CN202126187U - Nonmetal smelting automatic adjusting device of electrode - Google Patents

Abstract

The utility model discloses a nonmetal smelting automatic adjusting device of an electrode, which comprises a support. A first electrode fixing frame, a second electrode fixing frame, a third electrode fixing frame, a first horizontal adjusting mechanism for horizontally adjusting the first electrode fixing frame, a second horizontal adjusting mechanism for horizontally adjusting the second electrode fixing frame and a third horizontal adjusting mechanism for horizontally adjusting the third electrode fixing frame are arranged on the support. A 60-degree included angle is formed by the central line of the second horizontal adjusting mechanism and the first horizontal adjusting mechanism and the central line of the third horizontal adjusting mechanism and the first horizontal adjusting mechanism. The first electrode fixing frame, the second electrode fixing frame and the third electrode fixing frame are identical in structure and all comprise supporting posts. Conductive transverse arms are arranged at the upper portions of the supporting posts, and a first lifting driving device, a second lifting driving device and a third lifting driving device are arranged between the rear portions of the conductive transverse arms and the support. The nonmetal smelting automatic adjusting device is simple in structure, reasonable in design, convenient to use and operate, safe and reliable to adjust, free of pollution, small in energy consumption, high in efficiency and low in production cost.

Description

Nonmetal Electrode for remelting self-checking device

Technical field

The utility model relates to a kind of electric smelting smelting equipment, especially relates to a kind of nonmetal Electrode for remelting self-checking device, and it mainly is applicable to the smelting of fused magnesite.

Background technology

Smelt and divide metal to smelt and nonmetal smelting; Nonmetal smelting comprises fused magnesite smelting, electro-corundum, electric-melting zirconia (zirconia comprises stabilised zirconia and semi-stability zirconium), boron carbide smelting etc.; Wherein, the smelting of fused magnesite accounts for a very important part in nonmetal smelting.Fused magnesite with magnesia raw materials such as magnesite after the electric melting magnesium furnace melting reaches molten condition cooling and process; Characteristics such as it has that purity height, fusing point are high, crystal grain is big, compact structure, good thermal shock stability, resistance to slag is strong and insulating properties are strong; Being a kind of excellent high-temperature insulating material, also is simultaneously the important source material of making high-grade magnesia brick, magnesia carbon brick and unshape refractory.

China is magnesium resource big country; And magnesite resource rich; Therefore fused magnesite mainly adopts magnesite to smelt as raw material, but the fused magnesite melting level of China is relatively backward, and especially the adjusting of electrode mainly is to rely on manual work to regulate.Traditional fused magnesite equipment comprises the body of heater that opens wide the upper end, insert electrode in the body of heater, be used to drive the lowering or hoisting gear of rise fall of electrodes and give the transformer of electrode power supply and give the high-voltage board of transformer-supplied etc.; Wherein, The quantity of electrode is three, and lowering or hoisting gear is formed by hoist engine with the steel wire rope that hoist engine and electrode couple together.Concrete smelting process is: need before smelting to place bottom of furnace body as rebasing part material (magnesite building stones) in advance, adopt lowering or hoisting gear that electrode is descended then, the workman is down to bottom of furnace body; Cooperate lowering or hoisting gear electrode to be inserted in the magnesite of bottom of furnace body; Make three electrodes form the figure (for the ease of the starting the arc, three distance between electrodes are nearer) of approximate equilateral triangle, between adjacent two electrodes, lay one deck graphite material again; After in body of heater, adding a large amount of magnesite nugget material subsequently; All send electricity for three-phase electrode, at this moment form electric arc, then magnesite nugget material melted by heat because of the graphite short circuit between the electrode; In the process of fusing, need to continue in body of heater reinforcedly, along with the adding and the fusing of magnesite, go up in the molten bath, therefore need make the length of electrode in the molten bath be maintained within a certain range through the height that lowering or hoisting gear is constantly adjusted electrode; In the time of near the molten bath rises to fire door, fusion process finishes, and stops power supply and cools off, and the liquation crystallization through hand breaking, letter sorting, forms finished product at last.In whole process,, make the melting scope strengthen in order to increase three distance between electrodes; Need in the space that three electrodes form reinforced in the fusion process; Adding under the effect that pan feeding outwards struts three electrodes, making three distance between electrodes increase, and then strengthening the melting scope; In the time of near the molten bath rises to fire door soon, need outside three electrodes, to feed in raw material, to reduce three distance between electrodes, dwindle the melting scope, as early as possible cooling.

