JPH0569127U - Electric heating device - Google Patents

Abstract

(57) [Summary] [Structure] Heat-resistant heat-generating portion, ceramic board portion having the heat-resistant heat-generating portion attached to the lower surface, heat-insulating supporting water pipe portion supporting the ceramic board, and heat-insulating supporting water pipe. An electrothermal heating device comprising: a supporting member capable of moving and fixing the portion, and cooling a lead wire portion connected to the heat-resistant heating element portion. [Effect] For example, in a tin bath, workability can be quickly and flexibly variously performed, and in particular, the glass ribbon can be locally and mildly heated with high thermal efficiency, and the plate thickness distribution is significantly improved, and the specified plate The plate width within the thickness can be remarkably expanded, stable operation can be performed without trouble, and defects such as reduction of knurl marks and suppression of various falling objects can be prevented, leading to improvement of product yield, and further heating by electroheating The maintenance of the device itself is easy, and it can also be used as an auxiliary device against deterioration of the existing heater.

Description

[Detailed description of the device]

[0001]

[Industrial application]

The present invention is particularly suitable for a high temperature atmosphere of about 1100 ° C to about 700 ° C and a reducing atmosphere composed of a mixed gas of H ₂ gas and N ₂ gas, such as a float. A so-called tin bath in which molten glass is supplied onto a molten metal bath in a glass plate manufacturing method to produce sheet glass, which is useful as a heating means for controlling the temperature of a specific area on a glass ribbon in which the molten glass is flattened. Which is an electric heating device.

[0002]

[Prior Art]

 In the tin bath described above, a convection adjusting member such as a barrier is used along the side wall of the molten metal bath so that the molten metal flow is diverted from the entrainment action of the glass ribbon, and a linear induction motor is used. Various attempts have been made to control the temperature of the molten metal by applying or immersing an electric heater.

Among them, for controlling the temperature of the molten metal, for example, Japanese Patent Publication No. 55-46976 discloses an electric heater, which is used for manufacturing flat glass on a molten metal tank. In an electric heater equipped with a carbon heating element, mounted on an electrically insulating support in a substantially closed elongated tank, the heating element is placed inside an elongated box and these heating elements are It is disclosed and known to extend to the outside of the box through an insulating support so that the box is hermetically sealed by a carbon lid.

[0004]

[Problems to be solved by the device]

 As described above, for example, the electric heater disclosed in Japanese Patent Publication No. 55-46976 has a magnificent design that can withstand the harsh conditions of the surroundings. A box which is placed in a bath of molten metal to heat a local part or is placed in the bath to heat a flow of molten metal at a specific location, for which a box is specially hermetically sealed, In particular, it was decided to use a carbon box, and the category of indirect heating through molten metal and the treatment of the temperature of the tank surface, that is, the temperature across the entire width of the glass ribbon, should be as uniform as possible. Therefore, it is difficult to say that it is efficient, for example, it can be said that it replaces the linear induction motor or is merely a supplementary means.

[0005]

[Means for solving problems]

 The present invention has been made in view of the above-mentioned problems, and directly and efficiently heats a portion with insufficient heat in the atmosphere in the tin bath to obtain the temperature balance of the glass ribbon itself and the flat glass. Especially, the thickness distribution of thin glass, especially the thickness in the width direction can be made uniform, and it can be freely inserted not only in the existing tin bath but also in a new one by inserting it appropriately at various places of the tin bath. It provides a simple electric heating device.

That is, the present invention is directed to a heat-resistant heating element portion, a ceramic board portion having the heat-resistant heating element portion attached to the lower surface, a heat insulating support water pipe portion for supporting the ceramic board, and the heat insulating support. The present invention provides an electrothermal heating device comprising a support tool capable of moving and fixing a water tube part, and cooling a lead wire part connected to the heat resistant heat generating part.

In the heat-resistant heating element portion, for example, Cr is about 22%, Al is about 5.8%, and the remaining amount is Fe. It has a very high heat resistance temperature, for example, about 1400 ° C, and the amount of deflection when used at high temperatures is extremely small. The heat generation amount of the heat generating element is preferably about 30 to 70 kw / h, for example, in view of the thickness of the transmission cable wire or the area load of the heat generating surface. Regarding the arrangement of the heating elements of the coiled wire, for example, it is preferable that the heating elements are appropriately hung in the holes of the ceramic board portion with a suspender and an insulating material interposed at intervals in a vertical line. is there. Further, the hanging interval is preferably about 70 mm or less in terms of work, and it is preferable that the holes are ventilated without sealing.

The ceramic board part has a composition of, for example, Al ₂ O _{3 of} about 65% and SiO _{2 of} about 35%, and has a heat shrinkage of about 950 ° C. so that the heat shrinkage is about 1.8%. Calcination for about 3 hours is preferable in terms of the mounting relationship between the heat-resistant heat-generating body portion and the adiabatic support water pipe portion. The density is about 0.5 g / cm ³ , and the bending strength is about 6.8 to 7.5 Kg / m ² (1200 ° C), and it is preferable that it can endure without deformation at the operating temperature of about 1300 ° C. . Therefore, it is needless to say that any material having heat resistance, deformation resistance, insulation and the like similar to the ceramic board can be used and is preferable.

