JP2014177366A - Manufacturing method of glass bent plate - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method capable of manufacturing a glass bent plate having excellent surface texture.SOLUTION: A first ceramic paper 21 and a second ceramic paper 22 are arranged on an arrangement surface 10a such that the first ceramic paper 21 is interposed between an upper end part 32 of a glass flat plate 30 and the arrangement surface 10a so as to contact the glass flat plate 30, and the second ceramic paper 22 is interposed between a glass bent plate obtained by a deforming process and the arrangement surface 10a so as to contact the glass bent plate. An average fiber length of ceramic fiber included in the first ceramic paper 21 is shorter than an average fiber length of ceramic fiber included in the second ceramic paper 22, and bulk density of the first ceramic paper 21 is higher than bulk density of the second ceramic paper 22.

Description

  The present invention relates to a method for producing a curved glass plate.

  A crystallized glass plate containing β-quartz solid solution crystal or β-spodumene crystal as a main crystal has advantages of high heat resistance and a low coefficient of thermal expansion. For this reason, conventionally, a crystallized glass plate has been widely used as a heat ray transmitting part of a heating device such as a stove or a fireplace (for example, Patent Document 1 below).

  In order to improve the designability of the heating device, the crystallized glass plate used for such applications is required to be formed in a shape corresponding to the heating device. For example, in order to improve the visibility of the combustion device arranged inside the heating device, a crystallized glass plate having a circular cross section (hereinafter referred to as “arc-shaped crystallized glass curved plate”) is required. Sometimes.

JP 2011-173382 A

  As described in Patent Document 1, as a method of manufacturing an arc-shaped crystallized glass curved plate, a crystalline glass flat plate is arranged on a setter having an arrangement surface having an arc-shaped cross section, and its state And a method of heat-treating the crystalline glass plate. In this manufacturing method, in the heat treatment step, the crystalline glass flat plate softens and follows the surface of the torch. As a result, the cross section is formed in an arc shape. Then, an arc-shaped crystallized glass curved plate is obtained by crystallizing the crystalline glass plate.

  However, in the manufacturing method described in Patent Document 1, the arc-shaped crystallized glass curved plate may be fused to the torch, or the surface shape of the torch may be transferred to the surface of the arc-shaped crystallized glass curved plate. Therefore, there is a problem that it is difficult to produce an arc-shaped crystallized glass curved plate having excellent surface properties.

  The main object of the present invention is to provide a method capable of producing a curved glass plate having excellent surface properties.

  The manufacturing method of the glass curved plate which concerns on this invention comprises a glass flat plate arrangement | positioning process and a deformation | transformation process. In the glass flat plate arranging step, the glass flat plate is arranged on the arrangement surface of the torch having the arrangement surface including the curved surface portion so as to be inclined with respect to the horizontal. In the deformation step, the glass flat plate having a portion along the curved surface portion is obtained by softening the glass flat plate along the curved surface portion of the arrangement surface. The first ceramic paper containing ceramic fibers is in contact with the glass flat plate between the upper end portion of the glass flat plate arranged in the glass flat plate arranging step and the arrangement surface, and obtained by the deformation step. The first and second ceramic papers are arranged on the arrangement surface so that the second ceramic paper containing ceramic fibers is interposed between the glass curved plate and the arrangement surface in contact with the glass curved plate. Yes. The average fiber length of the ceramic fibers contained in the first ceramic paper is shorter than the average fiber length of the ceramic fibers contained in the second ceramic paper, and the bulk density of the first ceramic paper is the second ceramic. Higher than the bulk density of the paper.

  In the glass flat plate arranging step, the glass flat plate is preferably arranged so that the glass flat plate does not bite into the first ceramic paper.

  The glass plate preferably has a weight of 1.5 kg or more.

  In the deformation step, it is preferable that the upper end portion of the glass flat plate moves 100 mm or more on the arrangement surface.

  It is preferable that W / L is 4 kg / m or more, where W is the weight of the glass flat plate and L is the length of the portion of the glass flat plate in contact with the first ceramic paper.

  The average fiber length of the ceramic fibers contained in the first ceramic paper is preferably 0.75 times or less of the average fiber length of the ceramic fibers contained in the second ceramic paper.

  The bulk density of the first ceramic paper is preferably at least 1.25 times the bulk density of the second ceramic paper.

