CN112619896B

CN112619896B - Ferric oxide slurry screening and iron removing system

Info

Publication number: CN112619896B
Application number: CN202011368157.1A
Authority: CN
Inventors: 陆云飞; 单淼
Original assignee: Jiangsu Yuxing Technology Co ltd
Current assignee: Jiangsu Yuxing Technology Co ltd
Priority date: 2020-11-27
Filing date: 2020-11-27
Publication date: 2023-04-28
Anticipated expiration: 2040-11-27
Also published as: CN112619896A

Abstract

The invention discloses a ferric oxide slurry screening and deironing system, which comprises a screening device and a deironing device, wherein the screening device comprises a base, a spring, a cavity, a first vibrating motor and a second vibrating motor, the spring is uniformly arranged at the upper end of the base, the cavity is arranged at the upper end of the spring, the deironing device comprises a trough, an electric push rod, a support frame and a bottom frame, a feed inlet of the trough is connected with a discharge pipe, the bottom frame is arranged in the trough, and the electric push rods are arranged at two sides of the bottom frame. The iron removing device in the iron oxide slurry screening iron removing system can drive the magnetic rod to move up and down by utilizing the electric push rod, when the iron removing device adsorbs full iron filings, the underframe and the like are taken out, the magnetic rod is only required to be pulled out of the cylinder frame, the iron filings can automatically fall off, no people need to be cleaned from a little, no people need to pull out, time and labor are saved, and the working efficiency is greatly improved.

Description

Ferric oxide slurry screening and iron removing system

Technical Field

The invention belongs to the technical field of ferric oxide slurry production equipment, and particularly relates to a ferric oxide slurry screening and iron removing system.

Background

In the production process of the ferric oxide material, the reaction of acid and iron sheet is completed in a reaction cylinder, and after the nano ferric oxide slurry is formed, the slurry is uniformly stirred in a slurry stirring machine. The reaction cylinder is connected with the pulp-stirring machine through a pipeline, and the pulp in the reaction cylinder is pumped into the pulp-stirring machine by adopting a pump. Because some tiny scrap iron and other impurities usually remain in the slurry when the acid reacts with the iron sheet in the reaction cylinder, the impurities are required to be removed in the process of extracting the slurry to the slurry-turning machine. The existing scrap removing mode is usually only to adopt a simple vibrating screen for screening, so that the slurry conveying speed is guaranteed, the screening effect is not very good, the process that partial fine impurities are mixed into the slurry to enter the next scrap removing process is caused, the simplest magnetic rod is generally adopted for adsorption in the scrap removing process, the existing magnetic rod adsorbs scrap iron, the scrap iron is difficult to remove from the magnetic rod, time and labor are wasted, the efficiency is low, and the quality of a final product can be caused if the residual impurities are not cleaned.

Disclosure of Invention

Aiming at the problems in the prior art, the technical problem to be solved by the invention is to provide a ferric oxide slurry screening and deironing system so as to solve the problems of poor screening effect, inconvenient scrap iron treatment and time and labor waste of the conventional vibrating screen.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a ferric oxide thick liquids screening deironing system, includes sieving mechanism and deironing device, sieving mechanism includes base, spring, cavity, first vibrating motor and second vibrating motor, the upper end of base evenly is provided with the spring, and the spring upper end is provided with the cavity, is provided with the sieve in the middle of the cavity, the lower extreme both sides of cavity all are provided with the vibration frame, and are provided with first vibrating motor and second vibrating motor on 2 vibration frames respectively, the upper end of cavity is provided with the upper cover, and the upper cover upper end is provided with the feed inlet, the lower extreme of cavity is connected with deironing device through the discharging pipe, deironing device includes silo, electric putter, support frame and chassis, the feed inlet of silo is connected with the discharging pipe, and is provided with the chassis in the silo, the both sides of chassis all are provided with electric putter, and electric putter's top is provided with the support frame through the connecting block, evenly be provided with the crossbeams on the support frame, and the crossbeams lower extreme evenly is provided with the bar, one side of silo is provided with the discharge gate.