Therefore in whole smelting process, it all is to regulate through manual work that distance between electrodes is regulated whole process, and there is following shortcoming in manual adjustment: (1) electrode be adjusted to passive adjusting, passive governing speed is slower, efficient is smelted in influence; (2) manual adjustment instability, and unsettled electrode spacing changes and can influence the uneven degree of three-phase transverse arm output power, and then influences burn-off rate; (3) optimum position of electrode in body of heater is uncontrollable; (4) be unfavorable for mass mechanized production; (5) body of heater can't seal, and is seriously polluted; (6) operating personnel's danger is very big; (7) energy consumption is big, and efficient is low.

For this reason, design that a kind of energy consumption is little, efficient is high, pollution is little, production cost is low and can realize that the convenient nonmetal Electrode for remelting self-checking device of regulating of electrode spacing is this area scientific research personnel's problem demanding prompt solution.

The utility model content

The utility model technical problem to be solved is to above-mentioned deficiency of the prior art a kind of nonmetal Electrode for remelting self-checking device to be provided, and it is simple in structure, reasonable in design and use easy to operate; Can effectively solve in the prior art spacing of regulating three electrodes through hand stock exists human factor big; Be prone to cause the uncontrollable problem in three-phase power imbalance and the electrode optimum position in body of heater, have simultaneously regulate safe and reliable, pollution-free; Energy consumption is little; Efficient is high, and production cost is low, the characteristics that the scope of application is wide.

For solving the problems of the technologies described above; The technical scheme that the utility model adopts is: a kind of nonmetal Electrode for remelting self-checking device; It is characterized in that: comprise the support that is fixedly mounted on the base surface; Said support is provided with electrode fixed mount one, electrode fixed mount two, electrode fixed mount three and is used for level and regulates the level(l)ing mechanism one of said electrode fixed mount one, is used for level and regulates the level(l)ing mechanism two of said electrode fixed mount two and be used for the level(l)ing mechanism three that level is regulated said electrode fixed mount three; Said level(l)ing mechanism two laterally is laid in the middle part of support; Said level(l)ing mechanism one and level(l)ing mechanism three are symmetricly set on the both sides, front and back of level(l)ing mechanism two; Said level(l)ing mechanism three is located at level(l)ing mechanism two front sides; Said level(l)ing mechanism one is located at level(l)ing mechanism two rear sides, and said level(l)ing mechanism one, level(l)ing mechanism two all are fixedly connected with support with level(l)ing mechanism three, and the center line of said level(l)ing mechanism two all becomes 60 degree angles with the center line of level(l)ing mechanism one and the center line of level(l)ing mechanism three with the center line of level(l)ing mechanism one; Said electrode fixed mount one is fixedly mounted on the level(l)ing mechanism one; Said electrode fixed mount two is fixedly mounted on the level(l)ing mechanism two; Said electrode fixed mount three is fixedly mounted on the level(l)ing mechanism three; The structure of said level(l)ing mechanism one, level(l)ing mechanism two and level(l)ing mechanism three is all identical; Said level(l)ing mechanism one, level(l)ing mechanism two include with level(l)ing mechanism three and are arranged on the support and the slide that is fixedly connected with support, and said slide is provided with leading screw screw structure, and said leading screw screw structure is arranged in the slide plate and with the leading screw that slide plate is used by a slide plate and an end to be formed; Said slide plate and slide are slidingly connected, and the said leading screw other end is provided with the driving mechanism that is used to drive the leading screw rotation; The structure of said electrode fixed mount one, electrode fixed mount two and electrode fixed mount three is all identical; Said electrode fixed mount one, electrode fixed mount two and electrode fixed mount three include pillar; Said pillar lower end is fixedly connected with slide plate after passing slide plate, slide and support successively; Said pillar top is provided with the conductive cross arm that is used for fixing installing electrodes, and said electrode is located at the conductive cross arm front end, and said conductive cross arm is fixedly connected with pillar; Be provided with the lifting drive one that is used to drive said electrode fixed mount one up-down, the lifting drive that is used to drive the lifting drive two of said electrode fixed mount two up-downs and is used to drive said electrode fixed mount three up-downs between said conductive cross arm rear portion and the support.

