JPS646397B2 - - Google Patents

Description

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

BACKGROUND TECHNOLOGY Conventional underheater type aluminum holding furnaces employ electric heaters, and there are two types based on differences in the way the immersion heaters are 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 cantilever type in which only one end of the heater penetrates the furnace wall of the holding furnace. It is.

Problems to be Solved by the Invention 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. Furthermore, this type of conventional aluminum holding furnace has a complicated structure, which makes it difficult to construct, requires many wiring points, and requires a lot of effort to assemble.

On the other hand, in the latter type, the immersion heater was supported only 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, in the conventional aluminum holding furnace of the one-end support type, the protection tube could not be made long, and efficient heating could not be achieved.

Regardless of the type, the use of electric heaters has the following drawbacks.

(1) Due to limited power receiving capacity, it is not possible to add new holding furnaces depending on the work location.

(2) The electrical equipment required to control heat retention is larger than that for gas. Therefore, the installation space becomes larger, which is a win.

(3) If a hot water leakage accident occurs, there is a safety issue due to electrical leakage.

(4) Energy costs are twice as high for electric heating systems as compared to gas systems.

Purpose of the invention The present invention has been made in view of the above circumstances.
In addition to eliminating the various drawbacks of electric heating methods, the protection tube will not be damaged even if it expands due to heat.
Moreover, it is an object of the present invention to provide an underheater type holding furnace for aluminum that can heat efficiently with little heat dissipation.

SUMMARY OF THE INVENTION The gist of the present invention to achieve this object is to provide an under-heater type aluminum holding furnace for melting or keeping aluminum warm, in which the lining refractory of the holding furnace is made of a castable body. A heat insulating layer made of ceramic fiber is provided on the outside of the refractory lining, and a through hole with a tapered screw portion opening outward is formed in the side wall of the refractory lining, and a ceramic heater protection tube is inserted through the hole. A holding furnace characterized in that a protective tube is fixed in a cantilever manner through a hole via a sealing material, the tip of the heater protective tube is placed on a support stand, and a gas burner heating device is installed in the heater protective tube. It is in.

Effects of the Invention The underheater type aluminum holding furnace of the present invention is made of ceramic with excellent heat insulation properties as described above.
Due to the fiber insulation layer, heat dissipation can be kept very low. Therefore, gas consumption can be reduced and city gas can also be used, making it very economical. 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.

Further, in the present invention, a heater protection tube through hole having a tapered threaded portion is formed in the side wall of the holding furnace, and when the heater protection tube is passed through the heater protection tube through hole and held, the heater protection tube and the taper Since the sealing material is interposed between the threaded portions, the sealing material sinks into the tapered threaded portion, and the gap between the heater protection tube and the tapered threaded portion can be sealed well. The sealing area becomes very large due to the tapered thread. Such an increase in seal contact area ensures a reliable seal and
Increases seal strength. Furthermore, even if the heater protection tube thermally expands, the sealing material is embedded in the tapered threaded portion, making it possible to achieve a more complete seal. Moreover, the sealing material is completely prevented from coming off.

Further, the holding furnace of the present invention does not require complicated parts for sealing, so it is inexpensive and easy to construct. The heater protection tube can also be easily replaced.

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

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 layer 10 made of ceramic fiber, and a refractory lining 3 in order from the outside. Molten aluminum 1 is placed in a refractory lining 3. Molten aluminum 1 is heated by an immersion heater H. The immersion heater H is constituted by a gas burner heating device (described later) placed in a heater protection tube 2.

As the refractory lining 3, an integrally molded castable container is used.

The through hole 9 has a tapered threaded portion 9a that opens outward in the refractory 3 portion. The heater protection tube 2 is passed through this tapered threaded portion 9a and supported. A sealing material 12 is filled in the gap between the heater protection tube 2 and the tapered threaded portion 9a.

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 inside 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.

A sensor 6 is provided on the outer periphery of the protective tube 2 at the through hole 9. Sensor 6 is for detecting leakage of molten aluminum 1,
Stainless steel wire is preferred and is led outside the furnace by a lead wire.

Moreover, the gas burner heating device 5 includes a burner main body 5a.
The combustion gas discharged to the left is discharged from a large number of small holes in the pipe 5b, flows to the right through the annular space between the heater protection tube 2 and the pipe 5b, and is discharged from the discharge port 5c. ing. Special Public Service 1987
The gas burner heating device disclosed in Japanese Patent No. 40406 can be used by modifying the outer tube 12 and the disc body 14.

The spout and trough assembly 15 for hot water supply is described in detail in Japanese Patent Application No. 58-34411 and the drawings. Reference numeral 16 indicates a hot water temperature sensor. Also,
The lower structure 17 of the holding furnace is described in the specification and drawings of Japanese Patent Application No. 57-161025.

FIG. 3 shows another embodiment of the refractory lining according to the present invention, in which two heater protection tubes 2 are installed. Since the furnace shell 4 and the heat insulating layer 10 are the same as those in the previously described embodiment, illustration thereof is omitted.

The lining refractory 13 shown in FIG. 3 is provided with partition walls 13a to partition its internal space.

When assembling or shipping the underheater type holding furnace for aluminum according to the present invention, it is preferable to temporarily fix the heater protection tube 2 to the partition wall 13a using a fixing jig 14 made of styrene foam or the like.

[Brief explanation of the drawing]

Fig. 1 is a sectional view showing an example of an under-heater type aluminum holding furnace of the present invention, Fig. 2 is a partially enlarged sectional view showing the tapered thread portion of Fig. 1 and its surroundings, and Fig. 3 is a lining according to the invention. It is a sectional view showing other examples of refractories. 1... Molten metal, 2... Heater protection tube, 3... Lining refractory, 4... Furnace shell, 6... Sensor, 9...
Through hole, 10... Heat insulation layer, 11... Support stand, 12
... Sealing material, 13 ... Lining refractory material, 14 ...
fixing jig.

Claims (1)

[Claims] 1. In an underheater-type aluminum holding furnace for melting or keeping aluminum warm, the lining refractory of the holding furnace is made of integral castable material, and a heat insulating layer made of ceramic fiber is provided on the outside of the lining refractory, In addition, a through hole with a tapered screw portion that opens outward is formed in the side wall of the lining refractory, a ceramic heater protection tube is passed through the through hole, and the protection tube is fixed in a cantilevered manner via a sealing material. A holding furnace characterized in that the tip of a heater protection tube is placed on a support stand, and a gas burner heating device is installed in the heater protection tube.