CN103255459A - Electrooxidation built-in water-cooling energy-saving electrode seat - Google Patents

Abstract

The invention provides an electrooxidation built-in water-cooling energy-saving electrode seat comprising a bridging electrode plug (1), a circulated cooling water pipe (2), a conductive contact region (3), an electrode seat (4), a high-strength corrosion-resisting spring (5), an insulating plate (6), a copper-aluminum alloy electrode plate (7) and a fixed bolt (8), wherein a 45-degree V-shaped inclined plane is arranged between the conductive contact region (3) and the bridging electrode plug (1); the circulated cooling water pipe (2) is arranged in the electrode seat (4); the electrode seat (4), the high-strength corrosion-resisting spring (5) and the fixed bolt (8) are arranged on the insulating plate (6); the high-strength corrosion-resisting spring (5) and the fixed bolt (8) are mutually separated; and the copper-aluminum alloy electrode plate (7) is fixed below the electrode seat (4). The electrooxidation built-in water-cooling energy-saving electrode seat disclosed by the invention has the technical effects that 1) the positioning and the contacting are reliable; 2) the energy conservation and the consumption reduction are obvious; 3) the service life is long; 4) the safety is high; and 5) the installation and the maintenance are convenient.

Description

Electrooxidation built-in water-cooling energy-saving electrode seat

Technical field

The present invention relates to a kind of electrooxidation built-in water-cooling energy-saving electrode seat, belong to the electrooxidation technical field.

Background technology

When electrooxidation built-in water-cooling energy-saving electrode seat is mainly used in the aluminium shape surface electrooxidation, the conductive attachment between energising crane span structure and the X alloy battery lead plate.Can satisfy the usefulness of the above conducting heavy current of electrooxidation aluminium industry 20KA.

Summary of the invention

The objective of the invention is to overcome the deficiencies in the prior art part, a kind of electrooxidation built-in water-cooling energy-saving electrode seat is provided.

Electrooxidation built-in water-cooling energy-saving electrode seat of the present invention, comprise crane span structure electrode plug (1), circulating cooling water pipe (2), conduction zone of action (3), electrode holder (4), high-strength corrosion-resisting spring (5), insulcrete (6), X alloy battery lead plate (7) and standing bolt (8), be provided with the V-type inclined-plane of 45 degree between described conduction zone of action (3) and the crane span structure electrode plug (1); Described circulating cooling water pipe (2) is located in the electrode holder (4); Described electrode holder (4), high-strength corrosion-resisting spring (5) and standing bolt (8) all place on the insulcrete (6); Described corrosion-resistant spring (5) is spaced from each other with standing bolt (8); Described X alloy battery lead plate (7) fixed electorde seat (4) below;

Described high-strength corrosion-resisting spring (5) has four, is located at electrode holder (4) four sides;

Described electrooxidation built-in water-cooling energy-saving electrode seat also comprises spring chucking lug seat (9), and described corrosion-resistant spring (5) links to each other with spring chucking lug seat (9);

The surfaceness of two contact surfaces all reaches Ra0.8 in the described conduction zone of action (3).

Electrooxidation built-in water-cooling energy-saving electrode seat of the present invention has following technique effect,

1) the location contact is reliable

The V-type inclined-plane that adopts 45 degree between conduction zone of action (3) and crane span structure electrode plug (1) is as contact surface, and electrode holder (4) four sides are equipped with four high-strength corrosion-resisting springs (5) as supporting, and rise and adjust contact gap automatically, and the location is reliable, the order of contact height.

2) significantly energy-saving and cost-reducing

The conduction region contact surface is big, and resistive impedance is little, big electric current by the time heat that produces little.Electrode holder (4) inside is provided with special-purpose circulating cooling water pipe (2) simultaneously, surface, conduction zone of action (3) can be taken away rapidly because of the heat energy that impedance produces, it has overcome conventional apparatus in the conduction zone of action and has caused the ablation of contact surface owing to generate heat, impedance increases, the drawback that energy consumption raises is energy-saving and cost-reducing very remarkable.

3) long service life

Two contact surfaces all adopt ground finish to form in the conduction zone of action (3), and the surfaceness of two contact surfaces all reaches Ra0.8, the surface planarity height, and the conduction region closure is wide, is conducive to the adjusting of electrode movement and stablizing of electric arc.Having under the situation of high load currents, surface action is low, and burn out rate is little, electric heating conductivity height, and behind life-time service, also can reply processing two contact surfaces by secondary, make 2.5 times that reach the original design life-span its work-ing life.

