KR101489616B1 - Method for detecting defect of glass ribbon conveying roll and device for conveying glass ribbon - Google Patents

Abstract

The present invention relates to a glass plate conveying line provided with a plurality of conveying rolls for conveying glass ribbon, wherein the glass plate conveying line is divided into a plurality of conveying roll groups in a predetermined area among a plurality of conveying rolls, The composition of the adhering substance adhered to the glass ribbon is analyzed in the case where a defect due to adherence occurs on the contact surface of the glass ribbon with the conveying roll and the analysis result and the composition The present invention relates to a defect specifying method for a conveying roll of a glass ribbon which specifies a problem conveying roll group in which defects are caused by contrast.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a method and apparatus for conveying a glass ribbon,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method for specifying defects on a conveying roll that causes surface defects on a glass plate by a conveying roll for conveying glass ribbon in a glass sheet manufacturing line, a glass ribbon conveying device, a method of manufacturing a plate glass, .

At present, as a method for producing a construction glass plate, an automobile glass plate, and a display glass plate, a float plate glass manufacturing method (hereinafter simply referred to as "float method") is widely used. In this float process, the glass raw material is melted in the glass melting furnace and refined in the blue oven, and the refined molten glass is continuously supplied on the molten tin layer surface of the molten tin bath called the float bath in which the molten tin is stored, The glass ribbon is floated along the molten tin layer surface to form a glass ribbon having a predetermined thickness and a predetermined width. The glass ribbon is pulled out in the lateral direction from the float bath, and then slowly cooled while continuously conveying the controlled annealing furnace controlled to the desired annealing condition , Cooled to a temperature at which it can be cut, and subsequently cut to a predetermined size to form a glass plate.

In the float method, the glass ribbon is drawn out from the surface of the molten tin bath of the float bath by a roll usually called a lift-out roll. The drawn-out region of the glass ribbon by the lift-out roll is called a lift-out region. The lower surface of the glass ribbon drawn out from the molten tin bath is likely to adhere to the molten tin, and when the molten tin attached to the lower surface of the glass ribbon is attached to the surface of the lift-out roll, The molten tin also adheres to the surface of the lift-out roll so that the adhered molten tin or its reaction product is deposited on the surface of the lift-out roll.

In order to prevent deposition of such molten tin on the surface of the lift-out roll, a removing member for removing molten tin attached to the surface of the lift-out roll is provided in the vicinity of the lower side of the lift-out roll, And the molten tin is removed by pressing on the surface (Patent Document 1). However, the removal member can not completely remove the molten tin on the surface of the lift-out roll, and foreign matter such as molten tin adhered to the surface of the lift-out roll or the reaction product is discharged to the lower surface of the glass ribbon There is a possibility of causing defects of the glass ribbon to be transferred.

The glass ribbon is conveyed by the conveying roll from the lift-out area to the slow cooling path downstream thereof. However, the adherend such as molten tin and its reaction product remaining on the lower surface of the glass ribbon is transferred to the conveying roll, If deposits are deposited on the conveying rolls to a certain extent or if deposits on the conveying rolls are transferred to a glass ribbon flowing later or undesirable deformation occurs on the surface of the glass ribbon, Or deformation may be a drawback of glass ribbon.

When the glass ribbon is conveyed on the conveying roll in the lift-out roll or the slow cooling step in which a deposit such as molten tin or a reaction product thereof, a scratch, a defect, It is transferred and adhered to the lower surface of the glass ribbon, resulting in defects such as scratches, adherence, and alteration of the glass ribbon, resulting in a defective product, which degrades yield and quality. When a defect occurs on the lower surface of such a glass ribbon, it is necessary to quickly analyze, analyze and specify the cause of the occurrence, and take measures for the occurrence of defects.

In the case of producing a plate glass by the float method, since the forming temperature becomes high, a roll covered with a ceramics material excellent in high temperature resistance is used for the conveying roll in the conventional lift-out roll and the slow cooling furnace.

If defects are generated in the glass ribbon, analysis of the peripheral adherends of the defective portions is performed. If the analysis results show that the components of the ceramic covering the roll are detected, the defect may be caused by the lift-out roll or the transport roll Can be estimated.

