CN111974670A

CN111974670A - Waste steel slag recovery treatment equipment and use method thereof

Info

Publication number: CN111974670A
Application number: CN202010791188.1A
Authority: CN
Inventors: 孟轲
Original assignee: Individual
Current assignee: Yunnan Qujing Iron And Steel Group Fenghuang Iron And Steel Co ltd
Priority date: 2020-08-07
Filing date: 2020-08-07
Publication date: 2020-11-24
Anticipated expiration: 2040-08-07
Also published as: CN111974670B

Abstract

The invention discloses waste steel slag recycling equipment which comprises a fixed bottom frame, a vibrating frame and a screening box, wherein the vibrating frame is movably arranged at the upper part of the fixed bottom frame, the screening box is fixedly arranged at the inner side of the upper end of the vibrating frame, a first screen is fixedly arranged at the inner side of the screening box, a second screen is fixedly arranged at the inner side of the screening box, which is close to the lower part of the first screen, the outer surface of one end of the second screen is fixedly provided with two groups of fixed hanging rings, the screening box and the second screen are fixedly connected through the two groups of fixed hanging rings, one side of the first screen and one side of the second screen are provided with two groups of sliding clamping seats, the outer surface of the side edge of each sliding clamping seat is fixedly provided with a second transverse plate, and the lower part of; the waste steel slag recovery processing equipment has a movable adjusting structure, the flexibility of the screening operation is improved, the waste steel slag recovery processing equipment has a triple screening structure, the using effect is improved, and the blocking phenomenon of the equipment is avoided.

Description

Waste steel slag recovery treatment equipment and use method thereof

Technical Field

The invention belongs to the technical field of waste steel slag recovery, and particularly relates to waste steel slag recovery and treatment equipment.

Background

The waste steel slag recovery processing equipment is used for screening waste steel slag in the waste steel slag recovery processing process, large-particle objects in the waste steel slag can be screened out by the recovery processing equipment, and a user can conveniently perform subsequent processing operation on the waste steel slag.

A steel slag treatment method and a steel slag treatment device disclosed by a reference document CN104293990B belong to the technical field of steel-making slag treatment, and the steel slag treatment device comprises a cooling device, a hoisting travelling crane, a tipping device, a screening device, a steel scrap tank and a transition bin; the steel slag discharged by the steel slag equipment is filled on a steel slag bag, the steel slag bag is cooled by a cooling device, the steel slag is overturned on a screening device in an overturning device to be screened, large waste steel is screened out and conveyed into a waste steel material tank to be reused, slag is screened off and placed in a transition material bin, and the slag is conveyed to a ball mill through a chain plate machine and a belt conveyor to be screened for the second time or directly conveyed for other uses.

The conventional waste steel slag recovery processing equipment has certain defects in the use process, and the conventional waste steel slag recovery processing equipment adopts an integrated fixed structure design, so that the conventional waste steel slag recovery processing equipment can only screen waste steel slag with fixed size, and the waste steel slag recovery processing equipment cannot carry out any screening and adjusting operation according to the size of the steel slag, so that the flexibility of the waste steel slag recovery processing equipment in use is reduced; secondly, the traditional waste steel slag recovery processing equipment only has a double-screening structure and cannot complete triple-screening operation according to the size of the waste steel slag, so that the waste steel slag recovery processing equipment can only screen waste steel slag with two sizes, and the functionality of the waste steel slag recovery processing equipment in use is reduced; and secondly, the traditional waste steel slag recovery processing equipment does not have an auxiliary material conveying structure, so that the waste steel slag recovery processing equipment is easy to block in the material conveying process, the stability of the waste steel slag recovery processing equipment in use is reduced, and certain adverse effects are brought to users.

Disclosure of Invention

In order to overcome the defect that the traditional waste steel slag recovery processing equipment adopts an integrated fixed structure design, the traditional waste steel slag recovery processing equipment can only screen out waste steel slag with fixed size, and the waste steel slag recovery processing equipment cannot carry out any screening and adjusting operation according to the size of the steel slag, so that the flexibility of the waste steel slag recovery processing equipment in use is reduced; secondly, the traditional waste steel slag recovery processing equipment only has a double-screening structure and cannot complete triple-screening operation according to the size of the waste steel slag, so that the waste steel slag recovery processing equipment can only screen waste steel slag with two sizes, and the functionality of the waste steel slag recovery processing equipment in use is reduced; and secondly, the traditional waste steel slag recovery processing equipment does not have an auxiliary material conveying structure, so that the waste steel slag recovery processing equipment is easy to block in the material conveying process, the stability of the waste steel slag recovery processing equipment in use is reduced, and the waste steel slag recovery processing equipment is provided.

