JP2008019102A - Method and apparatus for manufacturing plate glass - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To properly carve a scribing line in the width direction of a glass ribbon with a shape curving in the width direction which is continuously formed by the down draw process. <P>SOLUTION: To the surface to be a concave side of a glass ribbon 2 which is continuously formed by means of the down draw process and guided downward while curved in the width direction, a press platen 3a with a convexed surface corresponding to the curvature is abutted with the abutting surface 3a1 thereof. Under this condition, a scribing line 4 is carved in the width direction so as to follow the curvature on the surface to be a convex side of the glass ribbon, while pressing the glass ribbon 2 against the abutting surface 3a1 of the press platen 3a by means of a scribing edge 3b. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a method for manufacturing a glass plate and an apparatus therefor, and more particularly, an improvement in a glass plate manufacturing technique having a step or means for engraving a glass ribbon continuously formed by a downdraw method and guided downward. About.

  As is well known, when manufacturing a glass substrate for a flat panel display (hereinafter, also simply referred to as FPD) such as a liquid crystal display or a plasma display, a method in which a plurality of glass substrates are made from a single glass plate (mother glass). Has been adopted. With the recent increase in size of glass substrates for FPDs, it is a fact that mother glass manufactured by glass manufacturers and the like is also being increased in size.

  As a method for producing a glass plate to be this type of mother glass, for example, a down draw method in which molten glass is drawn downward and formed is known, and specific examples thereof include, for example, an overflow down draw method (fusion method). And slit-down draw method. The former overflow down-draw method is a technique in which molten glass overflows from both sides of a long bowl-shaped molding refractory, and is fused again (merged) at the lower end of the molding refractory, and is drawn downward as a glass ribbon. The latter slit down draw method is a method in which molten glass is caused to flow out from a long hole-like slit provided at the bottom of the molding refractory, and the molten glass that has flowed out is drawn downward as a glass ribbon. And the glass plate used as mother glass is manufactured by separating the glass ribbon continuously formed in this way into a predetermined size.

  In the case of separating the glass plate from the glass ribbon that is continuously formed and guided downward in this way, for example, as disclosed in Patent Document 1 below, a movable type that synchronizes with the movement of the glass ribbon. With a scoring device, a surface plate (anvil) is brought into contact with one side of the glass ribbon, and a score line is engraved on the other side of the glass ribbon with an engraving blade (scribe). A support means (glass plate engaging device) is attached to the separation area of the glass plate partitioned by, and a glass plate is separated from the glass ribbon by applying a bending moment to the glass ribbon and breaking it with engraved lines. ing.

  Further, in Patent Document 2 below, when engraving lines are formed in the width direction of the glass ribbon, the glass ribbon guided downward in the vertical direction is curved in the flow direction by a curve guiding conveyor in the horizontal direction. In the same manner as described above, a method of engraving engraving lines on the convex surface of the glass ribbon that has been guided and curved as described above is disclosed.

In general, the surface plate that comes into contact with the glass ribbon is long in the width direction of the glass ribbon, and the contact surface that comes into contact with the glass ribbon is usually flat.
JP 2002-137930 A Japanese Patent No. 3638042

  By the way, the glass ribbon continuously formed by the downdraw method is gradually cooled as it is guided downward from the molding refractory, and the shape becomes stable. Often presents a shape that is curved in the width direction in stages. Moreover, the curvature of the glass ribbon appears to be larger as the thickness is reduced or as the width direction dimension is increased. In particular, when the width direction dimension is 1.5 m or more and the thickness is 0.7 mm or less, the phenomenon appears remarkably. In addition, it is thought that such curvature of the glass ribbon is caused mainly by thermal contraction of the glass ribbon in the manufacturing process (cooling process).

  However, when engraving the glass ribbon, as described above, a surface plate having a flat contact surface is brought into contact with one surface side of the glass ribbon, and the surface is cut along the contact surface of the surface plate. Usually, the blade is moved. However, when the glass ribbon is curved in the width direction, it is difficult to properly contact the contact surface of the surface plate over the entire width of the glass ribbon. That is, a gap is left between the glass ribbon and the contact surface of the surface plate. If the engraved blade is used to engrave the engraved line on the glass ribbon that is curved in the width direction in this state, a part of the glass ribbon that is in contact with the engraved blade will be in contact with the flat surface of the surface plate. It is pressed to the surface side, and its curvature is improperly corrected, and irregular deformation follows the contact surface of the surface plate. Therefore, the contact state (pressed state) of the engraving blade with respect to the glass ribbon varies in the width direction, and it becomes difficult to make the indentation depth uniform over the entire width of the glass ribbon. Furthermore, since the engraved line is engraved on the irregularly deformed glass ribbon, the engraved engraved line does not form a straight line along the width direction of the glass ribbon, for example, meanders. There is also a risk of inconvenience. In this way, if the engravings engraved on the glass ribbon become inappropriate, a fatal problem that it becomes difficult or impossible to accurately separate the glass plate from the glass ribbon with the engravings as a boundary. Will be invited.