However, even if it is known that the defect is caused by the conveying roll, a large number of conveying rolls (for example, 40 to 150 rolls) are provided in the annealing furnace, and the scratches, It is very difficult to specify which conveying roll among the plurality of conveying rolls is defective at the bottom surface of the glass ribbon even if defects are generated in the glass ribbon.

Conventionally, it has been necessary to continuously carry out an operation of separating the conveying rolls one by one from the conveying path of the gradual cooling path by one by one, or taking out the same out of the gradual cooling path, and observing the state of occurrence of scratches, attachments and damage on the surface of the conveying rolls . If a scratch, adherence, or damage is found on the transport roll, it is specified as a problem transport roll and replaced with a normal good transport roll.

Since the number of conveying rolls is very large as described above, it is usually necessary to carry out the defect specifying work of the problem conveying roll, usually for a long time. Therefore, as the delay of the specification of the problem conveying roll is delayed, the production of the defective glass sheet product is continued and the yield is lowered. As a result, there has been a strong demand for a method capable of effectively specifying the problem conveying roll in a short time.

Japanese Patent Application Laid-Open No. 2009-46366

An object of the present invention is to facilitate identification of a defect on a problem conveying roll which has defects on the glass ribbon surface in a plurality of conveying rolls provided in the slow cooling path from the lift-out area in the conveying line of the glass ribbon.

SUMMARY OF THE INVENTION The present invention provides a method of identifying defects on a transport roll of a glass ribbon, a glass ribbon transporting apparatus, a method of manufacturing a plate glass, and a method of operating a plate glass production.

(1) A glass plate conveying line provided with a plurality of conveying rolls for conveying glass ribbon, wherein the glass plate conveying line is divided into a plurality of conveying roll groups in a predetermined area among a plurality of conveying rolls, The composition of the adhering substance adhered to the glass ribbon is analyzed in the case where a defect caused by the adherend occurs on the contact surface of the glass ribbon with the conveying roll and the analysis result and the composition A defect specifying method of a conveying roll of a glass ribbon that specifies a problem conveying roll group in which defects are caused by the contrast of the conveying rolls.

(2) In the present invention, it is preferable that the cover film is formed on the surface of the transport roll, and the cover film of the transport roll of the transport roll group of the predetermined area contains the detection component, (1), which specifies a problem conveying roll group by the conveying roll group.

(3) In the present invention, it is preferable that the coating film contains a base material and a detection component, and the base material includes at least one kind selected from the group consisting of silica, alumina, titania, zirconia and rare earth oxides, Component comprises at least one member selected from the group consisting of alkaline earth metal oxides, alumina, iron oxides, nickel oxides, titania, zinc oxide and rare earth oxides, and the content of the detection component is different for every predetermined transport roll group (1) or (2), wherein a problem conveying roll group is identified based on the result of analysis of the amount of the detection component.

(4) Further, the present invention provides a method for specifying defects in a transport roll of a glass ribbon according to (3), wherein the rare earth oxide in the base material is at least one selected from the group consisting of yttria, ceria and lanthania.

(5) The present invention is characterized in that any one of (1) to (4), in which the content of the index component is varied for each transport roll group in the range of 1% to 20% (mass percentage) A method of specifying defects in a transport roll of a disclosed glass ribbon is provided.

(6) After specifying the problem conveying roll group by the defect specifying method of the conveying roll of the glass ribbon described in any one of (1) to (5) above, each conveying roll of the problem conveying roll group is inspected, Of the glass ribbon.

(7) The present invention also provides a glass ribbon transporting apparatus provided with a plurality of transport rolls for transporting a glass ribbon, wherein a plurality of transport rolls grouped in a predetermined area among the plurality of transport rolls, There is provided a glass ribbon conveying device which makes a material composition of at least a surface portion of a conveying roll in contact with a glass ribbon different for each roll group.

(8) In the present invention, it is preferable that the cover film is formed on the surface of the transport roll, the cover film of the transport roll of the transport roll group separated in the predetermined area contains the detection component, A glass ribbon conveying device according to (7), wherein a group of conveying rolls can be specified by a difference in results.

