WO1991000487A1 - Melting unit for metal melting induction furnace - Google Patents

Abstract

The melting unit, according to the invention, comprises a melting crucible located in a protective ceramic jacket (5) surrounded by a water-cooled inductor. The melting crucible consists of sleeves (1, 2) mounted coaxially and facing each other by their lower parts. The sleeves (1, 2) are mounted with a gap along their entire length, which is filled with a heat-conducting mass (3). The internal surface of the internal sleeve (1) is provided with a metal-resistant coating.

Description

ΕLΑΒΑΙΗΗ UZZH YBDUΚCΟΟΟY DYA PΑΒΚI ΜΤΑSHΑ Οfield of technology The invention applies to induction melting furnaces, 5 a b More specifically, to the melting units of an induction furnace for metal smelting.

Prior art

A melting unit is known (Бϋ, Α, 349863, 49Ι8ΙΙ), containing a stuffed crucible. However, the use of these crucibles 10 in induction furnaces leads to an increased rejection of the surface and the melting of the metal for zasοrakam and plenam.

However, the difficulty in the manufacture and operation of stuffed crucibles (manual production, dismantling and installation of the melting unit in vacuum induction nοy oven) keeps 15 temp.

A melting unit is known (°Ε,Α, 3602244) containing a melting crucible placed in a protective glass, which is inductively sealed. When operating a furnace with such a melting unit, the entire unit will be replaced with the next addition of all power supply and water lines, which complicates the operation of the induction melting furnace and increases the labor costs of its maintenance.

Known melting unit (υv, Α, 4160796), containing a melting crucible, on the external ο established in κο- zhuχe, οχvachennοm indκτοροm. The melting crucible is made of zirconia, the capsule is made of aluminosilicate. The bottom of the crucible is made concave to create certain conditions for the contact of the metal ingot with the bottom of the crucible to avoid the occurrence of heat shocks 30 strokes. This ensures minimal heat transfer between the crucible and the metal ingot. Pigel is made with the use of static pressing. During the operation of the melting unit, to the extent necessary, they replace the entire ceramic installation - a crucible with a welded capsule - by extracting it from κοzhuχa.

The specified instruction is difficult to manufacture and operate, so it is necessary to observe the accuracy of coupling the external surface of the capsule with the internal versatility κοzhu- χa. This leads to difficulties in the manufacture of a smelter - 2 - node, "also when ^installing a crucible with a capsule and its quick ^8. zne. observance is required

5 in the melting crucible due to the resulting heat shocks. Β in particular, it is necessary ^χ οdimο οpredeleshυm οrazοm slit in the crucible, ^ζ avoiding pr and loading the blow in the slit ο the bottom of the crucible, κοτορ y may prives τ and κ destruction of the crucible.

Zinc crucibles have a few metal fittings

10 in alloys based on nickel, iron, balt and to a greater extent worsen the quality of the alloys being smelted.

Invention of the invention On the basis of the present invention, the task of creating a smelting unit of a steel furnace for melting metal

15 la with such an efficient design of the melting crucible, it would be possible to reduce the thermal effects arising from the operation of the smelter For the height and thickness of the crucible, and thereby to save the original cleanliness of the melted metal and to increase the productivity

20 induction furnace ₀

The problem is solved by the fact that in the melting unit of an induction furnace for melting metal, containing a melting crucible placed in a protective ceramic shell, and οοχhozed indκτορ, οχattractive protective

25 according to the invention, the melting crucible is made in the form of glasses, axially mounted and turned to each other οnny parts with οformation πο of the entire οοveρχnοsti staκanο in zορa, filled οnnοgο teplοprροdnοy mass οy, οproviding the specified

30 temperature gradient along the thickness of the wall of the central glass, and in this case the glasses of the melting pot and the protective ορundοmulliτοκkarbορundο- inοgο material, and the inner surface of the centralοgο has a metalloustοychivοe οκρytie, containing

35 additions of οκsides to rare earth elements.

For the convenience of operation of the melting unit and to ensure the safety of work with it, please be careful that the melting unit is installed on the base, it is equipped with rods located along its perimeter with - - clamping bars installed on the lower bar with the possibility of reverse-transitional movement through the bar and interaction with the water cooled induκτοροm ^and τοροροοοοοοοοοοοοοοοοοοοοοοοοοοοοοοοο

5 ceramic skin.

The proposed invention allows the replacement of the melting crucible in the process of operation within 3-5 minutes and does not require dismantling of the melting unit. The crucible is freely installed in the nest of the indus in the smelting unit - Yu la. A melting unit with a quick-change crucible ensures the preservation of the current purity of the metal and has an increased guaranteed work resource (at least 60 melts) pr and οτ su the effects of the interaction of the melt with the material of the crucible, which provides the possibility of operation on the

^5 press ρmelting.

A brief description of the drawings in the following proposed invention is explained by a κοn- κροτοp example of its implementation and with the following drawing, on κοτορ οm is shown a general view of the melting unit of the induction

20th furnace for melting metal, longitudinal section, according to the invention.

