CN2172558Y

CN2172558Y - Ore heating furnace electrode feeding implement

Info

Publication number: CN2172558Y
Application number: CN 93243564
Authority: CN
Inventors: 刘尚仁
Original assignee: Individual
Current assignee: Individual
Priority date: 1993-11-04
Filing date: 1993-11-04
Publication date: 1994-07-20
Anticipated expiration: 2003-11-04

Abstract

The utility model relates to an electrode feeding device for an ore heating furnace, particularly to an electrode feeding device for smelting metallic silicon and iron alloys in an ore heating furnace. The utility model is composed of a short net and a jacket for cooling water, wherein the short net comprises red copper rows, a soft leading wire circuit board, a copper tube circuit board, soft leading wires, copper tubes and copper tiles. The jacket for cooling water is formed by connecting two hollow semicircular water jackets. The two hollow semicircular water jackets are respectively in a steel plate structure. Each semicircular water jacket is provided with a water inlet hole and a water outlet hole. The bottom of the inner cavity of the jacket for cooling water is provided with a shoulder, and the copper tiles and graphite spacer blocks are uniformly distributed and arranged on the shoulder. The utility model, which is suitable for graphite electrodes as well as self-baking electrodes of the ore heating furnace, has the advantages of copper tile protection, long service life, enhanced product quality and reduced production cost.

Description

Ore heating furnace electrode feeding implement

The utility model relates to the feedthrough electrode electric installation of a kind of mine heat furnace smelting metallic silicon and ferroalloy.

What at present the various ferroalloys of mine heat furnace smelting, nickel and calcium carbide product were used is self-baking electrode, can not metal smelting silicon and yellow phosphorus, and the cast copper brasses directly contacts with electrode, and the arcing phenomenon appears in contact-making surface easily, the damage brasses.

The purpose of this utility model provides a kind of self-baking electrode that both had been applicable to the hot stove in ore deposit, is applicable to its graphite electrode again, smelts various ferroalloys, metallic silicon and yellow phosphorus, and can protect the feedthrough electrode electric installation of copper plate brasses.

The utility model is made up of short net and cooling jacket.Short net comprises: terminal block, soft lead-in wire, copper pipe and brasses under terminal block, copper pipe upper wiring board, the copper pipe under red copper row, soft lead-in wire upper wiring board, the soft lead-in wire, be characterized in: the intracavity bottom of cooling jacket is provided with shoulder, uniform on shoulder four brasses are housed, the internal diameter of brasses is equipped with the graphite cushion block.Cooling jacket is to adopt two hollow semi-ring water jackets of steel plate structure to connect into, and has inlet opening and apopore on its each semi-ring.Under soft lead-in wire upper wiring board, the soft lead-in wire under terminal block, copper pipe upper wiring board, the steel pipe terminal block and brasses all adopt copper plate.

The utility model not only is applicable to the self-baking electrode of the hot stove in ore deposit but also is applicable to graphite electrode, because the graphite cushion block directly contacts with electrodes in mine hot stove, make the electrode of the hot stove in brasses indirect contact ore deposit, therefore prolong the life-span of brasses more than five times, and reduced the hot interruption duration of the hot stove maintenance in ore deposit, improve product quality, reduced production cost.

Fig. 1 is a short net schematic diagram of the present utility model;

Fig. 2 be the utility model red copper row A to structural representation;

Fig. 3 is the structural representation of the utility model cooling jacket and brasses, graphite cushion block;

Fig. 4 is another embodiment of the present utility model.

Every hot stove in ore deposit has identical a, b, three electrodes of c, and existing is example with a item.

In Fig. 1 and Fig. 2: transformer 22 secondary currents are respectively by

red copper row

1,2,3,4, red copper row 1 electric current is input under soft lead-in wire upper wiring board 5, soft lead-in wire 10, the soft lead-in wire terminal block 13 and brasses 14 under terminal block 6, copper pipe upper wiring board 8, copper pipe 12, the copper pipe, is input to the electrode of the hot stove in ore deposit by graphite cushion block 15.Red copper row 2 electric current is input under soft lead-in wire upper wiring board 5, soft lead-in wire 9, the soft lead-in wire terminal block 13 and brasses 14 under terminal block 6, copper pipe upper wiring board 8, copper pipe 7, the copper pipe, is input to the electrode of the hot stove in ore deposit by graphite cushion block 15.Red copper row 3,4 electric current is input to the electrode of the hot stove in ore deposit in the same way, makes in the compound of electrode in the hot burner hearth in ore deposit of on-load to smelt.

