CN215940278U - Steel slag micro powder deironing device - Google Patents

Abstract

The utility model provides a steel slag micro powder deironing device, which belongs to the technical field of steel slag micro powder processing equipment and comprises a machine shell, wherein a first permanent magnet roller, a second permanent magnet roller and a third permanent magnet roller are sequentially and rotatably connected in the machine shell from left to right through three rotating shafts, the magnetism of the first permanent magnet roller, the second permanent magnet roller and the third permanent magnet roller is sequentially enhanced, a feeding mechanism and a discharging mechanism are respectively arranged at the left side and the right side of the machine shell, the first permanent magnet roller, the second permanent magnet roller, the third permanent magnet roller and the feeding mechanism provide power through a power output mechanism, the whole device has reasonable structure, ingenious concept and convenient use, the iron powder is screened and removed in three stages, the quality of screened iron powder is high, the effect is good, the whole device shares one motor, the energy is saved, meanwhile, the steel slag micro powder can be shaken during feeding, and the situation that some iron powder cannot be adsorbed by steel slag packages is not easy to occur, the practicability is strong.

Description

Steel slag micro powder deironing device

Technical Field

The utility model belongs to the technical field of steel slag micro-powder treatment equipment, and particularly relates to a steel slag micro-powder iron removal device.

Background

The steel slag micropowder is a large amount of industrial waste slag discharged by a steel converter or an electric furnace, the discharge amount is about 15 percent of the steel yield, the steel slag micropowder generally contains about 10 percent of waste steel and more than 15 percent of iron oxide, is rich in basic oxide compound mineral clinker of Ca and Mg components, and most of the steel slag micropowder is in a solid compound state of slag-coated iron and slag-coated iron.

When the device for removing iron powder in steel slag micro powder in the prior art is used for removing the iron powder, the screening effect is poor, the screening rate of iron substances in the steel slag micro powder is low, the requirement of a user cannot be met, and a lot of iron substances in the steel slag micro powder cannot be adsorbed in the micro powder during magnetic separation when the steel slag micro powder is fed by the conventional device, so that the iron removal rate is further reduced, and therefore, the steel slag micro powder iron removal device is designed

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a steel slag micro powder deironing device, and aims to solve the problems that a device for removing iron powder in steel slag micro powder in the prior art is poor in screening effect, low in screening rate of iron substances in the steel slag micro powder and incapable of meeting the requirements of users, and the prior device cannot adsorb a lot of iron substances in the micro powder during magnetic separation during feeding of the steel slag micro powder, further reduces the deironing rate and the like.

In order to achieve the purpose, the utility model provides the following technical scheme:

a steel slag micro powder deironing device comprises a shell and a power output mechanism, wherein a first permanent magnetic roller, a second permanent magnetic roller and a third permanent magnetic roller are sequentially connected in the shell in a rotating manner from left to right through three rotating shafts, the magnetism of the first permanent magnetic roller, the second permanent magnetic roller and the third permanent magnetic roller is sequentially enhanced, a feeding mechanism and a discharging mechanism are respectively arranged on the left side and the right side of the shell, the first permanent magnetic roller, the second permanent magnetic roller and the third permanent magnetic roller are all connected with the power output mechanism, the feeding mechanism comprises a storage shell, the storage shell is fixed on the left side wall of the shell, a feeding channel is communicated on the storage shell, a plurality of connecting plates are rotatably connected in the storage shell through rotating rollers, a plurality of material conveying hoppers are fixed on the connecting plates, the plurality of material conveying hoppers are made of micro elastic rubber materials, and a material guide plate is fixed on the left side of the top of the shell, the material guide plate is provided with an angle inclining towards the upper part of the first permanent magnet roller.

Preferably, power take-off mechanism includes the motor, the motor sets up on the rear side wall of casing, the output shaft of motor is fixed with the pivot on the first permanent magnetism cylinder, the last pivot rear end of first permanent magnetism cylinder and the rear end of the interior trundle of storage casing all are fixed with the belt pulley, two the belt pulley passes through belt transmission and connects, the front end of three pivot all runs through the casing in the casing and is fixed with the gear, and three gear meshes mutually.

