CN109550592B - Iron remover - Google Patents

Abstract

The invention discloses an iron remover, which comprises a frame, a slurry conveying system and at least one iron removing device, wherein the slurry conveying system is used for conveying slurry, the slurry conveying system is provided with a slurry conveying channel, and at least one section of iron removing section is arranged on the slurry conveying channel; the iron removing device is in one-to-one correspondence with the iron removing sections, the iron removing device comprises an iron adsorbing and conveying assembly, an iron conveying assembly and an iron collecting tank, the iron adsorbing and conveying assembly is provided with an adsorbing station and an iron transporting station, the iron adsorbing and conveying assembly is used for adsorbing iron in slurry passing through the corresponding iron removing sections at the adsorbing station and conveying the adsorbed iron to the iron transporting station, and the iron conveying assembly is used for moving the iron at the iron transporting station to the iron collecting tank. The invention can improve the deironing effect of the slurry, does not need manual cleaning, and is convenient to use.

Description

Iron remover

Technical Field

The invention relates to an iron remover which is mainly used for fully-automatic iron removal in raw material slurry and glaze slurry of kaolin, ceramics and electroceramics.

Background

At present, the traditional iron removal method is as follows: the electromagnetic iron remover is characterized in that a mud tank is adopted, a magnet rod is used for immersing iron in the mud tank, after the electromagnetic iron remover is used for a period of time, the electromagnetic iron remover is manually cleaned, if the electromagnetic iron remover is not timely cleaned, the iron remover can affect the iron removing effect, but the electromagnetic iron remover is high in power consumption, high-pressure air, oil and water are needed, and sewage is generated in the cleaning process.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, and provides the iron remover which can improve the iron removing effect of slurry, does not need manual cleaning and is convenient to use.

In order to solve the technical problems, the technical scheme of the invention is as follows: an iron remover, comprising a frame, further comprising:

the slurry conveying system is used for conveying slurry and is provided with a slurry conveying channel, and at least one section of iron removing section is arranged on the slurry conveying channel;

at least one deironing device, deironing device with deironing section one-to-one, deironing device includes iron absorption and conveying subassembly, iron conveying subassembly and iron collecting vat, iron absorption and conveying subassembly has absorption station and iron fortune station, iron absorption and conveying subassembly is arranged in adsorbing the iron in the thick liquids of passing through corresponding deironing section in absorption station to carry the iron of absorption to the iron and transport the station, iron conveying subassembly is arranged in moving the iron that is in the iron and transport the station to the iron collecting vat.

Further in order to make the deironing section of thick liquids conveying path reduce in proper order and set up, form a structure of high gradient, the thick liquids of being convenient for are carried, deironing section is provided with two at least sections, in the direction of transport of thick liquids, deironing section reduces in proper order in vertical direction.

There is further provided a specific mechanism of an iron adsorbing and transporting assembly comprising:

a drum rotatably supported on the frame, the drum having a drum magnet provided on a peripheral wall thereof;

and the roller rotary driving mechanism is connected with the roller, so that the roller rotary driving mechanism drives the roller to intermittently rotate, and the roller rotary driving mechanism is switched between an adsorption station and an iron carrying-away station.

There is further provided a concrete structure of a drum rotation driving mechanism for driving a drum to rotate on a frame, the drum rotation driving mechanism including a motor and a gear pair, the motor being connected to the drum through the gear pair.

There is further provided a concrete structure of a ferrous conveying assembly, the ferrous conveying assembly comprising:

the conveying magnet can make the conveying magnet magnetic or demagnetize, and the conveying magnet is movably connected to the rack;

the reciprocating movement mechanism is connected with the conveying magnet and drives the conveying magnet to move between the iron carrying-out station and the iron collecting tank, and when the conveying magnet moves to the iron carrying-out station, the conveying magnet is driven to magnetically adsorb iron of the iron carrying-out station; when the conveying magnet moves to the position corresponding to the iron collecting groove, the conveying magnet is driven to demagnetize, and the iron adsorbed on the conveying magnet falls into the iron collecting groove.

Further, in order to facilitate the movement guiding of the conveying magnet, a guide rail pair for guiding the movement direction of the conveying magnet is arranged between the frame and the conveying magnet.

There is further provided a specific structure of a reciprocating mechanism capable of driving a conveying magnet to reciprocate back and forth, the reciprocating mechanism comprising:

the synchronous wheel set comprises a driving wheel and a driven wheel, both of which are rotatably supported on the frame,

the synchronous belt is connected to the driving wheel and the driven wheel, and the conveying magnet is connected to the synchronous belt;

and the driving wheel driving source is connected with the driving wheel and drives the driving wheel to rotate.