The purpose of the invention is realized by the following technical scheme:

a waste steel slag recovery processing device comprises a fixed bottom frame, a vibrating frame and a screening box, wherein the vibrating frame is movably arranged on the upper portion of the fixed bottom frame, the screening box is fixedly arranged on the inner side of the upper end of the vibrating frame, a first screen is fixedly arranged on the inner side of the screening box, a second screen is fixedly arranged on the inner side of the screening box close to the lower portion of the first screen, two groups of fixing hanging rings are fixedly arranged on the outer surface of one end of the second screen, the screening box and the second screen are fixedly connected through the two groups of fixing hanging rings, two groups of sliding clamping seats are arranged on one sides of the first screen and the second screen, a second transverse plate is fixedly arranged on the outer surface of the side edge of each sliding clamping seat, a first transverse plate is movably arranged on the lower portion of each sliding clamping seat, a telescopic sleeve is sleeved between each sliding clamping seat and the first transverse plate, and the sliding, the utility model discloses a sieve, including first diaphragm, inboard fixed mounting of first diaphragm, the inboard fixed mounting of first diaphragm has the locator card frame, the upper portion intermediate position of locator card frame is fixed to be cup jointed the threaded rod, the upper end surface fixed mounting of threaded rod has the nut, and the side of sieve workbin is fixed to be cup jointed ejection of compact card mouth, and the lower part of second screen cloth is equipped with the third screen cloth.

As a further technical scheme, the cross section of the positioning clamp frame is of a T-shaped structure, the positioning clamp frame is in butt joint with the threaded rod through threads, a fixing frame is fixedly mounted on the outer surface of the side edge of the sliding clamp seat close to the upper portion of the second transverse plate, a first roller is movably mounted in the middle of the inner side of the fixing frame, the fixing frame is movably connected with the first roller through a rotating shaft, a discharging bottom plate is fixedly mounted on the outer surface of the bottom of the screening box, a second discharging groove is formed in the inner side of one end of the discharging bottom plate, and a first discharging groove is formed in the inner side of one end.

As a further technical scheme of the invention, the outer surfaces of the side edges of the third screen and the first screen are fixedly provided with push-pull rods, the cross sections of the third screen, the first screen and the second screen are all rectangular structures, the inner sides of the fixed hanging rings are provided with circular notches in a penetrating manner, the upper part of the screening box close to one side of the first screen is fixedly provided with a splicing baffle, the outer surfaces of two ends of the splicing baffle are fixedly provided with fixed clamping seats, the splicing baffle and the screening box are fixedly butted and butted through the fixed clamping seats, the outer surface of the front end of the screening box is provided with two groups of butting grooves, and the outer surface of the rear end of the screening box is fixedly provided with three groups of hinges.

As a further technical scheme, a sealing cover is movably mounted on the upper portion of the screening box, the screening box and the sealing cover are movably connected through three groups of hinges, two groups of fixing buckles are movably mounted on the outer surface of the side edge of the sealing cover, the cross section of the sealing cover is of a trapezoidal structure, a fixing clamping frame is fixedly mounted on the outer surface of the upper end of the vibrating frame close to the side edge of the screening box, and the vibrating frame and the screening box are fixedly connected in a butt joint mode through the fixing clamping frame.

As a further technical scheme of the invention, one side of the upper end of the fixed underframe, which is close to the vibrating frame, is fixedly provided with a supporting bracket, the fixed underframe and the supporting bracket are fixed by welding, the outer surface of the upper end of the supporting bracket is fixedly provided with a feed hopper, and the inner side of one end of the feed hopper is movably provided with a material conveying roller.

As a further technical scheme of the invention, the whole structure of the material conveying roller is a cylindrical hollow structure, a plurality of groups of material conveying grooves are formed in the outer surface of the side edge of the material conveying roller, a rotating shaft is sleeved on the outer surface of one end of the material conveying roller, a motor is installed on the outer surface of one end of the material conveying roller, and the feed hopper is movably connected with the material conveying roller through the rotating shaft.