Further, the cavity is divided into an upper cavity and a lower cavity, the sieve plate is arranged between the upper cavity and the lower cavity, and a slag hole is formed in one side of the upper cavity.

Further, one end of the vibration frame is provided with a first connecting plate, the first connecting plate is connected with a second connecting plate through a locking bolt, and the second connecting plate is connected with the first vibration motor and the second vibration motor respectively.

Further, the top end of the electric push rod is fixedly connected with the supporting frame through the connecting block, and the lower half section of the electric push rod is fixedly connected with the underframe.

Further, the underframe is uniformly provided with the cylinder frames, the number of the cylinder frames is consistent with that of the transverse frames, and the positions of the cylinder frames correspond to those of the transverse frames.

Further, the cylinders are uniformly arranged on the cylinder frame, the number of the cylinders is consistent with that of the magnetic rods, and the positions of the cylinders correspond to the positions where the magnetic rods are placed.

Further, the bottom end of the cylinder is closed, and the inner diameter of the cylinder is larger than the diameter of the magnetic rod.

Further, clamping grooves are formed in two sides of the underframe, and anti-slip threads are arranged on the inner surfaces of the clamping grooves.

Further, a handle is arranged on the support frame, and the support frame is fixedly connected with the handle.

The beneficial effects are that: compared with the prior art, the application has the following advantages:

1. this sieving mechanism in ferric oxide thick liquids screening deironing system is provided with first connecting plate and second connecting plate, and first connecting plate and second connecting plate pass through locking bolt connection, unscrew locking bolt, and first vibrating motor and second vibrating motor that are connected with the second connecting plate just can rotation adjustment angle, and convenient control vibration amplitude and centrifugal force size improve screening efficiency and slag discharging efficiency.

2. The iron removing device in the iron oxide slurry screening iron removing system can drive the magnetic rod to move up and down by utilizing the electric push rod, when the iron removing device adsorbs full iron filings, the underframe and the like are taken out, the magnetic rod is only required to be pulled out of the cylinder frame, the iron filings can automatically fall off, no people need to be cleaned from a little, no people need to pull out, time and labor are saved, and the working efficiency is greatly improved.

Drawings

FIG. 1 is a schematic diagram of a system for screening and deferrizing ferric oxide slurry;

FIG. 2 is a schematic diagram of a connection structure between a second vibration motor and a vibration motor;

FIG. 3 is a schematic diagram of a first vibration motor and vibration motor connection structure;

FIG. 4 is a partial plan view of the iron removing device;

FIG. 5 is a schematic view of a part of the structure of the iron removing device;

FIG. 6 is a schematic view of the internal portion of the vibrating screen;

fig. 7 is a schematic diagram of a screen deck structure.

Detailed Description

The invention is further described below with reference to the accompanying drawings.

As shown in fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the system for screening and removing iron from ferric oxide slurry of the application comprises a screening device and an iron removing device, the screening device comprises a base 1, a spring 2, a cavity 3, first vibrating motor 6 and second vibrating motor 7, the upper end of base 1 is evenly provided with spring 2, and spring 2 upper end is provided with cavity 3, be provided with sieve 5 in the middle of cavity 3, the lower extreme both sides of cavity 3 all are provided with vibrating frame 4, and 2 vibrating frames 4 are last to be provided with first vibrating motor 6 and second vibrating motor 7 respectively, the upper end of cavity 3 is provided with upper cover 8, the upper end of upper cover 8 is provided with feed inlet 10, the lower extreme of cavity 3 is connected with iron removing iron device through discharging pipe 11, iron removing device includes silo 12, electric putter 13, support frame 14 and underframe 17, the feed inlet of silo 12 is connected with discharging pipe 11, the interior of the good thick liquids entering 12 of screening device removes underframe 17, both sides of underframe 17 all are provided with electric putter 13, and electric putter 13's top is provided with the frame 14, and electric putter 13 is provided with the horizontal bar 16 through support frame 14 and evenly to take off from the side of the support frame 16, the top end 15 can be provided with the horizontal bar 16 from the horizontal bar 15, and the horizontal bar 16 can be set up and the horizontal bar 15 is equipped with the horizontal bar 16.

