CN118166216A - Water quenching slag dragging equipment for nickel ore - Google Patents

Abstract

The invention discloses a water quenching slag dragging device for nickel ores, which relates to the technical field of metal smelting and comprises a driving roller, slag dragging components and slag processing components, wherein the outer wall of the driving roller is connected with a conveying belt in a meshed manner, the slag dragging components are equidistantly arranged on the surface of the conveying belt, and the slag processing components are fixed at two ends of the driving roller. This slag equipment is dragged for in water quenching of nickel ore, piston trace carries the roll pearl and is sharp concertina movement, the roll pearl extrudes the spring beam at the slag scooping bucket both ends of just overturning when stretching out, the spring beam consequently carries the push pedal, the cleaning brush, the doctor-bar slides along slag scooping bucket inner wall, can make the push pedal vibrate when polygonal gyro wheel rolls, can apply vibration effect to cleaning brush, doctor-bar from this, with improve the cleaning brush to microporous mediation effect, the doctor-bar can strike off the slag granule and avoid the granule card to go into the doctor-bar and drag for between the slag scooping bucket inner wall, and the doctor-bar vibration can prevent that the slag granule from adsorbing its surface because of the water stain.

Description

Water quenching slag dragging equipment for nickel ore

Technical Field

The invention relates to the technical field of metal smelting, in particular to a water quenching slag dragging device for nickel ores.

Background

The water quenching slag dragging of nickel ore is mainly divided into two steps of water quenching and slag dragging, wherein the water quenching is to put high Wen Niekuang slag into water to enable the high Wen Niekuang slag to be cooled and solidified rapidly, the slag dragging is to drag out the nickel ore slag solidified in a water quenching mode, namely, the temperature reducing mode, from the water, and the water quenching slag dragging equipment is equipment to drag out the slag solidified in the water quenching mode from the water.

The existing water quenching slag dragging equipment drives a micropore carrying hopper on the surface of the existing water quenching slag dragging equipment by penetrating one end of a conveying belt into the water bottom and utilizing the transmission effect of the conveying belt to drive the micropore carrying hopper on the surface of the conveying belt, slag in water is carried in the micropore carrying hopper in the transmission process, when the micropore carrying hopper reaches the top end of the conveying belt, overturning is carried out to pour slag, micropores on the surface of the micropore carrying hopper facilitate water body discharge, but residual slag particles are easily adsorbed on the inner wall of the micropore carrying hopper due to residual moisture on the inner wall of the micropore carrying hopper and the surface of the slag in the overturning process, so that the residual slag cannot be poured out from the inside of the micropore carrying hopper and then returns to the water again.

Accordingly, in view of the above, research and improvement are made to the existing structure and defects, and a water quenching slag-removing device for nickel ore is proposed.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a water quenching slag dragging device for nickel ores, which solves the problems in the background art.

In order to achieve the above purpose, the invention is realized by the following technical scheme: the utility model provides a sediment equipment is dragged for in water quenching of nickel ore, includes the drive roller, drags for sediment subassembly and residue treatment assembly, the outer wall meshing of drive roller is connected with the conveyer belt, drag for sediment subassembly equidistance to set up in the surface of conveyer belt, drag for sediment subassembly including drag for sediment fill, push pedal, cleaning brush, doctor blade and spring beam, the inner wall both sides of drag for sediment fill are provided with the push pedal, and the lateral surface of push pedal is provided with the cleaning brush, the surface edge of push pedal is provided with the doctor blade, and the side of doctor blade is provided with the spring beam, the residue treatment assembly is fixed in the both ends of drive roller, the residue treatment assembly includes pivot, first conical gear, second conical gear, carousel, piston trace and rolling ball, the outer wall of pivot is fixed with first conical gear, and the avris department meshing of first conical gear is connected with the second conical gear, the surface of second conical gear is connected with the carousel through the connecting axle, and the surface rotation of carousel is connected with the piston trace, the end connection of piston trace has the rolling ball, arbitrary end connection of pivot has driving motor.

Further, the spring rod penetrates through the end part of the slag scooping bucket, and the push plate is elastically connected with the slag scooping bucket through the spring rod.

Further, the slag fishing assembly further comprises a flexible rubber head, and the joint of the spring rod and the push plate is provided with the flexible rubber head.

Further, drag for sediment subassembly still includes polygon gyro wheel, the inside rotation of limit side department of push pedal is connected with the polygon gyro wheel.