  In addition, engraving lines are engraved while forcibly deforming part of the glass ribbon that is curved in the width direction. May also occur.

  The above problems are caused by the increase in the width in the width direction of the glass ribbon formed by the downdraw method due to the increase in the width direction of the glass ribbon in recent years and the reduction in the thickness of the glass ribbon. Appears prominently.

  Therefore, in a glass ribbon formed by the downdraw method, it is an important problem how to properly engrave the engraved line in the curved width direction. From this point of view, the engraved line is formed on the glass ribbon. The fact is that no measures have been taken to engrave. That is, the above-mentioned Patent Document 1 does not disclose anything about the curved state of the glass ribbon, and Patent Document 2 forcibly moves the glass ribbon in the flow direction when engraving lines. Only a method of curving is disclosed, and no glass ribbon curved in the width direction is disclosed.

  In view of the above circumstances, in the present invention, it is a technical problem to appropriately engrave a score line in the width direction of a glass ribbon that is continuously formed by the downdraw method and has a curved shape in the width direction. And

  The method according to the present invention, which was created to solve the above-mentioned problems, engraves a score line in a width direction perpendicular to the flow direction of a glass ribbon that is continuously formed by a downdraw method and guided downward. In the method of manufacturing a glass plate, including the engraving step, and the separation step of separating the glass plate from the glass ribbon as a boundary after engraving the engraving step in the engraving step, in the engraving step, The engraving line is engraved along the curve of the glass ribbon curved in the width direction.

  According to such a manufacturing method, the engraved line is engraved along the curve of the glass ribbon formed by the downdraw method and curved in the width direction. When engraving, the engraved line can be engraved in a curved state without unduly deforming the glass ribbon. Therefore, the shape of the glass ribbon is not deformed irregularly as in the case of engraving while correcting the curvature in the width direction of the glass ribbon following the flat surface, and it is stable in the curved state. Since it becomes a thing, it becomes possible to engrave a score line appropriately with respect to a glass ribbon. In addition, when engraving lines on the glass ribbon, the glass ribbon will not be excessively deformed, so it is possible to reliably prevent situations where the glass ribbon is unfairly damaged during the engraving process. Become.

  In the above method, it is preferable that in the engraving step, the engraving line is engraved on a surface of the glass ribbon that is curved in the width direction.

  If it does in this way, when separating a glass plate from a glass ribbon with a score line of a glass ribbon as a boundary in a separation process, it will become possible to perform the separation operation smoothly and reliably.

  In the above method, in the separation step, the glass ribbon is separated from the glass ribbon by folding the glass ribbon with the engraving line as a boundary while the glass ribbon curved in the width direction is curved. It is preferable to do so.

  In this way, the glass ribbon is bent in the width direction, and the glass ribbon is folded at the engraving line engraved in the engraving process as a boundary. For example, the glass ribbon curved in the width direction The glass ribbon is less susceptible to undue deformation compared to when it is folded with the entire width of the glass flattened, so the glass plate can be more accurately separated from the glass ribbon at the line. It becomes.

  In the above method, the glass ribbon and the glass plate have a width direction dimension of 1.5 m or more and a thickness of 0.7 mm or less, and further a width direction dimension of 2.0 m or more and a thickness of 0.63 mm or less. It is suitable for the case.

  In other words, according to the method already described, in recent years, there has been a demand for larger plates and thinner walls that have been promoted in glass plates, and a request for increased width direction dimensions and thinner walls that have been promoted in glass ribbons. However, it is possible to accurately engrave the glass ribbon and to separate the glass plate from the glass ribbon on which the engraving is engraved, while accurately responding.

  The apparatus according to the present invention, which was created to solve the above-described problems, is a process in which engraving is performed on a glass ribbon continuously formed by a downdraw method and guided downward in a width direction perpendicular to the flow direction. In the manufacturing apparatus of the glass plate provided with the installation means and the separation means which isolate | separates a glass plate from the said glass ribbon by making the said marking into a boundary, the said setting means follows the curve of the said glass ribbon curved in the width direction. The engraving line is engraved.