[0009] Furthermore, it is necessary to cool the lead wire portion connected to the heat-resistant heat generating portion because, on the one hand, the lead wire portion connected to the cable wire from the power source is made of, for example, SUS310S. For example, by cooling by purging or blowing N ₂ gas, for example, to prevent melting damage due to the heat of heat and heat transfer from the atmosphere inside the bath, and at the same time to enhance the sealing effect inside the bath. Is. It is preferable that the lead wire portion is stopped at one place, and furthermore, even if the ceramic board portion is damaged, for example, it is supported by the lead wire portion so as not to fall into the bus. When the lead wire portion is taken out, the inside of the lead wire cover box is separated for each wire and is protected by a silicon tube or sheet, a heat resistant fiber band or a cord.

Furthermore, regarding the heat-insulating supporting water pipe portion, for example, a heat-resistant fiber felt and a twist rope are wound around the outer surface of the water pipe, and a fiber cast is further applied to the surface to insulate heat and water droplets. U-shaped tube is preferable as the shape. Needless to say, it is more preferable to reduce the heat of depreciation as much as possible.

Further, as the support tool capable of movably fixing the heat insulating support water pipe portion, for example, a trolley that can fix the heat insulating support water pipe portion movably, for example, on the outside of the tin bath, to move it in and out and adjust it. This is due to the suspension structure that uses moving rails. The adiabatic support water pipe portion is preferably arranged in the seal box portion of the side wall portion of the tin bath, and the range of movement and the like is not particularly limited, but in particular, sheet glass molding, It is particularly effective when used in the area where the plate thickness is formed.

[0012]

[Action]

 As mentioned above, by adopting the electrothermal heating device of the present invention to, for example, a tin bath, it is possible to heat a required area locally and mildly from a distance closer to the glass ribbon than a roof heater. It is possible to achieve the same effect as before with a smaller amount of power than before, and it is possible to improve thermal efficiency that has never been seen before.

In addition, for example, when manufacturing thin glass, it is possible to prevent the thickness of both side portions of the glass ribbon from becoming thick, and it is possible to reduce the thickness. The plate width within the plate thickness is significantly expanded, and further, for example, the profile of the glass ribbon is prevented from being easily deformed and deformed due to the temperature drop of the molten metal in the tin bath due to the lack of heat during the production of thin glass. Without this, stable operation will be possible.

Furthermore, by using this device, when trying to maintain the same glass ribbon width in the tin bath, it is possible to raise the temperature of both side regions of the glass ribbon as compared with the case where this device is not used, and the viscosity of the glass is increased. The knurl pressure of the so-called top roll that holds both ends of the glass ribbon can be weakened, and the knurl mark on the glass ribbon can be reduced to suppress the optical influence on the glass, and the trace can be reduced. It is possible to prevent tin from getting caught in the product, and to prevent defects such as various falling objects from the ceiling heater, etc. and to catch them with this device.This will prevent operation trouble and improve product yield. .

Furthermore, by appropriately selecting various dimensions such as the width of the present apparatus and using the apparatus between the above-mentioned top rolls or the ceiling heater area, it is possible to reinforce the lack of heat due to the deterioration of the ceiling heater, and to operate it. It can contribute to further stabilization.

[0016]

【Example】

 Hereinafter, the present invention will be described in detail with reference to the drawings. However, the present invention is not limited to the embodiment.

FIG. 1 is a side cross-sectional view of one side portion of the electrothermal heating device of the present invention when a pair of electrothermal heating devices of the present invention are set on both sides in an upstream space of a tin bath in the production of float glass. 1 is a heat-resistant heating element 2 having a heat-resistant output capacity of about 50 kw / h which is coiled with a specific composition, and the heat-resistant heating element 2 is attached to the lower surface side in a peculiar manner so as to prevent deflection. , A heat- and deformation-resistant ceramic board portion 3 having unique physical properties, a U-shaped U-shaped heat-insulating support water pipe portion 4 for supporting the ceramic board portion 3 and a unique protective layer, and the heat-insulating support A lead wire made of SUS310S, which is composed of a dolly 12 which is a support that can move and fix the water pipe 4 freely, and which is connected to the heat-resistant heating element 2 and a cable wire 14 connected to a power supply and a control device (not shown) 13, for example, N ₂ gas In order to take out the lead wire part, separate the inside of the lead wire cover box 15 for each wire and protect it with a silicon tube or sheet, heat resistant fiber band or string. Therefore, the electrothermal heating is controlled by a control device.

