CN211182539U - Graphitizing furnace end electrode internal-water-cooling clamping conductive copper plate - Google Patents

Abstract

The utility model provides a tight electrically conductive copper of graphitization furnace end electrode internal cooling clamp, including pressing from both sides tight electrically conductive copper body, the inside of pressing from both sides tight electrically conductive copper body one side is equipped with the cooling water pipeline, the tip of cooling water pipeline is equipped with the cooling pipe connecting hole, press from both sides tight electrically conductive copper body and be equipped with a plurality of screws parallel with the cooling pipe, the opposite side that presss from both sides tight electrically conductive copper body is equipped with a plurality of round holes. The utility model has the advantages of good heat dispersion and long service life.

Description

Graphitizing furnace end electrode internal-water-cooling clamping conductive copper plate

Technical Field

The utility model relates to an electromechanical device field specifically is a tight electrically conductive copper of graphitizing furnace end electrode internal cooling clamp in water.

Background

The direct current busbar copper bar of heavy current fairing provides the electric current to graphitizing furnace through the furnace end electrode, and the busbar is connected through electrically conductive copper with the furnace end electrode, if the contact is not good, and contact resistance is too big, and the part is generated heat badly, influences furnace end electrode life-span, simultaneously, also will lead to the copper to generate heat seriously because of through the heavy current in the electrically conductive copper, makes furnace end electrode temperature rise, shortens the life of furnace end electrode greatly.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem that the connection contact of the bus bar and the furnace end electrode mentioned in the above background art does not lead to serious generating heat well, the utility model provides a novel furnace end electrode internal water cooling presss from both sides tight electrically conductive copper and can satisfy above-mentioned requirement.

The utility model provides a technical scheme as follows of above-mentioned problem:

the utility model provides a graphitizing furnace end electrode internal cooling presss from both sides tight electrically conductive copper with water, includes and presss from both sides tight electrically conductive copper body, its characterized in that: the inside of pressing from both sides tight electrically conductive copper body one side is equipped with the cooling water pipeline, the tip of cooling water pipeline is equipped with the cooling line connecting hole, the cooling line connecting hole is used for connecting the external cooling water route, press from both sides tight electrically conductive copper body and be equipped with a plurality of screws parallel with the cooling line, the screw is used for pressing from both sides the tight electrically conductive copper of clamp and is connected with the steel clamp plate, the opposite side that presss from both sides tight electrically conductive copper body is equipped with a plurality of mounting holes, the mounting hole is used for pressing from both sides tight electrically conductive.

Furthermore, a plurality of screw holes parallel to the cooling pipeline are formed in one side of the clamping conductive copper plate body, and a plurality of mounting holes formed in the other side of the clamping conductive copper plate body are through holes penetrating through the thickness of the clamping conductive copper plate body, so that the clamping conductive copper plate can be conveniently mounted.

The utility model has the advantages that: the utility model discloses an increase the cooling water route in pressing from both sides tight electrically conductive copper, improve and press from both sides tight electrically conductive copper self heat dispersion, reduce the contact resistance who presss from both sides tight electrically conductive copper and furnace end electrode, eliminate local generating heat, reduce the operating temperature of furnace end electrode simultaneously, improve furnace end electrode life.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

In the figure, 1, a clamping conductive copper plate body, 2, a mounting hole, 3, a screw hole, 4, a cooling pipeline connecting hole and 5, a cooling pipeline are arranged.

Detailed Description

The present invention will be described in further detail with reference to the following detailed drawings and examples.

Please refer to fig. 1, a graphitizing furnace end electrode internal water cooling presss from both sides tight conductive copper plate, including pressing from both sides tight conductive copper plate body 1, it is the dysmorphism structure to press from both sides tight conductive copper plate body 1, one side that presss from both sides tight conductive copper plate body 1 sets up a plurality of mounting holes 2, mounting hole 2 is the copper bar mounting hole that converges for converge the copper bar and press from both sides tight conductive copper plate body 1 and be connected, the opposite side that presss from both sides tight conductive copper plate body 1 evenly sets up a plurality of screws 3, screws 3 are used for pressing from both sides tight conductive copper plate body 1 and the connection of steel clamp plate, screws 3 and mounting hole 2 are the through-hole that pierces through the thickness of the tight conductive copper plate body 1, the installation of steel clamp. The inside 3 positions of staggering a plurality of screws of opposite side of pressing from both sides tight electrically conductive copper body 1 set up cooling water route 5, cooling circuit 5's tip sets up cooling circuit connecting hole 4, cooling circuit connecting hole 4 is used for being connected with external cooling circuit to form cooling water circulation, reach the radiating purpose of cooling.

The foregoing has described only the principles and features of the invention. The technical personnel of this trade should understand, the utility model discloses do not receive the restriction of above-mentioned embodiment, do not deviating from the utility model discloses a under the prerequisite, it is right the utility model discloses change, reform transform, decorate, these change, reform transform, decorate and all fall into the utility model discloses in the scope.

Claims (2)

1. The utility model provides a graphitizing furnace end electrode internal cooling presss from both sides tight electrically conductive copper with water, includes and presss from both sides tight electrically conductive copper body, its characterized in that: the cooling water pipe is arranged in one side of the clamping conductive copper plate body, a cooling pipe connecting hole is formed in the end portion of the cooling water pipe, a plurality of screw holes parallel to the cooling pipe are formed in the clamping conductive copper plate body, and a plurality of mounting holes are formed in the other side of the clamping conductive copper plate body.

2. The water-cooled clamping conductive copper plate for the furnace end electrode of the graphitization furnace as claimed in claim 1, characterized in that: and a plurality of screw holes parallel to the cooling pipeline are formed in one side of the clamping conductive copper plate body, and a plurality of mounting holes formed in the other side of the clamping conductive copper plate body are through holes penetrating through the thickness of the clamping conductive copper plate body.

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