JPH0234575A - Production of glazed and extruded hollow ceramic plate sealed in end surface - Google Patents

Abstract

PURPOSE:To efficiently produce a glazed and extruded hollow ceramic plate sealed in the end surface which is available as building material by sealing the end surface with the same-quality material as an extruded hollow member, melting and temporarily bonding them and thereafter glazing and calcining this connected body. CONSTITUTION:A hollow member 1 which is made of ceramic material and has the hollow parts 2 is extrusion-molded, dried and calcined. A sealing member such as a plug and a blind patch which is capable of sealing the hollow parts 2 of the hollow member 1 by the same-quality ceramic material as the material of this extrusion-molded article is molded, dried and calcined and thereby produced. Then the sealing member is allowed to abut against the aperture parts of the hollow member 1 to seal the hollow parts 2 and also the abutted parts of both members are heated and melted by laser and electron beams, etc., or temporarily bonded by plasma thermal spraying and flame thermal spraying. Thereafter the glazed and extruded hollow ceramic plate sealed in the end surface is obtained by glazing the connected body and performing normal calcination (ordinarily at 1100-1200 deg.C for 10-30 minutes).

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a method for manufacturing a glazed extruded hollow ceramic plate with sealed end faces, and particularly relates to a method of manufacturing a glazed extruded hollow ceramic plate with sealed end faces that is useful as various building materials. The present invention relates to a method for efficiently manufacturing extruded hollow ceramic plates.

[Prior Art] Conventionally, an extruded hollow member 1 in which a hollow portion 2 as shown in FIG. 6 is formed, which is manufactured by extrusion molding of a ceramic material such as concrete, has been provided. It is widely used as a building material such as wall material.

[Problems to be Solved by the Invention] In the extruded hollow member 1, the cut end surface 3 perpendicular to the extrusion direction X is not subjected to any machining or finishing treatment.

For this reason, when using conventional extruded hollow members as building materials, etc., it is necessary to close the joints with caulking material, sealant, etc. to make the hollow part invisible during construction, and the construction work is not easy. There is. Furthermore, if the caulking, sealing, and other operations are incomplete, there is a problem in that the extruded hollow member is likely to deteriorate due to rainwater or the like entering the hollow portion.

[Means for Solving the Problems] The method of manufacturing a glazed extruded hollow ceramic plate with sealed end faces of the present invention comprises a calcined extruded ceramic hollow member and a material of the same quality as the extruded hollow member, A calcined ceramic sealing member that seals at least the hollow portion of the end face of the extruded hollow member is temporarily bonded by melting or spraying the abutting portions of both members, and then glazing and firing is performed to join both members. It is characterized by

Hereinafter, the present invention will be described in detail with reference to the drawings.

In the present invention, first, an extruded hollow member 1 having a hollow portion 2 as shown in FIG. 6 is extruded from a ceramic material, and this extruded product is dried and calcined. In addition,
For convenience of explanation, in the extruded hollow member shown in FIG.
A is called an upper plate, 1b is called a lower plate, IC11d is called a side plate, and 2a is called a partition plate.

Further, a sealing member capable of sealing the hollow portion 2 of the hollow member 1 is manufactured by molding, drying, and calcining using a ceramic material of the same quality as the material of this extrusion molded product. The conditions for calcination of the above-mentioned hollow member and sealing member vary depending on their constituent materials, but in normal cases, the calcination conditions are 900 to 1150°C for 1
About 0 to 30 minutes.

Next, a sealing member is brought into contact with the opening of the hollow member 1 to seal the hollow portion 2, and the contact portions of both members are temporarily bonded by heating and melting or melting. Examples of heating and melting means include a laser or an electron beam. At this time, in order to increase the strength of temporary bonding, a frit or the like made of the same raw material as the ceramic material constituting the hollow member and the sealing member may be applied in advance to the joint portion and heated and melted. Furthermore, examples of the thermal spraying means include plasma spraying, flame spraying, and the like. According to such heating melting or spraying, both members can be temporarily bonded extremely efficiently and with high strength.