As a further technical scheme of the invention, four groups of spring seats are fixedly arranged between the vibration frame and the fixed underframe, the vibration frame and the fixed underframe are elastically connected through the spring seats, and the vibration machine is fixedly arranged in the middle of the bottom of the vibration frame.

As a further technical scheme of the invention, supporting legs are fixedly arranged at four corners of the outer surface of the lower end of the fixed underframe, and rubber gaskets are arranged on the outer surfaces of the bottoms of the supporting legs.

As a further technical scheme of the invention, two groups of sliding support plates are arranged on the outer surface of the bottom of the third screen side by side, a plurality of groups of second rollers are movably arranged on the inner side of each sliding support plate, a butt joint fixture block is fixedly arranged on the outer surface of the lower end of each sliding support plate, and the sliding support plates and the screen material box are fixedly butted through the butt joint fixture blocks.

A use method of waste steel slag recovery processing equipment comprises the following specific operation steps:

pouring waste steel slag into a feed hopper on a support bracket, pulling push-pull rods on a first screen and a third screen according to the particle size of the waste steel slag to enable the first screen and the third screen to move transversely, enabling the first screen, the third screen and the second screen to be staggered, adjusting the sieve material caliber of a sieve box through the overlapping of notches among the first screen, the third screen and the second screen, driving a material conveying roller to rotate by a user through starting a motor on the material conveying roller, and conveying the waste steel slag in the feed hopper into the sieve box by utilizing a material conveying groove on the material conveying roller when the material conveying roller rotates;

step two, rotating a sealing cover on the screening box by utilizing a hinge, enabling the sealing cover to close the upper part of the screening box, simultaneously pushing two groups of fixing buckles on the sealing cover, enabling the fixing buckles to be clamped in butt joint grooves of the screening box, fixing the closed sealing cover, and enabling a vibrating frame to drive the screening box to vibrate by starting a vibrating machine at the bottom of the vibrating frame;

and step three, the splicing baffle is pulled up and down through the fixed clamping seat, the distance between the splicing baffle and the screening box is adjusted, and the threaded rod on the positioning clamping frame is rotated by taking down the splicing baffle, so that the telescopic sleeve is moved out from the position between the sliding clamping seat and the first transverse plate, and the distance between the first transverse plate and the second transverse plate is adjusted.

The invention has the beneficial effects that:

1. by arranging the third screen and the first screen, when a user utilizes the processing equipment to carry out recovery screening operation on the waste steel slag, the user can pull the push-pull rods on the first screen and the third screen to transversely move the first screen and the third screen, the second screen is fixed on the discharge bottom plate through two groups of fixed hanging rings, so that the second screen is in a fixed state when the first screen and the third screen move, the first screen, the third screen and the second screen are staggered, the screen material caliber of the screen box is adjusted through the overlapping of the notches between the first screen, the third screen and the second screen, meanwhile, the friction force generated when the third screen moves can be reduced from the bottom by utilizing the second roller of the sliding support plate, the third screen can move more smoothly, and when the first screen transversely moves through the first roller on the fixed frame, the friction between the first screen and the second screen is reduced, so that the moving operation of the first screen is smoother, a user can conveniently adjust the third screen and the first screen, the third screen and the first screen are arranged, the waste steel slag recovery and treatment equipment has a movable adjusting structure, and the flexibility of the waste steel slag recovery and treatment equipment in use is improved.

2. Through the arrangement of the discharging clamping mouth and the splicing baffle, when the treatment equipment is used for recovering and screening the waste steel slag, a user can start the vibrating machine at the bottom of the vibrating frame to enable the vibrating frame to drive the screening box to vibrate, the vibration sense can be prevented from being directly transmitted to the ground by utilizing the spring seat between the vibrating frame and the fixed bottom frame, the noise generated when the equipment is operated is reduced, one part of the waste steel slag passes through the notch formed between the first screen, the third screen and the second screen and enters the discharging bottom plate to be discharged from the second discharging groove at one end of the discharging bottom plate, meanwhile, the other part of the waste steel slag passes through the vibration of the screening box and is discharged from the first discharging groove at one end of the screening box, and secondly, when the waste steel slag passes through the splicing baffle, the user can utilize the fixed clamping seat to control the height of the splicing baffle, so that the waste steel slag with larger particles, and discharge the card mouth of ejection of compact by sieve workbin side to accomplish the triple material screening operation to waste steel slag, select big three kinds of different specifications waste steel slag in middle and small, utilize the setting of ejection of compact card mouth and concatenation baffle, make this waste steel slag recovery processing equipment have triple material screening structure, promote its self functionality.