  According to the manufacturing apparatus having such a configuration, it becomes possible to engrave engraving lines along the curvature of the glass ribbon, so that the configuration related to this has already been described in the above description of the method. The same effect can be enjoyed.

  In the above apparatus, the engraving means engraves the engraving line on the surface of the glass ribbon that contacts the one surface side of the glass ribbon in the width direction and the other surface of the glass ribbon that contacts the surface plate. The surface plate may have a contact surface formed with a curved surface corresponding to the curve in the width direction of the glass ribbon.

  In this way, when engraving the glass ribbon curved in the width direction, a curved surface corresponding to the curve in the width direction of the glass ribbon is formed on one surface side of the glass ribbon over the width direction. The contact surface of the formed surface plate is contacted. That is, with the glass ribbon still curved in the width direction, the abutment surface of the surface plate abuts on one side thereof substantially without a gap. Therefore, in this state, if the engraving blade is pressed against the surface plate by the engraving blade and a score line is engraved on the other side of the glass ribbon, the engraving blade engraves the curve of the glass ribbon. A line will be engraved. As a result, it is possible to enjoy the same operational effects as those already described for the configuration corresponding to this in the description of the above method. The curved surface corresponding to the curve in the width direction of the glass ribbon is not limited to the case where the contact surface of the surface plate has a shape that completely matches the curved surface of the glass ribbon, and the contact surface of the surface plate is This includes a case where the glass ribbon has a shape that approximates the curved surface, and there is no gap in which the glass ribbon is unduly deformed when engraving the glass ribbon.

  Said apparatus WHEREIN: It is preferable that the contact surface of the said surface plate is formed in the convex curve.

  In this way, the abutment surface of the surface plate is brought into contact with the concave surface (one surface side) of the glass ribbon curved in the width direction, and the convex surface of the glass ribbon (the other surface side) Since the engraved line is engraved, the same effects as those already described for the configuration corresponding to the above method can be enjoyed.

  In the above apparatus, the separating means supports the glass ribbon below the fulcrum member, and supports the fulcrum member below the fulcrum member, which is in contact with the back side of the engraved surface of the glass ribbon. And a supporting means for breaking the glass ribbon with the engraving line as a boundary by applying a bending force to the glass ribbon, and the contact surface of the fulcrum member is a curved surface corresponding to the curve in the width direction of the glass ribbon. It is preferable that it is comprised.

  In this way, when folding with the engraved line engraved on the glass ribbon as a boundary, a curved surface corresponding to the curve in the width direction of the glass ribbon is formed on the back side of the surface engraved with the engraved line of the glass ribbon. The contact surface of the fulcrum member is brought into contact. Therefore, by applying a folding force to the glass ribbon with this fulcrum member as a fulcrum, the glass ribbon is folded with the engraved line as a boundary while being curved in the width direction. As a result, it is possible to enjoy the same operational effects as those already described for the configuration corresponding to this in the description of the above method. The curved surface corresponding to the curve in the width direction of the glass ribbon described above is not limited to the case where the contact surface of the fulcrum member has a shape that completely matches the curved surface of the glass ribbon. This includes a case where the glass ribbon has a shape that approximates the curved surface, and there is no gap in which the glass ribbon is unduly deformed when the glass ribbon is folded with a score line as a boundary.

  In the above apparatus, the support means may be configured to support the glass ribbon in a state of being further curved in the flow direction with the surface plate as a fulcrum.

  If it does in this way, a glass ribbon can be supported in the state curved in the flow direction. The glass ribbon formed by the downdraw method may be curved not only in the width direction but also in the flow direction, which is effective in such a case. That is, since the glass ribbon is continuously conveyed downward, even if the glass ribbon is curved in the flow direction, the glass ribbon is corrected in its flow direction by its own weight. There is a risk of such deformation. And when such a deformation | transformation arises, distortion may arise inside a glass ribbon and a possibility that breakage, such as a crack, may arise may arise. Therefore, by supporting the glass ribbon in a state curved in the flow direction, it is possible to prevent such deformation from occurring in the glass ribbon, and to appropriately avoid such breakage. From such a viewpoint, it is preferable that the support means is configured to be able to adjust the amount of bending in the flow direction of the glass ribbon.