In the present invention, as a method for sealing the hollow portion 2 of the hollow member 1, the following methods (1) to (4) can be adopted.

(2) A plug-like member 4 that can fit into each hollow part 2 of the extruded hollow member 1 is fitted and sealed.

(FIG. 1) (1) Seal the end surface of the extruded hollow member 1 using a blind plate 5 that covers the entire surface of the end surface 3. (Fig. 2) ■ The end faces of the extruded hollow member 1 are processed in advance to form ICs on both sides.
11d and the partition plate 2a are cut to form a fitting substitute for the blind plate 6, and the blind plate 6 is fitted to seal the end face. (Fig. 3) ■ The end face of the extruded hollow member 1 is processed in advance to form the upper plate 1a,
The both side plates IC11d and the partition plate 2a are cut, leaving only the lower plate 1b to form a mounting allowance m for the blind plate 7, and the blind plate 7 is placed on this portion and temporarily bonded to seal the end face. (Fig. 4) ■ The end face of the extruded hollow member 1 is processed in advance, the partition plate 2a is cut, a fitting allowance n for the blind plate 8 is formed, and the blind plate 8 is fitted and temporarily bonded to seal the end face. Stop. (Fig. 5) Of the methods ① to ② above, processing of the end face is easy, and
Method (2) is preferred because the blind plate is difficult to fall off during glazing and firing in the subsequent steps. Note that the method for sealing the hollow portion of the end face of the hollow extruded member is not limited to the methods (1) to (4) above.

After joining the calcined hollow member and the sealing member in this way, at least the front surface (earthen plate), preferably the front surface and side surfaces (top plate, side plate, and sealing end surface) of the joined body are glazed.
Perform final firing. Note that glazing may be applied to the entire surface of the joined body. As the glaze used for glazing, it is possible to use ordinary glazes for ceramic materials such as frit glazes and raw glazes.

The main firing conditions after glazing are appropriately determined depending on the type of ceramic material of the hollow member and the sealing member, the type of glaze, and the like. Normally, the main firing conditions are a temperature of 1100 to 1200°C for about 10 to 30 minutes.

In the method of the present invention, there is no particular restriction on the ceramic material constituting the hollow member and the sealing member. Can be applied.

In addition, in the present invention, the surface to be sealed with the sealing member may be one end surface or both end surfaces of the hollow member. When sealing both end faces, in order to prevent product defects due to high pressure inside the sealed hollow during the final firing after sealing, air holes communicating with each hollow are prepared in advance. It is preferable to make one or more holes in the upper or lower plate of the hollow member or the sealing member.

[Function] In the method of manufacturing a glazed extruded hollow ceramic plate with sealed end surfaces according to the present invention, the calcined hollow member and the sealing member are temporarily bonded, glazed, and finally fired.

Therefore, it is possible to efficiently manufacture an end face sealed hollow member with good dimensional accuracy such as a sealed portion.

That is, when the molded products of the hollow member and the sealing member before calcination are joined together and then subjected to calcination and main sintering, it takes time to dry before sintering, resulting in poor production efficiency. The dimensions of the sealing part may change slightly and the sealing state of the sealing part may not be sufficient.

On the other hand, when bonding the hollow member and the sealing member after calcination and final calcination, sufficient adhesive strength cannot be obtained.

On the other hand, according to the method of the present invention, by temporarily bonding the calcined hollow member and the calcined sealing member, and then performing glazing and final firing,
It is possible to efficiently produce a product that has good dimensional accuracy at the joint between the two members, high joint strength, and a beautiful glazed surface. In the present invention, melting or thermal spraying is employed for temporary bonding between the calcined hollow member and the calcined hollow member.
Temporary bonding can be performed efficiently and with high bonding strength, and an end face sealing member sealed with high bonding strength can be obtained.