(9) In the present invention, it is preferable that the coating film contains a base material and an index component, and the base material comprises at least one kind selected from the group consisting of silica, alumina, titania, zirconia and rare earth oxides, Component comprises at least one member selected from the group consisting of an alkaline earth metal oxide, alumina, iron oxide, nickel oxide, titania, zinc oxide and rare earth oxides, and the content of the detection component And the glass ribbon conveying device according to (8), wherein the group of transport rolls can be specified by the analysis result of the amount of the detection component.

(10) The present invention also provides a glass ribbon transporting apparatus according to (9), wherein the rare earth oxide in the base material is at least one selected from the group consisting of yttria, ceria and lanthanum.

(11) In the present invention, any one of (7) to (10), wherein the content of the index component is changed for each transport roll group in the range of 1% to 20% (mass percentage) There is provided a glass ribbon transporting apparatus as described above.

(12) In the present invention, after the molten glass is formed into a glass ribbon having a predetermined thickness and a predetermined width, the glass ribbon is slowly cooled while continuously conveying the inside of the annealing furnace controlled by the annealing condition by the conveying roll, (1) to (6), wherein the glass ribbon is cooled to a temperature as high as possible and a glass ribbon is cut to a predetermined size, wherein when the inside of the annealing furnace is continuously conveyed, The defects of the transport rolls of the glass ribbon are specified by a defect specific method of the present invention.

(13) The molten glass is continuously supplied onto the surface of the molten metal layer of the float bath in which the molten metal is stored, and is floated along the surface of the molten metal layer of the float bath to form a glass ribbon having a predetermined thickness and a predetermined width, After the ribbon is conveyed from the float bath by the outgoing conveying roll, the conveyed glass ribbon is gradually cooled while being conveyed continuously in the gradual cooling loop controlled by the conveying roll, and cooled to a temperature at which it can be cut, (1) to (6), characterized in that the defects of the conveying rolls of the glass ribbon are specified by the defects specifying method of the conveying rolls of the glass ribbon described in any one of (1) And a method of operating the plate glass by the float method.

According to the present invention, when a defect occurs on the lower surface of the glass ribbon, the defective portion of the defective glass plate is collected and the defective portion is analyzed. Based on the result of the composition analysis, And it is possible to speed up the specific operation of the problem conveying roll which has brought about the defect, so that the production yield of the glass plate of good quality can be improved.

1 is a schematic view of a production line of a float glass according to one embodiment of the present invention.
Fig. 2 is an explanatory view for explaining a defect specifying method of a conveying roll of a glass ribbon in a glass sheet manufacturing line according to one embodiment of the present invention. Fig.
3 is a flowchart of a defect specifying method of a transporting roll of a glass ribbon according to one embodiment of the present invention.

Hereinafter, the best mode for carrying out the invention will be described with reference to the drawings, but the description of the constituent elements described below is a representative example of the embodiment of the present invention, and the present invention is not limited thereto.

As shown in Fig. 1, in the glass melting vessel 1, the glass raw material is melted, and the obtained molten glass is melted in the glass melt vessel 1, The surface of the molten metal (specifically, molten tin or molten tin alloy, hereinafter referred to as molten tin including the molten tin and molten tin alloy in the present specification, referred to as molten tin) stored in the float bath 3 through the sign 2 . The molten glass poured into the float bath 3 flows along the surface of the molten metal layer from the upstream side of the higher temperature float bath toward the downstream side of the lower temperature, and flows into the glass ribbon 4 having a predetermined width and thickness Out roll from the outlet of the float bath 3, passes through the lift-out region, is conveyed to the slow cooling path 5 by the conveying roll, is conveyed in the slow cooling path 5, The glass ribbon 4 is slowly drawn out from the gradual cooling furnace 5 and then cut to a predetermined dimension on the cutting stage of the next glass ribbon to form a float plate glass.

2, the glass ribbon 11 molded into a predetermined width and a predetermined thickness in the float bath 10 is melted in the molten tin (not shown) of the float bath 10 The glass ribbon 11 is drawn out in the horizontal direction by a conveying roll called a lift-out roll 13 from the front surface of the slow cooling furnace 12 through the lift-out region 14, (A direction) while being slowly cooled at a predetermined controlled gradual cooling rate and withdrawn from the annealing furnace 15, the defect inspection apparatus 19 checks the presence or absence of defect of the glass ribbon, (Not shown) for cutting the glass ribbon, and is cut into a predetermined size by the same cutting device to obtain a glass plate having a predetermined size. 2, the upstream side (upstream side in the direction of the arrow A) of the slow cooling furnace 15 is a slow cooling zone in which the temperature of the slow cooling zone of the glass ribbon is controlled to be a predetermined slow cooling condition, The downstream side (the downstream side in the direction of the arrow A; right side in the drawing) of the furnace 15 is a slow cooling zone for further cooling the slowly cooled glass ribbon.