  As described above, according to the present invention, the engraved line is engraved along the curve of the glass ribbon formed by the downdraw method and curved in the width direction. When engraving, the engraved line can be engraved in a curved state without unduly deforming the glass ribbon. Therefore, when engraving, the shape of the glass ribbon is not irregularly deformed and is stable in a curved state. It becomes possible to do. At the same time, since the curved glass ribbon remains curved and does not undergo substantial deformation, it is possible to reliably prevent the glass ribbon from being unduly damaged when engraving. It becomes.

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

  FIG. 1 is a schematic perspective view showing the overall configuration of the manufacturing apparatus according to the first embodiment of the present invention. As shown in the figure, the manufacturing apparatus 1 according to the present embodiment is provided with a bowl-shaped molded refractory which is arranged above the figure and causes the molten glass to overflow and flow down to perform, for example, the overflow downdraw method. The molten glass that has flowed down from the molding refractory gradually solidifies to become a glass ribbon 2 that moves in a substantially vertical downward direction, and is set on the surface of the glass ribbon 2 in advance. The engraving means 3 is engraved with the engraving line 4 at the height position. Further, as shown in FIGS. 3 and 4, the manufacturing apparatus 1 is arranged below the engraving means 3 and folds a predetermined area from the lower edge of the glass ribbon 2 with the engraving line 4 to break the glass plate. And a separating means 5 for separating as 2a.

  The engraving means 3 is in contact with the rear surface of the glass ribbon 2 and has a surface plate 3a that is long in the width direction perpendicular to the flow direction of the glass ribbon 2, and glass glass 2 while pressing the glass ribbon 2 against the surface plate 3a. An engraving blade 3b is provided on the surface of the ribbon 2 for engraving the engraving line 4 in the width direction. Here, the glass ribbon 2 formed by the so-called down draw method such as the overflow down draw method or the slit down draw method described above is bent in the width direction due to the influence of heat shrinkage or the like in the manufacturing process (cooling process). Often exhibits a shape. Therefore, in the present embodiment, the contact surface 3a1 of the surface plate 3a is formed by a convex curved surface corresponding to the curve in the width direction of the glass ribbon 2. As a result, as shown in FIG. 2, the contact surface 3a1 of the surface plate 3a contacts the concave surface (back surface) of the glass ribbon 2 curved in the width direction without any gap across the width direction. It is like that. And the surface (surface) which becomes the convex side of the glass ribbon 2 curved in the width direction by the engraving blade 3b in a state where the contact surface 3a1 of the surface plate 3a is in contact with the back surface of the glass ribbon 2 in this way. ), The engraving line 4 is engraved along the curve of the abutment surface 3a of the surface plate 3a, in other words, the glass ribbon 2 (in the direction indicated by the arrow A). Therefore, in this way, the shape of the glass ribbon 2 is curved without being irregularly deformed, for example, when the engraving is made while correcting the curvature of the glass ribbon 2 following a flat surface. Since it becomes stable in the state, it becomes possible to appropriately engrave the engraving line 4 having a suitable indentation depth and linearity on the glass ribbon 2. At the same time, when the engraving line 4 is engraved on the glass ribbon 2, the glass ribbon 2 is not unduly deformed, so that it is possible to reliably prevent the glass ribbon 2 from being damaged. .

  The surface plate 3a and the engraving blade 3b are held so as to be movable up and down, and the lower moving speed is configured to be the same as the descending speed of the glass ribbon 2, and the speeds of both are the same. The engraving line 4 is engraved on the glass ribbon 2 as described above. Further, after the engraving work is completed, both of them return while moving up to a preset initial position while being separated from the glass ribbon 2.