3. Through setting up defeated material cylinder, when this treatment facility carries out defeated material operation to abandonment slag, the user drives defeated material cylinder and rotates through starting the motor on the defeated material cylinder, utilize defeated material groove on the defeated material cylinder, when defeated material cylinder rotates, carry the abandonment slag in the feeder hopper to the sieve workbin, avoid abandonment slag to block in the feeder hopper at defeated material in-process, make this abandonment slag recovery treatment facility have supplementary defeated material structure, promote the stability of its when using.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view of the overall structure of a waste steel slag recycling apparatus according to the present invention.

FIG. 2 is an overall structure diagram of a screening box of the waste steel slag recycling equipment of the present invention.

FIG. 3 is a partial structure view of a waste steel slag recycling apparatus according to the present invention.

FIG. 4 is an overall structure view of a sliding cassette of a waste steel slag recycling apparatus according to the present invention.

FIG. 5 is an overall structure view of a positioning clamp frame of a waste steel slag recycling device according to the present invention.

FIG. 6 is an overall structure view of a feeding roller of the steel slag recycling apparatus according to the present invention.

FIG. 7 is an overall structure view of a sliding pallet of a waste steel slag recycling apparatus according to the present invention

In the figure: 1. supporting legs; 2. a spring seat; 3. a vibration frame; 4. fixing the underframe; 5. a discharge clamping nozzle; 6. a discharge bottom plate; 7. screening the material box; 8. a first discharge chute; 9. a second discharge chute; 10. splicing the baffles; 11. a sealing cover; 12. fixing the buckle; 13. a delivery roller; 14. a feed hopper; 15. a support bracket; 16. a push-pull rod; 17. fixing the card holder; 18. a first screen; 19. a hinge; 20. a butt joint groove; 21. a second screen; 22. a third screen; 23. a sliding card holder; 24. fixing a hanging ring; 25. a sliding support plate; 26. a first transverse plate; 27. a second transverse plate; 28. a fixing frame; 29. a first roller; 30. a nut; 31. a telescopic sleeve; 32. positioning a clamp frame; 33. a threaded rod; 34. an electric motor; 35. a rotating shaft; 36. a material conveying groove; 37. butting the clamping blocks; 38. a second roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

As shown in fig. 1-7, a waste steel slag recycling device comprises a fixed bottom frame 4, a vibrating frame 3 and a screening box 7, wherein the vibrating frame 3 is movably mounted on the upper portion of the fixed bottom frame 4, the screening box 7 is fixedly mounted on the inner side of the upper end of the vibrating frame 3, a first screen 18 is fixedly mounted on the inner side of the screening box 7, a second screen 21 is fixedly mounted on the inner side of the screening box 7 close to the lower portion of the first screen 18, two sets of fixing hanging rings 24 are fixedly mounted on the outer surface of one end of the second screen 21, the screening box 7 and the second screen 21 are fixedly connected through the two sets of fixing hanging rings 24, two sets of sliding clamping seats 23 are arranged on one sides of the first screen 18 and the second screen 21, a second transverse plate 27 is fixedly mounted on the outer surface of the side edge of the sliding clamping seats 23, a first transverse plate 26 is movably mounted on the lower portion of the sliding clamping seats 23, and, the sliding clamping seat 23 and the first transverse plate 26 are movably connected through a telescopic sleeve 31, a rubber pad is arranged on the outer surface of the upper end of the first transverse plate 26, a positioning clamp frame 32 is fixedly mounted on the inner side of the first transverse plate 26, a threaded rod 33 is fixedly sleeved at the middle position of the upper portion of the positioning clamp frame 32, a nut 30 is fixedly mounted on the outer surface of the upper end of the threaded rod 33, a discharging clamp nozzle 5 is fixedly sleeved on the side edge of the screening box 7, and a third screen 22 is arranged on the lower portion of the second screen 21.