Above-mentioned nonmetal Electrode for remelting self-checking device; It is characterized in that: said driving mechanism comprise motor one, reductor one, steering base one, the steering base two that is arranged on the support outside and be arranged on steering base one and steering base two between drive link; Said motor one is located at reductor one below; Said reductor one is located at steering base one below, and the power shaft of said reductor one is connected with the output shaft of motor one, and the output shaft of said reductor one is connected with steering base one; Said steering base two is located at steering base one top, and said steering base one is connected with leading screw.

Above-mentioned nonmetal Electrode for remelting self-checking device; It is characterized in that: the top of said level(l)ing mechanism one, level(l)ing mechanism two and level(l)ing mechanism three is provided with level(l)ing mechanism four, and said level(l)ing mechanism four is all identical with the structure of level(l)ing mechanism one, level(l)ing mechanism two and level(l)ing mechanism three; Said pillar passes level(l)ing mechanism four, and said level(l)ing mechanism four is connected with steering base two.

Above-mentioned nonmetal Electrode for remelting self-checking device; It is characterized in that: the structure of said lifting drive one, lifting drive two and lifting drive three is all identical; The tooth bar that said lifting drive one, lifting drive two and lifting drive three include motor two, reductor two, gear and use with gear matched; Said reductor two is fixedly mounted on the support; Said motor two is located at reductor two tops, and the power shaft of said reductor two is connected with the output shaft of motor two, and the output shaft of said reductor two is connected with gear; Said tooth bar is vertically set between gear and the conductive cross arm, and the upper end of said tooth bar is fixedly connected with conductive cross arm.

Above-mentioned nonmetal Electrode for remelting self-checking device is characterized in that: said tooth bar is fixedly connected with conductive cross arm through mount pad.

Above-mentioned nonmetal Electrode for remelting self-checking device is characterized in that: said motor two is torque motor.

Above-mentioned nonmetal Electrode for remelting self-checking device is characterized in that: said pillar is a Hollow Pillar.

Above-mentioned nonmetal Electrode for remelting self-checking device; It is characterized in that: conductive cross arm is passed in said pillar upper end; Said pillar is provided with balance weight mechanism; Said balance weight mechanism comprises the counter-balanced carriage that is fixedly mounted on pillar upper end, be arranged on the pulley one of counter-balanced carriage front-end and back-end and through the balancing weight that steel wire rope is sling and an end is fixedly connected with steel wire rope, said balancing weight is arranged in the pillar, the said steel wire rope other end through behind the pulley one be arranged on conductive cross arm on pulley two be fixedly connected; Said pulley two is arranged on pillar the place ahead, and said pulley two is fixedly connected with conductive cross arm.

Above-mentioned nonmetal Electrode for remelting self-checking device is characterized in that: said conductive cross arm is fixedly connected with pillar through a plurality of directive wheels.

Above-mentioned nonmetal Electrode for remelting self-checking device is characterized in that: said pillar is fixedly connected with slide plate through bolt.

The utility model compared with prior art has the following advantages:

1, simple in structure, reasonable in design; The utility model is used for level and regulates the level(l)ing mechanism one of electrode fixed mount one, is used to the level(l)ing mechanism three regulating the level(l)ing mechanism two of electrode fixed mount two and be used to regulate electrode fixed mount three through on support, rationally laying; Make three distance between electrodes realize adjustment rationally; And the path that two electrodes in front and back are passed by becomes 60 degree angles, so not only is convenient to the starting the arc, and has increased the melting area.