4) safe

Electrode holder (4) and high-strength corrosion-resisting spring (5) all place on the insulcrete (6), make electrical conductor and basis isolation mutually is installed; Simultaneously the location of corrosion-resistant spring (5) is spacing by spring chucking lug seat (9), go up standing bolt (8) with insulcrete (6) and be spaced from each other, thereby high load currents and electrical insulator isolate fully, safe.

5) installation, maintenance is convenient

Complete assembly directly places on the mounting base, with standing bolt (8) fixed insulation plate (6), at fixed insulation plate (6) four high-strength corrosion-resisting springs (5) is installed, and is spacing with spring chucking lug seat (9) again, fixed electorde seat (4).Inlet tube and outlet tube all adopts soft connection, can change along with the variation of telescopic spring amount.X alloy battery lead plate (7) adopts special technology directly to be welded on the electrode holder (4), reduces the secondary clamping, and compact construction is installed and keep in repair very convenient.

Description of drawings

Fig. 1 is the front view of electrooxidation built-in water-cooling energy-saving electrode seat of the present invention.

Fig. 2 is the vertical view of electrooxidation built-in water-cooling energy-saving electrode seat of the present invention.

Embodiment

As shown in Figure 1 and Figure 2, electrooxidation built-in water-cooling energy-saving electrode seat of the present invention, comprise crane span structure electrode plug (1), circulating cooling water pipe (2), conduction zone of action (3), electrode holder (4), high-strength corrosion-resisting spring (5), insulcrete (6), X alloy battery lead plate (7) and standing bolt (8), be provided with the V-type inclined-plane of 45 degree between described conduction zone of action (3) and the crane span structure electrode plug (1); Described circulating cooling water pipe (2) is located in the electrode holder (4); Described electrode holder (4), high-strength corrosion-resisting spring (5) and standing bolt (8) all place on the insulcrete (6); Described corrosion-resistant spring (5) is spaced from each other with standing bolt (8); Described X alloy battery lead plate (7) fixed electorde seat (4) below; Described high-strength corrosion-resisting spring (5) has four, is located at electrode holder (4) four sides; Described electrooxidation built-in water-cooling energy-saving electrode seat also comprises spring chucking lug seat (9), and described corrosion-resistant spring (5) links to each other with spring chucking lug seat (9); The surfaceness of two contact surfaces all reaches Ra0.8 in the described conduction zone of action (3).

Explanation is at last, above embodiment is only unrestricted in order to technical scheme of the present invention to be described, other modifications that those of ordinary skills make technical scheme of the present invention or be equal to replacement, only otherwise break away from the spirit and scope of technical solution of the present invention, all should be encompassed in the middle of the claim scope of the present invention.

Claims (4)

1. electrooxidation built-in water-cooling energy-saving electrode seat, it is characterized in that, comprise crane span structure electrode plug (1), circulating cooling water pipe (2), conduction zone of action (3), electrode holder (4), high-strength corrosion-resisting spring (5), insulcrete (6), X alloy battery lead plate (7) and standing bolt (8), be provided with the V-type inclined-plane of 45 degree between described conduction zone of action (3) and the crane span structure electrode plug (1); Described circulating cooling water pipe (2) is located in the electrode holder (4); Described electrode holder (4), high-strength corrosion-resisting spring (5) and standing bolt (8) all place on the insulcrete (6); Described corrosion-resistant spring (5) is spaced from each other with standing bolt (8); Described X alloy battery lead plate (7) fixed electorde seat (4) below.

2. electrooxidation built-in water-cooling energy-saving electrode seat as claimed in claim 1 is characterized in that described high-strength corrosion-resisting spring (5) has four, is located at electrode holder (4) four sides.

3. electrooxidation built-in water-cooling energy-saving electrode seat as claimed in claim 1 is characterized in that, described electrooxidation built-in water-cooling energy-saving electrode seat also comprises spring chucking lug seat (9), and described corrosion-resistant spring (5) links to each other with spring chucking lug seat (9).

4. electrooxidation built-in water-cooling energy-saving electrode seat as claimed in claim 1 is characterized in that the surfaceness of two contact surfaces is Ra0.8 in the described conduction zone of action (3).

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