2, in the glass ribbon conveying apparatus, a plurality of conveying rolls including a lift-out roll 13 and a conveying roll 16 in a gradual cooling furnace are provided, and the glass ribbon 11 is conveyed . In the float plate glass manufacturing line, usually, there are three to five lift-out rolls, a lift-out zone transport roll, and about 40 to about 150 transport rolls in the slow-cooling zone in order to transport the glass ribbon. Hereinafter, the lift-off roll 13, the conveying roll (not shown) from the lift-out area to the gradual cooling path and the conveying roll 16 in the gradual cooling path 15 are referred to as a conveying roll in the present specification.

As described above, when the glass ribbon is pulled out of the molten tin bath by the lift-out roll, molten tin is carried on the lower surface of the glass ribbon, and the molten tin or the reaction product is adhered to the surface of the lift-out roll . In this lift-out region, the molten tin attached to the surface of the lift-out roll is removed by the molten tin removing member 18 provided in the dross box 17, but if not removed, When the thickness of the glass ribbon is deposited on the surface, it is left as a scratch on the lower surface of the glass ribbon or transferred as an adherend to the lower surface of the glass ribbon. In addition, the coating film component of the lift-out roll may adhere to the lower surface of the glass ribbon to become a defect. Typically, such sediment or coating film components partially occur on the surface of the lift-out roll. In the conveying roll between the lift-out area and the slow cooling roll, and also in the high-temperature zone (500 to 800 ° C) conveying roll on the upstream side of the annealing furnace, the molten tin accompanying the lower surface of the glass ribbon, The remaining molten tin or its reaction product, and the coating film component of the lift-out roll or the conveying roll are adhered to the surface of the downstream conveying roll and deposited, and when the thickness is reached, the lower surface of the glass ribbon is scratched , Or as a deposit on the lower surface of the glass ribbon, which is a drawback of the glass ribbon. In the present specification, a conveying roll on which a deposit or a coating film component having defects on the glass ribbon bottom is adhered or a conveying roll having a scratch is referred to as a problem conveying roll.

In the present invention, in the conveying line of the glass ribbon having the conveying roll group for conveying the glass ribbon provided with the plurality of conveying rolls, the difference in the material composition of the surface portion in contact with the glass ribbon of the conveying roll, Is coming. For example, as shown in Fig. 2, the lift-out roll group A of the lift-out area, the transport roll group B of the uppermost stream in the slow cooling path, the transport roll group C of the downstream side, There is a difference in the material composition of the surface portion of the transport roll for each transport roll group. Since the adherence caused by the problem conveying roll on the lower surface of the glass ribbon is mostly accompanied by the component of the surface of the conveying roll, the deposit on the lower surface of the glass ribbon is analyzed and compared with the material composition of the surface portion of the conveying roll , Whether or not the defect is caused by the conveying rolls, and because there is a difference in the composition of each conveying roll group, it is possible to identify and specify which conveying roll group has caused the defect according to the analysis result.

A specific example of the present invention will be described with reference to Fig. 2 by a flow chart of a defect specifying method of a conveying roll of a glass ribbon of the present invention shown in Fig.

That is, the glass ribbon 11 taken out from the gradual cooling path 15 is inspected for defects of the glass ribbon by the defect inspection apparatus 19 or by a human eye, and if a defect is found, The marking is carried out at the position where the glass ribbon is cut, and is conveyed to the cutting step provided with the cutting device 20 for the next glass ribbon. In the cutting process, the glass ribbon 11 is cut into a glass plate having a predetermined dimension, and is provided as a glass plate product. Here, the glass plate pieces including defective portions of the defective glass plates removed from the product of the glass plate are separately taken and provided for analysis in order to investigate the cause of defective portions according to the defective conditions of the adhered materials, altered portions, do. When the component of the conveying roll material is detected by the composition analysis of the defect portion, it is determined that the defect is attributable to the conveying roll.