2, use is easy to operate; The utility model is through being provided with the lifting drive one that is used to drive one up-down of electrode fixed mount, the lifting drive three that is used to drive the lifting drive two of electrode fixed mount two up-downs and is used to drive three up-downs of electrode fixed mount between conductive cross arm rear portion and support; Make three electrodes be convenient to, overcome the problem of available technology adopting hoist engine and steel wire rope inconvenient operation.

3, can effectively solve in the prior art spacing of regulating three electrodes and exist human factor big, be prone to cause the uncontrollable problem in three-phase power imbalance and the electrode optimum position in body of heater through hand stock.

4, adjusting is safe and reliable; The utility model is in the process of regulating the electrode rising and descending; Not only alleviated the thrust that lifting drive one, lifting drive two and three pairs of electrodes of lifting drive make progress through the balance weight mechanism that is provided with on the pillar, and the stationarity when having guaranteed that electrode descends.

5, the utlity model has pollution-freely, energy consumption is little, and efficient is high, the characteristics that production cost is low.

6, the scope of application is wide, not only can effectively be applicable in the smelting process of fused magnesite, also can be used for all nonmetallic smeltings.

Through accompanying drawing and embodiment, the utility model is done further detailed description below.

Description of drawings

Fig. 1 is the user mode figure of the utility model.

Fig. 2 is the utility model and water-cooled cable and the short vertical view of netting after being connected.

Fig. 3 is the partial enlarged drawing behind the A place removal water-cooled cable among Fig. 1.

Fig. 4 is the vertical view behind installation level(l)ing mechanism one, level(l)ing mechanism two and the level(l)ing mechanism three on the utility model support.

Description of reference numerals:

The 1-transformer; The short net of 2-; The 3-water-cooled cable;

The 4-conductive cross arm; The 5-pillar; The 6-1-counter-balanced carriage;

The 6-2-balancing weight; The 7-electrode; 8-reductor two

9-1-level(l)ing mechanism one; 9-2-level(l)ing mechanism two; 9-3-level(l)ing mechanism three;

9-4-level(l)ing mechanism four; The 10-steering base; 10-1-steering base one;

10-2-steering base two; The 10-3-drive link; 11-reductor one

The 12-support; The 13-slide plate; The 14-slide;

The 15-leading screw; The 16-directive wheel; 17-1-pulley one;

17-2-pulley two; The 18-steel wire rope; 19-motor one;

20-motor two; The 21-gear; The 22-tooth bar;

The 23-mount pad; The 24-transformer room.