The cross section of locator card frame 32 is T font structure, dock through the screw thread between locator card frame 32 and the threaded rod 33, the side surface of slip cassette 23 is close to the upper portion fixed mounting of second diaphragm 27 and has fixed frame 28, the inboard middle part position movable mounting of fixed frame 28 has first gyro wheel 29, through pivot swing joint between fixed frame 28 and the first gyro wheel 29, the bottom surface fixed mounting of sieve workbin 7 has ejection of compact bottom plate 6, second blown down tank 9 has been seted up to the one end inboard of ejection of compact bottom plate 6, the one end inboard of sieve workbin 7 is equipped with first blown down tank 8.

The equal fixed mounting in side surface of third screen cloth 22 and first screen cloth 18 has push-and-pull rod 16, third screen cloth 22, the cross section of first screen cloth 18 and second screen cloth 21 is the rectangle structure, the inboard of fixed link 24 runs through and has seted up circular notch, one side fixed mounting that the upper portion of sieve workbin 7 is close to first screen cloth 18 has concatenation baffle 10, the equal fixed mounting in both ends surface of concatenation baffle 10 has fixed cassette 17, it is fixed to dock through fixed cassette 17 between concatenation baffle 10 and the sieve workbin 7, two sets of butt joint grooves 20 have been seted up to the front end surface of sieve workbin 7, the rear end surface fixed mounting of sieve workbin 7 has three sets of hinges 19.

Sieve workbin 7's upper portion movable mounting has sealed cowling 11, utilize sealed cowling 11 closed sieve workbin 7, can avoid abandonment slag to produce the dust when the sieve material, sieve workbin 7 and sealed cowling 11 between through three group's hinge 19 swing joint, the side surface movable mounting of sealed cowling 11 has two sets of fixed buckles 12, the cross section of sealed cowling 11 is the trapezium structure, the upper end surface of vibration frame 3 is close to the side fixed mounting who sieves workbin 7 and has the fixing clip frame, it is fixed to dock through the fixing clip frame between vibration frame 3 and the sieve workbin 7.

One side fixed mounting that the upper end of fixed chassis 4 is close to vibration frame 3 has support bracket 15, and through welded fastening between fixed chassis 4 and the support bracket 15, the outer fixed surface in upper end of support bracket 15 installs feeder hopper 14, and the inboard movable mounting in one end of feeder hopper 14 has defeated material cylinder 13, utilizes the rotation of defeated material cylinder 13 can avoid appearing blocking phenomenon in the feeder hopper 14.

The whole structure of the feeding roller 13 is a cylindrical hollow structure, a plurality of groups of feeding grooves 36 are formed in the outer surface of the side edge of the feeding roller 13, a rotating shaft 35 is sleeved on the outer surface of one end of the feeding roller 13, a motor 34 is installed on the outer surface of one end of the feeding roller 13, and the feeding hopper 14 is movably connected with the feeding roller 13 through the rotating shaft 35.

Four groups of spring seats 2 are fixedly mounted between the vibration frame 3 and the fixed bottom frame 4, the vibration frame 3 and the fixed bottom frame 4 are elastically connected through the spring seats 2, and a vibration machine is fixedly mounted at the middle position of the bottom of the vibration frame 3.

The supporting legs 1 are fixedly mounted at four corners of the outer surface of the lower end of the fixed bottom frame 4, rubber gaskets are arranged on the outer surfaces of the bottoms of the supporting legs 1, and the supporting legs 1 can be supported more firmly through the rubber gaskets.

Two sets of sliding support plates 25 are arranged on the outer surface of the bottom of the third screen 22 side by side, a plurality of sets of second rollers 38 are movably mounted on the inner side of each sliding support plate 25, a butt joint fixture block 37 is fixedly mounted on the outer surface of the lower end of each sliding support plate 25, and the sliding support plates 25 and the screening boxes 7 are fixedly butted through the butt joint fixture blocks 37.