In the present invention, since the composition of the surface of the transport roll is changed in each of the transport rolls A, B, C, and D, for example, The group is specified.

As the transport roll, there are a roll of a glass ribbon transported at a temperature of 600 ° C to 900 ° C derived from a molten tin bath and a roll of glass ribbon at 500 ° C to 800 ° C near the inlet of the slow- Durability, and hardness.

More specifically, a conveying roll coated with ceramics having at least one oxide selected from the group consisting of silica, alumina, titania, zirconia, yttria, ceria and lanthanum as a base material is preferably applied to the surface of the roll made of heat resistant alloy steel . Particularly, as the coating film, stabilized zirconia, alumina or silica in which yttria (yttria) is dissolved in zirconia (ZrO ₂ ) is preferable. In the conveying rolls coated with these ceramics, components which are substantially not contained in the base material can be dissolved as the index component. For example, in yttria-stabilized zirconia, the yttrium component can be analyzed as a detection component. The content of the yttrium oxide as the yttrium component is set such that when a coating film having a thickness of 100 to 1000 탆 is formed on the surface of a heat-resistant alloy roll (for example, heat-resistant stainless steel) by the spraying method (particularly plasma spraying method) of zirconia and yttrium oxide , The content of yttrium oxide can be adjusted in the range of about 1 to 20 mass% (hereinafter simply referred to as " mass% " if stated simply) by adjusting the amount of powder of yttrium oxide.

For example, the transport roll group A (for example, 3% as yttrium oxide), the group B (for example, 5% as yttrium oxide), and so on are used to identify the content of yttrium in each transport roll group by analysis. ), Group C (for example, 7% as yttrium oxide), and Group D (for example, 9% as yttrium oxide). Since there are defects such as adherends on each conveying roll, and there is a difference in content when the composition of the adhered material is analyzed, it is possible to specify at which position the conveying roll group causing defects is detected by the detected amount of yttrium.

The above example describes the case where the amount of yttrium oxide is increased from the conveying roll group A toward the conveying roll group A. However, the amount of yttrium oxide may be decreased by the amount of yttrium oxide, The range may be changed. The content of yttrium oxide is 1 to 20%, which is the ratio of yttria as yttrium component to yttria-stabilized zirconia coated on the surface of the heat-resistant alloy roll, with the balance being zirconia.

If the group of conveying rolls in question is specified, if it is difficult to visually or visually identify each of the conveying rolls in the group, the conveying rolls are taken out of the conveying path to perform defect analysis, The presence or absence of the altered portion is examined to specify the problem conveying roll, and this problem conveying roll is exchanged with the good conveying roll.

In the method of the present invention, a plurality of conveying rolls are divided into different conveying roll groups of several compositions. In specifying the problem conveying roll, the conveying roll group including the problem conveying rolls in question is first specified, The problem conveying roll is specified by the procedure of specifying the problem conveying roll among the specified conveying roll groups. Therefore, compared with the case where the presence or absence of the defect is individually examined for a plurality of conveying rolls, the problem conveying roll can be specified quickly and easily .

In the above description of the present invention, as for the example of the zirconia-coated transport roll in which yttria-hardened tin, which is preferably used in the production process of float plate glass, is improved as the transport roll, and the yttria- Of the transfer roll group is detected by detecting the content of the yttrium oxide and the content of the yttrium oxide is changed to detect the difference in the transport roll group. The detection element is not limited to the yttrium component, .

For example, in the case of alumina carrier rolls or alumina-coated carrier rolls, alkaline earth metal oxides such as calcia and magnesia, silica, nickel oxide, titania, iron oxide and zinc oxide, In the case of the conveying roll or the silica coating roll, examples of the index component include alkaline earth metal oxides such as calcia and magnesia, alumina, titania, iron oxide and zinc oxide. Further, in the case of the magnesia-containing zirconia-coated transport roll, magnesia can be used as a detection component, and in the case of a zirconia-coated transport roll made of a calcia, a calcia can be used as a detection component.

