to become the direction more than 90 ° to tilt with contact surface that described glass joins.

5. glass packing structure according to claim 1 and 2, wherein,

The end chamfering of described padded coaming is so that the bight of described end is to respect to become the direction more than 90 ° to tilt with contact surface that described glass joins.

6. each described glass packing structure according to claim 1 ~ 5, wherein,

Stagger in the mode that the lamination surface with respect to each adjacent glass is formed on different positions in docking section each other, the end of each padded coaming.

7. each described glass packing structure according to claim 1 ~ 6, wherein,

Described padded coaming is formed by paper or resin molding.

8. glass packaging method has a plurality of stacked tabular glass and insert the padded coaming of many sheet between the lamination surface of each glass, wherein,

The area of the lamination surface of the described glass of Area Ratio of described padded coaming is little, and a plurality of padded coamings dispose in the nonoverlapping mode in each end of adjacent padded coaming,

If the thickness based on JIS P8118 of described a plurality of padded coamings is respectively t ₁~ t _n(n is the number of padded coaming, is the integer more than 2), to establish the thickness center line average values that described n opens padded coaming be t _Ave, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn maxim be t _Max, the thickness t of establishing described a plurality of padded coamings ₁~ t _nIn minimum value be t _Min, at this moment, satisfy following formula:

[mathematical expression 3]

| t _Max-t _Ave|≤0.12 * t _AveAnd

[mathematical expression 4]

|t _ave-t _min|≤0.12×t _ave，

The end of adjacent padded coaming each other be spaced apart 0 ~ 20mm.

9. glass packaging method according to claim 8, wherein,

The thin thickness of the described padded coaming that the Thickness Ratio of the front end of the end that joins with described glass of described padded coaming is measured to based on JISP8118.

10. according to claim 8 or 9 described glass packaging methods, wherein,

Described padded coaming is formed by paper or resin molding.

11. according to claim 8 or 9 described glass packaging methods, wherein,

The bight of the end of described padded coaming is processed in advance, to form to respect to become the direction more than 90 ° to tilt or crooked dip plane or curved surface with contact surface that described glass joins.

12. each described glass packaging method according to claim 8 ~ 11, wherein,

Stagger in the mode that the lamination surface with respect to each adjacent glass is formed on different positions in docking section each other, the end of each padded coaming.

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