Preferably, unloading mechanism includes the scraper blade, on the scraper blade was fixed in the front and back inner wall of casing, and the scraper blade laminated mutually with third permanent magnetism cylinder, the inner wall is fixed with iron powder ejection of compact baffle around the casing, and iron powder ejection of compact baffle is located the below of scraper blade.

Preferably, the bottom of the machine shell is communicated with a blanking channel, the blanking channel is provided with a taper for downward drawing, and a steel slag micro powder discharging guide plate is fixed at the bottom of the blanking channel.

Preferably, a plurality of supporting legs are fixed at the bottoms of the blanking channel and the observation groove, and supporting seats are arranged at the bottoms of the supporting legs.

Preferably, the feeding channel is provided with an observation groove, and the inner wall of the storage shell is designed to be arc-shaped.

Preferably, the guide plate, the iron powder discharging guide plate and the steel slag micro powder discharging guide plate are all provided with downward inclined angles.

Compared with the prior art, the utility model has the beneficial effects that:

1. in the scheme, the whole device is reasonable in structure arrangement, ingenious in conception and convenient and fast to use, the iron powder is screened and removed in a three-stage mode, the screened iron powder is high in quality and good in effect, the whole device shares one motor, energy is saved, meanwhile, steel slag micro powder can be shaken and dispersed during feeding, the situation that some iron powder is wrapped by steel slag and cannot be adsorbed is not easy to occur, the practicability is strong, and the problems that when the device for removing the iron powder in the steel slag micro powder in the prior art is used for removing, the screening effect is poor, the screening rate of iron substances in the steel slag micro powder is low, the requirements of a user cannot be met, and when the steel slag micro powder is fed by the conventional device, a large number of iron substances are in the micro powder and cannot be adsorbed during magnetic separation, the iron removal rate is further reduced and the like are effectively solved, the steel slag micro powder in the storage shell can be conveyed towards the guide plate by the rotation of the plurality of conveying hoppers, the steel slag micro powder can be overturned towards the guide plate after contacting the guide plate due to the material of the conveying hoppers to generate vibration and scatter the steel slag micro powder, the steel slag micro powder is conveyed to the first permanent magnetic roller through the guide plate, the first permanent magnetic roller can adsorb iron substances in the steel slag micro powder, the first permanent magnetic roller, the second permanent magnetic roller and the third permanent magnetic roller are driven by the power output mechanism to synchronously rotate, the magnetism of the first permanent magnetic roller, the second permanent magnetic roller and the third permanent magnetic roller is sequentially enhanced by matching with the magnetism of the first permanent magnetic roller, the second permanent magnetic roller and the third permanent magnetic roller, so that iron powder is conveyed on the first permanent magnetic roller, the second permanent magnetic roller and the third permanent magnetic roller, and is conveyed to the third permanent magnetic roller and then is discharged by the discharging mechanism, the steel slag micro powder is discharged from the bottom, and the circulation is carried out;

2. in the scheme, the power output mechanism utilizes belt transmission and gear transmission to realize that one motor drives the whole operation, the motor output shaft drives the rotating shaft on the first permanent magnet roller to rotate in the shell, and drives the rotating roller in the material storage shell to rotate through two belt pulleys and one belt, the rotation of the rotating roller can lead a plurality of connecting plates in the material loading mechanism to drive a plurality of material conveying hoppers to rotate, the front end of the rotating shaft on the first permanent magnet roller can also drive the second permanent magnet roller and the third permanent magnet roller to rotate through three gears to realize the transmission of adsorbed iron powder, the rotating direction of the motor output shaft in the reference figure is clockwise, the rotating direction of the rotating roller in the material storage shell and the rotating direction of the third permanent magnet roller are the same as that of the motor output shaft, the rotating shaft connected on the second permanent magnet roller is opposite to that of the motor output shaft, when the material unloading mechanism carries out the material unloading, the scraper scrapes off the iron powder adsorbed on the surface of the third permanent magnet roller, make the iron powder transmit to iron powder ejection of compact baffle along the scraper blade, and transmit to the outside through iron powder ejection of compact baffle, the setting of unloading passageway and steel slag miropowder ejection of compact baffle is used for carrying out outside transmission and collection to the slag miropowder after getting rid of the iron, a plurality of supporting legss that have the supporting seat provide the support for whole device, it is more stable to let the device use, the setting of observation groove is arranged in observing the feed condition in the feed mechanism, and establish the inner wall of storage casing into circular-arc a plurality of stock guides of cooperateing and contact at the inner wall of storage casing, the completion clearance to the slag miropowder is accomplished, with the stock guide, iron powder ejection of compact baffle and steel slag miropowder ejection of compact baffle all are provided with the angle of downward sloping and can make the material pass through self gravity automatic transmission.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a perspective view of the present invention;