[0018] The electric heating device 1 of the present invention from the opening of Shirubo' box portion of the side wall 9 of Tinbasu 5, the tub formed in an upstream space and Basubotomu 8 and the sidewalls 9 and the carbon block 11 in Tinbasu 5 The carriage 12 is moved into the tin bath 5 so that the heat-resistant heating element 2 can locally and mildly heat the molten metal 6 in the side area of the glass ribbon 7 and over the ears. It is set by inserting and arranging and sealing with the sealing material 10.

FIG. 2 is an electric heating device of the present invention which is set as shown in FIG. 1 from the lower direction, a plan view partially enlarged viewed heating element portion of the lower surface, in the electric heating device 1, An example of the combination of the heat-insulating supporting water pipe part 4 which is the U-shaped tube, the ceramic board part 3, and the heat-resistant coiled heating element part arranged on the ceramic board part 3. It is shown.

As described above with reference to FIGS. 1 and 2, FIG. 3 shows a pair of left and right side regions on the glass ribbon in the upstream space of the tin bath and at intervals on the glass ribbon. FIG. 3 is a partially enlarged plan view showing an example in which one of the electrothermal heating devices of the present invention is arranged so that each of them is arranged.

In a tin bath of a normal float glass plate, molten glass 16 is supplied by flowing over a lip tile from a glass melting kiln side (not shown), and flows onto the bath surface of the molten metal 6 in the tin bath 5 while spreading. The flat glass ribbon 7 is formed with a peculiar profile, and while the glass ribbon 7 advances on the bath surface of the molten metal 6, the stretching force is generated by the pulling force of a transport roll (not shown) provided outside the tin bath 5 on the downstream side. In response to this, the plate width is gradually narrowed and the plate thickness is drawn thin so that the glass ribbon 7 becomes a plate glass, and the electric heating device 1 of the present invention is installed in the upstream space in the tin bath 5 and in the glass. One pair is arranged on each of the left and right side regions on the glass ribbon 7 at a distance from each other so as to form a pair.

It is needless to say that the electrothermal heating device of the present invention can be appropriately arranged and used in various places in the tin bath. FIG. 4 shows one of the results of the electrothermal heating device of the present invention. As described above with reference to FIGS. 1 to 3, for example, when manufacturing a product sheet glass having a sheet thickness of about 1 mm, The thickness distribution of the sheet glass in the plate width direction before and after using the electric heating device of the present invention is shown. In the figure, the broken line curve I is before use of the electric heating device of the present invention, and the solid line curve II is of the electric heating device of the present invention. It is the result after use.

That is, the use of the electric heating device of the present invention results in an increase in the plate width within the specified plate thickness, and the ratio of the plate width to the total plate width is, for example, 64 to 67% before and after the use. It was possible to obtain an improvement of about 10% or more, from about 75 to 78%, which was a remarkable result.

[0024]

[Effect of the device]

 As described above, according to the present invention, by using an electrothermal heating device having a unique material and a simple structure that is specified, it is possible to perform various operations with good workability and speed in a tin bath, for example. In particular, the glass ribbon can be heated locally and mildly with high thermal efficiency, the plate thickness distribution is significantly improved, and the plate width within the specified plate thickness can be significantly expanded, ensuring stable operation without trouble. In addition, it reduces defects such as reduction of knurl marks and control of various falling objects, which leads to improvement of product yield, maintenance of the electric heating device itself is easy, and deterioration of existing heaters is prevented. It is intended to provide a useful electric heating device that can be used as an auxiliary device.

[Brief description of drawings]

FIG. 1 is a partially enlarged side cross-sectional view when an electrothermal heating device of the present invention is set in one side portion in a tin bath upstream space portion in the production of a float glass sheet.

FIG. 2 is a partially enlarged plan view of the heating element portion on the lower surface of the electrothermal heating device of the present invention viewed from the lower side.

[Fig. 3] Fig. 3 is a view showing a case where the electrothermal heating device of the present invention is arranged in the upstream space of the tin bath at a distance from the glass ribbon, one pair each on the left and right side regions on the glass ribbon. It is a partially enlarged plan view showing an example.

FIG. 4 shows one of the achievements of the electrothermal heating device of the present invention, showing the plate thickness distribution in the plate width direction of the sheet glass before and after using the electrothermal heating device of the present invention, in which the broken line curve I indicates the electrothermal heating device. Before use, the solid curve II shows after using the electrothermal heating device.

[Explanation of symbols] 1 electric heating device 2 heating element part 3 ceramic board part 4 adiabatic support water pipe part 5 tin bath 6 molten metal 7 glass ribbon

Claims (1)

[Scope of utility model registration request] 1. A heat-resistant heating element portion, a ceramic board portion having the heat-resistant heating element portion attached to a lower surface side, an adiabatic support water pipe portion supporting the ceramic board, and the adiabatic support water pipe portion being moved and fixed. An electrothermal heating device comprising a supporting member that can be freely rotated, and a lead wire portion that is connected to the heat-resistant heating element portion is cooled.