SU599145A1 - Induction furnace crucible - Google Patents

Description

(54) INDUCTION FIRMWARE

The invention relates to metapurgic furnaces, in particular, to cypindram dp for removal of lining of an induction furnace, and can be used in induction furnaces for heating and spraying metal.

It is known that the linings of tippey induction furnaces of the packing gasket are dried by various heaters removing them from the vagi 1 {.

However, a tigp surrounded by an inductor is insulated from it by a mechanically durable, moisture-proof material, therefore withdrawing the moisture protruding from the printed lining is difficult and ineffective.

A known induction furnace in which a Prefabricated Ceramic Cipar placed with channels, is placed at equal intervals in the longitudinal direction, which communicates with the inner surface of the cylinder through the holes in the channels .. During sintering of the packing material, a movement occurs to the outer side of the crucible through the heat

insulation: a moisture-permeable layer in a napa zipindra | 2X

The disadvantage of such a device is the insufficient intensity of the crucible liner: the removal of the inlet occurs only due to the thermal effect. In this case, as is well known, the evaporating moisture increases in volume by hundreds of times, which leads to cracking of the st. Crucible box.

The circuit of the invention is the development of the design of an induction furnace tigp, which reduces the duration of the furnace lining and improves its quality.

This is achieved due to the fact that the water drain is a canap-made of two concentrically arranged spioes having cup-shaped bottom parts, and phytypes are evenly located along the layers forming the cylinder, the upper ends of which are connected to the atmosphere, and the lower ends are interconnected into one node in the bottom parts of a tsipindr, and fitti made of asbestos cord.

FIG. 1 shows an induction tigene furnace, longitudinal section) in FIG. 2A-A in FIG. Ij in FIG. 3 - bowl-shaped bottom part. The induction crucible furnace has a furnace body 1, the support of a lance 2, on which the induction rests. 3, around the padded board 4. The inductor 3 is insulated from the side of the padded tigp 4 by a mechanically strong moisture-proof material using micanite 5, as well as a zipindra consisting of heat-resistant cables 6 and 7, between which are evenly arranged in the longitudinal direction wicks, 8 of twisted asbush cord / radially converging under the bottom of the tigp 4 into the node 9, forming a semi-bottom, enveloping the bop 10, which is equipped with a 1 f mustache, signaling that the crucible 4 is being devoured by the metal. The outer surface of the crucible 4 is in contact with singing b, and its 7 is connected with support ring 2, micanite 5 and collar 12 of the furnace. Formed by layers 6 and 7 with wicks 8 tsiping with its cup-shaped bottom part, its edge 13 is connected with the atmosphere. After the filling of the crucible 4, containing the wig in it, is absorbed by the layer 6 having a hygroscopicity and the wicks 8, it rises and evaporates into the atmosphere. From the inner layers of the crucible 4, the moisture moves into the depleted outer jets, soaking up with the sing 6, and the process is repeated. To the moment

Claims (2)

Phie. During lining of the lining, a significant part of the moisture is removed, thereby preventing arouxing inside the lining, and cracking of the tigpe 4 does not occur. Claim 1. A crucible of an induction furnace, having a drainage annular channel, filled with a permeable heat insulating material, characterized in that, in order to reduce the duration of drying of the crucible lining and improve its quality, the channel is made of two concentrically arranged layers having cup-shaped, bottom parts and between the layers there are wicks along the cylinder-forming lines, the upper ends of which are connected to the atmosphere, and the lower ends are interconnected in one node at the bottom of the barrel. 2. A crucible in accordance with claim 1, in accordance with the fact that the wicks are made of asbestos cord. Sources of information taken into consideration in the examination: 1. Tsyganov V, A. Melting of non-ferrous metals in induction furnaces. M., Metallur and; .1974, p. 72. 2. US patent number 3457356, CP. 13-27, 17 12