JPH04309709A - Air-cooled plate of incinerator - Google Patents

Abstract

PURPOSE:To provide an air-cooled plate for an incinerator capable of preventing adhesion of clinker and not being cracked by an internal stress caused by a difference in thermal expansion. CONSTITUTION:A plurality of ceramic plates 3 disposed to cover a surface of a metallic substrate 2 are installed with an adhesive filler 7 being filled between the ceramic plates 3 and the metallic substrate 2. The ceramic plates 3 are fixed to the metallic substrate 2 by an engaging means.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an air cooling plate for an incinerator, which is provided to cover the inner wall of an incinerator.

0002

2. Description of the Related Art In recent years, the amount of paper contained in garbage has increased, and the amount of heat (calories) that garbage has has also increased. For this reason, the temperature inside the incinerator becomes high, and the molten ash (
There was a problem that proper combustion was inhibited by adhesion of clinker. As a countermeasure to this problem, conventionally, the furnace wall is constructed with an iron-based air-cooled plate, and the back side of the furnace wall is air-cooled to prevent clinker from adhering to the furnace wall. Furthermore, iron-based air-cooled plates have a problem in that the surfaces exposed to high-temperature combustion gas corrode due to high-temperature oxidation, so the air-cooled plates are made of ceramic material to prevent corrosion.

0003

[Problems to be Solved by the Invention] However, in the conventional configuration described above, when the air-cooled plate is formed of ceramic material, the front side exposed to high-temperature combustion gas and the back side exposed to cooling air are separated. There was a problem that internal stress was generated in the air-cooled plate due to the difference in thermal expansion caused by the temperature difference, causing it to split.

[0004] The present invention solves the above problems, and aims to provide an air-cooled plate for an incinerator that can prevent clinker from adhering to the plate and will not crack due to internal stress caused by differences in thermal expansion. shall be.

[0005]

[Means for Solving the Problems] In order to solve the above problems, an air-cooled plate for an incinerator according to the present invention includes a plurality of ceramic plates arranged to cover the surface of a metal substrate, and a ceramic plate and a metal substrate. In addition to filling and providing an adhesive filler between the gaps and between each ceramic plate,
The ceramic plate is fixed to the metal substrate by engagement means.

[0006]

[Function] In the above configuration, the heat applied to the ceramic plate by high-temperature combustion gas is conducted to the metal substrate via the adhesive filler, and the cooling air cools the metal substrate, so that the cooling effect of the cooling air is This cooling effect prevents clinker from adhering to the surface of the ceramic plate.

[0007] Furthermore, the plurality of ceramic plates and the adhesive filler filled in the joints between the ceramic plates cover the surface of the metal substrate, thereby preventing oxidation corrosion of the metal substrate as a structure.

[0008] A difference in thermal expansion occurs between the ceramic plate exposed to high temperature combustion gas and the metal substrate exposed to cooling air. At this time, the adhesive filler interposed between the ceramic plate and the metal substrate and between each ceramic plate acts as a buffer material to alleviate thermal distortion, thereby preventing damage to the ceramic plate and metal substrate due to thermal distortion. . Furthermore, by dividing the ceramic plate into a plurality of parts, thermal strain in each ceramic plate is reduced, thereby preventing the ceramic plate itself from splitting.

[0009] Even if the ceramic plate splits, the adhesive filler holds the entire surface of the ceramic plate, so it will not fall off. Furthermore, by forming the air cooling plate structure with a metal substrate,
This ensures greater strength than when the entire air cooling plate is made of ceramic material, and prevents major damage in the event of an accident. Further, even when the adhesive filler deteriorates due to heat, the engaging portion means mechanically fixes the ceramic plate to the metal substrate, so that the ceramic plate is prevented from falling off.

0010

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of the present invention will be described below with reference to the drawings. In FIGS. 1 and 2, an air-cooled plate 1 forms the inner wall of an incinerator, and is formed by covering the surface of an iron-based metal substrate 2 located on the back side with a plurality of ceramic plates 3. The ceramic plate 3 is fixed to the metal substrate 2 by screwing fixing bolts 5 inserted into the through holes 4 into the female threads 6 of the metal substrate 2, and is fixed to the metal substrate 2 between the ceramic plate 3 and the metal substrate 2. An adhesive filler 7 is filled between each ceramic plate 3. The coefficient of thermal expansion of this adhesive filler 7 has an intermediate value between the coefficients of thermal expansion of the metal substrate 2 and the ceramic plate 3.