  In the glass flat plate arranging step, the glass flat plate is preferably arranged so that the inclination angle of the glass flat plate with respect to the horizontal direction is 5 ° to 45 °.

  In the ceramic paper arranging step, it is preferable that the second ceramic paper is arranged on the entire lower side of the glass flat plate arranged in the glass flat plate arranging step, and the first ceramic paper is arranged on the second ceramic paper. .

  You may further perform the process of crystallizing a glass curved plate after a deformation | transformation process.

  ADVANTAGE OF THE INVENTION According to this invention, the method which can manufacture the glass curved plate which has the outstanding surface property can be provided.

It is a typical side view for demonstrating the manufacturing process of the glass curved plate in one Embodiment of this invention. It is a typical top view of the glass flat plate in one Embodiment of this invention. It is a typical side view for demonstrating the manufacturing process of the glass curved plate in one Embodiment of this invention. It is a typical perspective view of the glass curved plate manufactured in one Embodiment of this invention. It is a photograph of the example in which the ceramic paper was wound under the glass curved plate.

  In the present embodiment, a method for manufacturing the curved glass plate 1 shown in FIG. 4 will be described with reference to FIGS.

  The curved glass plate 1 shown in FIG. 4 includes a portion having a circular cross-sectional shape. Specifically, the glass curved plate 1 has a circular cross-sectional shape as a whole. However, the present invention is not limited to this. The glass curved plate includes all glass plates at least partially provided in a curved plate shape. Therefore, the glass curved plate may include a curved plate portion and a flat plate portion. The cross-sectional shape of the curved plate portion may not be an arc shape. The cross-sectional shape of the curved plate portion may be, for example, an elliptical arc shape or a parabolic shape. The glass curved plate may include a plurality of curved plate portions having different curvature radii.

  The kind of glass which comprises the glass curved plate 1 is not specifically limited. The curved glass plate 1 may be made of glass that does not substantially contain crystals, or may be made of crystallized glass.

  First, as shown in FIG. 1, in the glass flat plate arranging step, the glass flat plate 30 is arranged on the arrangement surface 10 a of the torch 10 so as to be inclined with respect to the horizontal. The arrangement surface 10a includes a curved surface portion 10a1 and an extending portion 10a2. The curved surface portion 10 a 1 has a shape that matches the shape of the glass curved plate 1. In the present embodiment, since the entire cross-sectional shape of the glass curved plate 1 is an arc shape, the cross-sectional shape of the curved surface portion 10a1 is also an arc shape. An extending portion 10a2 is connected to one end of the curved surface portion 10a1. For example, the extending portion 10a2 may have a circular arc shape in cross section or a linear shape in cross section.

  The constituent material of the arrangement surface 10a is not particularly limited. The arrangement surface 10a can be made of, for example, ceramics such as alumina or silica, or heat resistant glass.

  A first ceramic paper 21 and a second ceramic paper 22 are arranged on the arrangement surface 10a. The second ceramic paper 22 is disposed on substantially the entire placement surface 10a.

  The first ceramic paper 21 is disposed on the peripheral region of the x2 side end in the x-axis direction (horizontal direction) of the arrangement surface 10a. In FIG. 1, the 1st ceramic paper 21 is distribute | arranged on the extension part 10a2. More specifically, the 1st ceramic paper 21 is distribute | arranged ranging over the extending part 10a2 and the X2 side upper end part of the torch 10. It is preferable that the first ceramic paper 21 is disposed across the extending portion 10a2 and the upper end portion on the X2 side of the torch 10 because the displacement of the first ceramic paper can be suppressed. The first ceramic paper 21 is arranged on the second ceramic paper 22 so as to overlap a part of the second ceramic paper 22. Therefore, the first and second ceramic papers 21 and 22 are laminated on the peripheral region of the end portion on the x2 side of the arrangement surface 10a.

  The first and second ceramic papers 21 and 22 include ceramic fibers made of a ceramic such as alumina or silica, for example. It is preferable that the 1st and 2nd ceramic papers 21 and 22 are the nonwoven fabrics of a ceramic fiber, for example. The first and second ceramic papers 21 and 22 may further contain a binder containing an organic compound. However, since the binder disappears in the deformation process described later, the first and second ceramic papers 21 and 22 do not contain the binder after being used for the production of the curved glass plate 1.

