CN204478795U - Airtight negative pressure electric smelting furnace - Google Patents
Airtight negative pressure electric smelting furnace Download PDFInfo
- Publication number
- CN204478795U CN204478795U CN201520127673.3U CN201520127673U CN204478795U CN 204478795 U CN204478795 U CN 204478795U CN 201520127673 U CN201520127673 U CN 201520127673U CN 204478795 U CN204478795 U CN 204478795U
- Authority
- CN
- China
- Prior art keywords
- electrode
- column
- negative pressure
- cover
- base station
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn - After Issue
Links
Landscapes
- Vertical, Hearth, Or Arc Furnaces (AREA)
Abstract
The utility model is a kind of airtight negative pressure electric smelting furnace, comprise arc-spark stand (3), electrode (5), flue gas cover (4), body of heater (8) and base station (2), be characterized in: below described base station (2), be provided with the lifting platform (9) that body of heater (8) can be supplied to park; Described flue gas cover (4) is surrounded by the cover wall (11) of surrounding and the cover cap (12) of upper end, cover wall (11) is provided with identical with electrode (5) number and the recessed groove (13) to cover wall (11) inner side, groove (13) is surrounded by two relative cell walls and inner side cell wall and bottom plate (20), and bottom plate (20) has can power pole (5) electrode sockets (6) of coming in and going out; Column (21) lower end of described arc-spark stand (3) is connected with base station (2) by transverse axis (24), is provided with draw-off mechanism in the side of column (21).Its beneficial effect is: fire door and flue gas cover airtight performance significantly strengthen, and can reduce thermal loss, avoid environmental pollution, improve operating condition.Electrode adjusts inclination angle under column drives, and is active in one's movements, and sturdy and durable.In-furnace temperature is even, and the thermal efficiency is high, and forms negative pressure smelting atmosphere, and smelting quality significantly improves.
Description
Technical field
The utility model relates to a kind of smelting equipment, i.e. a kind of airtight negative pressure electric smelting furnace being suitable for the non-metallic ores such as boron carbide or metal alloy smelting.
Background technology
Electric arc furnaces is the equipment utilizing electric arc generation high temperature to carry out melting.Existing electric arc furnaces has a base station more, installs multiple arc-spark stand, arc-spark stand installs stick electrode, be provided with passage below base station above base station, and the body of heater of electric arc furnaces can move along passage.During operation, electrode inserts body of heater, produces electric arc, discharges high temperature energy, make raw material hot melt.After one stove hot melt, extract electrode out, remove body of heater, then carry out the hot melt of next body of heater.Electric arc furnaces floor space is little, and technological flexibility is large, and effectively can remove impurity, furnace temperature easily controls, and the hot melt being thus widely used in multiple non-metallic ore or metal alloy is smelted., current electric smelting furnace also exists following drawback:
One, body of heater not sealing suitable for reading.Because body of heater will move below base station, need to leave gap between the upper edge of body of heater and base station bottom surface.During smelting, a part of heat and flue dust will be discharged to body of heater periphery by the gap between body of heater and base station, body of heater peripheral temperature is raised, and air quality reduces, and causes heat-energy losses, the health of infringement operating personnel.
Two, flue gas cover insufficient height is airtight not tight.Petticoat pipe is a kind of case type container, is buckled in above body of heater.Petticoat pipe upper end is provided with exhaust opening, and the heat of discharge and flue dust enter negative pressure recovery channel by exhaust opening, can prevent thermal loss and smoke contamination., in flue gas cover except exhaust opening, also will offer the entrance of electrode, and the entrance of electrode can not be too high, too high will the action of hindrance electrode.Flue gas cover height is low, and its upper cover is in high-temperature region, and the difficulty of heat recovery increases, and the flue dust that each opening is discharged and heat increase, and directly destroys the operating environment around body of heater.In addition, also need feed opening and tremie pipe above flue gas cover, high temperature shifts to an earlier date hot melt in causing raw material to fall on the way, cause being stained with of tremie pipe to hang blocking, need to clear up frequently and change, even cancel tremie pipe, the remote material loading of body of heater, increases place demand, improves operating cost.