  Further, as shown in FIG. 3, the separating means 5 includes a fulcrum member 5a that is in contact with the back side of the surface (front surface) on which the engraving line 4 of the glass ribbon 2 is engraved, and a fulcrum member 5a (engraved line 4). ) And supporting means 5b for supporting the glass ribbon 2 or the glass plate 2a. The fulcrum member 5a is formed in such a manner that the engraving line 4 is engraved on the glass ribbon 2 and then replaced with the surface plate 3a so that the lower end surface 5a1 thereof matches the position where the engraving line 4 is engraved. It abuts along the width direction of the ribbon 2. Further, the contact surface 5a2 of the fulcrum member 5a has a convex curved surface corresponding to the curve in the width direction of the glass ribbon 2, similarly to the contact surface 3a1 of the surface plate 3a. On the other hand, the supporting means 5b is disposed separately for the one end side and the other end side in the width direction of the glass ribbon 2 or the glass plate 2a, and when the glass plate 2a is separated from the glass ribbon 2, a fulcrum member is provided. 4a is rotated in the direction indicated by the arrow B in FIG. 4 (within a plane perpendicular to the surface of the glass ribbon 2) from the surface on which the engraving line 4 is formed on the glass ribbon 2 to the back surface side. Folding force is applied toward it. Thus, also when separating the glass plate 2a from the glass ribbon 2 with the engraved line 4 as a boundary, the fulcrum member 5a is brought into contact with the glass ribbon 2 and remains in a state in which the curvature in the width direction is maintained. It becomes. Therefore, in this way, since the glass ribbon is less likely to be deformed at the time of the folding, the glass ribbon is less likely to be distorted than when the glass ribbon is folded in a state where the entire width of the glass ribbon curved in the width direction is flattened. The glass plate 2a can be accurately separated from the ribbon 2. In addition, the glass plate 2a separated from the glass ribbon 2 is delivered to a transport unit (not shown) that transports the glass plate 2a to a subsequent process while being supported by the support unit 5b.

  The fulcrum member 5a and the support means 5b are held so as to be movable up and down, and the downward movement speed thereof can be the same as the lowering speed of the glass ribbon 2, and the speeds of both are the same. The glass 2a is separated from the glass ribbon 2 as described above. Further, after the separation operation is completed (the support means 5b delivers the glass plate 2a to the conveying means), the two return while moving up to a preset initial position while separating from the glass ribbon 2. It is like that. Further, as the support means 5b, one that sandwiches and supports the glass ribbon 2 from both front and back sides of the glass ribbon 2, and one that supports the glass ribbon 2 by vacuum suction from either the front or back surface of the glass ribbon 2 or the like. Can be used.

  FIG. 5 is a schematic side view showing the overall configuration of the manufacturing apparatus according to the second embodiment of the present invention. This second embodiment is suitable for dealing with a case where the glass ribbon 2 manufactured by the downdraw method exhibits a curved shape in the flow direction in addition to the width direction due to thermal shrinkage or the like in the manufacturing process. Further, the arrangement positions of the respective components described in the first embodiment are changed. In the following description, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in the figure, in the manufacturing apparatus 10 according to the present embodiment, the width of the glass ribbon 2 that is disposed near the lower part of the molding apparatus in which the refractory material for molding and the like is accommodated and flows down from the outlet 11 of the molding apparatus. The contact surface 3a1 of the surface plate 3a is in a horizontal direction (a direction perpendicular to the front and back surfaces of the glass ribbon 2) with respect to a vertical line L lowered downward from the rollers 12 and 13 rotating while holding both ends in the direction. It is arranged with a deviation of a predetermined dimension α. At the same time, the lower portion of the glass ribbon 2 is supported by the support means 5b so as to be inclined with respect to the vertical line L so that the glass ribbon 2 is curved with the base plate 3a as a base point. In this way, the glass ribbon 2 can be sequentially transported downward while being curved in the flow direction of the glass ribbon 2, and unreasonable distortion is caused to the glass ribbon 2 during the engraving operation or separation operation. Can be prevented from occurring. From such a point of view, the displacement α from the vertical line L of the surface plate 3a and the inclination angle of the glass ribbon 2 supported by the support means 5b can be adjusted according to the curvature of the glass ribbon 2. It is preferable.

  The glass plate manufacturing apparatuses 1 and 10 according to the first and second embodiments having the above configurations and advantages have a width-direction dimension of 1.5 to 5 m and a thickness of 0.05 to 0.7 mm. It can use suitably with respect to a certain glass ribbon 2 (glass plate 2a). That is, the glass ribbon 2 having a large width dimension and a small thickness as described above has a large apparent curvature in the width direction and is easily damaged by deformation. Then, both the engraving process for engraving the engraving line 4 and the separation process for separating the glass plate 2a from the glass ribbon 2 with the engraving line 4 as a boundary cause unreasonable deformation of the glass ribbon 2. This is preferable because it can be appropriately executed in a curved state without being caused.

  In the first and second embodiments described above, the glass plate 2 curved in the width direction is in contact with the surface plate 3a having the contact surface 3a1 that forms a curved surface (convex curved surface) corresponding to the curve. In the above description, the engraving line 4 is engraved by the engraving blade 3b along the curve. However, the present invention is not limited to such an engraving means. For example, an engraving blade and a receiving portion for receiving the engraving blade are provided, and one of them is disposed on the one surface side of the glass ribbon and the other is disposed on the other surface side of the glass ribbon, and both are synchronized. The glass ribbon may be configured so as to be movable along the curve in the width direction. In this case, the engraving blade and the receiving portion are configured to be synchronized with the descending speed of the glass ribbon.

