Electrolytic manganese conductive component
A technology for conductive parts and electrolytic manganese, applied in the field of electrolytic manganese, can solve the problems of increased production power loss, large contact resistance, and the contact surface cannot be flat and parallel, and achieves the effects of reducing power loss, simple structure, and increasing contact elasticity.
Inactive Publication Date: 2014-03-26
GUANGXI NANNING LANTIAN ELECTRODE MATERIAL
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Problems solved by technology
[0002] At present, in the production process of electrolytic manganese metal, it is generally used to connect the two plates by connecting the conductive rods of the anode plate and the cathode plate against the bus bar of the electrolytic cell. The disadvantage is that the conductive rods of the cathode and anode plates are directly placed on the copper bars of the busbar.
Since the contact mode between the pole plate and the copper bar is copper-copper natural rigid contact, in the current manufacturing process, the contact surface of the pole plate and the copper bar cannot be well flat and parallel, that is, the actual contact area between the pole plate and the copper bar is small, Lead to large contact resistance, serious power consumption and heat generation, and increase production power loss
Method used
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[0015] The electrolytic manganese conductive part of the present invention will be described below with reference to the accompanying drawings.
[0016] In the electrolytic manganese conductive part of the present invention, the pole plate 1 is connected to the socket clamp 3 through the conductive rod 2 , the copper bar 5 is connected to the card holder 4 , and the socket clamp 3 is connected to the card holder 4 . The opening of the card seat 4 matches the width of the copper bar 5, and bolts 6 are installed on both sides of the card seat 4. The socket clip 3 is composed of a bottom edge and two arc edges, and the opening formed by the arc edges is in contact with the conductive rod 2 .
[0017] The socket clip 3 is made of beryllium copper or phosphor bronze.
[0018] The number of bolts 6 on each side of the clamping seat 4 is one or more than one.
[0019] The operating principle of the electrolytic manganese conductive part of the present invention:
[0020] In the el...
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The invention discloses an electrolytic manganese conductive component which comprises a polar plate, a conductive rod, a copper bar and a conductive joint, wherein the conductive joint consists of a socket clip and a cassette which are connected, the polar plate is connected with the socket clip by the conductive rod, and the copper bar and the cassette are connected. An opening of the cassette is matched with the width of the copper bar, bolts are arranged on two sides of the cassette, and one or more then one bolt is arranged on each side of the cassette. The socket clip comprises a bottom edge and two arc-shaped edges, an opening formed by the arc-shaped edges is matched with and in contact with the conductive rod, and the socket clip is made of beryllium copper or phosphor copper. The electrolytic manganese conductive component is simple in structure and convenient to use, the conductive rod and the conductive joint are in three-sided close fit, so that the contact resistance between the polar plate and the copper bar is far less than the resistance between the polar plate and the copper bar which are in direct single-sided contact before, and therefore the electricity loss in the electrolytic manganese production can be effectively reduced.
Description
technical field [0001] The invention belongs to the field of electrolytic manganese, in particular to a conductive part of electrolytic manganese. Background technique [0002] At present, in the production process of electrolytic manganese metal, it is generally used to connect the two plates by connecting the conductive rods of the anode plate and the cathode plate against the bus bar of the electrolytic cell. The disadvantage is that the conductive rods of the cathode and anode plates are directly placed on the bus bar. Since the contact mode between the pole plate and the copper bar is copper-copper natural rigid contact, in the current manufacturing process, the contact surface of the pole plate and the copper bar cannot be well flat and parallel, that is, the actual contact area between the pole plate and the copper bar is small, This leads to large contact resistance, serious power consumption and heating, and increases the production power loss. Contents of the in...
Claims
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IPC IPC(8): C25C1/10C25C7/00
Inventor 张治生
Owner GUANGXI NANNING LANTIAN ELECTRODE MATERIAL