firstly, pouring waste steel slag into a feed hopper 14 on a support bracket 15, pulling a push-pull rod 16 on a first screen 18 and a third screen 22 according to the particle size of the waste steel slag to transversely move the first screen 18 and the third screen 22, enabling the first screen 18, the third screen 22 and the second screen 21 to be staggered, adjusting the screen material aperture of a screen material box 7 through the overlapping of notches among the first screen 18, the third screen 22 and the second screen 21, driving a delivery roller 13 to rotate by a user through starting a motor 34 on the delivery roller 13, and conveying the waste steel slag in the feed hopper 14 into the screen material box 7 by utilizing a delivery chute 36 on the delivery roller 13 when the delivery roller 13 rotates;

step two, rotating a sealing cover 11 on the screening box 7 by using a hinge 19, enabling the sealing cover 11 to close the upper part of the screening box 7, simultaneously pushing two groups of fixing buckles 12 on the sealing cover 11, enabling the fixing buckles 12 to be clamped in a butt joint groove 20 of the screening box 7, fixing the closed sealing cover 11, enabling a vibrating frame 3 to drive the screening box 7 to vibrate by starting a vibrating machine at the bottom of the vibrating frame 3, enabling a part of waste steel slag to pass through a notch formed between a first screen 18, a third screen 22 and a second screen 21, enter a discharging bottom plate 6, be discharged from a second discharging groove 9 at one end of the discharging bottom plate 6, and simultaneously enabling the other part of waste steel slag to be discharged from a first discharging groove 8 at one end of the screening box 7 through vibration of the screening box 7;

and step three, the splicing baffle 10 is pulled up and down through the fixed clamping seat 17, the distance between the splicing baffle 10 and the screening box 7 is adjusted, the threaded rod 33 on the positioning clamping frame 32 is rotated through taking down the splicing baffle 10, so that the telescopic sleeve 31 is moved out from the position between the sliding clamping seat 23 and the first transverse plate 26, and the distance between the first transverse plate 26 and the second transverse plate 27 is adjusted.

The invention aims to provide a waste steel slag recovery processing device, when in use, through arranging a third screen 22 and a first screen 18, when a user uses the processing device to carry out recovery screening operation on waste steel slag, the user can pull a push-pull rod 16 on the first screen 18 and the third screen 22 to enable the first screen 18 and the third screen 22 to transversely move, a second screen 21 is fixed on a discharge bottom plate 6 through two groups of fixing hanging rings 24, so that when the first screen 18 and the third screen 22 move, the second screen 21 is in a fixed state, thereby enabling the first screen 18, the third screen 22 and the second screen 21 to be staggered, adjusting the screen caliber of a screen box 7 through the overlapping of notches between the first screen 18, the third screen 22 and the second screen 21, and simultaneously utilizing a second roller 38 of a sliding support plate 25 to reduce the friction force when the third screen 22 moves from the bottom, the third screen 22 can move more smoothly, the friction force between the first screen 18 and the second screen 21 can be reduced through the first roller 29 on the fixing frame 28 when the first screen 18 moves transversely, the moving operation of the first screen 18 is smoother, a user can conveniently adjust the third screen 22 and the first screen 18, and the waste steel slag recovery and treatment equipment has a movable adjusting structure by utilizing the arrangement of the third screen 22 and the first screen 18, so that the flexibility of the waste steel slag recovery and treatment equipment in use is improved;

by arranging the discharging clamping mouth 5 and the splicing baffle plate 10, when the treatment equipment carries out recovery screening operation on the waste steel slag, a user can start the vibrating machine at the bottom of the vibrating frame 3 to enable the vibrating frame 3 to drive the screening box 7 to vibrate, and by utilizing the spring seat 2 between the vibrating frame 3 and the fixed bottom frame 4, the phenomenon that the vibration sense is directly transmitted to the ground can be avoided, the noise when the equipment operates is reduced, one part of the waste steel slag passes through the first screen mesh 18, the notch formed between the third screen mesh 22 and the second screen mesh 21 and enters the discharging bottom plate 6 to be discharged from the second discharging groove 9 at one end of the discharging bottom plate 6, and the other part of the waste steel slag passes through the vibration of the screening box 7 and is discharged from the first discharging groove 8 at one end of the screening box 7, and when the waste steel slag passes through the splicing baffle plate 10, the user can utilize the fixed clamping seat 17 to control the height, the waste steel slag with larger particles cannot pass through the gap at the bottom of the splicing baffle 10 and is discharged by the discharging clamping nozzle 5 at the side edge of the screening box 7, so that triple screening operation of the waste steel slag is completed, three waste steel slag with different specifications, namely large, medium and small, are screened, and the waste steel slag recycling equipment has a triple screening structure by utilizing the discharging clamping nozzle 5 and the splicing baffle 10, so that the functionality of the waste steel slag recycling equipment is improved;