The specific embodiment

Like Fig. 1, Fig. 2, Fig. 3 and a kind of nonmetal Electrode for remelting self-checking device shown in Figure 4; Comprise the support 12 that is fixedly mounted on the base surface; Said support 12 is provided with electrode fixed mount one, electrode fixed mount two, electrode fixed mount three and is used for level and regulates level(l)ing mechanism one 9-1 of said electrode fixed mount one, is used for level and regulates level(l)ing mechanism two 9-2 of said electrode fixed mount two and be used for level(l)ing mechanism three 9-3 that level is regulated said electrode fixed mount three; Said level(l)ing mechanism two 9-2 laterally are laid in the middle part of support 12; Said level(l)ing mechanism one 9-1 and level(l)ing mechanism three 9-3 are symmetricly set on the both sides, front and back of level(l)ing mechanism two 9-2; Said level(l)ing mechanism three 9-3 are located at level(l)ing mechanism two 9-2 front sides; Said level(l)ing mechanism one 9-1 is located at level(l)ing mechanism two 9-2 rear sides; Said level(l)ing mechanism one 9-1, level(l)ing mechanism two 9-2 and level(l)ing mechanism three 9-3 all are fixedly connected with support 12, and the center line of said level(l)ing mechanism two 9-2 all becomes 60 degree angles with the center line of level(l)ing mechanism one 9-1 and the center line of level(l)ing mechanism three 9-3 with the center line of level(l)ing mechanism one 9-1; Said electrode fixed mount one is fixedly mounted on level(l)ing mechanism one 9-1; Said electrode fixed mount two is fixedly mounted on level(l)ing mechanism two 9-2; Said electrode fixed mount three is fixedly mounted on level(l)ing mechanism three 9-3; Said level(l)ing mechanism one 9-1, level(l)ing mechanism two 9-2 are all identical with the structure of level(l)ing mechanism three 9-3; Said level(l)ing mechanism one 9-1, level(l)ing mechanism two 9-2 and level(l)ing mechanism three 9-3 include and are arranged on the support 12 and the slide 14 that is fixedly connected with support 12; Said slide 14 is provided with leading screw screw structure; Said leading screw screw structure is arranged in the slide plate 13 and with the leading screw 15 that slide plate 13 is used by a slide plate 13 and an end to be formed, and said slide plate 13 is slidingly connected with slide 14, and said leading screw 15 other ends are provided with the driving mechanism that is used to drive leading screw 15 rotations; The structure of said electrode fixed mount one, electrode fixed mount two and electrode fixed mount three is all identical; Said electrode fixed mount one, electrode fixed mount two and electrode fixed mount three include pillar 5; Said pillar 5 lower ends are passed slide plate 13, slide 14 and support 12 backs successively and are fixedly connected with slide plate 13; Said pillar 5 tops are provided with the conductive cross arm 4 that is used for fixing installing electrodes 7, and said electrode 7 is located at conductive cross arm 4 front ends, and said conductive cross arm 4 is fixedly connected with pillar 5; Be provided with the lifting drive one that is used to drive said electrode fixed mount one up-down, the lifting drive three that is used to drive the lifting drive two of said electrode fixed mount two up-downs and is used to drive said electrode fixed mount three up-downs between said conductive cross arm 4 rear portions and the support 12.

As shown in figures 1 and 3; Said driving mechanism comprise motor 1, reductor 1, steering base one 10-1, steering base two 10-2 that are arranged on support 12 outsides and be arranged on steering base one 10-1 and steering base two 10-2 between drive link 10-3; Said motor 1 is located at reductor one 11 belows; Said reductor 1 is located at steering base one 10-1 below, and the power shaft of said reductor 1 is connected with the output shaft of motor 1, and the output shaft of said reductor 1 is connected with steering base one 10-1; Said steering base two 10-2 are located at steering base one 10-1 top, and said steering base one 10-1 is connected with leading screw 15.

As shown in figures 1 and 3; The top of said level(l)ing mechanism one 9-1, level(l)ing mechanism two 9-2 and level(l)ing mechanism three 9-3 is provided with level(l)ing mechanism 9-4, and said level(l)ing mechanism 9-4 is all identical with the structure of level(l)ing mechanism one 9-1, level(l)ing mechanism two 9-2 and level(l)ing mechanism three 9-3; Said pillar 5 passes level(l)ing mechanism 9-4, and said level(l)ing mechanism 9-4 is connected with steering base two 10-2.This level(l)ing mechanism 9-4 is arranged so that fixing more firm of pillar 5, does not produce and rocks.

As shown in figures 1 and 3; The structure of said lifting drive one, lifting drive two and lifting drive three is all identical; The tooth bar 22 that said lifting drive one, lifting drive two and lifting drive three include motor 2 20, reductor 28, gear 21 and be used with gear 21; Said reductor 28 is fixedly mounted on the support 12; Said motor 2 20 is located at reductor 28 tops, and the power shaft of said reductor 28 is connected with the output shaft of motor 2 20, and the output shaft of said reductor 28 is connected with gear 21; Said tooth bar 22 is vertically set between gear 21 and the conductive cross arm 4, and the upper end of said tooth bar 22 is fixedly connected with conductive cross arm 4.