Three, the spacing adjustment difficulty of electrode.Conventional electric smelting furnace is furnished with three electrodes, distance during operation between electrode, the size of namely formed electrode circle diameter, and the impact for conditions at the arc is very large.Such as: when electrode is started working, electric arc is difficult to be formed, needing to add striking Jiao could form electric arc, and striking Jiao has negative effect to product quality.In smelting process, the temperature at the Ji Xinyuan center that three electrodes are formed is very high, and peripheral temperature is lower, and inside and outside reaction speed differs greatly, and when middle part react, periphery is reacted and not yet completed.Outside reaction completes, and middle part is burning.On the contrary, the pole heart circle of some electric arc furnaces is larger, also there will be the phenomenon that intermediate reaction is bad.In order to address this problem, the angle that someone attempts by changing electrode grip sleeve changes electrode angle, but because of electrode heavier, effort is compared in adjustment, and associated components easily damages, and fault rate is high, adjustable extent is little, and adjustment sensitivity is low, and operation effectiveness is undesirable.
Summary of the invention
The object of this invention is to provide fire door and base station in a kind of reflow process realizes airtight, and flue gas cover height increases, and recyclability improves, and discharge reduces, the airtight quick tune electric smelting furnace that the spacing of electrode can adjust at any time.
Above-mentioned purpose is realized by following technical scheme: a kind of airtight negative pressure electric smelting furnace, comprise arc-spark stand, electrode, flue gas cover and body of heater, wherein, arc-spark stand is located on base station, body of heater can move below base station, be characterized in: below said base station, be provided with the lifting platform can parked for body of heater; Said flue gas cover is surrounded by the cover wall of surrounding and the cover cap of upper end, cover wall is provided with identical with electrode number and recessed groove inside cover wall, groove is surrounded by two relative cell walls and inner side cell wall and bottom plate, groove upper end and outside are opened wide, bottom plate is positioned at cover wall bottom, bottom plate has can power pole come in and go out electrode sockets; Said arc-spark stand, comprises column, transverse arm and electrode, and column is arranged on base station, and transverse arm hanging is on column, and electrode holder is held in the outer end of transverse arm, and column lower end is connected with base station by transverse axis, is provided with draw-off mechanism in the side of column.
Said lifting platform is one piece of hard plate face, and plate is supported by lowering or hoisting gear below face.
Said lowering or hoisting gear is air rammer or hydraulic jack.
Said cover cap has feed opening and exhaust opening, feed opening is built with tremie pipe.
Said cover wall, cover cap and tremie pipe are provided with the waterway surrounded by double-deck wallboard, and waterway communicates with circulating water pipe.
Said electrode sockets and feed opening are equipped with seal member.
Said draw-off mechanism has the collar be enclosed within column, and the collar is hinged mutually with arm-tie, and arm-tie other end hinge screwed pipe, is fitted with screw rod in screwed pipe, and screw rod is by gearbox and the transmission of Angle Modulation Motor phase.
The inner of said transverse arm is fixed on sliding sleeve, and sliding sleeve is sleeved on the outside of column, and be provided with the leading screw heightening motor, reductor and setting in column side, be furnished with screw outside leading screw, screw is connected mutually with sliding sleeve.
In the middle part of said transverse arm, top is provided with hoist cable, and hoist cable upwards enters column inner chamber by the pulley of column upper end, hoist cable one end hanging balancing weight.
The beneficial effects of the utility model are: fire door and flue gas cover airtight performance significantly strengthen, and can reduce thermal loss, avoid environmental pollution, improve operating condition.Electrode adjusts inclination angle under column drives, and is active in one's movements, and sturdy and durable.In-furnace temperature is even, and the thermal efficiency is high, and forms negative pressure smelting atmosphere, and smelting quality significantly improves.
Accompanying drawing explanation
Fig. 1 is the front view of the first embodiment;
Fig. 2 is the working state figure of the first embodiment;
Fig. 3 is structure and the working state figure of the second embodiment;
Fig. 4 is the front view of the third embodiment;
Fig. 5 is the top view of the third embodiment;
Fig. 6 is the enlarged front view of the parts tremie pipe of the third embodiment;
Fig. 7 is the working state figure of the third embodiment;
Fig. 8 is the front view of the 4th kind of embodiment.