FIG. 3 is a top view of the present invention;

fig. 4 is a cross-sectional view taken at a-a of fig. 3 in accordance with the present invention.

In the figure: 1. a housing; 2. a first permanent magnet drum; 3. a second permanent magnet drum; 4. a third permanent magnet drum; 5. a material storage shell; 6. a feeding channel; 7. an observation tank; 8. a connecting plate; 9. a material conveying hopper; 10. a material guide plate; 11. a gear; 12. a motor; 13. a belt pulley; 14. a belt; 15. a squeegee; 16. an iron powder discharging guide plate; 17. a blanking channel; 18. a steel slag micro powder discharging guide plate; 19. support the feet.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in 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.

Example 1

Referring to fig. 1-4, the present invention provides the following technical solutions: a steel slag micro powder deironing device comprises a machine shell 1, a first permanent magnetic roller 2, a second permanent magnetic roller 3 and a third permanent magnetic roller 4 are sequentially and rotatably connected in the machine shell 1 from left to right through three rotating shafts, the magnetism of the first permanent magnetic roller 2, the second permanent magnetic roller 3 and the third permanent magnetic roller 4 is sequentially enhanced, a feeding mechanism and a discharging mechanism are respectively arranged on the left side and the right side of the machine shell 1, the first permanent magnetic roller 2, the second permanent magnetic roller 3, the third permanent magnetic roller 4 and the feeding mechanism provide power through a power output mechanism, the feeding mechanism comprises a material storage shell 5, the material storage shell 5 is fixed on the left side wall of the machine shell 1, a material feeding channel 6 is communicated on the material storage shell 5, a plurality of connecting plates 8 are rotatably connected in the material storage shell 5 through rotating rollers, material conveying hoppers 9 are fixed on the connecting plates 8, the material conveying hoppers 9 are made of micro elastic rubber, a material guide plate 10 is fixed on the left side of the top of the machine shell 1, the material guide plate 10 is matched with the plurality of material conveying hoppers 9, and the material guide plate 10 is provided with an angle inclined towards the upper part of the first permanent magnet roller 2.

In the specific embodiment of the utility model, the whole device has reasonable structure, ingenious conception and convenient use, the iron powder is screened and removed in three stages, the screened iron powder has high quality and good effect, the whole device shares one motor, the energy is saved, simultaneously, the steel slag micro powder can be shaken and dispersed during feeding, the situation that some iron powder is wrapped by steel slag and can not be adsorbed is not easy to appear, the practicability is strong, the problems that the screening effect is poor when the device for removing the iron powder in the steel slag micro powder in the prior art is used for removing, the screening rate of iron substances in the steel slag micro powder is low, the requirements of a user can not be met, and a plurality of iron substances in the micro powder can not be adsorbed during magnetic separation when the steel slag micro powder is fed by the conventional device are effectively solved, the iron removal rate is further reduced, and the like, when the utility model is used, the steel slag micro powder is firstly poured towards the storage shell 5 through the feeding channel 6 in the feeding mechanism, the steel slag micro powder in the storage shell 5 can be transmitted to the direction of the guide plate 10 by the rotation of the plurality of conveying hoppers 9, the steel slag micro powder can be flipped over to the guide plate 10 after contacting the guide plate 10 due to the material of the conveying hoppers 9, vibration is generated, the steel slag micro powder is scattered, the steel slag micro powder is transmitted to the first permanent magnet roller 2 through the guide plate 10, the first permanent magnet roller 2 can adsorb iron substances in the steel slag micro powder, the first permanent magnet roller 2, the second permanent magnet roller 3 and the third permanent magnet roller 4 are driven by the power output mechanism to synchronously rotate, the magnetism of the first permanent magnet roller 2, the second permanent magnet roller 3 and the third permanent magnet roller 4 is sequentially enhanced, so that iron powder is transmitted on the first permanent magnet roller 2, the second permanent magnet roller 3 and the third permanent magnet roller 4, and the iron powder is discharged by the discharging mechanism after being transmitted to the third permanent magnet roller 4, and the steel slag micro powder is discharged from the bottom, so that the circulation is realized.