Further, the side of polygon gyro wheel department runs through the cleaning brush, and the side of polygon gyro wheel department pastes in draging for the sediment fill inner wall.

Further, the transmission belt is of a Z-shaped structure, and the side edges of the two ends of the transmission belt are provided with redirecting brackets.

Further, the outer wall of the piston linkage rod is sleeved with a limit sleeve, and the limit sleeve is fixedly connected with the outer wall of the redirecting bracket through a supporting rod.

Further, the bottom outside of conveyer belt is provided with the water quenching pond subassembly, the water quenching pond subassembly includes whole pond, slag water quenching pond and drags for the sediment room, the inside in whole pond is provided with the slag water quenching pond, and is provided with between slag water quenching pond and the whole pond and drags for the sediment room.

Further, the conveying belt is arranged in the slag dragging chamber in a penetrating way, and the conveying belt is connected with the inner wall of the whole pond through redirecting brackets at two sides of the bottom end of the conveying belt.

Further, the water quenching tank assembly further comprises a discharging hopper, the bottom of the slag water quenching tank is provided with the discharging hopper, and the inner diameter of the bottom end of the discharging hopper is smaller than the length of the slag scooping hopper.

The invention provides a water quenching slag dragging device for nickel ores, which has the following beneficial effects:

This slag equipment is dragged for in water quenching of nickel ore, the slag reaches the drive roller position along with the transmission belt drive and when overturning, the piston trace carries the roll pearl and is rectilinear concertina movement, the extrusion just in time is dragging for the spring beam at slag scooping bucket both ends of upset when the roll pearl stretches out, the spring beam consequently carries the push pedal, the cleaning brush, the doctor-bar slides along dragging for slag bucket inner wall, the doctor-bar is scraped earlier and is dragged for slag particle that slag bucket inner wall adsorbed because of the water stain, and the cleaning brush is dredged the micropore on dragging for slag bucket surface afterwards, from this be favorable to dragging for slag particle that slag bucket inner wall adsorbed because of the water stain to clear away, avoid having residual slag to be brought back to the pond, and the polygon gyro wheel approaches circularly but has the edges and corners, can make the push pedal vibrate when leading to polygon gyro wheel roll, can exert the vibration effect to cleaning brush from this, in order to improve the cleaning brush to microporous dredging effect, and the vibration amplitude of doctor-bar is less than the particle size of slag particle, consequently the doctor-bar can strike off slag particle and avoid the particle card into between doctor-bar and the slag bucket inner wall, and drag for vibration can prevent slag particle from adsorbing its surface because of water stain.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a water quenching slag-dragging device for nickel ores;

FIG. 2 is a schematic diagram of a meshing transmission structure of a first bevel gear and a second bevel gear of a nickel ore water quenching slag dragging device;

FIG. 3 is a schematic diagram of the explosive structures of a push plate, a spring rod and a flexible rubber head of the water quenching slag-fishing equipment for nickel ores;

FIG. 4 is a schematic diagram of a polygonal roller structure of a nickel ore water quenching slag-dragging device;

FIG. 5 is a schematic diagram of a water quenching tank assembly of a nickel ore water quenching slag dragging device;

fig. 6 is a schematic structural view of the rolling beads of the water quenching slag dragging device for nickel ore, which is arranged on a U-shaped plate in a distributed manner.

In the figure: 1. a driving roller; 2. a transmission belt; 3. a slag dragging component; 301. a slag scooping bucket; 302. a push plate; 303. cleaning brushes; 304. a wiper blade; 305. a spring rod; 306. a flexible rubber head; 307. polygonal roller; 4. a residue disposal assembly; 401. a rotating shaft; 402. a first bevel gear; 403. a second bevel gear; 404. a turntable; 405. a piston linkage rod; 406. rolling the beads; 5. a driving motor; 6. a redirecting bracket; 7. a limit sleeve; 8. a water quenching tank assembly; 801. b, finishing a pool; 802. a slag water quenching tank; 803. a slag dragging chamber; 804. and (5) discharging a hopper.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