[Example] The present invention will be described in more detail with reference to Examples below.

Example 1 The end face of an extruded hollow member (materials: calcium silicate and clay) 1 having the shape shown in FIG. 3, which had been previously calcined at 1000° C. for 30 minutes, was processed as shown in FIG. 3 to form a fitting margin 1. did. Next, a blind plate 6 made of the same material and calcined at 1000°C for 30 minutes and having the shape shown in FIG. 3 was fitted into the fitting margin 1, and a CO2 laser was irradiated along the dotted line A in FIG. .

The focus of the laser was on the surface of the hollow member. The laser irradiation melted the portion near the joint surface between the extruded hollow member 1 and the blind plate 6, and the extruded hollow member 1 and the blind plate 6 were temporarily bonded.

Next, after polishing the end faces, glaze was applied to the front face and side faces (upper plate, side plate, and sealed end face), and main firing was performed at 1150° C. for 30 minutes. Note that SK 04a glaze was used as the glaze.

As a result, a beautiful, lightweight, and high-strength hollow member with end-sealed glaze was obtained.

Example 2 A glazed extruded hollow ceramic plate was produced in the same manner as in Example 1, except that the end face of the extruded hollow member 1 was sealed by the method shown in FIG. The laser beam was applied to the joint between the extruded hollow member 1 and the blind plate 8 (on line B in FIG. 5), thereby melting the joint interface between the extruded hollow member 1 and the blind plate 6. As a result, an extremely beautiful, lightweight, and high-strength end-face-sealed hollow member was obtained.

Example 3 A glazed extruded hollow ceramic plate was produced in the same manner as in Example 2, except that temporary melting and bonding was performed using an electron beam instead of a laser beam. Note that the electron beam is
The voltage was 25kV, the current was 18mA, and the welding speed was 5cm/
It was set to min. As a result, an extremely beautiful, lightweight, and high-strength end-face-sealed hollow member was obtained.

Example 4 A glazed extruded hollow ceramic plate was produced in the same manner as in Example 2, except that instead of using a laser beam, the laser irradiation area B was subjected to plasma spraying using a plasma gun. The powder to be sprayed was obtained by pulverizing the ceramic material of the hollow member into 300 mesh or less.

As a result, a similarly beautiful, lightweight, and high-strength end-face sealed glazed hollow member was obtained.

[Effects of the Invention] As detailed above, according to the method of manufacturing a glazed extruded hollow ceramic plate with sealed end faces of the present invention, the end face has good adhesion and high bonding strength, which is extremely useful as various building materials. The end face-sealed glazed hollow member can be manufactured efficiently and industrially advantageously.

Since the extruded glazed hollow ceramic plate produced by the method of the present invention has its end faces sealed, there is no need to treat the hollow part for caulking or sealing during construction, which facilitates the construction work. Furthermore, since water is reliably prevented from entering the inside, corrosion and deterioration from inside the member can be prevented.

The glazed extruded hollow ceramic plate produced by the method of the present invention has excellent appearance because it is glazed. Also, by creating deep joints during construction, a finished surface with a solid feel can be obtained.

[Brief explanation of the drawing]

Each of FIGS. 1 to 5 is a perspective view illustrating an embodiment of the method of the present invention, and FIG. 6 is a perspective view of an extruded hollow member. DESCRIPTION OF SYMBOLS 1... Extruded hollow member, 2... Hollow part, 4... Plug-shaped member, 5.6.7.8... Blind plate.

Claims (1)

[Claims] (1) A calcined ceramic extruded hollow member and a calcined ceramic sealing member that is made of the same material as the extruded hollow member and seals at least the hollow portion of the end face of the extruded hollow member. A method for producing a glazed extruded hollow ceramic plate with sealed end faces, characterized in that the abutting portions are temporarily bonded by melting or spraying, and then the two members are bonded by firing after glazing.