Fig. 9 is the front view of the draw-off mechanism of the 4th kind of embodiment
Figure 10 is the top view of the draw-off mechanism of the 4th kind of embodiment;
Figure 11 is the working state figure of the 4th kind of embodiment.
Visible in figure: passage 1, base station 2, arc-spark stand 3, flue gas cover 4, electrode 5, electrode sockets 6, opening 7, body of heater 8, lifting platform 9, hydraulic jack 10, cover wall 11, cover cap 12, groove 13, exhaust opening 14, feed opening 15, observes door 16, tremie pipe 17, waterway 18, sidewall 19, bottom plate 20, column 21, sliding sleeve 22, transverse arm 23, transverse axis 24, the collar 25, arm-tie 26, screwed pipe 27, screw rod 28, Angle Modulation Motor 29, screw 30, leading screw 31, heighten motor 32, pulley 33, drag-line 34, balance weight iron 35, gib 36, roller 37.
Detailed description of the invention
The total design of the utility model takes three measures for existing electric smelting furnace three deficiencies, arranges lifting platform, and body of heater rises can be airtight with base station, body of heater decline and removable; Around flue gas cover, groove is set, under the prerequisite not affecting electrode action, increases the height of flue gas cover, realize the cooling of petticoat pipe and airtight; The column of arc-spark stand can swing, and binding electrode synchronously tilts, and accurately adjusts electrode spacing, obtains best smelting electric arc.Embodiment around this design can have multiple, only enumerates four kinds of embodiments below:
The first embodiment: as shown in Figure 1, this electric smelting furnace also has a vertical circular body of heater 8, is provided with road wheel below body of heater 8, can along rail moving inside passage 1.Passage 1 is provided with base station 2 above, and base station 2 surrounding erects three arc-spark stands 3, and each arc-spark stand 3 clamps the electrode 5 of a column.In the below of electrode 5, base station 2 is provided with opening 7, is provided with petticoat pipe 4 above opening 7, is provided with three electrode sockets 6 above flue gas cover 4.Particularly: in the passage 1 below base station 2, be provided with lifting platform 9, lifting platform 9 is one piece of hard plate material, is provided with rail above, has geosyncline below lifting platform 9, two cylinders or hydraulic jack 10 is provided with, the piston supporting elevation platform 9 of cylinder or hydraulic oil 10 in geosyncline.At ordinary times, lifting platform 9 is equal with the ground of passage 1, and track above communicates with ground track, and body of heater 8 can go on lifting platform 9 by track, also can move towards passage 1 from lifting platform 9.Before smelting starts, open cylinder or hydraulic jack 10, piston stroking upward, lifting platform 9 rises, and body of heater 8 is upwards lifted, and fire door supports the lower surface of base station 2, forms flat seal.Three electrodes 4 fall to inserting in stove subsequently, and striking heats up and smelts.Because fire door is airtight, the heat of smelting and flue dust can not spread towards periphery from fire door, can only upwards be discharged by petticoat pipe 4, and are taken away by air inducing equipment above, carry out filtering and reclaiming.Therefore, thermal loss and environmental pollution decline to a great extent, and body of heater 8 environment temperature reduces, and air cleaning, operating environment obviously improves.In addition, because thermal loss is little, furnace heat is concentrated, and temperature rise is accelerated, and the duration of heat shortens, and smelting quality significantly improves.
The second embodiment, as shown in Figure 3, the opening 7 of base station 2 is greater than the suitable for reading of body of heater 1.During operation, after body of heater 1 rises, fire door exceedes the upper surface of base station 2, and relative with the end opening of petticoat pipe 4, and airtight performance is better, thermal loss and environmental pollution lower, operating environment is better, operating efficiency and smelting quality higher.
The third embodiment: as shown in Fig. 4 Fig. 5, the flue gas cover 4 of this electric smelting furnace is also a container surrounded by the cover wall 11 of surrounding and the cover cap 12 of upper end, also has electrode sockets 6 and exhaust opening 14 above.Said structure is consistent with the flue gas cover 4 of existing electric smelting furnace.Difference is: cover wall 11 is provided with identical with electrode 5 number and recessed groove 13 inside cover wall 11, groove 13 is surrounded by the cell wall 19 of both sides and inner side cell wall and bottom plate 20, groove 13 upper end and outside are opened wide, bottom plate 20 is plate faces of a horizontal, be positioned at the bottom of cover wall 11, close to the lower limb of flue gas cover 4, bottom plate 20 has can power pole 5 insert electrode sockets 6.