The best mode for carrying out the invention

25 in the form of glasses 1,2, installed one in another with a filling filled with heat in the day. mass 3. The internal surface of glass I is coated with a metal-and-rust coating 4. The melting crucible is placed in a protective ceramic shell 5, κο τορй οχvachen watered by the indκτοροm 6.

30 The melting unit is installed on base 7, which is equipped with rods 8, located along its perimeter, and clamping bars 9.

Glasses 1.2 of the melting pot and protective skin ^χ 5 are made of

35 best known materials, ^applicable for melting crucibles, high temperature. Cup I is made with a protruding downcomer and is protected by a metal-resistant coating 4, which ensures the absence of interaction between the melt and

- 4 - material of the melting crucible.

The development of the smelting crucible is carried out on a standard operation by known methods from cheap, non-deficient raw materials. The manufacturing technology of the melting crucible is highly productive and requires low energy consumption.

When assembling the melting crucible, glass I is inserted into glass 2 with full confidence. The filling is filled with heat-water granules with a mass of 3 with φορmiρο- solid κορκi, transiently zaορδ and excluding prοand life metal falling granular mass 3 into the melt and precipitation of it pr and ποροte τigla. The calorific mass 3 compensates for the earthen shocks created during heating, melting and compressing the metal into the iron mold. This higher temperature of the melting crucible under conditions of higher values of the temperature gradient prevents the formation and development of τ cracks, reduces temperature gradients along the height and thickness of the crucible wall, which contributes to an increase in its work efficiency.

When assembling the smelting unit, the surface of the inductor 6 is developed by the daily layer of glass, is installed on the base 7 and a protective glass is inserted into it zhuχ 5, κοτορy in the case of melting of the smelting crucible predοχρanyaet twists and vοοοχοgοgο tsduκτορа 6 οτ ποfalling into the bottom of the melting metal. Then the melting crucible is freely installed in the protective bracket 5, and the clamping bars 9, installed on the rod 8, with the option of reciprocating ο transfers, οdnimayut dο with οprρ andκο οdnο οdnο οdnο ο ο ο ο ο ο ο ο m ο ο ο ο ο οο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο Pο ο ο ο ο ο ο ο ο ο οοοοοοοοοο οοο οοοοοοοοοοο οοοο οοοοοοοοοοοκοοοοра 6 and fix andχ in this position. In this way, the smelting unit is fixed on base 7, κροm τοgο, with the help of the clamping plan 9, the northward movement of the smelter is limited needle. After installation of the smelting unit, it is ready for operation without additional heating of the crucible. Replacing the melting crucible under the conditions of continuous operation of the induction furnace is carried out as follows. Planks 9, which press the melting crucible, move it into the wall, effortlessly remove the hot melter with tongs - 5 - crucible from the protective sleeve 5; The smelting crucible is not required before operation. Heating of metal 5 for a temperature of Ι650 ° C Alla, κοτορaya is determined by the power of the generator. The metal can be loaded into the crucible in the form of a compact, the concrete in the form of a solid return, which does not affect the work -

10 stability of the crucible, does not cause its destruction.

The proposed design of the melting unit with a ceramic composite melting crucible, which has the highest thermal stability and metalloustoychivnostyu, allows replace it during operation within 3-5 minutes.

15 The proposed melting furnaces ensure the preservation of the use of the current purity of the metal, the melting of the metal in any mode of operation of the induction furnace for s due to the absence of interaction between the metal melt and the material of the crucible.

Due to the quick replacement of the crucible and the reduction

20 years of time associated with the installation of the smelting unit, the smelting rate and the efficiency of the induction furnace for smelting increase metal.

Industrial applicability The invention can be used in the field of metal

25 luρgy for melting hot alloys in prοand obtaining οτzh- inοκ by the method of prοprοgοgο zhtya.

Claims

- 6 -ΦΟΡΜULΑ IZΟБΡΕΤΕΗYA 1. The melting unit of an induction furnace for melting metal, containing a melting crucible placed in a protective ceramic shell (5), and a watered inductor (6), οχ - ^" Waterproof protective ceramic shell (5), which is different from 5 sch and th with I in that the melting crucible is made in the form of glasses (1,2), axially installed and reversed ρκ κ κ κ ο ο ο ο ο ο tο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο ο οοοοοοοοοοοοοοοοοοο staκκοοv (1 ,2) filling, filled with heat in the day mass opening (4).. 2. Melting unit of an induction furnace for melting metal are made of silicon-containing material. 15 3. Melting unit of an induction furnace for melting metal πο π.π. 1-2, characterized in that the melting unit is installed on the base (7), but it is equipped with rods (8) located along its perimeter with clamping plates (9), anοvleshshmi on each rod (8) with 20 by the possibility of reciprocal-transitional movement along the height of the bar (8) and interaction with the input of the wet inductor (6) and the end surfaces with a melting pot and a protective ceramic jacket (5).