As shown in fig. 1 to 6, the present invention provides the following technical solutions: the utility model provides a nickel ore's water quenching drags sediment equipment, including drive roller 1, drag for sediment subassembly 3 and residue treatment subassembly 4, drive roller 1's outer wall meshing is connected with conveyer belt 2, drag for sediment subassembly 3 equidistance and set up in conveyer belt 2's surface, drag for sediment subassembly 3 including drag for sediment fill 301, push pedal 302, cleaning brush 303, doctor blade 304 and spring beam 305, drag for sediment fill 301's inner wall both sides are provided with push pedal 302, and push pedal 302's lateral surface is provided with cleaning brush 303, push pedal 302's surface edge is provided with doctor blade 304, and doctor blade 304's side is provided with spring beam 305, residue treatment subassembly 4 is fixed in drive roller 1's both ends, residue treatment subassembly 4 includes pivot 401, first conical gear 402, second conical gear 403, carousel 404, piston trace 405 and rolling ball 406, pivot 401's outer wall is fixed with first conical gear 402, and first conical gear 403's limit side department meshing is connected with second conical gear 403, second conical gear 403's surface is connected with carousel 404 through the connecting axle, and piston trace 405's surface rotation of push pedal 404 is connected with piston trace 405, piston trace 405's end connection motor 405 has doctor blade 304, end portion is connected with piston trace 301 through rolling ball 301, end portion 301 is connected with end portion of the spring beam 301 through rolling ball 301, end portion of the end of the push pedal 301 is connected with the elastic carrier 301;

The concrete operation is as follows, driving motor 5 drives rotating shaft 401 to make driving roller 1 rotate, driving roller 1 drives conveyer belt 2 to make slag scooping bucket 301 on its surface drive, slag in water is carried out in slag scooping bucket 301 drive process, nickel ore slag is stored in slag scooping bucket 301, and water is discharged back to pool through micropore on slag scooping bucket 301 surface, when slag is driven to driving roller 1 position along conveyer belt 2 and turned over, because rotation of rotating shaft 401 drives turntable 404 through first conical gear 402 and second conical gear 403, piston linkage rod 405 carries rolling beads 406 to make linear telescopic motion, spring rods 305 at two ends of turned slag scooping bucket 301 are extruded when rolling beads 406 extend, spring rods 305 carry push plate 302, cleaning brush 303 and scraping blade 304 slide along inner wall of slag scooping bucket 301, scraping blade 304 first scrapes away slag particles adsorbed by slag scooping bucket 301 inner wall because of water stain, cleaning brush then carries out micropore on slag scooping bucket 301 surface, thereby being favorable for cleaning slag particles adsorbed by slag scooping bucket 301 inner wall because of water stain, and residual slag is prevented from being carried back to pool;

If the transmission speed of the spring rod 305 and the expansion speed of the rolling balls 406 are not adapted, and the two are not offset, so that the spring rod 305 cannot be pushed normally, the rolling balls 406 may be arranged on a U-shaped plate as shown in fig. 6, the U-shaped plate is adapted to the end structure of the conveyor belt 2, and the U-shaped plate carries the rolling balls 406 to make linear expansion motion through the piston linkage rod 405, so that the spring rod 305 in the driving state may be pushed until the spring rod 305 leaves the area where the U-shaped plate is located.

As shown in fig. 1-6, the slag dragging assembly 3 further comprises a flexible rubber head 306, the joint of the spring rod 305 and the push plate 302 is provided with the flexible rubber head 306, the slag dragging assembly 3 further comprises a polygonal roller 307, the polygonal roller 307 is connected inside the side of the push plate 302 in a rotating way, the side of the polygonal roller 307 penetrates through the cleaning brush 303, and the side of the polygonal roller 307 is attached to the inner wall of the slag dragging hopper 301;

The concrete operation is that the push plate 302 is connected with the spring rod 305 through the flexible rubber head 306, when the push plate 302 slides along the inner wall of the slag scooping bucket 301, the polygonal roller 307 rolls along the inner wall of the slag scooping bucket 301, the polygonal roller 307 approaches to a round shape and has edges and corners, the push plate 302 vibrates when the polygonal roller 307 rolls, so that the cleaning brush 303 and the scraping blade 304 can be vibrated, the dredging effect of the cleaning brush 303 on micropores is improved, the vibration amplitude of the scraping blade 304 is smaller than the particle size of slag particles, the scraping blade 304 can scrape the slag particles to prevent the particles from being clamped between the scraping blade 304 and the inner wall of the slag scooping bucket 301, and the vibration of the scraping blade 304 can prevent the slag particles from adsorbing the surfaces of the slag particles due to water stains.