During work, as shown in Figure 7, the opening 7 in the middle of base station 2 is the body of heater 8 of smelting furnace below, detains flue gas cover 4 above.Base station 2 is above equipped with multi-electrode frame 3 around flue gas cover 4, and arc-spark stand 3 is by hoisting mechanism hold electrode 5, and the arc-spark stand 3 of electric arc furnaces generally has three, to assemble electrode 5 be three, only draw two wherein in figure.Electrode 5 inserts electric smelting furnace 8 from the electrode sockets 6 of petticoat pipe 4, carries out hot melt smelting.
In smelting process, electrode 5 should move up and down, and swings the distance between adjustment electrode tip again.Obviously, the height of the electrode sockets 6 of electrode insertion 5 can not be too high, and diameter can not be too large.The highly too high swing that will limit electrode 5, also can reduce the impulse stroke of electrode 5.The seal of the too large flue gas cover 4 of diameter of electrode sockets 6 will reduce., the cover cap 12 of flue gas cover 4 is also provided with exhaust opening 14, is preferably also provided with feed opening 15, these two mouths all need to seal, and feed opening 15 and tremie pipe below 17 also will prevent raw material from shifting to an earlier date hot melt, thus all need lower temperature environment.Only have the height increasing flue gas cover 4, make cover cap 12 away from high-temperature region, just can solve the problem.Which forms one high and one low contradiction.The cover wall 11 of petticoat pipe 4 is offered inside can the groove 13 of power pole 5 activity, electrode sockets 6 is offered in the lower end of groove 13, the position that electrode 5 enters flue gas cover 4 is not high, the scope of activities of electrode 5 does not reduce, the height of petticoat pipe 4 then can significantly increase, be convenient to the airtight and cooling of exhaust opening 14 and feed opening 15, preferably resolve this difficult problem.
In addition, the tube wall of cover wall 11, cover cap 12 and tremie pipe 17 is equipped with the waterway 18 surrounded by double-deck wallboard, waterway 18 communicates with circulating water pipe, the partial heat that can be sent by circulating water reclamation smelting furnace, and petticoat pipe 4 and tremie pipe 27 are cooled, prevent the temperature of smelting shop too high, extend the service life of petticoat pipe 4, avoid being stained with of tremie pipe 17 to hang blocking.
The temperature of cover cap 12 reduces, and the temperature equaling exhaust opening 14 and feed opening 15 reduces, for carrying out airtightly providing condition.Exhaust opening 14 is suitable for reading is unlimited, and the said airtight height increase referring to petticoat pipe 4, exhaust opening 14 is more close with the negative pressure smoke exhaust pipe of top, and flue gas is difficult to spread towards periphery.The airtight of feed opening 15 can solve by adding modes such as not having seal cover.In addition, electrode sockets 6 can adopt resistant to elevated temperatures sealing ring to carry out shutoff above, improves airtight performance.
Experiment proves, after adopting such scheme, the air quality of smelting shop significantly improves, and environment temperature obviously declines, and energy consumption and the cost of smelting significantly reduce, and smelting quality significantly improves.