Concretely, power take off mechanism includes motor 12, and motor 12 sets up on the rear side wall of casing 1, and the output shaft of motor 12 is fixed with the pivot on the first permanent-magnet drum 2, and the pivot rear end on the first permanent-magnet drum 2 all is fixed with belt pulley 13 with the rear end of 5 adversion rods of storage casing, and two belt pulley 13 pass through belt 14 transmission and connect, and the front end of three pivot all runs through casing 1 and is fixed with gear 11 in casing 1, and three gear 11 meshes mutually.

In this embodiment: power take off mechanism's setting utilizes belt drive and gear drive to realize that a motor drives whole function, motor 12 output shaft drives pivot in casing 1 internal rotation on the first permanent-magnet drum 2, and it rotates to drive 5 interior commentaries on classics rods of storage casing through two belt pulleys 13 and a belt 14, the rotation of changeing the rod can let a plurality of connecting plates 8 in the feed mechanism drive a plurality of defeated hopper 9 and rotate, and the pivot front end on the first permanent-magnet drum 2 also can drive the rotation of second permanent-magnet drum 3 and third permanent-magnet drum 4 through three gear 11, realize that absorbent iron powder transmits, this place refers to a motor 12 output shaft direction of rotation of picture and is clockwise, and 5 interior commentaries on classics rods of storage casing and third permanent-magnet drum 4 are the same with motor 12 output shaft direction of rotation, the pivot of connecting on the second permanent-magnet drum 3 is opposite with motor 12 output shaft direction of rotation.

Specifically, the blanking mechanism comprises a scraper 15, the scraper 15 is fixed on the front and rear inner walls of the machine shell 1, the scraper 15 is attached to the third permanent magnet drum 4, an iron powder discharging guide plate 16 is fixed on the front and rear inner walls of the machine shell 1, and the iron powder discharging guide plate 16 is located below the scraper 15.

In this embodiment: when the blanking mechanism performs blanking, the scraper 15 scrapes off the iron powder adsorbed on the surface of the third permanent magnet roller 4, so that the iron powder is transmitted to the iron powder discharging guide plate 16 along the scraper 15 and is transmitted to the outside through the iron powder discharging guide plate 16.

Specifically, the bottom of the machine shell 1 is communicated with a blanking channel 17, the blanking channel 17 is provided with a downward drawing taper, and a steel slag micro powder discharging guide plate 18 is fixed at the bottom of the blanking channel 17.

In this embodiment: the blanking channel 17 and the steel slag micro powder discharging guide plate 18 are arranged for transmitting and collecting the steel slag micro powder after iron removal.

Specifically, a plurality of supporting legs 19 are fixed at the bottom of the blanking channel 17 and the observation groove 7, and supporting seats are arranged at the bottom of the supporting legs 19.

In this embodiment: the supporting legs 19 with the supporting base provide support for the whole device, so that the device is more stable in use.

Specifically, the feeding channel 6 is provided with an observation groove 7, and the inner wall of the material storage shell 5 is designed to be arc-shaped.

