CN209341855U - One kind is for waste-heat recovery device in manganese-silicon production waste residue - Google Patents

One kind is for waste-heat recovery device in manganese-silicon production waste residue Download PDF

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Publication number
CN209341855U
CN209341855U CN201822138911.7U CN201822138911U CN209341855U CN 209341855 U CN209341855 U CN 209341855U CN 201822138911 U CN201822138911 U CN 201822138911U CN 209341855 U CN209341855 U CN 209341855U
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CN
China
Prior art keywords
water tank
furnace body
manganese
waste residue
waste
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Expired - Fee Related
Application number
CN201822138911.7U
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Chinese (zh)
Inventor
陈小虎
郭林岗
杨银
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Fengzhen Xingfengyu Ferroalloy Co Ltd
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Fengzhen Xingfengyu Ferroalloy Co Ltd
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Priority to CN201822138911.7U priority Critical patent/CN209341855U/en
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    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02PCLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
    • Y02P10/00Technologies related to metal processing
    • Y02P10/25Process efficiency

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  • Processing Of Solid Wastes (AREA)

Abstract

The utility model discloses one kind for waste-heat recovery device in manganese-silicon production waste residue, it is related to technical field of manganese-silicon alloy production, including furnace body, the upper end of furnace body is equipped with feed hopper, the downside of body is equipped with water tank, and lubricating substance pipe is tiltedly installed between the lower end of furnace body and the inside of water tank, and the outside of furnace body is equipped with cyclic water tank, it is connected with water inlet pipe between the upper end of water tank and the left position of cyclic water tank, is connected with outlet pipe between the upper end of water tank and the right end position of cyclic water tank.The utility model is novel in design, structure is simple, easy to use, the intracorporal high temperature waste residue of furnace is slided out of lubricating substance pipe, and the waste residue of high temperature heats the water in water tank quickly, hot water in water tank is pumped into cyclic water tank by intake pump, hot water in cyclic water tank is pumped into the water tank of lower section by water outlet pump, realizes circulating for hot water, cyclic water tank keeps the temperature furnace body, the heat loss for preventing furnace body plays energy-efficient effect.