In the present invention, as shown in Fig. 2, an example is shown in which a plurality of conveying rolls for conveying glass ribbon are divided into four conveying rolls group of group A to group D, It does not. Preferably, the conveying rolls in the vicinity of the inlet of the slow cooling furnace adjacent to the lift-out roll group, for example, the lift-out roll group, the conveying rolls in the region in contact with the high-temperature glass ribbon, And the surface composition of these transport rolls can be detected by analysis.

The number of each transport roll group shown in Fig. 2 is three in the transport roll group A, three in the transport roll group B, six in the transport roll group C, and five in the transport roll group D The number of conveying roll groups is not limited to these, and any number may be used. For example, depending on the group of conveying rolls, there may be only one, and a predetermined number may be adopted depending on the temperature region of the conveying roll. Specifically, the amount of the detection component of the conveying roll group disposed in the region where the temperature of the glass ribbon itself flowing in the gradual cooling path from the lift-out roll is higher than at least 500 ° C may be changed. For example, a group of transport rolls A (about 3 to 5 lift-out rolls), a group B of transport rolls (about 3 to 50 transport rolls after the lift-out roll) , And the content of the detection component of at least the surface portion of the transport roll may be changed for each transport roll group A, B, C. Of course, the amount of the detection component may be changed for each of the transport rolls disposed in the region where the temperature of the glass ribbon itself flowing in the slow cooling furnace is higher than at least 500 DEG C from the lift-out roll.

In the present invention, the analysis of the composition of the detection component of the conveying roll can be performed by, for example, a fluorescent X-ray analyzer (energy dispersive type, wavelength dispersive type), an X-ray photoelectron analyzer, a secondary ion mass spectrometer, Apparatus or the like.

The glass ribbon conveying apparatus of the present invention is used in a plate glass manufacturing line by the float method in a region where glass ribbon immediately after being drawn out from the float bath is conveyed in the lift-out region and the slow cooling furnace in the lateral direction. For example, each of the conveying rolls of the glass ribbon conveying device is provided by supporting bearings on both sides of the conveying roll at both ends of the conveying roll so as to be rotatable by bearings. Gears. The worm gear is meshed with a driving force transmitting worm provided on a driving shaft, and is rotated through a driving force transmitting worm by rotating the driving shaft with a driving motor. Thereby, the transport roll is rotated, and the glass ribbon is transported at a predetermined speed in the direction of arrow A shown in Fig.

In the above example, the method of specifying the problem conveying roll of the conveying roll of the glass ribbon of the present invention is applied to the method of manufacturing the float plate glass. However, the method of specifying the problem conveying roll of the conveying roll of the glass ribbon of the present invention , A glass plate conveying line provided with a plurality of conveying rolls for conveying glass ribbon in another method for manufacturing a plate glass, for example, a plate glass manufacturing method by a roll-out method, a glass manufacturing method by a fusion method, The same can be applied.

Although the present invention has been described in detail with reference to specific embodiments thereof, it will be apparent to those skilled in the art that various modifications and changes may be made without departing from the scope and spirit of the present invention.

This application is based on Japanese Patent Application No. 2011-109418 filed on May 16, 2011, the contents of which are incorporated herein by reference.

≪ Industrial applicability >

According to the present invention, when it occurs on the lower surface of the glass ribbon, the defective part of the defective glass sheet is taken out, and analysis of the defective part is performed. As a result, it is possible to judge whether or not it is attributable to the conveying roll, The material composition of the contact surface with the glass ribbon of the conveying roll differs for each predetermined conveying roll region. Therefore, by comparing the difference in the composition, it is possible to specify the conveying roll region causing the defect, It is possible to speed up the specific work of the roll and improve the yield of production of a good quality glass sheet and effectively apply it to various glass sheet production lines in which the glass ribbon is transported by the transport roll.

