CN204897412U - Graphitizing furnace copper to aluminium adapter board increase -volume structure concatenates - Google Patents

Abstract

The utility model discloses a graphitizing furnace copper to aluminium adapter board increase -volume structure concatenates, include copper to aluminium adapter board and be located the increase -volume board of copper to aluminium adapter board both sides, copper to aluminium adapter board includes copper bar and aluminium row, copper bar and aluminium row vertical fixation, and aluminium is arranged with generating line row continuously. The utility model discloses need not the production adjustment to current graphitizing furnace after the increase -volume, copper to aluminium adapter board is during through former limiting current, and copper to aluminium adapter board gives out heat the reduction, is favorable to prolonging copper to aluminium adapter board's life.

Description

Cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure

Technical field

The utility model belongs to graphitizing furnace technical field, is specifically related to a kind of cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure.

Background technology

Cascade graphitizing furnaces, also known as Castner stove, is invented by American's Castner 19 end of the centurys.By being connected in series by goods, (exert pressure in two ends, one end is fixed, and exerts pressure in one end) direct-electrifying afterwards of exerting pressure, after conduction, self-resistance heating (Q=I2Rt) is to reach the temperature needed for greying.In order to reduce thermosteresis, around goods, covering and heat insulating material promotes efficiency of utilization.Based on heat formula Q=I2Rt, in greying transmission process, resistance R can be more and more lower, until the later stage tends towards stability reach Schwellenwert, so the lifting of latter temperature depends primarily on the length of size by fabricated product electric current I and electric power feeding time t.

Graphitizing furnace conductive electrode is arranged by copper to aluminum adapter bar connection bus, then is connected to transformer.Graphitizing furnace size and the auxiliary facility such as transformer, bus bar of usual design match.

Utility model content

Utility model object: for above-mentioned prior art Problems existing and deficiency, the purpose of this utility model is to provide a kind of cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure.

Technical scheme: the utility model discloses a kind of cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure, comprise copper to aluminum adapter bar and the increase-volume plate being positioned at described copper to aluminum adapter bar both sides, described copper to aluminum adapter bar comprises copper bar and aluminium row, described copper bar is vertical with aluminium row fixing, and aluminium row is connected with bus bar.

As further optimization of the present utility model, increase-volume plate described in the utility model comprises Copper Foil and substrate, and described substrate is aluminium sheet.

As further optimization of the present utility model, Copper Foil described in the utility model and copper bar are positioned on same level line, and Copper Foil length is less than width.

As further optimization of the present utility model, between increase-volume plate described in the utility model and copper to aluminum adapter bar, there is interval.

As further optimization of the present utility model, the copper bar length of copper to aluminum adapter bar described in the utility model and the Copper Foil length ratio of increase-volume plate: 10-20:1.

As further optimization of the present utility model, the ratio of the copper bar width of copper to aluminum adapter bar described in the utility model and the Copper Foil width of increase-volume plate: 1:5-6.

As further optimization of the present utility model, the ratio of the copper bar thickness of copper to aluminum adapter bar described in the utility model and the copper thickness of increase-volume plate: 1-1.5:1.

Beneficial effect: the utility model compared with prior art, has the following advantages:

1, the utility model is by carrying out increase-volume to copper to aluminum adapter bar, make it to be promoted to 200KA from the maximum carrying capacity 150KA of prior art, increase-volume 33%;

2, the utility model is in the design use range of transformer and bus bar, cascade graphitizing furnaces when output is identical, Q=I2Rt, electric current I is larger, and electric power feeding time is shorter, and unit time output increases;

3, the utility model is in the design use range of transformer and bus bar, and cascade graphitizing furnaces, in identical electric power feeding time, can fill more product, meets graphitization temperature by the lifting of electric current, promotes production output;

4, the utility model is without the need to adjusting the production of existing graphitizing furnace after increase-volume, and when copper to aluminum adapter bar is by former limiting current, copper to aluminum adapter bar thermal value reduces, and is conducive to the work-ing life extending copper to aluminum adapter bar.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model;

1-copper to aluminum adapter bar, 11-copper bar, 12-aluminium row, 2-increase-volume plate, 21-Copper Foil, 22-substrate.

Embodiment

Below in conjunction with specific embodiment, the utility model is described in detail; but illustrate that protection domain of the present utility model is not limited to the concrete scope of the present embodiment simultaneously; based on the embodiment in the utility model; those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

It should be noted that, in description of the present utility model, except as otherwise noted, the implication of " multiple " is two or more; Term " on ", D score, "left", "right", " interior ", " outward ", " front end ", " rear end ", " head ", the orientation of the instruction such as " afterbody " or position relationship be based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of the device of instruction or hint indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " etc. only for describing object, and can not be interpreted as instruction or hint relative importance.