Description

One kind is for waste-heat recovery device in manganese-silicon production waste residue
Technical field
It is specifically a kind of for remaining in manganese-silicon production waste residue the utility model relates to technical field of manganese-silicon alloy production Heat recovery apparatus.
Background technique
The alloy that silicomangan is made of manganese, silicon, iron and a small amount of carbon and other elements is that a kind of purposes is relatively wide, yield Biggish ferroalloy, the manganeisen containing enough silicon amounts are 1075 DEG C -1320 DEG C of fusion temperature range, mostly fixed in opening It is smelted in ore-smelting electric furnace, has used rotation, closed electric furnace production in recent years, silicomangan is to smelt medium-low carbon ferromanganese and manganese metal Reducing agent, also as the double deoxidizer and alloying constituent and desulfurizing agent in STEELMAKING PRODUCTION, usually as accounting for for reducing agent 40%, that makees deoxidier and alloying constituent accounts for 60%.
Chinese patent discloses a kind of manganese-silicon production system and manganese-silicon production technology (Authorization Notice No. CN 108411131A), which simplifies manganese-silicon smelting process depth, improves the heat utilization efficiency of furnace body, subtracts simultaneously Spent electric energy has still discharged a large amount of waste residue during producing manganese-silicon when having lacked furnace body heating, these are useless The heat of slag all wastes.Therefore, those skilled in the art provide a kind of for waste heat recycling in manganese-silicon production waste residue Device, to solve the problems mentioned in the above background technology.
Utility model content
The purpose of this utility model is to provide one kind for waste-heat recovery device in manganese-silicon production waste residue, to solve The problems mentioned above in the background art.
To achieve the above object, the utility model provides the following technical solutions: one kind is in manganese-silicon production waste residue Waste-heat recovery device, including furnace body, the upper end of the furnace body are equipped with feed hopper, are respectively equipped with power supply and control on the downside of the furnace body The downside of system switch, the furnace body is equipped with water tank, is tiltedly installed with cunning between the lower end of the furnace body and the inside of water tank The outside of expects pipe, the furnace body is equipped with cyclic water tank, connects between the upper end of the water tank and the left position of cyclic water tank Have water inlet pipe, be connected with outlet pipe between the upper end of the water tank and the right end position of cyclic water tank, the water inlet pipe it is upper End is equipped with intake pump, and the upper end of the outlet pipe is equipped with water outlet pump.
The lower end of the water tank is horizontally installed with sliding rack, the cunning as a further solution of the present invention, It moves between the inside of frame and is slidably fitted with slide plate.
Sliding rail is offered on two relative inner walls of the sliding rack as a further solution of the present invention, The slide plate slides are mounted in sliding rail.
The upper end of the slide plate is fixedly installed with sliding block as a further solution of the present invention, the sliding block Cross-sectional area is greater than the cross-sectional area of lubricating substance pipe lower end.
The upper end of the slide plate is fixedly installed with first motor as a further solution of the present invention, and described The side of one motor is rotatably equipped with driving wheel, and rack gear is connected on the downside of the driving wheel, and the rack gear is fixedly mounted In the upper end of sliding rack.
The downside of the lubricating substance pipe is equipped with conveyer belt as a further solution of the present invention, the conveyer belt Right side is equipped with aggregate bin, and the width of the aggregate bin is greater than the width of conveyer belt.
The lower end of the slide plate is equipped with the second motor, second electricity as a further solution of the present invention, The lower end of machine is rotatably connected to flabellum, and the outside of the flabellum is equipped with windshield, and the surface of the windshield out, which is run through, exhaust vent.
Compared with prior art, the utility model has the beneficial effects that the utility model is novel in design, structure is simple, makes With conveniently, the intracorporal high temperature waste residue of furnace is slided out of lubricating substance pipe, and the waste residue of high temperature heats the water in water tank quickly, water inlet Hot water in water tank is pumped into cyclic water tank by pump, and the hot water in cyclic water tank is pumped into the water tank of lower section by water outlet pump It is interior, hot water circulating between water tank and cyclic water tank is realized, so that cyclic water tank keeps the temperature furnace body, is prevented The heat loss of furnace body, so that the heating and thermal insulation effect promoting of the furnace body, plays energy-efficient effect;It is main after first motor starting Driving wheel drives slide plate to move horizontally in sliding rail so that sliding block is removed from the lower end of lubricating substance pipe so that the waste residue in lubricating substance pipe from The lower end of lubricating substance pipe is fallen, and is manually taken out the waste residue in lubricating substance pipe without operator, is prevented the waste-heat scalding of waste residue from operating Personnel improve the safety of operator;After second electric motor starting, the raw wind-force of fan blade rotating movable property, what wind was covered from outlet air goes out Blowout in air holes, thus the waste residue progress on conveyer belt is air-cooled, so that the waste residue temperature in aggregate bin is lower, prevent aggregate bin Interior waste residue residual temperature scalds operator.
Detailed description of the invention
Fig. 1 is a kind of structural schematic diagram that waste-heat recovery device in waste residue is produced for manganese-silicon;
Fig. 2 is a kind of structural representation that sliding rack and sliding rail in waste-heat recovery device in waste residue are produced for manganese-silicon Figure;
Fig. 3 is a kind of structural representation that the second motor and flabellum in waste-heat recovery device in waste residue are produced for manganese-silicon Figure.