4th kind of embodiment: as shown in Figure 8, the main body of the arc-spark stand 3 of this electric smelting furnace is a root post 21, and on column 21, cover has sliding sleeve 22, and sliding sleeve 22 is connected a transverse arm 23, and the outer end of transverse arm 23 clamps the electrode 5 of a pillar-shaped by hydraulic means.It should be noted that: the lower end of column 22 is directly or indirectly fixed on above base station 2 by a transverse axis 24.The effect of this transverse axis 24 allows column 21 around the axis rotation of transverse axis 24.In order to control the rotation amplitude of column 21, on base station 2, be provided with a set of draw-off mechanism.Figure 10 is visible for composition graphs 9, and this draw-off mechanism has the collar 25 be enclosed within column, and the collar 25 is hinged with arm-tie 26 phase, and arm-tie 26 other end hinge screwed pipe 27, is fitted with screw rod 28 in screwed pipe 27, and screw rod 28 is by gearbox and the transmission of Angle Modulation Motor 29 phase.Visible in conjunction with Figure 11: start Angle Modulation Motor 29, screw rod 28 rotates, drive screwed pipe 27 to move, pull arm-tie 26 and the collar 25, drive column 21 rotation, column 21 is tilted.Meanwhile, under the drive of column 21, also there is inclination in electrode 5, and the distance of three electrodes 5 in electric arc furnaces is close, and namely heart diameter of a circle in pole diminishes, and electric arc strongly and evenly.In like manner, drive Angle Modulation Motor 29 to reverse, can change the rotation direction of column 21, the distance between adjustment electrode, obtains the electric arc needed.Here Angle Modulation Motor 29 can be one, drives three column 21 synchronization actions by transmission mechanism.Also can be that three motors are unified to control, realize the synchronization action of three columns 21.
In addition, the Height Adjustment mode of electrode 5 is also improved.As shown in Figure 8, the side of sliding sleeve 22 is connected screw 30, the equipped leading screw 31 paralleled with column 21 of screw 30, leading screw 31 by reductor with heighten the transmission of motor 32 phase.Start heighten motor 32, leading screw 31 rotates, and screw 30 drives sliding sleeve 22 up, can drive transverse arm 23 and electrode 5 up.This set of mechanism is more simply too much than the height-regulating mechanism of existing equipment.
Separately as seen from Figure 8: column 21 is hollow tubes, drag-line 34 is connected at the upper middle part of transverse arm 23, drag-line 34 enters in the pipe of column 21 by pulley 33 bending downwards, drag-line 34 lower end hangs with balance weight iron 35, the gravity of partial electrode 5 and build-up member and the disturbing moment of whole arc-spark stand 3 can be offset, alleviate the live load heightening motor 32.
Figure 10 is visible for composition graphs 9, below the screwed pipe 27 of draw-off mechanism, be provided with roller 37, and roller 37 is below by base station 2 or other rigidity mesa supports, and this structure both can ensure the movement of screwed pipe 27, can offset again the pressure after column 21 swing.In addition, add gib 36 at the leading flank of column 21, can prevent column 21 from forwards tilting, strengthen the stability of column 21.
5th kind of embodiment: visible in conjunction with Figure 11, the airtight negative pressure electric smelting furnace that above-mentioned four kinds of embodiments combine, comprise arc-spark stand 3, electrode 5, flue gas cover 4 and body of heater 8, wherein, arc-spark stand 3 is located on base station 2, body of heater 8 can move below base station 2, and base station 2 is provided with the lifting platform 9 can parked for body of heater below; Flue gas cover 4 is surrounded by cover 11 wall of surrounding and the cover cap 12 of upper end, cover wall 11 is provided with identical with electrode number and recessed groove 13 inside cover wall, groove 13 is surrounded by two relative cell walls 19 and inner side cell wall and bottom plate 20, groove 13 upper end and outside are opened wide, bottom plate is positioned at the bottom of cover wall 11, bottom plate 20 has can power pole 5 come in and go out electrode sockets 6; Arc-spark stand 3 comprises column 21, transverse arm 23 and electrode 5, and column 21 is arranged on base station 2, and transverse arm 23 is hung on column 21, and electrode 5 is clamped in the outer end of transverse arm 23, and column 21 lower end is connected with base station 2 by transverse axis 24, is provided with draw-off mechanism in the side of column 21.This electric smelting furnace achieves the airtight of entirety, and can