In this embodiment: the observation groove 7 is used for observing the feeding condition in the feeding mechanism, the inner wall of the storage shell 5 is designed to be arc-shaped, and the inner wall of the storage shell 5 can be matched with a plurality of guide plates 10 to contact with the inner wall of the storage shell 5, so that the steel slag micro powder is cleaned completely.

Specifically, the guide plate 10, the iron powder discharge guide plate 16 and the steel slag micro powder discharge guide plate 18 are all provided with downward inclined angles.

In this embodiment: the guide plate 10, the iron powder discharging guide plate 16 and the steel slag micro powder discharging guide plate 18 are all provided with downward inclined angles, so that the materials can be automatically conveyed through self gravity.

The working principle and the using process of the utility model are as follows: when the utility model is used, firstly, the steel slag micro powder is dumped to the storage shell 5 through the feeding channel 6 in the feeding mechanism, the plurality of material conveying hoppers 9 are driven by the power output mechanism to rotate in the storage shell 5, the rotation of the plurality of material conveying hoppers 9 can transmit the steel slag micro powder in the storage shell 5 to the direction of the material guide plate 10, the steel slag micro powder can be flipped over to the material guide plate 10 after contacting the material guide plate 10 due to the material of the material conveying hoppers 9, vibration is generated, the steel slag micro powder is scattered, the steel slag micro powder is transmitted to the first permanent magnet roller 2 through the material guide plate 10, the first permanent magnet roller 2 can adsorb iron substances in the steel slag micro powder, the first permanent magnet roller 2, the second permanent magnet roller 3 and the third permanent magnet roller 4 are driven by the power output mechanism to synchronously rotate, and the magnetism of the first permanent magnet roller 2, the second permanent magnet roller 3 and the third permanent magnet roller 4 is matched to be sequentially enhanced, iron powder is transmitted on a first permanent magnet roller 2, a second permanent magnet roller 3 and a third permanent magnet roller 4, the iron powder is discharged through a discharging mechanism after being transmitted to the third permanent magnet roller 4, steel slag micro powder is discharged through the bottom, the circulation is realized, the arrangement of a power output mechanism utilizes belt transmission and gear transmission to realize that one motor drives the whole operation, an output shaft of a motor 12 drives a rotating shaft on the first permanent magnet roller 2 to rotate in a shell 1, and two belt pulleys 13 and one belt 14 drive a rotating rod in a material storage shell 5 to rotate, the rotation of the rotating rod can lead a plurality of connecting plates 8 in the feeding mechanism to drive a plurality of material conveying hoppers 9 to rotate, the front end of the rotating shaft on the first permanent magnet roller 2 can also drive the second permanent magnet roller 3 and the third permanent magnet roller 4 to rotate through three gears 11, the transmission of the adsorbed iron powder is realized, the rotating direction of the output shaft of the motor 12 is clockwise in the reference figure, the rotating direction of the rotating rod in the material storage shell 5 and the rotating direction of the third permanent magnet roller 4 are the same as the rotating direction of the output shaft of the motor 12, the rotating shaft connected to the second permanent magnet roller 3 is opposite to the rotating direction of the output shaft of the motor 12, when the blanking mechanism performs blanking, the scraper 15 scrapes off the iron powder adsorbed on the surface of the third permanent magnet roller 4, so that the iron powder is transmitted to the iron powder discharging guide plate 16 along the scraper 15 and is transmitted to the outside through the iron powder discharging guide plate 16, the arrangement of the blanking channel 17 and the steel slag micro powder discharging guide plate 18 is used for transmitting and collecting the steel slag micro powder after iron removal, a plurality of supporting legs 19 with supporting seats provide support for the whole device, so that the device is more stable to use, the arrangement of the observation groove 7 is used for observing the feeding condition in the feeding mechanism, and the inner wall of the material storage shell 5 is designed to be arc-shaped and can be matched with a plurality of material guide plates 10 to contact with the inner wall of the material storage shell 5, the device finishes the cleaning of the steel slag micro powder, the guide plate 10, the iron powder discharge guide plate 16 and the steel slag micro powder discharge guide plate 18 are all provided with downward inclined angles, so that the materials can be automatically conveyed through self gravity, the whole device has reasonable structure, ingenious conception and convenient use, three-stage screening and removal are carried out on the iron powder, the quality of the screened iron powder is high, the effect is good, the whole device shares one motor, the energy is saved, the steel slag micro powder can be shaken and dispersed during feeding, the situation that some iron powder is wrapped by the steel slag and can not be adsorbed can not be easily caused, the practicability is strong, the problem that when the device for removing the iron powder in the steel slag micro powder in the prior art is used, the screening effect is poor, the screening rate of iron substances in the steel slag micro powder is low, the requirements of users can not be met, and a plurality of iron substances are in the micro powder when the conventional device is used for feeding the steel slag micro powder, the magnetic separation can not be carried out, thereby further reducing the problems of iron removal rate and the like.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a slag miropowder deironing device which characterized in that: comprises a shell (1) and a power output mechanism, wherein a first permanent magnet roller (2), a second permanent magnet roller (3) and a third permanent magnet roller (4) are sequentially connected in the shell (1) from left to right through three rotating shafts in a rotating manner, the magnetism of the first permanent magnet roller (2), the second permanent magnet roller (3) and the third permanent magnet roller (4) is sequentially enhanced, a feeding mechanism and a discharging mechanism are respectively arranged on the left side and the right side of the shell (1), the first permanent magnet roller (2), the second permanent magnet roller (3) and the third permanent magnet roller (4) are connected with the power output mechanism together with the feeding mechanism, the feeding mechanism comprises a storage shell (5), the storage shell (5) is fixed on the left side wall of the shell (1), a feeding channel (6) is communicated on the storage shell (5), a plurality of connecting plates (8) are connected in the storage shell (5) through the rotating rollers in a rotating manner, a plurality of all be fixed with defeated hopper (9) on connecting plate (8), and the equal little elastic rubber material of a plurality of defeated hopper (9), the top left side of casing (1) is fixed with stock guide (10), stock guide (10) are provided with the angle to the top slope of first permanent magnetism cylinder (2).