In figure: 1, furnace body;2, feed hopper;3, water tank;4, lubricating substance pipe;5, cyclic water tank;6, water inlet pipe;7, outlet pipe; 8, intake pump;9, water outlet pump;10, sliding rack;11, sliding rail;12, slide plate;13, sliding block;14, first motor;15, driving wheel;16, Rack gear;17, conveyer belt;18, power supply;19, control switch;20, aggregate bin;21, the second motor;22, flabellum;23, go out windshield; 24, exhaust vent.
Specific embodiment
Please refer to Fig. 1~3, in the utility model embodiment, one kind is for waste heat recycling dress in manganese-silicon production waste residue It sets, including furnace body 1, is produced in furnace body 1 for the smelting of manganese-silicon, the upper end of furnace body 1 is equipped with feed hopper 2, for producing manganese The raw material of silicon alloy enters in furnace body 1 from the upper end of feed hopper 2, and the downside of furnace body 1 is respectively equipped with power supply 18 and control switch 19, Power supply 18 is used to provide electric energy to the heating device in the furnace body 1, and control switch 19 can realize the control to the process units.
The downside of furnace body 1 is equipped with water tank 3, and the internal reservoir of water tank 3 has water, and the lower end of furnace body 1 is interior with water tank 3 Lubricating substance pipe 4 is tiltedly installed between portion, the outside of furnace body 1 is equipped with cyclic water tank 5, and the high temperature waste residue in furnace body 1 is out of lubricating substance pipe 4 It slides, the waste residue of high temperature heats the water in water tank 3 quickly, the upper end of water tank 3 and the left position of cyclic water tank 5 Between be connected with water inlet pipe 6, outlet pipe 7, water inlet pipe 6 are connected between the upper end of water tank 3 and the right end position of cyclic water tank 5 Upper end be equipped with intake pump 8 (model WPY350), the upper end of outlet pipe 7 is equipped with water outlet pump 9 (model WPY350), water inlet Hot water in water tank 3 is pumped into cyclic water tank 5 by pump 8, and the hot water in cyclic water tank 5 is pumped into lower section by water outlet pump 9 In water tank 3, realize hot water circulating between water tank 3 and cyclic water tank 5 so that cyclic water tank 5 by furnace body 1 into Row heat preservation, prevents the heat loss of furnace body 1, so that the heating and thermal insulation effect promoting of the furnace body 1, plays energy-efficient effect.
The lower end of water tank 3 is horizontally installed with sliding rack 10, and slide plate 12 is slidably fitted between the inside of sliding rack 10, sliding It moves on two relative inner walls of frame 10 and offers sliding rail 11, slide plate 12 is slidably mounted in sliding rail 11, and the upper end of slide plate 12 is solid Dingan County is equipped with sliding block 13, and the cross-sectional area of sliding block 13 is greater than the cross-sectional area of 4 lower end of lubricating substance pipe, and the upper end of slide plate 12 is fixedly mounted There is a first motor 14 (model VTB56-2A), the side of first motor 14 is rotatably equipped with driving wheel 15, under driving wheel 15 Side is connected with rack gear 16, and rack gear 16 is fixedly mounted on the upper end of sliding rack 10, and the sliding block 13 on slide plate 12 is by lubricating substance pipe 4 Lower end is blocked, first motor 14 start after, driving wheel 15 drive slide plate 12 moved horizontally in sliding rail 11 so that sliding block 13 from The lower end of lubricating substance pipe 4 is removed, so that the waste residue in lubricating substance pipe 4 is fallen from the lower end of lubricating substance pipe 4, will be slided manually without operator Waste residue in expects pipe 4 takes out, and prevents the waste-heat scalding operator of waste residue, improves the safety of operator.
The downside of lubricating substance pipe 4 is equipped with conveyer belt 17, and the right side of conveyer belt 17 is equipped with aggregate bin 20, and the width of aggregate bin 20 is big In the width of conveyer belt 17, the lower end of slide plate 12 is equipped with the second motor 21 (model VTB56-2A), under the second motor 21 End is rotatably connected to flabellum 22, and the outside of flabellum 22 is equipped with windshield 23, and the surface of windshield 23, which is run through, out exhaust vent 24, lubricating substance Waste residue in pipe 4 is fallen on conveyer belt 17, and conveyer belt 17 falls into the waste residue band of upside in aggregate bin 20, is realized to useless The automatic collection of slag reduces the labor intensity of operator, and after the starting of the second motor 21, the rotation of flabellum 22 generates wind-force, wind It is blown out out of exhaust vent 24 in windshield 23 out, thus the waste residue progress on conveyer belt 17 is air-cooled, so that in aggregate bin 20 Waste residue temperature is lower, prevents the waste residue residual temperature in aggregate bin 20 from scalding operator.
The working principle of the utility model is: the high temperature waste residue in furnace body 1 is slided out of lubricating substance pipe 4, the waste residue of high temperature makes The water obtained in water tank 3 quickly heats, and the hot water in water tank 3 is pumped into cyclic water tank 5 by intake pump 8, and water outlet pump 9 will Hot water in cyclic water tank 5 is pumped into the water tank 3 of lower section, realizes hot water following between water tank 3 and cyclic water tank 5 Circulation is dynamic, and the sliding block 13 on slide plate 12 blocks the lower end of lubricating substance pipe 4, and after first motor 14 starts, driving wheel 15 drives slide plate 12 move horizontally in sliding rail 11, so that sliding block 13 is removed from the lower end of lubricating substance pipe 4, so that the waste residue in lubricating substance pipe 4 is from lubricating substance The lower end of pipe 4 is fallen, and the waste residue in lubricating substance pipe 4 is fallen on conveyer belt 17, and conveyer belt 17, which falls into the waste residue band of upside, to gather materials In bucket 20, after the starting of the second motor 21, the rotation of flabellum 22 generates wind-force, and wind is blown out out of exhaust vent 24 in windshield 23 out, will Waste residue on conveyer belt 17 is cooling.
It is above-described, the only preferable specific embodiment of the utility model, but the protection scope of the utility model is simultaneously It is not limited to this, anyone skilled in the art within the technical scope disclosed by the utility model, according to this reality It is subject to equivalent substitution or change with novel technical solution and its utility model design, should all covers the protection in the utility model Within the scope of.