As shown in fig. 6 and 7, the chamber 3 is divided into an upper chamber 301 and a lower chamber 302, the sieve plate 5 is arranged between the upper chamber 301 and the lower chamber 302, one side of the upper chamber 301 is provided with a slag hole 9, the lower end surface of the upper cover 8 is uniformly provided with a sleeve 801, the chamber 3 is provided with a discharge hole, the chamber 3 is divided into the upper chamber 301 and the lower chamber 302, the sieve plate 5 is arranged between the upper chamber 301 and the lower chamber 302, the inside of the upper chamber 301 is provided with a convex block 3012, the inner surface of the upper chamber 301 is provided with a sliding strip 3011, the periphery of the sieve plate 5 is uniformly provided with a sliding groove 501, the lower end of the lower chamber 302 is provided with a discharge hole, the sleeve 801 is matched with the sliding strip 3011, when in use, the sieve plate 5 is supported by the convex block 3012, the sliding groove 501 of the sieve plate 5 is embedded on the sliding strip 3011, then the sleeve 801 is used for pressing the sieve plate 5, so that the sieve plate 5 is tightly connected with the chamber 3, and when the normal vibration is required, the upper cover 8 is only required to be opened, the sleeve 801 is taken out from the upper surface of the sieve plate 5, the sieve plate is easy to take out, the sieve plate is convenient to use, the service life of the sieve plate is saved, and the service life of the sieve plate is saved,

the inner wall of the upper cavity 301 is provided with 4 lugs 3012, the sliding strip 3011 is located the upper end of the lugs 3012, the screen plate 5 is provided with 4 sliding grooves 501, the upper cover 8 is also provided with 4 sleeves 801, the lugs 3012, the sliding strips 3011, the sliding grooves 501 and the positions of the sleeves 801 are corresponding, the fixation of the screen plate 5 is guaranteed, the screen plate 5 is located the upper end face of the lugs 3012, the sliding grooves 501 are matched with the sliding strips 3011, the screen plate 5 is guaranteed to slide under the limitation of the sliding strips 3011, the section of the sliding strips 3011 is semicircular, dead angles are avoided, and slag is conveniently discharged.

One end of the vibration frame 4 is provided with a first connecting plate 401, the first connecting plate 401 is connected with a second connecting plate 402 through a locking bolt 403, the second connecting plate 402 is connected with a first vibration motor 6 and a second vibration motor 7 respectively, the second connecting plate 402 is fixedly connected with the first vibration motor 6 and the second vibration motor 7, the connection strength and stability are improved, the second connecting plate 402 is a vertical plate and is connected with the second vibration motor 7, the second connecting plate 402 is a T-shaped plate and is connected with the first vibration motor 6, the locking bolt 403 is unscrewed, the first vibration motor 6 can transversely rotate, the second vibration motor 7 can vertically rotate, the vibration amplitude and the centrifugal force are conveniently controlled, and meanwhile, a rubber pad is arranged at the joint of the second connecting plate 402 and the first vibration motor 6 and the second vibration motor 7, so that abrasion is reduced.

According to the vibrating motor, the angle of the vibrating motor is adjustable, the vibrating amplitude and the centrifugal force are adjusted through the adjustment of the angle of the motor, the screening efficiency is improved by more than 50%, the amplitude is improved through the transverse angle adjustment of the first vibrating motor 6, the passing efficiency is improved, and the productivity in unit time is improved; through the vertical angular adjustment of the second vibrating motor 7, centrifugal force is improved, and slag discharging efficiency is improved.