As shown in Figure 1, said tooth bar 22 is fixedly connected with conductive cross arm 4 through mount pad 23.

In the present embodiment, said motor 2 20 is a torque motor.

In the present embodiment, said pillar 5 is a Hollow Pillar.

As shown in Figure 1; Conductive cross arm 4 is passed in said pillar 5 upper ends; Said pillar 5 is provided with balance weight mechanism; Said balance weight mechanism comprises the counter-balanced carriage 6-1 that is fixedly mounted on pillar 5 upper ends, pulley one 17-1 that is arranged on counter-balanced carriage 6-1 front-end and back-end and through the balancing weight 6-2 that steel wire rope 18 is sling and an end is fixedly connected with steel wire rope 18, said balancing weight 6-2 is arranged in the pillar 5, said steel wire rope 18 other ends through behind pulley one 17-1 be arranged on conductive cross arm 4 on pulley two 17-2 be fixedly connected; Said pulley two 17-2 are arranged on pillar 5 the place aheads, and said pulley two 17-2 are fixedly connected with conductive cross arm 4.

As shown in Figure 1, said conductive cross arm 4 is fixedly connected with pillar 5 through a plurality of directive wheels 16.

As shown in figures 1 and 3, said pillar 5 is fixedly connected with slide plate 13 through bolt.

The operation principle of the utility model is: during use; At first support 12 is fixed on the base surface through foundation bolt, then through water-cooled cable 3 and short net 2 with conductive cross arm 4 be located at transformer room's 24 interior transformers 1 and be connected and can carry out work (as shown in Figure 1).

During work, need to feed in raw material to bottom of furnace body in advance reinforced back starter motor 2 20; Then the driving force of motor 2 20 generations passes to gear 21 after slowing down through reductor 28 successively; The rotation of gear 21 drives the tooth bar 22 that is mated use and moves downward, and moving downward through conductive cross arm 4 drive electrodes 7 of tooth bar 22 moves downward, and then makes electrode 7 insert adding in the pan feeding of bottom of furnace body; The height of realizing electrode 7 descends, and disable motor 2 20 when electrode 7 drops to proper height; Starter motor 1 then; Then the rotary driving force that produces of motor 1 slows down, passes to leading screw screw structure after the steering base one 10-1 switching-over through reductor 1, drives slide plate 13 by the rotation of the leading screw 15 in the leading screw screw structure and on slide 14, slides, and it is mobile in the horizontal direction that the slip of slide plate 13 drives the pillar 5 that is fixedly connected with it; The conductive cross arm 4 drive electrodes 7 that move through of pillar 5 moved along a straight line in adding in the pan feeding of bottom of furnace body; And because the center line of level(l)ing mechanism two 9-2 all becomes 60 degree angles with the center line of level(l)ing mechanism one 9-1 and the center line of level(l)ing mechanism three 9-3 with the center line of level(l)ing mechanism one 9-1, therefore, the electrode along continuous straight runs rectilinear motion in the middle of making; The symmetrically arranged two electrode rectilinear motions in front and back; And the path that front and back two electrodes are passed by becomes 60 degree angles (for the quick starting the arc, the distance between three electrodes 7 being transferred to recently), realizes the adjustment of distance between three electrodes; At this moment between adjacent two electrodes, lay one deck graphite material; Reinforced in a large number, all send electricity meanwhile for three-phase electrode 7 subsequently, at this moment form electric arc because of the graphite short circuit between the electrode 7 to body of heater; Realization forms the molten bath to adding the melting of pan feeding.In fusion process, need constantly in body of heater, to feed in raw material, and in this process,, make that the distance between three electrodes 7 is maximum, and then increase the melting area, the quickening speed of melting through the position of adjustment slide plate 13 on slide 14.