Claims (7)

1. one kind is set for waste-heat recovery device in manganese-silicon production waste residue, including furnace body (1), the upper end of the furnace body (1) Have feed hopper (2), is respectively equipped with power supply (18) and control switch (19) on the downside of the furnace body (1), which is characterized in that the furnace The downside of body (1) is equipped with water tank (3), is tiltedly installed with lubricating substance between the lower end of the furnace body (1) and the inside of water tank (3) It manages (4), the outside of the furnace body (1) is equipped with cyclic water tank (5), the upper end of the water tank (3) and the left end of cyclic water tank (5) It is connected between position water inlet pipe (6), is connected between the upper end of the water tank (3) and the right end position of cyclic water tank (5) The upper end of outlet pipe (7), the water inlet pipe (6) is equipped with intake pump (8), and the upper end of the outlet pipe (7) is equipped with water outlet pump (9).
2. according to claim 1 a kind of for waste-heat recovery device in manganese-silicon production waste residue, which is characterized in that institute The lower end for stating water tank (3) is horizontally installed with sliding rack (10), is slidably fitted with slide plate between the inside of the sliding rack (10) (12)。
3. according to claim 2 a kind of for waste-heat recovery device in manganese-silicon production waste residue, which is characterized in that institute It states and is offered sliding rail (11) on two relative inner walls of sliding rack (10), the slide plate (12) is slidably mounted on sliding rail (11) It is interior.
4. according to claim 2 a kind of for waste-heat recovery device in manganese-silicon production waste residue, which is characterized in that institute The upper end for stating slide plate (12) is fixedly installed with sliding block (13), and the cross-sectional area of the sliding block (13) is greater than lubricating substance pipe (4) lower end Cross-sectional area.
5. according to claim 2 a kind of for waste-heat recovery device in manganese-silicon production waste residue, which is characterized in that institute The upper end for stating slide plate (12) is fixedly installed with first motor (14), and the side of the first motor (14) is rotatably equipped with driving wheel (15), it is connected with rack gear (16) on the downside of the driving wheel (15), the rack gear (16) is fixedly mounted on sliding rack (10) Upper end.
6. according to claim 1 a kind of for waste-heat recovery device in manganese-silicon production waste residue, which is characterized in that institute The downside for stating lubricating substance pipe (4) is equipped with conveyer belt (17), and the right side of the conveyer belt (17) is equipped with aggregate bin (20), the aggregate bin (20) width is greater than the width of conveyer belt (17).
7. according to claim 2 a kind of for waste-heat recovery device in manganese-silicon production waste residue, which is characterized in that institute The lower end for stating slide plate (12) is equipped with the second motor (21), and the lower end of second motor (21) is rotatably connected to flabellum (22), The outside of the flabellum (22) is equipped with windshield (23), and the surface of windshield (23) out, which is run through, exhaust vent (24).
CN201822138911.7U 2018-12-19 2018-12-19 One kind is for waste-heat recovery device in manganese-silicon production waste residue Expired - Fee Related CN209341855U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201822138911.7U CN209341855U (en) 2018-12-19 2018-12-19 One kind is for waste-heat recovery device in manganese-silicon production waste residue

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201822138911.7U CN209341855U (en) 2018-12-19 2018-12-19 One kind is for waste-heat recovery device in manganese-silicon production waste residue

Publications (1)

Publication Number Publication Date
CN209341855U true CN209341855U (en) 2019-09-03

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CN201822138911.7U Expired - Fee Related CN209341855U (en) 2018-12-19 2018-12-19 One kind is for waste-heat recovery device in manganese-silicon production waste residue

Country Status (1)

Country Link
CN (1) CN209341855U (en)

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Granted publication date: 20190903

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