The first vibration motor 6 transversely rotates to adjust the angle of the vibration frame 4, when the rotation angle is 10-30 degrees, the amplitude is improved, the passing efficiency is improved by 50 percent, when the angle is 20-30 degrees, the passing efficiency is improved by 65 percent, and when the angle is 25 degrees, the passing efficiency is improved by 80 percent.

When the second vibration motor 7 and the horizontal plane form 10-30 degrees, the slag discharging efficiency is improved by 50 percent, when the second vibration motor 7 and the horizontal plane form 20-30 degrees, the slag discharging efficiency is improved by 65 percent, and when the second vibration motor 7 and the horizontal plane form 25 degrees, the slag discharging efficiency is improved by 80 percent.

The top of electric putter 13 is fixed connection through connecting block 20 and support frame 14, improves joint strength and stability, and electric putter 13's lower half is fixed connection with chassis 17, improves joint strength and stability, guarantees when electric putter 13 stretches out and draws back, only support frame 14 can carry out the displacement along with electric putter 13's lift, and chassis 17 can not take place for the displacement, guarantees that bar magnet 16 can normally follow in the drum 18 and draw out the absorptive iron fillings of drum 18 surface.

The underframe 17 is uniformly provided with the cylinder frames 171, the number of the cylinder frames 171 is consistent with that of the cross frames 15, the positions of the cylinder frames 171 correspond to those of the cross frames 15, and when the electric push rod 13 drives the supporting frame 14 to descend, the magnetic rod 16 on the cross frames 15 can be inserted into the cylinder 18 on the cylinder frames 171, so that normal work is ensured.

The cylinders 18 are uniformly arranged on the cylinder frame 171, the number of the cylinders 18 is consistent with that of the magnetic rods 16, the positions of the cylinders 18 correspond to the positions where the magnetic rods 16 are placed, and when the electric push rod 13 drives the support frame 14 to descend, the magnetic rods 16 on the transverse frame 15 can be inserted into the cylinders 18 on the cylinder frame 171, so that normal work is ensured.

The bottom end of the cylinder 18 is closed, and the inner diameter of the cylinder 18 is larger than the diameter of the magnetic rod 16, so that the magnetic rod 16 can be normally inserted into the cylinder 18, and normal operation of the work is ensured.

The both sides of chassis 17 are provided with draw-in groove 172, and draw-in groove 172 internal surface is provided with anti-skidding screw thread, and the draw-in groove 172 can let chassis 17 card on the outer wall of silo 12, guarantees that chassis 17 can be taken out from silo 12, and draw-in groove 172 internal surface is provided with anti-skidding screw thread, prevents to appear rocking the displacement in the course of the work, influences the normal clear of work.

The support frame 14 is provided with a handle, the support frame 14 is fixedly connected with the handle, the connection strength is improved, and when the magnetic rod 16 adsorbs a sufficient amount of scrap iron through the cylinder 18, the bottom frame 17, the support frame 14 and the like can be pulled out by the handle for cleaning.

When the slurry after impurity removal enters the trough 12 through the discharging pipe 11, scrap iron in the slurry is adsorbed to the outer surface of the cylinder 18 under the action of the magnetic rod 16, when the scrap iron on the outer surface of the cylinder 18 reaches a certain amount, the iron removing device in the whole trough 12 can be taken out by using the handle, the electric push rod 13 is started, the electric push rod 13 stretches to drive the supporting frame 14 to rise, then the magnetic rod 16 on the transverse frame 15 is pulled out from the cylinder 18, the adsorption force of the cylinder 18 to the scrap iron is lost, the scrap iron automatically drops, the manual treatment is omitted, the electric push rod 13 stretches to integrally drive the supporting frame 14 to move, the magnetic rod 16 does not need to be pulled out one by one, the convenience is improved, after the scrap iron treatment is finished, the electric push rod 13 is contracted to drive the magnetic rod 16 to be newly inserted into the cylinder 18, the continuous work is carried out again in the trough 12, and the overall efficiency is greatly improved.