adjust the state of electric arc accurately, can receive better effect.Wherein, it should be noted that the good airtight inflow blocking extraneous air especially, make to form condition of negative pressure in stove, create the effect of similar vacuum metling, be conducive to the degassed removing impurities of raw material, hot melt speed is accelerated, and product purity improves.Particularly for the smelting of boron carbide, show particularly outstanding.The quality index of boron carbide ingot has exceeded GB, and raw materials consumption reduces by 10%, and power consumption significantly reduces, and boron carbide product crystal formation is more regular, and product purity improves more than 2%, reaches international most advanced level.Its specific targets are as following table:
The contrast situation of boron carbide ingot technical indicator
Project | GB (%) | Unite States Standard (%) | Experimental products index (%) |
Total boron | 76.5-81.0 | 73.0-81.0 | 80.13 |
Trip boron | <0.7 | <0.5 | 0.16 |
Trip carbon | <0.7 | Nothing | 0.61 |
Total boron adds total carbon | ≥98.0 | ≥98.0 | 99.17 |
Fluorine | <0.0025 | <0.0025 | 0.0010 |
Chlorine | <0.0075 | <0.0075 | 0.0050 |
Calcium | <0.3 | <0.3 | 0.0062 |
Iron | <1.0 | <1.0 | 0.013 |
Claims (9)
1. one kind is suitable for the airtight negative pressure electric smelting furnace of the non-metallic ores such as boron carbide or metal alloy smelting, comprise arc-spark stand (3), electrode (5), flue gas cover (4) and body of heater (8), wherein, arc-spark stand (3) is located on base station (2), body of heater (8) can move below base station (2), be characterized in: below described base station (2), be provided with the lifting platform (9) that body of heater (8) can be supplied to park; Said flue gas cover (4) is surrounded by the cover wall (11) of surrounding and the cover cap (12) of upper end, cover wall (11) is provided with identical with electrode (5) number and the recessed groove (13) to cover wall (11) inner side, groove (13) is surrounded by two relative cell walls and inner side cell wall and bottom plate (20), groove (13) upper end and outside are opened wide, bottom plate is positioned at cover wall (11) bottom, and bottom plate (20) has can power pole (5) electrode sockets (6) of coming in and going out; Said arc-spark stand (3), comprise column (21), transverse arm (23) and electrode (5), column (21) is arranged on base station (2), transverse arm (23) hanging is on column, electrode (5) is clamped in the outer end of transverse arm (23), column (21) lower end is connected with base station (2) by transverse axis (24), is provided with draw-off mechanism in the side of column (21).
2. airtight negative pressure electric smelting furnace according to claim 1, is characterized in that: described lifting platform (9) is one piece of hard plate face, and plate is supported by lowering or hoisting gear below face.
3. airtight negative pressure electric smelting furnace according to claim 1, is characterized in that: it is air rammer or hydraulic jack (10) that described lifting dress (9) is put.
4. airtight negative pressure electric smelting furnace according to claim 1, it is characterized in that: described cover cap (12) has feed opening (15) and exhaust opening (14), feed opening (15) is built with tremie pipe (17).
5. airtight negative pressure electric smelting furnace according to claim 1, it is characterized in that: described cover wall (11), cover cap (12) and tremie pipe (17) are provided with the waterway (18) surrounded by double-deck wallboard, and waterway (18) communicates with circulating water pipe.
6. airtight negative pressure electric smelting furnace according to claim 1, is characterized in that: described electrode (5) socket and feed opening (15) are equipped with seal member.
7. airtight negative pressure electric smelting furnace according to claim 1, it is characterized in that: described draw-off mechanism has the collar (25) be enclosed within column (21), the collar (25) is hinged mutually with arm-tie (26), arm-tie (26) other end hinge screwed pipe (27), be fitted with screw rod (28) in screwed pipe (27), screw rod (28) is by gearbox and Angle Modulation Motor (29) phase transmission.
8. airtight negative pressure electric smelting furnace according to claim 1, it is characterized in that: the inner of described transverse arm (23) is fixed on sliding sleeve (22), sliding sleeve (22) is sleeved on the outside of column (21), the leading screw (31) heightening motor (32), reductor and setting is provided with in column (21) side, leading screw (31) outside is furnished with screw (30), and screw (30) is connected mutually with sliding sleeve (22).