Further, the slurry transport passage is formed by a slurry tank in which the lower portion of the drum is located.

Further, the slurry tank is provided with a slurry inlet and a slurry outlet, and the slurry inlet and the slurry outlet are respectively communicated with the slurry conveying channel.

After the technical scheme is adopted, the slurry is conveyed through the slurry conveying system, in the conveying process of the slurry, when the slurry is positioned in the iron removing section, the iron adsorbing and conveying assembly adsorbs iron in the slurry positioned in the iron removing section and conveys the adsorbed iron to the iron conveying station, at the moment, the conveying magnet positioned in the iron conveying station can obtain magnetism, the magnetism of the conveying magnet is stronger than that of the iron adsorbing and conveying assembly, the conveying magnet adsorbs the iron, the reciprocating moving mechanism moves the conveying magnet adsorbing the iron to the position above the iron collecting tank, then the conveying magnet loses magnetism, and the iron adsorbed on the conveying magnet falls into the iron collecting tank, so that the primary iron removing process is completed.

Drawings

FIG. 1 is a schematic view of the structure of the iron remover of the present invention;

fig. 2 is a left side view of fig. 1.

Detailed Description

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments that are illustrated below.

As shown in fig. 1 and 2, an iron remover comprises a frame 1, and further comprises:

the slurry conveying system is used for conveying slurry and is provided with a slurry conveying channel, and at least one section of iron removing section is arranged on the slurry conveying channel;

at least one deironing device, deironing device with deironing section one-to-one, deironing device includes iron absorption and conveying subassembly, iron conveying subassembly and iron collecting vat 21, iron absorption and conveying subassembly has absorption station and iron fortune station, iron absorption and conveying subassembly is arranged in adsorbing the iron in the thick liquids of passing corresponding deironing section in absorption station to carry the iron of absorption to the iron and transport the station, iron conveying subassembly is arranged in moving the iron that is in the iron and transport the station to iron collecting vat 21.

The deironing section is provided with at least two sections, and in the conveying direction of slurry, the deironing section is sequentially lowered in the vertical direction.

In the present embodiment, the iron removal section is provided with two sections, but is not limited thereto.

As shown in fig. 1 and 2, the iron adsorption and transfer assembly includes:

a drum 31, the drum 31 being rotatably supported on the frame 1, a drum magnet being provided on a peripheral wall of the drum 31;

and the roller rotation driving mechanism is connected with the roller 31, so that the roller rotation driving mechanism drives the roller 31 to intermittently rotate, and the suction station and the iron carrying-away station are switched.

The drum rotation driving mechanism includes a motor 32 and a gear pair 33, and the motor 32 is connected to the drum 31 through the gear pair 33. The motor 32 drives the roller 31 to rotate through the gear pair 33, and in the rotating process of the roller 31, iron can be adsorbed at the adsorption station and the adsorbed iron can be rotated to the iron transporting station.

As shown in fig. 1 and 2, the iron conveyor assembly includes:

a conveying magnet 41 which can make the conveying magnet magnetic or demagnetize, wherein the conveying magnet 41 is movably connected to the frame 1; in the present embodiment, the conveying magnet 41 can be magnetically shielded by providing a spacer so as to be magnetically or demagnetized, which is easily achieved, and will not be described in detail in the present embodiment;

a reciprocating mechanism connected with the conveying magnet 41 and driving the conveying magnet 41 to move between the iron carrying-out station and the iron collecting tank 21, and when the conveying magnet 41 moves to the iron carrying-out station, the conveying magnet 41 is driven to magnetically absorb iron of the iron carrying-out station; when the conveying magnet 41 moves to the position corresponding to the iron collecting tank 21, the conveying magnet 41 is driven to demagnetize, and the iron adsorbed on the conveying magnet 41 falls into the iron collecting tank 21.

In the embodiment of the invention, the slurry is conveyed through the slurry conveying system, when the slurry is positioned in the iron removing section in the conveying process of the slurry, the iron adsorbing and conveying assembly adsorbs iron in the slurry positioned in the iron removing section and conveys the adsorbed iron to the iron conveying station, at the moment, the conveying magnet 41 positioned in the iron conveying station can obtain magnetism, the magnetism of the conveying magnet 41 is stronger than that of the iron adsorbing and conveying assembly, the conveying magnet 41 adsorbs the iron, the reciprocating mechanism moves the conveying magnet 41 adsorbing the iron to the position above the iron collecting tank 21, then the conveying magnet 41 loses magnetism, and the iron adsorbed on the conveying magnet 41 can fall into the iron collecting tank 21, so that the primary iron removing process is completed.