Along with the adding and the fusing of material, go up in the molten bath, and at this moment starter motor 2 20; Make motor 2 20 antiports; Then tooth bar 22 moves upward, and moving upward of tooth bar 22 moves upward through conductive cross arm 4 drive electrodes 7, and then makes electrode 7 keep within the specific limits; In the time of near the molten bath rises to fire door,, make that the distance between three electrodes 7 diminishes,, make and pass through hand breaking, letter sorting at last by liquation crystallisation by cooling gradually, form finished product to increase little melting area through the position of adjustment slide plate 13 on slide 14.

In the process that above-mentioned adjusting electrode 7 rises and descends; Balance weight mechanism through being provided with on the pillar 5 has not only alleviated the thrust that lifting drive one, lifting drive two and three pairs of electrodes 7 of lifting drive make progress, and the stationarity when having guaranteed that electrode 7 descends.

In addition, the utility model also can use with the PLC Programmable Logic Controller when using, and realizes intelligent control.

The above; It only is the preferred embodiment of the utility model; Be not that the utility model is done any restriction; Everyly any simple modification that above embodiment did, change and equivalent structure are changed, all still belong in the protection domain of the utility model technical scheme according to the utility model technical spirit.

Claims (10)

1. nonmetal Electrode for remelting self-checking device; It is characterized in that: comprise the support (12) that is fixedly mounted on the base surface; Said support (12) is provided with electrode fixed mount one, electrode fixed mount two, electrode fixed mount three and is used for level and regulates the level(l)ing mechanism one (9-1) of said electrode fixed mount one, is used for level and regulates the level(l)ing mechanism two (9-2) of said electrode fixed mount two and be used for the level(l)ing mechanism three (9-3) that level is regulated said electrode fixed mount three; Said level(l)ing mechanism two (9-2) laterally is laid in the middle part of support (12); Said level(l)ing mechanism one (9-1) and level(l)ing mechanism three (9-3) are symmetricly set on the both sides, front and back of level(l)ing mechanism two (9-2); Said level(l)ing mechanism three (9-3) is located at level(l)ing mechanism two (9-2) front side; Said level(l)ing mechanism one (9-1) is located at level(l)ing mechanism two (9-2) rear side; Said level(l)ing mechanism one (9-1), level(l)ing mechanism two (9-2) and level(l)ing mechanism three (9-3) all are fixedly connected with support (12), and the center line of said level(l)ing mechanism two (9-2) all becomes 60 degree angles with the center line of level(l)ing mechanism one (9-1) and the center line of level(l)ing mechanism three (9-3) with the center line of level(l)ing mechanism one (9-1); Said electrode fixed mount one is fixedly mounted on the level(l)ing mechanism one (9-1); Said electrode fixed mount two is fixedly mounted on the level(l)ing mechanism two (9-2); Said electrode fixed mount three is fixedly mounted on the level(l)ing mechanism three (9-3); Said level(l)ing mechanism one (9-1), level(l)ing mechanism two (9-2) are all identical with the structure of level(l)ing mechanism three (9-3); Said level(l)ing mechanism one (9-1), level(l)ing mechanism two (9-2) and level(l)ing mechanism three (9-3) include and are arranged on the slide (14) that support (12) is gone up and is fixedly connected with support (12); Said slide (14) is provided with leading screw screw structure; Said leading screw screw structure is arranged in the slide plate (13) and with the leading screw (15) that slide plate (13) is used by a slide plate (13) and an end to be formed, and said slide plate (13) is slidingly connected with slide (14), and said leading screw (15) other end is provided with the driving mechanism that is used to drive leading screw (15) rotation; The structure of said electrode fixed mount one, electrode fixed mount two and electrode fixed mount three is all identical; Said electrode fixed mount one, electrode fixed mount two and electrode fixed mount three include pillar (5); Said pillar (5) lower end is passed slide plate (13), slide (14) and support (12) back successively and is fixedly connected with slide plate (13); Said pillar (5) top is provided with the conductive cross arm (4) that is used for fixing installing electrodes (7); Said electrode (7) is located at conductive cross arm (4) front end, and said conductive cross arm (4) is fixedly connected with pillar (5); Be provided with the lifting drive one that is used to drive said electrode fixed mount one up-down, the lifting drive three that is used to drive the lifting drive two of said electrode fixed mount two up-downs and is used to drive said electrode fixed mount three up-downs between said conductive cross arm (4) rear portion and the support (12).