Soft lead-in wire upper wiring board 5 and red copper row 1, terminal block 6 is copper plate with the material of copper pipe upper wiring board 8 under the soft lead-in wire, adopts bolt 23 to connect, and nut 24 is tightened; Terminal block 13 materials are copper plate under the copper pipe, respectively with copper pipe 12, copper pipe 7 welding, and terminal block 13 and brasses 14 welding under the copper pipe; The copper pipe upper wiring board respectively with 7 welding of copper pipe 12, copper pipe, soft lead-in wire 9, soft lead-in wire 10 are welded in respectively under soft lead-in wire upper wiring board 5 and the soft lead-in wire line on the terminal block 6, its effect is to be convenient to conduction.

In Fig. 3: cooling jacket 11 is formed by the hollow semi-ring of copper coin structure of bearing pin 16 hinges by two, and the inlet opening 30, apopore 31 that has cooling circulating water on each semi-ring is connected with copper pipe 12, copper pipe 7 among Fig. 1 respectively; The other end of 11 two semi-rings of cooling jacket is connected by bolt 17, and nut 18 is tightened, and effect is to make graphite cushion block 15 hold electrode tightly.The height of cooling jacket 11 is identical with the contact height of graphite cushion block 15 and electrode, but brasses 14 will exceed cooling jacket 10cm, and with 13 welding of terminal block under the copper pipe among Fig. 1, effect is a making current.Cooling jacket 11 inner chambers are uniform to be equipped with four brasses 14, and the internal diameter of brasses 14 is equipped with graphite cushion block 15, and its effect is to make brasses 14 and electrode indirect contact, and graphite cushion block 15 directly contacts with electrode, and does not strike sparks in contact process, protects brasses 14, life-saving.The effect of copper pipe 12, copper pipe 7 is: conduct electricity on the one hand, water delivery is cooled off brasses 14 and graphite cushion block 15 in cooling jacket 11 on the other hand, and the 14 not oxidations of protection brasses make graphite cushion block 15 reduce oxidations.

In Fig. 4: cooling jacket 11 also can be made the steel plate structure hollow ring, has inlet opening 27, apopore 28 in the above, all loads onto steel pipe; Uniform four trapezoidal cooling jackets 20 have inlet opening 26, apopore 25 in the above in the annulus inner chamber, all load onto steel pipe, and effect is to make trapezoidal cooling jacket 20 directly cooling brasses 14 and graphite cushion block 15.At trapezoidal cooling jacket 20 internal diameters brasses 14, graphite cushion block 15 are housed; Hole on the internal chamber wall of cooling jacket 11, nut 21 is embedded in the hole, is threaded with jackscrew 19, and effect is to regulate jackscrew 19, makes graphite cushion block 15 hold electrode tightly.Conducting system is that copper pipe 12, copper pipe 7 directly are connected with brasses 14.

Claims

1, a kind of electrodes in mine hot stove feeder equipment is made up of short net and cooling jacket 11, short net comprises: red copper row 1,2,3,4, terminal block 13, soft lead-in wire 9, soft lead-in wire 10, copper pipe 7, copper pipe 8 and brasses 14 under terminal block 6, copper pipe upper wiring board 8, the copper pipe under soft lead-in wire upper wiring board 5, the soft lead-in wire, it is characterized in that: cooling jacket 11 adopts two hollow semi-ring water jackets of steel plate structure to connect into, and has inlet opening 30, apopore 31 on each hollow semi-ring at it; Cooling jacket 11 intracavity bottoms are provided with shoulder 29, uniform four brasses 14, the graphite cushion block 15 of being equipped with on shoulder 29.

2, electrodes in mine hot stove feeder equipment according to claim 1 is characterized in that: under soft lead-in wire upper wiring board 5, the soft lead-in wire under terminal block 6, brasses upper wiring board 8, the brasses terminal block 13 and brasses 14 all adopt copper plate.