The invention provides a thought and an implementation method of a ferric oxide slurry screening iron removal system, and the specific application ways are many, the above is only a preferred embodiment of the invention, and it should be noted that, for those skilled in the art, several improvements can be made without departing from the principle of the invention, and the improvements should also be considered as the protection scope of the invention.

Claims

1. The iron oxide slurry screening and removing system is characterized in that: including sieving mechanism and deironing device, sieving mechanism includes base (1), spring (2), cavity (3), first vibrating motor (6) and second vibrating motor (7), the upper end of base (1) evenly is provided with spring (2), and spring (2) upper end is provided with cavity (3), is provided with sieve (5) in the middle of cavity (3), the lower extreme both sides of cavity (3) all are provided with vibrating frame (4), and are provided with first vibrating motor (6) and second vibrating motor (7) on 2 vibrating frames (4) respectively, the upper end of cavity (3) is provided with upper cover (8), and upper cover (8) upper end is provided with feed inlet (10), the lower extreme of cavity (3) is connected with deironing device through discharging pipe (11), deironing device includes silo (12), electric putter (13), support frame (14) and chassis (17), the feed inlet and the discharging pipe (11) of silo (12) are connected, and are provided with vibrating frame (17) in 2 vibrating frames (4), the upper end of cavity (3) is provided with upper end (8), electric putter (14) are provided with support frame (14) and are provided with on the support frame (13), the lower end of the transverse frame (15) is uniformly provided with magnetic rods (16), and one side of the trough (12) is provided with a discharge hole (19);

one end of the vibration frame (4) is provided with a first connecting plate (401), the first connecting plate (401) is connected with a second connecting plate (402) through a locking bolt (403), and the second connecting plate (402) is respectively connected with a first vibration motor (6) and a second vibration motor (7); the second connecting plate (402) is fixedly connected with the first vibrating motor (6) and the second vibrating motor (7), the connection strength and the stability are improved, the second connecting plate (402) is a vertical plate and is connected with the second vibrating motor (7), the second connecting plate (402) is a T-shaped plate and is connected with the first vibrating motor (6), the first vibrating motor (6) can transversely rotate by unscrewing the locking bolt (403), the second vibrating motor (7) can vertically rotate, and the vibration amplitude and the centrifugal force are controlled.

2. The ferric oxide slurry screening and de-ironing system according to claim 1, wherein: the cavity (3) is divided into an upper cavity (301) and a lower cavity (302), the sieve plate (5) is arranged between the upper cavity (301) and the lower cavity (302), and a slag outlet (9) is arranged on one side of the upper cavity (301).

3. The ferric oxide slurry screening and de-ironing system according to claim 1, wherein: the top end of the electric push rod (13) is fixedly connected with the supporting frame (14) through the connecting block (20), and the lower half section of the electric push rod (13) is fixedly connected with the underframe (17).

4. The ferric oxide slurry screening and de-ironing system according to claim 1, wherein: the underframe (17) is uniformly provided with the cylinder frames (171), the number of the cylinder frames (171) is consistent with that of the transverse frames (15), and the positions of the cylinder frames (171) correspond to those of the transverse frames (15).

5. The ferric oxide slurry screening and de-ironing system according to claim 4, wherein: the cylinders (18) are uniformly arranged on the cylinder frame (171), the number of the cylinders (18) is consistent with that of the magnetic rods (16), and the positions of the cylinders (18) correspond to the positions where the magnetic rods (16) are placed.

6. The ferric oxide slurry screening and de-ironing system according to claim 5, wherein: the bottom end of the cylinder (18) is closed, and the inner diameter of the cylinder (18) is larger than the diameter of the magnetic rod (16).

7. The ferric oxide slurry screening and de-ironing system according to claim 6, wherein: clamping grooves (172) are formed in two sides of the underframe (17), and anti-slip threads are arranged on the inner surfaces of the clamping grooves (172).

8. The ferric oxide slurry screening and de-ironing system according to claim 1, wherein: the support frame (14) is provided with a handle, and the support frame (14) is fixedly connected with the handle.