  The upper end portion 32 on the x2 side of the glass flat plate 30 is located above the lower end portion 31 on the x1 side, the lower end portion 31 on the x1 side of the glass flat plate 30 is located on the second ceramic paper 22, and the x2 side The glass flat plate 30 is placed such that the upper end portion 32 of the glass is positioned on the first ceramic paper 21. Accordingly, the first ceramic paper 21 is in contact with the glass flat plate 30 and interposed between the upper end portion 32 of the glass flat plate 30 arranged in the glass flat plate arranging step and the arrangement surface 10a.

  The glass flat plate 30 is a base material of the glass curved plate 1. Therefore, the glass flat plate 30 may be comprised with the same material as the glass curved plate 1, for example. When the glass curved plate 1 is a crystallized glass curved plate, the glass flat plate 30 may be made of crystalline glass.

  Next, a deformation process is performed. In the deformation step, the glass flat plate 30 is heated and softened. Then, the upper end 32 moves on the first and second ceramic papers 21 and 22 while the lower end 31 is fixed without moving, and as shown in FIG. The shape is deformed along the curved surface portion 10a1 of 10a. As a result, the curved glass plate 1 having a shape along the curved surface portion 10a1 is obtained. Between the glass curved plate 1 and the arrangement | positioning surface 10a, the 2nd ceramic paper 22 contacts the glass curved plate 1, and interposes. The first and second ceramic papers 21 and 22 are placed on the arrangement surface 10 a so that the entire convex surface of the glass curved plate 1 is in contact with the second ceramic paper 22 and is not in contact with the first ceramic paper 21. Arranged. In order to prevent the entire convex surface of the glass curved plate 1 from coming into contact with the first ceramic paper 21, it is preferable that the first ceramic paper 21 is disposed only in the extending portion 10a2.

  In addition, it is preferable that angle (theta) made by the arrange | positioned glass flat plate 30 and a horizontal direction is 5 degrees-45 degrees. By setting the angle θ to 5 ° or more, the movement of the lower end portion 31 can be more effectively regulated. However, since the torch 10 increases in size when the angle θ is too large, the angle θ is preferably 45 ° or less. A more preferable angle θ is 15 ° to 35 °.

  You may further perform the process of crystallizing the glass curved plate 1 after a deformation | transformation process. By doing so, the curved glass plate 1 made of crystallized glass can be obtained.

  By arranging the first and second ceramic papers 21 and 22 on the arrangement surface 10a as in the present embodiment, the fusion between the arrangement surface 10a and the glass curved plate 1 can be suppressed. . Therefore, it is easy to remove the glass curved plate 1 from the arrangement surface 10a.

  By the way, from the viewpoint of obtaining a glass curved plate having excellent surface properties, it is preferable to dispose a ceramic paper having an excellent buffer property with a long average fiber length and a low bulk density on the entire arrangement surface. . By doing so, the curved glass plate is hardly scratched due to contact with the ceramic paper.

  However, as a result of diligent research, the inventors have found that it is difficult to obtain a curved glass plate having excellent surface properties when a ceramic paper having a long average fiber length and a low bulk density is disposed on the entire arrangement surface. I found. The upper end of the glass flat plate is easily caught by ceramic paper having a long average fiber length and low bulk density, and the ceramic paper is easily pulled and deformed as the upper end of the glass flat plate moves during deformation. Depending on the case, the ceramic paper may be caught under the curved glass plate like a portion surrounded by a dotted line portion of the photograph shown in FIG. As a result, it was found that the shape accuracy and surface properties of the obtained glass curved plate deteriorate.

  On the other hand, in order to suppress the deformation of the ceramic paper, when ceramic paper with a short average fiber length and a high bulk density is arranged on the entire arrangement surface, the buffer property of the ceramic paper becomes low, and the glass curved plate It was found that the surface of the film was easily scratched.