2. The steel slag micropowder de-ironing device according to claim 1, characterized in that: power take-off mechanism includes motor (12), motor (12) set up on the rear side wall of casing (1), the output shaft of motor (12) is fixed with the pivot on first permanent magnetism cylinder (2), the pivot rear end on first permanent magnetism cylinder (2) all is fixed with belt pulley (13), two with the rear end of storage casing (5) adversion rod belt pulley (13) are connected through belt (14) transmission, the front end of three pivot all runs through casing (1) and is fixed with gear (11) in casing (1), and three gear (11) mesh mutually.

3. The steel slag micropowder de-ironing device according to claim 2, characterized in that: the blanking mechanism comprises a scraper (15), the scraper (15) is fixed on the front inner wall and the rear inner wall of the casing (1), the scraper (15) is attached to the third permanent magnet roller (4), an iron powder discharging guide plate (16) is fixed on the front inner wall and the rear inner wall of the casing (1), and the iron powder discharging guide plate (16) is located below the scraper (15).

4. The steel slag micropowder de-ironing device according to claim 3, characterized in that: the bottom of the machine shell (1) is communicated with a blanking channel (17), the blanking channel (17) is provided with a taper of a downward drawing die, and a steel slag micro powder discharging guide plate (18) is fixed at the bottom of the blanking channel (17).

5. The steel slag micropowder de-ironing device according to claim 4, characterized in that: a plurality of supporting legs (19) are fixed at the bottoms of the blanking channel (17) and the observation groove (7), and supporting seats are arranged at the bottoms of the supporting legs (19).

6. The steel slag micropowder de-ironing device according to claim 5, characterized in that: an observation groove (7) is formed in the feeding channel (6), and the inner wall of the material storage shell (5) is arc-shaped.

7. The steel slag micropowder de-ironing device according to claim 6, characterized in that: the guide plate (10), the iron powder discharging guide plate (16) and the steel slag micro powder discharging guide plate (18) are all provided with downward inclined angles.

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