As shown in fig. 2, a guide rail pair 5 for guiding the moving direction of the conveying magnet 41 is provided between the frame 1 and the conveying magnet 41.

As shown in fig. 2, the reciprocating mechanism includes:

a synchronizing wheel set including a driving wheel 42 and a driven wheel 43, both the driving wheel 42 and the driven wheel 43 being rotatably supported on the frame 1;

a timing belt 44, wherein the timing belt 44 is connected to the driving wheel 42 and the driven wheel 43, and the conveying magnet 41 is connected to the timing belt 44;

and a capstan driving source connected to the capstan 42 for driving the capstan 42 to rotate.

In this embodiment, the driving wheel 42 is driven to rotate by the driving wheel driving source, so that the synchronous belt 44 is driven to move, and the synchronous belt drives the conveying magnet 41 to move.

As shown in fig. 1, the slurry transport passage is formed by a slurry tank 11, and the lower portion of the drum 31 is located in the slurry tank 11.

As shown in fig. 1, the slurry tank 11 has a slurry inlet 12 and a slurry outlet 13, and the slurry inlet 12 and the slurry outlet 13 are respectively communicated with the slurry conveying passage.

The technical problems, technical solutions and advantageous effects solved by the present invention have been further described in detail in the above-described embodiments, and it should be understood that the above-described embodiments are only illustrative of the present invention and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the scope of protection of the present invention.

Claims (1)

1. An iron remover comprising a frame (1), characterized in that it further comprises:

the slurry conveying system is used for conveying slurry and is provided with a slurry conveying channel, and at least one section of iron removing section is arranged on the slurry conveying channel;

the iron removing device is in one-to-one correspondence with the iron removing sections, and comprises an iron adsorbing and conveying assembly, an iron conveying assembly and an iron collecting tank (21), wherein the iron adsorbing and conveying assembly is provided with an adsorbing station and an iron transporting station, the iron adsorbing and conveying assembly is used for adsorbing iron in slurry passing through the corresponding iron removing sections at the adsorbing station and conveying the adsorbed iron to the iron transporting station, and the iron conveying assembly is used for moving the iron at the iron transporting station to the iron collecting tank (21);

the iron removing section is provided with at least two sections, and the iron removing sections are sequentially lowered in the vertical direction in the conveying direction of the slurry;

the iron adsorption and transfer assembly includes:

a drum (31), the drum (31) being rotatably supported on the frame (1), a drum magnet being provided on a peripheral wall of the drum (31);

a drum rotation driving mechanism connected to the drum (31) so that the drum rotation driving mechanism drives the drum (31) to intermittently rotate, thereby switching between an adsorption station and an iron carrying-away station;

the roller rotation driving mechanism comprises a motor (32) and a gear pair (33), and the motor (32) is connected with the roller (31) through the gear pair (33);

the iron delivery assembly includes:

a conveying magnet (41) which can make the conveying magnet magnetic or demagnetize, wherein the conveying magnet (41) is movably connected to the frame (1);

the reciprocating mechanism is connected with the conveying magnet (41) and drives the conveying magnet (41) to move between the iron carrying-out station and the iron collecting groove (21), and when the conveying magnet (41) moves to the iron carrying-out station, the conveying magnet (41) is driven to magnetically absorb iron of the iron carrying-out station; when the conveying magnet (41) moves to a position corresponding to the iron collecting groove (21), the conveying magnet (41) is driven to demagnetize, and iron adsorbed on the conveying magnet (41) falls into the iron collecting groove (21);

a guide rail pair (5) for guiding the moving direction of the conveying magnet (41) is arranged between the frame (1) and the conveying magnet (41);

the reciprocating mechanism includes:

the synchronous wheel set comprises a driving wheel (42) and a driven wheel (43), and the driving wheel (42) and the driven wheel (43) are rotatably supported on the frame (1);

the synchronous belt (44), the synchronous belt (44) is connected to the driving wheel (42) and the driven wheel (43), and the conveying magnet (41) is connected to the synchronous belt (44);

a driving wheel driving source connected with the driving wheel (42) for driving the driving wheel (42) to rotate;

the slurry conveying channel is formed by a slurry tank (11), and the lower part of the roller (31) is positioned in the slurry tank (11);

the slurry tank (11) is provided with a slurry inlet (12) and a slurry outlet (13), and the slurry inlet (12) and the slurry outlet (13) are respectively communicated with the slurry conveying channel.