  Therefore, in the present embodiment, a second ceramic paper having a relatively long average fiber length and a relatively low bulk density is provided below the curved glass plate 1, which is a portion where the entire curved glass plate 1 is in contact. 22 is distributed. On the other hand, the first ceramic paper 21 having a relatively short average fiber length and a relatively high bulk density is brought into contact with the upper end portion 32 of the glass flat plate 30. In the first ceramic paper 21 having a relatively short average fiber length and a relatively high bulk density, the upper end portion 32 is not easily caught in the deformation process, and the upper end portion 32 smoothly moves on the first ceramic paper 21. It becomes easy to slide. Therefore, the movement of the upper end portion 32 can suppress undesired deformation of the glass flat plate 30 and deterioration of the surface properties due to the first ceramic paper 21 being caught. Moreover, between the convex surface of the glass curved plate 1 which is the part which the whole glass curved plate 1 contacts, and one blade surface, the average fiber length was relatively long and the bulk density was excellent in the buffer property relatively low. The second ceramic paper 22 is arranged so as to contact the curved glass plate 1. Therefore, when the 2nd ceramic paper 22 and the glass curved plate 1 contact, the glass curved plate 1 is hard to be scratched. Therefore, according to the manufacturing method of the present embodiment, the curved glass plate 1 having excellent surface properties can be manufactured with high shape accuracy.

  From the viewpoint of more effectively suppressing the entrainment of the first ceramic paper 21, the glass flat plate 30 is arranged so that the upper end portion 32 of the glass flat plate 30 does not bite into the first ceramic paper 21 in the glass flat plate arranging step. It is preferable. Here, the upper end portion 32 of the glass flat plate 30 does not bite into the first ceramic paper 21 is that the thickness of the portion in contact with the upper end portion 32 of the first ceramic paper 21 is 0 of the thickness of the both side portions. .75 times or more.

  From the viewpoint of more effectively suppressing the deformation and biting of the first ceramic paper 21 and more effectively suppressing the glass curved plate 1 from being scratched by contact with the second ceramic paper 22, The average fiber length of the ceramic fibers contained in one ceramic paper 21 is preferably not more than 0.75 times the average fiber length of the ceramic fibers contained in the second ceramic paper 22, and is not more than 0.5 times. It is more preferable.

  Specifically, the average fiber length of the ceramic fibers contained in the first ceramic paper 21 is preferably 7 mm or less, and more preferably 6 mm or less. The average fiber length of the ceramic fibers contained in the second ceramic paper 22 is preferably 8 mm or more, and more preferably 10 mm or more.

  The bulk density of the first ceramic paper 21 is preferably 1.25 times or more, more preferably 1.35 times or more of the bulk density of the second ceramic paper 22.

Specifically, the bulk density of the first ceramic paper 21 is preferably 0.24~0.28g / cm ^3, more preferably 0.25~0.27g / cm ^3. The bulk density of the second ceramic paper 22 is preferably 0.16~0.22g / cm ^3, more preferably 0.18~0.20g / cm ^3.

  From the viewpoint of suppressing the second ceramic paper 22 from being caught when the glass flat plate 30 is deformed, it is preferable to dispose the second ceramic paper 22 below the first ceramic paper 21. Specifically, in the ceramic paper arranging step, when the glass flat plate 30 arranged in the glass flat plate arranging step is softened and deformed to become the glass curved plate 1, the glass curved plate 1 is a portion that comes into contact with glass. It is preferable to arrange the second ceramic paper 22 on the entire lower side of the flat plate 30 and arrange the first ceramic paper 21 on the second ceramic paper 22.

  The problem of deformation or entrainment of the ceramic paper and the problem of scratching the glass flat plate are likely to occur when the glass flat plate 30 is heavy. Moreover, the said problem is easy to arise, so that the moving distance of the upper end part 32 of the glass flat plate 30 is long. Moreover, the above-mentioned problem is more likely to occur as the weight per unit area applied to the first ceramic paper 21 by the upper end 32 is larger. Therefore, the manufacturing method of the present embodiment is particularly suitable when the weight of the glass flat plate 30 is 1.5 kg or more, and further 3 kg or more. In the deformation step, it is particularly suitable when the upper end portion 32 of the glass flat plate 30 moves on the arrangement surface 10a by 100 mm or more, further 150 mm or more. When the weight of the glass plate 30 is W (g) and the length of the portion of the glass plate 30 in contact with the first ceramic paper 21 is L (m), W / L is 4 kg / m or more, and further 6 kg. / M or more is particularly suitable.

(Example)
A curved glass plate was produced by the method described in the above embodiment under the following conditions. As a result, the entrainment of the first ceramic paper (alumina paper) was not observed, and no scratch was observed on the surface of the obtained glass curved plate.