9. airtight negative pressure electric smelting furnace according to claim 1, it is characterized in that: top, described transverse arm (23) middle part is provided with hoist cable, hoist cable upwards enters column (21) inner chamber by the pulley (37) of column (21) upper end, hoist cable one end hanging balancing weight.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520127673.3U CN204478795U (en) | 2015-03-05 | 2015-03-05 | Airtight negative pressure electric smelting furnace |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201520127673.3U CN204478795U (en) | 2015-03-05 | 2015-03-05 | Airtight negative pressure electric smelting furnace |
Publications (1)
Publication Number | Publication Date |
---|---|
CN204478795U true CN204478795U (en) | 2015-07-15 |
Family
ID=53634581
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201520127673.3U Withdrawn - After Issue CN204478795U (en) | 2015-03-05 | 2015-03-05 | Airtight negative pressure electric smelting furnace |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN204478795U (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104713349A (en) * | 2015-03-05 | 2015-06-17 | 润鸣新素材(通辽)有限公司 | Airtight negative pressure electric arc smelting furnace |
CN106643149A (en) * | 2017-01-18 | 2017-05-10 | 绵阳易简环保科技有限公司 | Multifunctional electric furnace dust removal and afterheat utilization equipment |
CN112815697A (en) * | 2020-12-31 | 2021-05-18 | 西安新达炉业工程有限责任公司 | Refractory material smelting furnace |
CN114576996A (en) * | 2022-03-03 | 2022-06-03 | 苏州华光信息科技有限公司 | Ultra-short-distance power supply and closed double-body lifting type electric arc furnace and positioning smelting method |
-
2015
- 2015-03-05 CN CN201520127673.3U patent/CN204478795U/en not_active Withdrawn - After Issue
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104713349A (en) * | 2015-03-05 | 2015-06-17 | 润鸣新素材(通辽)有限公司 | Airtight negative pressure electric arc smelting furnace |
CN104713349B (en) * | 2015-03-05 | 2016-07-06 | 润鸣新素材(通辽)有限公司 | Airtight negative pressure electric smelting furnace |
CN106643149A (en) * | 2017-01-18 | 2017-05-10 | 绵阳易简环保科技有限公司 | Multifunctional electric furnace dust removal and afterheat utilization equipment |
CN112815697A (en) * | 2020-12-31 | 2021-05-18 | 西安新达炉业工程有限责任公司 | Refractory material smelting furnace |
CN114576996A (en) * | 2022-03-03 | 2022-06-03 | 苏州华光信息科技有限公司 | Ultra-short-distance power supply and closed double-body lifting type electric arc furnace and positioning smelting method |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN204478795U (en) | Airtight negative pressure electric smelting furnace | |
CN104713349B (en) | Airtight negative pressure electric smelting furnace | |
CN211527085U (en) | Automatic feeding device for aluminum ingot melting furnace | |
CN1545606A (en) | Metallurgical oven and a material basket for a metallurgical oven | |
RU2114923C1 (en) | Method for melting-down of scrap in closed-top pit-type dc heating furnace and closed-top pit-type electric-arc heating furnace for embodiment of the method | |
CN105021045A (en) | Distribution device and submerged arc furnace with distribution device | |
CN206556433U (en) | A kind of industrial furnace roof suspending device | |
CN201214672Y (en) | Single nozzle refining furnace | |
CN105135880B (en) | A kind of graphite crucible stove | |
CN102534147B (en) | Furnace door sealing device of box type protective atmosphere thermal treatment furnace | |
CN204111842U (en) | A kind of pressurization electroslag remelting furnace | |
CN104313342A (en) | Metal electroslag remelting and smelting equipment | |
CN204830884U (en) | Distributing device and set up distributing device's hot stove in ore deposit | |
CN210856207U (en) | Liquid metal refining device and liquid metal smelting system | |
CN202511613U (en) | Single-stage arc melting furnace | |
CN108148943A (en) | A kind of refining furnace | |
CN202511615U (en) | Telescopic lifting furnace cover for electric arc melting furnace | |
CN213614115U (en) | Novel ladle car for heating ladle | |
CN105157422B (en) | Induction heating furnace | |
CN206614013U (en) | A kind of vertical oxygen-free copper pipe vacuum continuous casting installation for casting | |
CN207760381U (en) | A kind of refining furnace | |
CN112815697B (en) | Refractory material smelting furnace | |
CN218666134U (en) | Intermediate-frequency atmosphere vacuum induction refining furnace | |
CN204359116U (en) | A kind of copper products melting sources equipment | |
CN204854362U (en) | Vertical business turn over is expected machine and is had equipment of firing of this vertical business turn over material machine |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20150715 Effective date of abandoning: 20160706 |