  Moreover, in said 1st, 2nd embodiment, although the case where the surface plate 3a and the fulcrum member 5a were separate bodies was demonstrated, the fulcrum member 5a is abbreviate | omitted and the surface plate 3a is a role of the fulcrum member 5a. You may make it serve as. That is, after the engraving work is completed, the surface plate 3a may be positioned again so that the lower end surface thereof matches the position where the engraving line 4 is engraved.

  A glass plate manufacturing method and apparatus according to the present invention includes a glass substrate used for manufacturing glass panels for various image display devices such as a liquid crystal display, a plasma display, an electroluminescence display, and a field emission display, and various electronic display functions. It is suitable to be used in the production process of a glass plate used as a substrate for forming an element or a thin film.

It is a schematic perspective view which shows the whole structure by the manufacturing apparatus which concerns on the 1st Embodiment of this invention. It is a schematic cross-sectional view which shows the contact state of the glass ribbon shown in FIG. 1, and a surface plate. It is a schematic perspective view which shows the separation process of the manufacturing apparatus which concerns on 1st Embodiment. It is a schematic perspective view which shows the separation process of the manufacturing apparatus which concerns on 1st Embodiment. It is a schematic side view which shows the whole structure of the manufacturing apparatus which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1,10 Manufacturing apparatus 2 Glass ribbon 2a Glass plate 3 Engraving means 3a Surface plate 3a1 Contact surface 3b Engraving blade 4 Engraving line 5 Separating means 5a Support point member 5a1 Lower end surface 5a2 Contact surface 5b Support means

Claims (9)

An engraving process for engraving a glass ribbon continuously formed by a downdraw method and guided downward in a width direction perpendicular to the flow direction, and after engraving the engraving process in the engraving process In the manufacturing method of the glass plate including the separation process of separating the glass plate from the glass ribbon with the engraved line as a boundary,
In the engraving step, the engraved line is engraved along the curve of the glass ribbon curved in the width direction.   The method for producing a glass sheet according to claim 1, wherein, in the engraving step, the engraving line is engraved on a surface of the glass ribbon that is curved in the width direction.   In the separation step, the glass ribbon is separated from the glass ribbon by folding the glass ribbon with the score line as a boundary while the glass ribbon curved in the width direction is curved. The manufacturing method of the glass plate of Claim 1 or 2.   The method for producing a glass plate according to any one of claims 1 to 3, wherein the glass ribbon and the glass plate have a width direction dimension of 1.5 m or more and a thickness of 0.7 mm or less. . An engraving means for engraving a glass ribbon continuously formed by a downdraw method and guided downward in a width direction perpendicular to the flow direction; and a glass plate with the engraving line as a boundary from the glass ribbon. In a glass plate manufacturing apparatus comprising a separating means for separating,
The said engraving means is comprised so that the said engraving line may be engraved along the curve of the said glass ribbon curved in the width direction, The manufacturing apparatus of the glass plate characterized by the above-mentioned.   The engraving means includes a surface plate having an abutment surface that abuts across the width direction on one surface side of the glass ribbon, and the engraving portion on the other surface side while pressing the glass ribbon against the abutment surface of the surface plate. 6. The glass according to claim 5, further comprising an engraving blade for engraving a line, wherein the abutment surface of the surface plate is formed by a curved surface corresponding to a curvature in a width direction of the glass ribbon. Board manufacturing equipment.   The glass plate manufacturing apparatus according to claim 6, wherein a contact surface of the surface plate is formed as a convex curved surface.   The separating means includes a fulcrum member that contacts the back side of the engraved surface of the glass ribbon, and supports the glass ribbon below the fulcrum member, and the glass ribbon with the fulcrum member as a fulcrum. And a supporting means for breaking the glass ribbon with the engraving line as a boundary by applying a bending force, and the contact surface of the fulcrum member is formed of a curved surface corresponding to the curve in the width direction of the glass ribbon. The apparatus for producing a glass plate according to any one of claims 5 to 7.   9. The apparatus for producing a glass plate according to claim 8, wherein the support means is configured to support the glass ribbon in a state of being curved in the flow direction with the surface plate as a fulcrum.

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