Glass flat plate: Glass plate made of Neoceram manufactured by Nippon Electric Glass Co., Ltd. (thickness: 4.0 mm, width (L): 420 mm, length: 432 mm, weight (W): 1.8 kg, W / L: 4.2 kg / m )
Glass curved plate: Arc shape with a curvature radius of about 229 mm as a whole. First ceramic paper: Ibi wool (alumina paper) manufactured by Ibiden, average fiber length: 6.7 mm, bulk density: 0.26 g / cm 3, thickness: 1. 0 mm.

  Second ceramic paper: alumina paper manufactured by Tanaka Paper Industries Co., Ltd. (product number: TAP-L), average fiber length: 10.0 mm, bulk density: 0.19 g / cm 3, thickness: 1.0 mm.

(Comparative Example 1)
A curved glass plate was produced in the same manner as in the example except that only the same alumina paper as that used as the first ceramic paper in the above example was provided on the entire arrangement surface. As a result, although no deformation or entrainment of the ceramic paper was observed, scratches were observed on the surface of the obtained glass curved plate.

(Comparative Example 2)
A curved glass plate was produced in the same manner as in the example except that only the same alumina paper as that used as the second ceramic paper in the above example was provided on the entire arrangement surface. As a result, although no scratch was observed on the surface of the obtained curved glass plate, deformation or entrainment of the ceramic paper was observed, and a curved glass plate having a desired shape was not obtained.

DESCRIPTION OF SYMBOLS 1 ... Glass curved plate 10 ... Tochi 10a ... Arrangement surface 10a1 ... Curved surface part 10a2 ... Extension part 21 ... 1st ceramic paper 22 ... 2nd ceramic paper 30 ... Glass flat plate 31 ... Lower end part 32 ... Upper end part

Claims (10)

A glass flat plate arranging step for arranging the glass flat plate so as to be inclined with respect to the horizontal on the arrangement surface of the torch having the arrangement surface including the curved surface portion,
Deformation step of obtaining a glass curved plate having a portion along the curved surface by softening the glass flat plate and along the curved surface of the arrangement surface;
With
In the glass flat plate arranging step, the first ceramic paper containing ceramic fibers is interposed between the upper end portion of the arranged glass flat plate and the arrangement surface so as to be in contact with the glass flat plate, and the deformation The first and second ceramic papers are interposed between the glass curved plate obtained by the process and the arrangement surface so that a second ceramic paper containing ceramic fibers is in contact with the glass curved plate. Is arranged on the arrangement surface,
The average fiber length of the ceramic fibers contained in the first ceramic paper is shorter than the average fiber length of the ceramic fibers contained in the second ceramic paper, and the bulk density of the first ceramic paper is The manufacturing method of a glass curved plate higher than the bulk density of a 2nd ceramic paper.   The manufacturing method of the glass curved plate of Claim 1 which arrange | positions the said glass flat plate so that the said glass flat plate may not bite into the said 1st ceramic paper in the said glass flat plate arrangement | positioning process.   The manufacturing method of the glass curved plate of Claim 1 or 2 whose weight of the said glass flat plate is 1.5 kg or more.   The manufacturing method of the glass curved plate as described in any one of Claims 1-3 in which the upper end part of the said glass flat plate moves 100 mm or more on the said arrangement | positioning surface in the said deformation | transformation process.   5. The W / L is 4 kg / m or more, where W is the weight of the glass flat plate and L is the length of the portion of the glass flat plate in contact with the first ceramic paper. The manufacturing method of the glass curved plate as described in one term.   The average fiber length of the ceramic fibers contained in the first ceramic paper is not more than 0.75 times the average fiber length of the ceramic fibers contained in the second ceramic paper. The manufacturing method of the glass curved plate as described in a term.   The manufacturing method of the glass curved plate as described in any one of Claims 1-6 whose bulk density of a said 1st ceramic paper is 1.25 times or more of the bulk density of a said 2nd ceramic paper.   In the said glass flat plate arrangement | positioning process, the said glass flat plate is arrange | positioned so that the inclination | tilt angle with respect to the horizontal direction of the said glass flat plate may be 5 degrees-45 degrees. Production method.   In the ceramic paper arranging step, the second ceramic paper is arranged on the entire lower side of the glass flat plate arranged in the glass flat plate arranging step, and the first ceramic paper is arranged on the second ceramic paper. The manufacturing method of the glass curved plate as described in any one of Claims 1-8 arrange | positioned.   The manufacturing method of the glass curved plate as described in any one of Claims 1-9 further equipped with the process of crystallizing the said glass curved plate after the said deformation | transformation process.