CN201087175Y - Molybdenum-saving combined electrode - Google Patents

Abstract

The utility model provides a joint molybdenum type composite electrode, which comprises a non-molybdenum material part and a molybdenum electrode part, wherein, the non-molybdenum conducting material part and the molybdenum electrode are directly connected through a thread pair; the molybdenum electrode part only occupies one third of the weight of the whole body or the molybdenum electrode, massive molybdenum material is saved, and the utility model can be continually used after the failed electrode being replaced by a new electrode; the joint molybdenum type composite electrode manufactured through adopting the proposal of the utility model has the advantages that the structure is rational, the process is simple, the molybdenum consumption quantity is greatly reduced, and the economic efficiency is remarkable.

Description

A kind of joint molybdenum type combined electrode

Technical field

The used electrode of a kind of joint molybdenum type combined electrode, especially glass fiber drawing furnace.

Background technology

Glass fiber drawing furnace all adopts molybdenum electrode to transmit electric energy, heat fused glass, existing molybdenum electrode all is a monoblock type, it mainly is made of electrode slice, electrode handle, interior cover, outer tube, join with the molybdenum screw between its electrode slice and the electrode handle, electrode handle is one whole molybdenum bar, it is big that this monoblock type molybdenum electrode not only consumes the molybdenum amount, and complex manufacturing technology, owing to working under the high temperature more than 1300 ℃, the frequent oxidation by air of electrode rake is blown, cause scrapping fully of molybdenum electrode, the use of can not regenerating after molybdenum electrode is scrapped.

The utility model content

Big in order to solve molybdenum electrode consumption, as can not to regenerate after scrapping and use problem

The utility model provides a kind of joint molybdenum type combined electrode, comprises non-molybdenum section bar material part and molybdenum electrode part, and non-molybdenum electro-conductive material part directly is connected by screw thread pair with molybdenum electrode.

The molybdenum electrode part only is 1/3rd of integral body or a molybdenum electrode weight, has saved a large amount of Mos, changes new electrode and can continue again to use after molybdenum electrode is scrapped.

The joint molybdenum type combined electrode that adopts the utility model scheme to make, rational in infrastructure, technology is simple, and consumption molybdenum amount greatly reduces, and has remarkable economic efficiency.

Description of drawings

Fig. 1 is a monoblock type molybdenum electrode structural representation;

Fig. 2 is a joint molybdenum type combined electrode structure sectional view of the present utility model.

Embodiment

Fig. 1 is a kind of monoblock type molybdenum electrode structure sectional view, is made of electrode slice 1, electrode handle 2, inner sleeve 3, outer tube 4, joins with molybdenum screw 5 between its electrode slice 1 and the electrode handle 2, and electrode handle 2 is one whole molybdenum bar,

Fig. 2 is in the structure sectional view of the present utility model, 6 is molybdenum electrode, 7 is non-molybdenum electro-conductive material part, 8 is the outside screw that molybdenum electrode one end car becomes, 9 is the internal thread that non-molybdenum electro-conductive material car becomes, and 8 and 9 screw the formation screw thread pair mutually, after molybdenum electrode 6 is scrapped, can change new molybdenum electrode and continue to use, non-molybdenum electro-conductive material 9 can be first steel or copper.

Claims (1)

1. a joint molybdenum type combined electrode comprises non-molybdenum section bar material part and molybdenum electrode part, it is characterized in that: described non-molybdenum electro-conductive material part directly is connected by screw thread pair with molybdenum electrode.

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