through setting up the feeding roller 13, when this treatment facility carries out the defeated material operation to abandonment slag, the user drives feeding roller 13 and rotates through starting motor 34 on feeding roller 13, utilize defeated material groove 36 on the feeding roller 13, when feeding roller 13 rotates, carry the abandonment slag in the feeder hopper 14 to sieve workbin 7, avoid abandonment slag to block in feeder hopper 14 at defeated material in-process, make this abandonment slag recovery treatment facility have supplementary defeated material structure, stability when promoting its use.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. Preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The utility model provides an abandonment slag recovery processing equipment, its characterized in that, includes fixed chassis (4), vibration frame (3) and sieve workbin (7), vibration frame (3) movable mounting is on the upper portion of fixed chassis (4), sieve workbin (7) fixed mounting is inboard in the upper end of vibration frame (3), the inboard fixed mounting of sieve workbin (7) has first screen cloth (18), the inboard lower part fixed mounting who is close to first screen cloth (18) of sieve workbin (7) has second screen cloth (21), and the one end surface fixed mounting of second screen cloth (21) has two sets of fixed link (24), through two sets of fixed link (24) fixed connection between sieve workbin (7) and second screen cloth (21), one side of first screen cloth (18) and second screen cloth (21) is provided with two sets of slip cassettes (23), the side surface fixed mounting of slip cassette (23) has second diaphragm (27), the utility model discloses a screen cloth screening machine, including slip cassette (23), first diaphragm (26) have been cup jointed to the lower part movable mounting of slip cassette (23), flexible cover (31) has been cup jointed between slip cassette (23) and first diaphragm (26), slip cassette (23) and first diaphragm (26) are through flexible cover (31) swing joint, the upper end surface of first diaphragm (26) is equipped with the rubber pad, the inboard fixed mounting of first diaphragm (26) has locator card frame (32), threaded rod (33) have been cup jointed to the upper portion intermediate position of locator card frame (32) fixed, the upper end fixed surface of threaded rod (33) installs nut (30), and ejection of compact card mouth (5) have been cup jointed to the side of screen cloth case (7) fixed, and the lower part of second screen cloth (21) is equipped with third screen cloth (22).

2. The waste steel slag recycling equipment according to claim 1, wherein the cross section of the positioning clamp frame (32) is of a T-shaped structure, the positioning clamp frame (32) and the threaded rod (33) are in butt joint through threads, a fixed frame (28) is fixedly mounted on the outer surface of the side edge of the sliding clamp seat (23) close to the upper portion of the second transverse plate (27), a first roller (29) is movably mounted at the middle position of the inner side of the fixed frame (28), the fixed frame (28) is movably connected with the first roller (29) through a rotating shaft, a discharging bottom plate (6) is fixedly mounted on the outer surface of the bottom of the screening box (7), a second discharging groove (9) is formed in the inner side of one end of the discharging bottom plate (6), and a first discharging groove (8) is formed in the inner side of one end of the screening box.

3. The recycling and processing equipment of waste steel slag according to claim 1, the outer surfaces of the side edges of the third screen (22) and the first screen (18) are both fixedly provided with a push-pull rod (16), the cross sections of the third screen (22), the first screen (18) and the second screen (21) are all rectangular structures, a circular notch is formed in the inner side of the fixed hanging ring (24) in a penetrating manner, a splicing baffle (10) is fixedly arranged on one side, close to the first screen (18), of the upper part of the screen box (7), the outer surfaces of the two ends of the splicing baffle (10) are both fixedly provided with a fixed clamping seat (17), the splicing baffle (10) and the screening box (7) are fixed in a butt joint way through a fixing clamping seat (17), two groups of butt joint grooves (20) are arranged on the outer surface of the front end of the screening box (7), and three groups of hinges (19) are fixedly arranged on the outer surface of the rear end of the screening box (7).

4. The waste steel slag recovery processing device according to claim 3, wherein the upper portion of the screening box (7) is movably provided with a sealing cover (11), the screening box (7) and the sealing cover (11) are movably connected through three groups of hinges (19), the outer surface of the side of the sealing cover (11) is movably provided with two groups of fixing buckles (12), the cross section of the sealing cover (11) is of a trapezoid structure, the outer surface of the upper end of the vibrating frame (3) is close to the side of the screening box (7) and is fixedly connected with a fixing clamping frame, and the vibrating frame (3) and the screening box (7) are fixedly connected through the fixing clamping frame in a butt joint mode.