As shown in fig. 1-6, the transmission belt 2 has a zigzag structure, and the side edges of the two ends of the transmission belt 2 are provided with redirecting brackets 6;

the specific operation is as follows, the conveying belt 2 is in a Z-shaped structure, the turning part of the conveying belt 2 is realized by an L-shaped redirecting bracket 6, and the conveying belt 2 with the Z-shaped structure can save the largest space.

As shown in fig. 1-6, the outer wall of the piston linkage rod 405 is sleeved with a limit sleeve 7, and the limit sleeve 7 is fixedly connected with the outer wall of the redirecting bracket 6 through a supporting rod;

The operation is as follows, when the piston linkage rod 405 carries the rolling beads 406 to do linear telescopic motion, the piston linkage rod 405 stretches and contracts along the inside of the limit sleeve 7, thereby ensuring that the rolling beads 406 do linear telescopic motion.

As shown in fig. 1-6, a water quenching tank assembly 8 is arranged outside the bottom end of the conveying belt 2, the water quenching tank assembly 8 comprises a whole tank 801, a slag water quenching tank 802 and a slag dragging chamber 803, the slag water quenching tank 802 is arranged inside the whole tank 801, the slag dragging chamber 803 is arranged between the slag water quenching tank 802 and the whole tank 801, the conveying belt 2 is penetrated in the slag dragging chamber 803, the conveying belt 2 is connected with the inner wall of the whole tank 801 through redirecting brackets 6 on two sides of the bottom end of the conveying belt 2, the water quenching tank assembly 8 further comprises a blanking hopper 804, a blanking hopper 804 is arranged at the bottom of the slag water quenching tank 802, and the inner diameter of the bottom end of the blanking hopper 804 is smaller than the length of the slag dragging hopper 301;

the concrete operation is that the whole pool 801, the slag water quenching pool 802 and the slag dragging chamber 803 are communicated with each other, water is filled into the whole pool, high-temperature nickel ore slag is poured into the slag water quenching pool 802 for cooling, the cooled nickel ore slag sinks and passes through the blanking hopper 804 to be concentrated on the surface of the bottom end part of the conveying belt 2, and when the slag dragging hopper 301 is driven below the blanking hopper 804, the slag is collected and passes through the slag dragging chamber 803 along with the conveying belt 2 to be taken out;

Wherein a valve can be added at the bottom of the discharging hopper 804 if the slag passing time needs to be prolonged, so that the slag passing time is freely prolonged.

In summary, when the nickel ore water quenching slag-fishing device is used, firstly, the whole pool 801, the slag water quenching pool 802 and the slag-fishing chamber 803 are communicated with each other, water is filled into the slag water quenching pool 802, high-temperature nickel ore slag is poured into the slag water quenching pool 802 for cooling, the cooled nickel ore slag sinks and passes through the blanking hopper 804 to be concentrated on the surface of the bottom end part of the conveying belt 2, the driving motor 5 drives the rotating shaft 401 to enable the driving roller 1 to rotate, the driving roller 1 drives the conveying belt 2 to drive the slag-fishing hopper 301 on the surface of the conveying belt 2, and when the slag-fishing hopper 301 is driven to the lower part of the blanking hopper 804, slag is collected and passes through the slag-fishing chamber 803 along with the conveying belt 2 to be taken out;

nickel ore slag is stored in the slag scooping bucket 301, water is discharged back to the pool through micropores on the surface of the slag scooping bucket 301, when the slag reaches the position of the driving roller 1 along with the transmission belt 2 and turns over, the rotation of the rotating shaft 401 drives the turntable 404 to rotate through the first conical gear 402 and the second conical gear 403, so that the piston linkage rod 405 carries the rolling beads 406 to do linear telescopic motion, the rolling beads 406 extrude the spring rods 305 right at two ends of the turning slag scooping bucket 301 when extending out, the spring rods 305 carry the push plates 302, the cleaning brushes 303 and the scraping blades 304 to slide along the inner wall of the slag scooping bucket 301, the scraping blades 304 firstly scrape slag particles adsorbed by the inner wall of the slag scooping bucket 301 due to water stains, and the cleaning brushes 303 then dredge the micropores on the surface of the slag scooping bucket 301, thereby being beneficial to cleaning the slag particles adsorbed by the inner wall of the slag scooping bucket 301 due to water stains;