Embodiment 1

As shown in Figure 1, a kind of cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure of the present embodiment, comprise copper to aluminum adapter bar 1 and the increase-volume plate 2 being positioned at described copper to aluminum adapter bar both sides, have interval between increase-volume plate 2 and copper to aluminum adapter bar 1, copper to aluminum adapter bar 1 comprises copper bar 11 and aluminium row 12, copper bar 11 is vertical with aluminium row 12 to be fixed, copper bar 11 is horizontally disposed with, and aluminium row 12 is connected with bus bar, and increase-volume plate 2 comprises Copper Foil 21 and substrate 22, substrate 22 is aluminium sheet, and Copper Foil 21 and copper bar 11 are positioned on same level line.

Copper bar 11 length of the copper to aluminum adapter bar 1 of the present embodiment is 150mm, copper bar 11 width of copper to aluminum adapter bar 1 is 60mm, and copper bar 11 thickness of copper to aluminum adapter bar 1 is 4mm, and Copper Foil 21 length of increase-volume plate 2 is 15mm, Copper Foil 21 width of increase-volume plate 2 is 300mm, and Copper Foil 21 thickness of increase-volume plate 2 is 4mm.

Embodiment 2:

A kind of cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure of the present embodiment, comprise copper to aluminum adapter bar 1 and the increase-volume plate 2 being positioned at described copper to aluminum adapter bar both sides, interval is had between increase-volume plate 2 and copper to aluminum adapter bar 1, copper to aluminum adapter bar 1 comprises copper bar 11 and aluminium row 12, and copper bar 11 is vertical with aluminium row 12 to be fixed, and copper bar 11 is horizontally disposed with, aluminium row 12 is connected with bus bar, increase-volume plate 2 comprises Copper Foil 21 and substrate 22, and substrate 22 is aluminium sheet, and Copper Foil 21 and copper bar 11 are positioned on same level line.

Copper bar 11 length of the copper to aluminum adapter bar 1 of the present embodiment is 400mm, copper bar 11 width of copper to aluminum adapter bar 1 is 80mm, copper bar 11 thickness of copper to aluminum adapter bar 1 is 6.4mm, Copper Foil 21 length of increase-volume plate 2 is 20mm, Copper Foil 21 width of increase-volume plate 2 is 400mm, and Copper Foil 21 thickness of increase-volume plate 2 is 4mm.

Embodiment 3:

A kind of cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure of the present embodiment, comprise copper to aluminum adapter bar 1 and the increase-volume plate 2 being positioned at described copper to aluminum adapter bar both sides, interval is had between increase-volume plate 2 and copper to aluminum adapter bar 1, copper to aluminum adapter bar 1 comprises copper bar 11 and aluminium row 12, and copper bar 11 is vertical with aluminium row 12 to be fixed, and copper bar 11 is horizontally disposed with, aluminium row 12 is connected with bus bar, increase-volume plate 2 comprises Copper Foil 21 and substrate 22, and substrate 22 is aluminium sheet, and Copper Foil 21 and copper bar 11 are positioned on same level line.

The copper bar 11 length 280mm of the copper to aluminum adapter bar 1 of the present embodiment, the copper bar 11 width 70mm of copper to aluminum adapter bar 1, copper bar 11 thickness of copper to aluminum adapter bar 1 is 5mm, and Copper Foil 21 length of increase-volume plate 2 is 20mm, the Copper Foil 21 width 400mm of increase-volume plate 2, Copper Foil 21 thickness of increase-volume plate 2 is 4mm.

Embodiment of the present utility model provides for the purpose of example and description, and is not exhaustively or by the utility model be limited to disclosed form.Many modifications and variations are apparent for the ordinary skill in the art.Selecting and describing embodiment is in order to principle of the present utility model and practical application are better described, and enables those of ordinary skill in the art understand the utility model thus design the various embodiments with various amendment being suitable for specific end use.

Claims (7)

1. cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure, it is characterized in that: comprise copper to aluminum adapter bar and the increase-volume plate being positioned at described copper to aluminum adapter bar both sides, described copper to aluminum adapter bar comprises copper bar and aluminium row, and described copper bar is vertical with aluminium row fixing, and aluminium row is connected with bus bar.

2. cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure according to claim 1, it is characterized in that: described increase-volume plate comprises Copper Foil and substrate, described substrate is aluminium sheet.

3. cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure according to claim 2, it is characterized in that: described Copper Foil and copper bar are positioned on same level line, and Copper Foil length is less than width.

4. cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure according to claim 3, is characterized in that: have interval between described increase-volume plate and copper to aluminum adapter bar.

5. cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure according to claim 4, is characterized in that: the copper bar length of described copper to aluminum adapter bar and the Copper Foil length ratio of increase-volume plate: 10-20:1.

6. cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure according to claim 5, is characterized in that: the ratio of the copper bar width of described copper to aluminum adapter bar and the Copper Foil width of increase-volume plate: 1:5-6.

7. cascade graphitizing furnaces copper to aluminum adapter bar capacity increasing structure according to claim 6, is characterized in that:

The ratio of the copper bar thickness of described copper to aluminum adapter bar and the copper thickness of increase-volume plate: 1-1.5:1.