2. according to the described nonmetal Electrode for remelting self-checking device of claim 1; It is characterized in that: said driving mechanism comprise motor one (19), reductor one (11), steering base one (10-1), the steering base two (10-2) that is arranged on support (12) outside and be arranged on steering base one (10-1) and steering base two (10-2) between drive link (10-3); Said motor one (19) is located at reductor one (11) below; Said reductor one (11) is located at steering base one (10-1) below; The power shaft of said reductor one (11) is connected with the output shaft of motor one (19); The output shaft of said reductor one (11) is connected with steering base one (10-1), and said steering base two (10-2) is located at steering base one (10-1) top, and said steering base one (10-1) is connected with leading screw (15).

3. according to the described nonmetal Electrode for remelting self-checking device of claim 2; It is characterized in that: the top of said level(l)ing mechanism one (9-1), level(l)ing mechanism two (9-2) and level(l)ing mechanism three (9-3) is provided with level(l)ing mechanism four (9-4), and said level(l)ing mechanism four (9-4) is all identical with the structure of level(l)ing mechanism one (9-1), level(l)ing mechanism two (9-2) and level(l)ing mechanism three (9-3); Said pillar (5) passes level(l)ing mechanism (9-4), and said level(l)ing mechanism (9-4) is connected with steering base two (10-2).

4. according to the described nonmetal Electrode for remelting self-checking device of claim 1; It is characterized in that: the structure of said lifting drive one, lifting drive two and lifting drive three is all identical; The tooth bar (22) that said lifting drive one, lifting drive two and lifting drive three include motor two (20), reductor two (8), gear (21) and be used with gear (21); Said reductor two (8) is fixedly mounted on the support (12); Said motor two (20) is located at reductor two (8) tops, and the power shaft of said reductor two (8) is connected with the output shaft of motor two (20), and the output shaft of said reductor two (8) is connected with gear (21); Said tooth bar (22) is vertically set between gear (21) and the conductive cross arm (4), and the upper end of said tooth bar (22) is fixedly connected with conductive cross arm (4).

5. according to the described nonmetal Electrode for remelting self-checking device of claim 4, it is characterized in that: said tooth bar (22) is fixedly connected with conductive cross arm (4) through mount pad (23).

6. according to the described nonmetal Electrode for remelting self-checking device of claim 4, it is characterized in that: said motor two (20) is torque motor.

7. according to the described nonmetal Electrode for remelting self-checking device of claim 1, it is characterized in that: said pillar (5) is a Hollow Pillar.

8. according to the described nonmetal Electrode for remelting self-checking device of claim 7; It is characterized in that: conductive cross arm (4) is passed in said pillar (5) upper end; Said pillar (5) is provided with balance weight mechanism; Said balance weight mechanism comprises the counter-balanced carriage (6-1) that is fixedly mounted on pillar (5) upper end, the pulley one (17-1) that is arranged on counter-balanced carriage (6-1) front-end and back-end and through steel wire rope (18) is sling and an end is fixedly connected with steel wire rope (18) balancing weight (6-2); Said balancing weight (6-2) is arranged in the pillar (5); Said steel wire rope (18) other end through behind the pulley one (17-1) be arranged on conductive cross arm (4) on pulley two (17-2) be fixedly connected, said pulley two (17-2) is arranged on pillar (5) the place ahead, said pulley two (17-2) is fixedly connected with conductive cross arm (4).

9. according to the described nonmetal Electrode for remelting self-checking device of claim 1, it is characterized in that: said conductive cross arm (4) is fixedly connected with pillar (5) through a plurality of directive wheels (16).

10. according to the described nonmetal Electrode for remelting self-checking device of claim 1, it is characterized in that: said pillar (5) is fixedly connected with slide plate (13) through bolt.

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