1: glass melting tank
2: Blue sign
3, 10: Float bath
4, 11: Glass ribbon
5, 15: slowly cooled
12: molten tin
13: Lift out roll
14: Lift-out area
16:
17: Dropbox
18: Removal member
19: defect inspection apparatus
20: Cutting device

Claims (13)

A glass plate conveying line provided with a plurality of conveying rolls for conveying a glass ribbon, the conveying rolls being divided into a plurality of conveying roll groups in a predetermined area among a plurality of conveying rolls, The composition of the material of the portion is different,
In the case where a defect due to adherence occurs on the contact surface of the glass ribbon with the conveying roll, the composition of the adhering substance adhered to the glass ribbon is analyzed, and the problem is caused by the analysis result and the composition of each conveying roll group. Of the glass ribbon. The method according to claim 1, wherein a coating film is formed on the surface of the conveying roll, and each of the coating films of the conveying rolls of the conveying roll group in the predetermined region contains the detection component, A method for specifying defects in a transport roll of a glass ribbon that specifies a group of rolls. The method according to claim 2, wherein the coating film contains a base material and an index component, and the base material includes at least one selected from the group consisting of silica, alumina, titania, zirconia and rare earth oxides,
Wherein the detection component comprises at least one member selected from the group consisting of alkaline earth metal oxides, alumina, iron oxides, nickel oxides, titania, zinc oxide and rare earth oxides,
Wherein the content of the detection component is different for each predetermined transport roll of the transport roll group and the problem transport roll group is identified based on the result of the analysis of the amount of the detection component. The method according to claim 3, wherein the rare earth oxide in the base material is at least one selected from the group consisting of yttria, ceria and lanthanum. The method according to claim 3 or 4, wherein the content of the index component is varied from 1% to 20% (mass percentage) with respect to the base material for each group of transport rolls. After specifying the problem conveying roll group by the defect specifying method of the conveying roll of the glass ribbon according to any one of claims 1 to 4, the conveying rolls of the problem conveying roll group are inspected to specify the problem conveying roll A defect-specific method of conveying rolls of glass ribbon. A glass ribbon conveying apparatus provided with a plurality of conveying rolls for conveying glass ribbon,
A plurality of conveying rolls grouped in a predetermined region of the plurality of conveying rolls and having a material composition of at least a surface portion of the conveying roll which is in contact with the glass ribbon,
The coating film is formed on the surface of the conveying roll and the detection film is contained in the coating film of the conveying roll of the conveying roll group separated in the predetermined region. Specifiable glass ribbon transport device. delete The method of claim 7, wherein the coating film contains a base material and an index component, and the base material includes at least one selected from the group consisting of silica, alumina, titania, zirconia and rare earth oxides,
Wherein the detection component comprises at least one member selected from the group consisting of alkaline earth metal oxides, alumina, iron oxides, nickel oxides, titania, zinc oxide and rare earth oxides,
Wherein the content of the detection component is different for each predetermined conveying roll of the conveying roll group and the conveying roll group can be specified based on the result of analysis of the amount of the detecting component. The glass ribbon transportation device according to claim 9, wherein the rare earth oxide in the base material is at least one selected from the group consisting of yttria, ceria and lanthania. The glass ribbon conveying device according to claim 9 or 10, wherein the content of the detection component is changed for each conveying roll group in a range of 1% to 20% (mass percentage) with respect to the base material. The molten glass is formed into a glass ribbon having a predetermined thickness and a predetermined width, and then the glass ribbon is gradually cooled while being continuously conveyed in the gradual cooling furnace controlled by the conveying roll to a temperature at which it can be cut, A method of manufacturing a glass plate for cutting a glass ribbon,
The method of manufacturing a sheet glass according to any one of claims 1 to 4, wherein the defects of the transport rolls of the glass ribbon are identified by the method of specifying defects of the transport rolls of the glass ribbon when the inside of the slow cooling furnace is continuously transported. The molten glass is continuously supplied onto the surface of the molten metal layer of the float bath in which the molten metal is stored and is floated along the surface of the molten metal layer of the float bath to form a glass ribbon having a predetermined thickness and a predetermined width, After the glass ribbon is taken out from the bath and conveyed by the conveying roll, the conveyed glass ribbon is slowly cooled while continuously conveying the inside of the gradual cooling furnace controlled by the slow cooling condition by the conveying roll, cooled to a temperature at which it can be cut, A float method for producing a plate glass of a float method for cutting a glass ribbon, the float method comprising the steps of: detecting a defect of a conveying roll of a glass ribbon by a defect specifying method of a conveying roll of the glass ribbon according to any one of claims 1 to 4; How to operate the production of plate glass by law.

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