An adhesive filler 7 is also provided in the counterbore 8 of the through hole 4 so as to cover the head of the fixing bolt 5. Further, a locking portion 10 that engages with a casing 9 of the incinerator is formed on the metal substrate 2.

[0012] The operation of the above configuration will be explained below. The air cooling plate 1 is fixed to the casing 9 of the incinerator via a locking part 10, and a flow path 12 for cooling air 11 is provided on the back side of the air cooling plate 1.
form. When garbage is burned in the incinerator, the ceramic plate 3 is heated to a high temperature by the high-temperature combustion gas 13, and the heat is conducted to the metal substrate 2 via the adhesive filler 7, while the cooling air 11 is board 2
to cool down. Thereby, the cooling effect of the cooling air 11 reaches the ceramic plate 3, and the adhesion of clinker to the surface of the ceramic plate 3 is prevented by the cooling effect.

[0013] Also, an adhesive filler 7 is filled in the joints between the plurality of ceramic plates 3.
By coating the surface of the metal substrate 2, oxidation corrosion of the metal substrate 2, which is a structure, is prevented.

A difference in thermal expansion occurs between the ceramic plate 3 exposed to the high-temperature combustion gas 13 and the metal substrate 2 exposed to the cooling air 11.
The adhesive filler 7 interposed between the ceramic plate 3 and the metal substrate 2 and between each ceramic plate 3 acts as a buffer material to alleviate thermal distortion, and the ceramic plate 3 and the metal substrate 2
prevent damage due to thermal distortion. Furthermore, by dividing the ceramic plate 3 into a plurality of parts, thermal strain in each ceramic plate 3 is reduced, and splitting of the ceramic plate 3 itself is prevented.

Even if the ceramic plate 3 is split, the adhesive filler 7 holds the entire surface of the ceramic plate 3, so that it will not fall off. Furthermore, by forming the structure of the air-cooled plate 1 using the metal substrate 2, greater strength is ensured than in the case where the entire air-cooled plate is formed from a ceramic material, thereby preventing major damage in the event of an accident.

Furthermore, since the ceramic plate 3 is mechanically fixed to the metal substrate 2 via the fixing bolts 5, the ceramic plate 3 will not fall off even if the adhesive filler 7 deteriorates due to heat. .

[0017]

As described above, according to the present invention, it is possible to prevent clinker from adhering to the surface of a ceramic plate due to the cooling effect of cooling air, and it is possible to prevent clinker from adhering to the surface of a ceramic plate by using a plurality of ceramic plates and an adhesive filler. By coating the surface of the ceramic plate, it is possible to prevent oxidation corrosion of the metal substrate that is the structure, and the adhesive filler alleviates the thermal distortion that occurs in the ceramic plate and the metal substrate, preventing damage due to thermal distortion. By dividing the ceramic plate, the thermal strain in each ceramic plate can be reduced to prevent the ceramic plate itself from splitting, and even if the ceramic plate splits, the adhesive filler can prevent it from falling off. The metal substrate ensures great strength for the air-cooled plate, and even when the adhesive filler deteriorates due to heat, the mechanical fixing structure provided by the engaging portion means can prevent the ceramic plate from falling off.

[Brief explanation of drawings]

FIG. 1 is an overall front view of an air cooling plate in one embodiment of the present invention.

FIG. 2 is a longitudinal sectional view of an air cooling plate in the same embodiment.

[Explanation of symbols]

1 Air cooling plate 2 Metal substrate 3 Ceramic plate 5 Fixing bolt 7 Adhesive filler

Claims (1)

[Claims] 1. A plurality of ceramic plates disposed to cover the surface of a metal substrate are provided with an adhesive filler filled between the ceramic plate and the metal substrate and between each ceramic plate, and an engaging means is provided. An air-cooled plate for an incinerator characterized by a ceramic plate fixed to a metal substrate.