JPS596353B2 - Insulated refractory furnace wall - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to a structure in which a ceramic fiber blanket with excellent fire resistance and heat insulation properties is installed as a furnace wall material.

Ceramic fiber is made from blown fibers of fused silica, alumina, etc., and is known to have fire resistance and excellent heat insulation properties.

However, since the fibers are simply laminated in layers, this method has the disadvantage that the tensile strength in the direction almost perpendicular to the layers is extremely low. For this reason, conventionally, in order to use ceramic fiber 1 as a lining material for furnace walls, a fixing method using pressing force as shown in Figs. 1 and 2 has been used to avoid breakage or damage during construction. Therefore, it was necessary to carry out the work with great care.

Moreover, when the metal stud 2 is exposed in the furnace, the heat resistance is limited by the metal stud, or the heat loss passing through the metal stud 2 cannot be ignored. The present invention relates to a novel insulating and refractory furnace wall structure free from such defects, which comprises a needle-punched ceramic fiber blanket supported by a stud head whose one end is fixed to a steel plate of the furnace shell or the like. This needle-punched ceramic fiber blanket is attached to the inner surface of the furnace wall, and is slid into the furnace wall at the part where the stud is buried, and this slid part is attached to the stud. It is fixed at the head. Needle-punched ceramic fiber blankets are made by pressing the bulk into a plate shape, or by pressing the surface of a blanket once formed into a blanket shape, because the fibers of a conventional simple ceramic fiber blanket are arranged in layers and have low tensile strength. , a needle with a protrusion on the side is inserted so that a part of the fiber is almost perpendicular to the layer, and the tensile strength is conventionally 100 to 200 y/cw.
It is significantly strengthened to 2000 to 3000y/Cd compared to L. Hereinafter, one embodiment of the present invention will be described with reference to FIGS. 3 and 4.

Reference numeral 3 denotes a furnace shell shell, and 4 a metal stud, one end of which is welded or otherwise implanted to the furnace shell shell 3.

5 is rock wool for lining and is in contact with the furnace shell shell 3.

6 is a needle-punched ceramic fiber blanket according to the present invention, which covers and supports the heat insulating layer 1 made of a conventional ceramic fiber blanket.

That is, the needle-punched ceramic fiber blanket 6 is provided with a flare part in a part of the heat insulating layer 1, and is slid along the inner peripheral surface of the heat insulating layer 1.
The exposed head 8 of the metal stud 4 is inserted through it. Next, a needle-punched ceramic fiber plunget 6 is supported and fixed to the threaded portion of the stud head 8 with a bolt 9 via a washer or the like. In the figure,
Reference numeral 10 denotes a refractory brick wall installed at the foundation inside the furnace. still,
In the present invention, the needle panted ceramic fiber blanket must be inserted from the furnace inner surface layer to the recess T formed in the heat insulating layer 1 in order to protect the tip of the stud. The material of this heat insulating layer 1 may be any inorganic fiber material, and is not necessarily limited to a material with high fire resistance. In addition, the construction method is particularly limited, such as fixing the studs and then inserting a needle-punched ceramic fiber blanket 6 and tightening bolts, or sequentially lining the studs from the bottom to the top. The construction method can be determined as appropriate depending on the situation.

Incidentally, the present invention is not limited to the embodiments illustrated in FIGS. 3 and 4, and can be applied to, for example, a stud fixing means, a bolt tightening means, etc. as appropriate.

According to the present invention, which is constructed as described above, the metal support is not exposed in the furnace, the thermal efficiency is improved, and the operating temperature is not limited.

Further, the needle-punched ceramic fiber blanket has high tensile strength and good flexibility, so it has advantages such as extremely improved workability.

[Brief explanation of the drawing]

FIGS. 1 and 2 show a conventional embodiment, and FIGS. 3 and 4 are a sectional view and a perspective view of essential parts showing an embodiment of the present invention. DESCRIPTION OF SYMBOLS 1... Heat insulation layer, 3... Furnace shell shell, 4... Metal stud, 5... Rock wool, 6... Ceramic fiber blanket, 1... Recessed part, 8... ·head.

Claims (1)

[Claims] 1. An insulating refractory furnace wall having one end fixed and supporting a sliding portion of a needle-punched ceramic fiber blanket attached to the inner surface of the furnace wall by a stud head buried inside the furnace wall.