The push plate 302 is connected with the spring rod 305 through the flexible rubber head 306, when the push plate 302 slides along the inner wall of the slag scooping bucket 301, the polygonal roller 307 rolls along the inner wall of the slag scooping bucket 301, the polygonal roller 307 approaches to be round but has edges and corners, the push plate 302 vibrates when the polygonal roller 307 rolls, and therefore the cleaning brush 303 and the scraping blade 304 can be applied with vibration effects to improve the dredging effects of the cleaning brush 303 on micropores, the vibration amplitude of the scraping blade 304 is smaller than the particle size of slag particles, so that the scraping blade 304 can scrape the slag particles to prevent the particles from being blocked between the scraping blade 304 and the inner wall of the slag scooping bucket 301, and the scraping blade 304 vibrates to prevent the slag particles from being adsorbed on the surface due to water stains.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a sediment equipment is draged out in water quenching of nickel ore deposit, includes drive roller (1), drags for sediment subassembly (3) and residue treatment assembly (4), its characterized in that: the outer wall meshing of drive roller (1) is connected with conveyer belt (2), drag for sediment subassembly (3) equidistance to set up in the surface of conveyer belt (2), drag for sediment subassembly (3) including drag for sediment fill (301), push pedal (302), clearance brush (303), doctor blade (304) and spring beam (305), the inner wall both sides of drag for sediment fill (301) are provided with push pedal (302), and the lateral surface of push pedal (302) is provided with clearance brush (303), the surface edge department of push pedal (302) is provided with doctor blade (304), and the side of doctor blade (304) is provided with spring beam (305), the both ends of drive roller (1) are fixed in sediment subassembly (4), sediment subassembly (4) are including pivot (401), first conical gear (402), second conical gear (403), carousel (404), piston interlock pole (405) and rolling ball (406), the outer wall of pivot (401) is fixed with first conical gear (402), and the side department meshing of first conical gear (402) is connected with second conical gear (403), the surface of second conical gear (403) is connected with carousel (404) through rotating the carousel (404), the end part of the piston linkage rod (405) is connected with a rolling ball (406), and the end part of any rotating shaft (401) is connected with a driving motor (5).

2. The water quenching slag dragging equipment for nickel ores according to claim 1, wherein: the spring rod (305) penetrates through the end part of the slag scooping bucket (301), and the push plate (302) is elastically connected with the slag scooping bucket (301) through the spring rod (305).

3. The water quenching slag dragging equipment for nickel ores according to claim 1, wherein: the slag fishing assembly (3) further comprises a flexible rubber head (306), and the joint of the spring rod (305) and the push plate (302) is provided with the flexible rubber head (306).

4. The water quenching slag dragging equipment for nickel ores according to claim 1, wherein: the slag dragging assembly (3) further comprises a polygonal roller (307), and the polygonal roller (307) is connected to the side of the push plate (302) in a rotating mode.

5. The water quenching slag dragging equipment for nickel ore according to claim 4, wherein: the cleaning brush (303) penetrates through the side of the polygonal roller (307), and the side of the polygonal roller (307) is attached to the inner wall of the slag scooping bucket (301).

6. The water quenching slag dragging equipment for nickel ores according to claim 1, wherein: the conveying belt (2) is of a Z-shaped structure, and redirecting brackets (6) are arranged on the side edges of two ends of the conveying belt (2).

7. The nickel ore water quenching slag removing device as claimed in claim 6, wherein: the outer wall of the piston linkage rod (405) is sleeved with a limit sleeve (7), and the limit sleeve (7) is fixedly connected with the outer wall of the redirecting bracket (6) through a supporting rod.

8. The water quenching slag dragging equipment for nickel ores according to claim 1, wherein: the water quenching device is characterized in that a water quenching tank assembly (8) is arranged outside the bottom end of the conveying belt (2), the water quenching tank assembly (8) comprises a whole tank (801), a slag water quenching tank (802) and a slag dragging chamber (803), the slag water quenching tank (802) is arranged inside the whole tank (801), and the slag dragging chamber (803) is arranged between the slag water quenching tank (802) and the whole tank (801).

9. The nickel ore water quenching slag removing device as claimed in claim 8, wherein: the inside of drag for sediment room (803) wears to be equipped with conveyer belt (2), and conveyer belt (2) are connected with whole pond (801) inner wall through redirecting support (6) of its bottom both sides.

10. The nickel ore water quenching slag removing device as claimed in claim 8, wherein: the water quenching tank assembly (8) further comprises a discharging hopper (804), the bottom of the slag water quenching tank (802) is provided with the discharging hopper (804), and the inner diameter of the bottom end of the discharging hopper (804) is smaller than the length of the slag scooping hopper (301).