5. The waste steel slag recycling equipment according to claim 4, wherein a support bracket (15) is fixedly installed at one side of the upper end of the fixed chassis (4) close to the vibrating frame (3), the fixed chassis (4) and the support bracket (15) are fixed by welding, a feed hopper (14) is fixedly installed on the outer surface of the upper end of the support bracket (15), and a material conveying roller (13) is movably installed at the inner side of one end of the feed hopper (14).

6. The waste steel slag recycling device as claimed in claim 5, wherein the transporting roller (13) has a cylindrical hollow structure, the transporting roller (13) has several groups of transporting grooves (36) formed on the outer surface of the side thereof, the transporting roller (13) has a rotating shaft (35) sleeved on the outer surface of one end thereof, the transporting roller (13) has a motor (34) mounted on the outer surface of one end thereof, and the feeding hopper (14) and the transporting roller (13) are movably connected by the rotating shaft (35).

7. The waste steel slag recovery processing equipment according to claim 1, wherein four groups of spring seats (2) are fixedly arranged between the vibration frame (3) and the fixed underframe (4), the vibration frame (3) and the fixed underframe (4) are elastically connected through the spring seats (2), and a vibration machine is fixedly arranged at the middle position of the bottom of the vibration frame (3).

8. The waste steel slag recovery processing equipment according to claim 1, wherein the four corners of the outer surface of the lower end of the fixed underframe (4) are fixedly provided with supporting feet (1), and the outer surface of the bottom of each supporting foot (1) is provided with a rubber gasket.

9. The waste steel slag recycling equipment according to claim 3, wherein two sets of sliding support plates (25) are arranged on the outer surface of the bottom of the third screen (22) side by side, a plurality of sets of second rollers (38) are movably mounted on the inner side of the sliding support plates (25), the outer surface of the lower end of each sliding support plate (25) is fixedly provided with a butt joint fixture block (37), and the sliding support plates (25) and the screening boxes (7) are fixedly butted through the butt joint fixture blocks (37).

10. The use method of the waste steel slag recovery processing equipment according to claim 1, which is characterized by comprising the following specific operation steps:

step one, pouring the waste steel slag into a feed hopper (14) on a support bracket (15), according to the particle size of the waste steel slag, by pulling the push-pull rod (16) on the first screen (18) and the third screen (22), the first screen (18) and the third screen (22) are moved transversely to displace the first screen (18), the third screen (22) and the second screen (21), the screen material aperture of the screen box (7) is adjusted through the overlapping of the notches among the first screen (18), the third screen (22) and the second screen (21), a user drives the delivery roller (13) to rotate by starting a motor (34) on the delivery roller (13) and utilizes a delivery groove (36) on the delivery roller (13), when the material conveying roller (13) rotates, the waste steel slag in the feed hopper (14) is conveyed into the screening box (7);

secondly, the sealing cover (11) on the screening box (7) is rotated by the hinge (19) to ensure that the sealing cover (11) closes the upper part of the screening box (7), meanwhile, two groups of fixing buckles (12) on the sealing cover (11) are pushed to ensure that the fixing buckles (12) are clamped in a butt joint groove (20) of the screening box (7) to fix the closed sealing cover (11), the vibrating frame (3) drives the screening box (7) to vibrate by starting the vibrating machine at the bottom of the vibrating frame (3), a part of waste steel slag passes through a notch formed among the first screen (18), the third screen (22) and the second screen (21), enters the discharging bottom plate (6) and is discharged from the second discharging groove (9) at one end of the discharging bottom plate (6), meanwhile, the other part of the waste steel slag is discharged from a first discharge chute (8) at one end of the screening box (7) through the vibration of the screening box (7);

and step three, the splicing baffle (10) is pulled up and down through the fixed clamping seat (17), the distance between the splicing baffle (10) and the screening box (7) is adjusted, and the threaded rod (33) on the positioning clamping frame (32) is rotated through taking down the splicing baffle (10), so that the telescopic sleeve (31) is moved out from the position between the sliding clamping seat (23) and the first transverse plate (26), and the distance between the first transverse plate (26) and the second transverse plate (27) is adjusted.