JPS645237B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to an underheater type aluminum holding furnace used to keep molten aluminum warm.

There are two types of conventional underheater type aluminum holding furnaces based on the difference in how the immersion heater is supported.

One is a double-end support type in which both ends of the immersion heater penetrate the furnace wall of the holding furnace, and the other is a single-end support type in which only one end of the heater penetrates the furnace wall of the holding furnace. It is.

In conventional aluminum holding furnaces with support at both ends, the protection tube supported at both ends was damaged due to thermal expansion, or the seal between the protection tube and the furnace wall could not be achieved properly. In addition, in this type of conventional aluminum holding furnace, both ends of the protective tube protrude to the outside of the holding furnace, resulting in large heat dissipation and being very uneconomical. For this reason, power consumption could not be reduced. In addition, this type of traditional aluminum holding furnace has a complex structure, so
In addition to poor workability, there were many wiring locations, and assembly was very time-consuming.

On the other hand, in the latter type, the immersion heater was supported at one end, so it could not be supported by a long protective tube, and there was a risk of molten metal leaking from the seal. For this reason, it is not possible to lengthen the protective tube in conventional aluminum holding furnaces with single-end support.
Efficient heating was not possible.

The present invention was made in view of the above circumstances, and
It is an object of the present invention to provide an under-heater type aluminum holding furnace which is not damaged even when a protective tube is thermally expanded, and which can perform efficient heating with little heat dissipation.

The gist of the present invention for achieving this object is that one end of a protective tube is sealed and the other end is opened, a heat generating means is placed in the protective tube, and the open end of the protective tube is closed. The protective tube is supported through a through hole formed in the furnace wall, and the open end of the protective tube and the ceramic fiber molded tube are inserted into the through hole so that the ceramic fiber molded tube is on the furnace shell side.
In addition to passing the fiber molded tube through, the portion of the lining refractory of the through hole is made into a tapered threaded portion that opens outward, and the gap between the protective tube and the tapered threaded portion is filled with a sealing material to support the protective tube. The underheater type aluminum holding furnace is characterized in that a support is provided on the inner surface of the refractory lining, and the sealed end of the protective tube is placed on the support.

As described above, in the underheater type aluminum holding furnace of the present invention, since the ceramic fiber molded tube is provided in the through hole, the heat insulation performance is excellent and heat dissipation can be extremely reduced. Therefore, power consumption can be reduced and it is very economical. In addition, since the end of the protective tube does not extend outside the furnace, the temperature gradient of the protective tube is reduced and it can sufficiently withstand thermal shock.

Furthermore, since the support is provided and one end of the protection tube is placed on it, a long protection tube can be used. Therefore, efficient heating can be achieved.

Furthermore, the underheater type aluminum holding furnace of the present invention is very easy to construct because it is only necessary to support one end of the protective tube.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

At least one through hole 9 (three in the figure) is formed in the furnace wall of the aluminum holding furnace of the present invention. The underheater type aluminum holding furnace of the present invention shown in FIG. 1 has a three-layer structure consisting of a furnace shell 4, a heat insulating material 10, and a refractory lining 3 in order from the outside. Molten aluminum 1 is placed in a refractory lining 3. This lined refractory 3 is preferably a one-piece castable container.

Molten aluminum 1 is heated by an immersion heater H. The immersion heater H is composed of a protective tube 2 and a heat generating means placed inside the protective tube 2.
As the heating means, for example, a metal wire, an electric heating means made of silicon carbide, a gas heating means, or the like is used.

In the part of the refractory lining 3, the through hole 9 has a tapered threaded portion 9a that opens outward. The open end 2a of the protective tube 2 is passed through the tapered threaded portion 9a and supported. Protection tube 2 and tapered threaded part 9a
A sealing material 12 is filled in the gap between the two. Protection tube 2
It doesn't matter if it's slanted.

One end of the protective tube 2 is an open end 2a, and the other end is a closed end 2b.
A support stand 11 is provided on the inner surface of the refractory lining 3. The support base 11 and the through hole 9 are located at opposing positions. The end portion 2b of the protective tube 2 is placed on the support stand 11.

In addition to the protective tube 2, a ceramic fiber molded tube 8 is passed through the through hole 9. As shown in detail in FIG. 2, one end of the ceramic fiber molded tube 8 is provided with a flange portion 8a.
The flange portion 8a is configured to hold down the protective tube 2 and the sealing material 12. However, the heating element is omitted in FIG. A sensor 6 is fitted onto the outer periphery of the flange portion 8a. The sensor 6 is for detecting leakage of the molten aluminum 1, and is preferably a stainless steel wire or a nichrome wire, and is guided to the outside of the furnace by a lead wire. Lead wires are provided along the ceramic fiber molded tube 8, either internally or externally.

By fitting the sensor 6 and the like to the flange portion 8a, even a thin wire can be used as a sensor.

FIG. 3 shows another embodiment of the lined refractory according to the present invention, in which two protective tubes 2 are installed. The furnace shell 4, the ceramic fiber molded tube 8, and the heat insulating material 10 are the same as in the previous embodiment, and are therefore omitted. The lining refractory 13 shown in FIG. 3 is provided with a partition wall 13a. When the underheater type aluminum holding furnace of the present invention is assembled and shipped, the protective tube 2 is fixed to the partition wall 13a using a fixing jig 14 made of styrene foam or the like.

[Brief explanation of drawings]

Fig. 1 is a cross-sectional view showing an example of an underheater type aluminum holding furnace according to the present invention, Fig. 2 is a partially enlarged view showing the tapered thread portion of Fig. 1 and its surrounding area, and Fig. 3 is a lining according to the present invention. It is a sectional view showing other examples of refractories. 1... Molten metal, 2... Protection tube, 3... Lining refractory, 4... Furnace shell, 6... Sensor, 8... Ceramic fiber molded tube, 9... Through hole, 10...
...Insulating material, 11...Supporting base, 12...Sealing material,
13... Lining refractory, 14... Fixing jig.

Claims (1)

[Claims] 1 One end of the protective tube is sealed and the other end is open, a heat generating means is placed in the protective tube, and the open end of the protective tube is passed through a through hole formed in the furnace wall to open the protective tube. The open end of the protection tube and the ceramic fiber molded tube are passed through the through hole so that the tube is supported and the ceramic fiber molded tube is placed on the side of the furnace shell. a tapered threaded portion that opens outward, and a gap between the protective tube and the tapered threaded portion is filled with a sealing material to support the protective tube;
An under-heater type aluminum holding furnace, characterized in that a support stand is provided on the inner surface of the refractory lining, and the sealed end of the protection tube is placed on the support stand.