CN110773488A - Ultrahigh-pressure energy-saving environment-friendly dephosphorization device based on steel making and forging - Google Patents

Abstract

The invention discloses an ultrahigh-pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging, which comprises a downslide track, a liquid collection tank, a base frame, a water tank, a phosphorus removal variable frequency or servo motor, a high-pressure plunger phosphorus removal pump, accessory equipment, a pressure sensing plate, a computer control system, a phosphorus removal tank, a high-pressure rotary spray head and a flushing cavity, wherein a pressure-sensitive element is arranged in the pressure sensing plate, the base frame comprises two parts, the heights of the two parts of the base frame are different, namely the height of one side of the base frame is higher than that of the other side of the base frame, the downslide track is transversely fixed on the base frame, and one end of the downslide track is fixed. The device is reasonable in design and simple in operation, the motor is controlled by the phosphorus removal frequency conversion or servo motor control system, the reliability is good, when a forged piece exists, the phosphorus removal frequency conversion or servo motor is started to operate, and when no forged piece needs to remove phosphorus, the servo motor is in a standby state, so that the energy consumption of the device is greatly reduced.

Description

Ultrahigh-pressure energy-saving environment-friendly dephosphorization device based on steel making and forging

Technical Field

The invention relates to a phosphorus removal device, in particular to an ultrahigh-pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging pieces.

Background

The steel blank is heated to a red hot state before the forging processing of the mechanical part, a layer of oxide scale is formed on the surface of the blank after the blank in the red hot state is taken out of a heating furnace, the oxide scale is loosely connected with the main body of the blank and is easy to peel off under the action of external force, and the oxide scale on the surface of the blank after the blank is taken out of the furnace is required to be firstly peeled off in order not to influence the subsequent further processing of the part.

However, in the working process of cleaning the forged piece by most cleaning machines, the motor is continuously in a working state, so that the motor is in a working state even when there is no forged piece to be washed, which causes energy waste and does not meet the requirements of energy saving and environmental protection.

Therefore, an ultrahigh-pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces is provided.

Disclosure of Invention

The invention mainly aims to provide an ultrahigh-pressure energy-saving environment-friendly dephosphorization device based on steelmaking and forgings, which is taken as a whole and arranged in a process line, the arrangement positions of all components of the device can be determined according to the requirements and the working environment on site, when the device works, some forgings needing dephosphorization are placed at the end part of a downslide track, because the height difference exists between the end part of the downslide track and the other end of the downslide track, the forgings can slide down on a downslide track falling body, when the forgings pass through a dephosphorization box, a high-pressure rotating nozzle in the dephosphorization box can scour the forgings to cause oxides to fall off, a pressure sensing plate acts on the top of the downslide track, because the pressure sensing plate is internally provided with a sub-sensitive element, when the sub-sensitive element of the pressure sensing plate senses the change of the pressure, the pressure change information can be transmitted to a computer control system, then the computer control system can drive the dephosphorization frequency conversion or the servo motor to work, then the flushing of the forge piece is implemented, when the downslide track has no forged piece, the computer control system can control the dephosphorization frequency conversion or the closing of the servo motor, so that the device can automatically complete the working process of standby starting, and simultaneously, each electrical equipment in the device can be connected with a computer control system, then the information can be transmitted to the computer control system and displayed by using a touch screen operation panel of the computer control system, when the device meets some emergency situations, an instruction can be input through the touch screen operation panel, the power supply of the dephosphorization frequency conversion or the servo motor is turned off, the work is stopped, the forge piece after dephosphorization is finished slides down to the designated position and then is obtained by the mechanical arm or the manual movement device, and the problems in the background art can be effectively solved.

In order to achieve the purpose, the invention adopts the technical scheme that:

an ultrahigh-pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging comprises a downslide track, a liquid collecting tank, a base frame, a water tank, a phosphorus removal frequency conversion or servo motor, a high-pressure plunger phosphorus removal pump, accessory equipment, a pressure sensing plate, a computer control system, a phosphorus removal tank, a high-pressure rotary spray head and a flushing cavity, wherein a pressure-sensitive element is arranged in the pressure sensing plate, the base frame comprises two parts, the heights of the two parts of the base frame are different, namely the height of one side of the base frame is higher than that of the other side of the base frame, the downslide track is transversely fixed on the base frame, one end of the downslide track is fixed on the higher side of the base frame, the other end of the downslide track is fixed on the lower side of the base frame, one side of the base frame is provided with a motor base and a high-pressure plunger, the high-pressure plunger phosphorus removal pump is arranged on the high-pressure plunger phosphorus removal pump seat, the phosphorus removal variable frequency or servo motor is connected with the high-pressure plunger phosphorus removal pump, the computer control system comprises computer control equipment and a touch screen operation panel, the pressure sensing plate is arranged at the top of the lower sliding rail, two first through openings are arranged on the side edge of the phosphorus removal tank, the flushing cavity is a cylindrical cavity, the inner diameter of the flushing cavity is larger than the maximum width of the lower sliding rail, the bottom side of the lower sliding rail is tightly and fixedly connected with the flushing cavity, the lower sliding rail is tightly and fixedly connected with the liquid collection tank by the first through openings, one side of the liquid collection tank is provided with a strong magnetic adsorption filter tank, the bottom of the strong magnetic adsorption filter tank is provided with the water tank, the outer side surface of the flushing cavity is provided with a second through opening, the top of the phosphorus removal tank is provided with a window, and, the liquid collecting tank is arranged at the bottom side of the phosphorus removal tank, the accessory equipment comprises an electromagnetic valve, a high-pressure phosphorus removal water pipe, a common water pipe, a safety valve, a pressure transmitter and the like, the high-pressure rotary spray head is provided with a second opening, and the phosphorus removal variable-frequency or servo motor and the pressure sensing plate are both electrically connected with the computer control system.

Furthermore, the outer side of the washing cavity is fixedly connected with a spray head support, the bottom of the high-pressure rotating spray head is fixedly connected with the spray head support, and the number of the high-pressure rotating spray head and the number of the spray head supports are both multiple.

Furthermore, the number of the second openings is multiple, and the second openings are not on the same axis.

Further, the number of the phosphorus removal variable frequency or servo motor and the number of the high-pressure plunger phosphorus removal pump are three.

Further, the liquid collecting box is connected with the strong magnetic adsorption filter box.

Furthermore, one side of the dephosphorization box is tightly attached to the inner side of the liquid collection box.

Further, the strong magnetic adsorption filter box comprises a motor case, a scraping blade, a liquid inlet pipe, a strong magnetic roller, a strong magnetic impeller, a cover plate and a leakage opening, wherein the strong magnetic roller penetrates through the strong magnetic adsorption filter box, one end of the strong magnetic roller is movably connected with the strong magnetic adsorption filter box, the other end of the strong magnetic roller is connected with a transmission shaft bearing of the motor case, a plurality of strong magnetic impellers are fixedly connected with the outer side of the strong magnetic roller, one side of the scraping blade, which is close to the strong magnetic impeller, is provided with rectangular scraping grooves, the number of the rectangular scraping grooves is equal to that of the strong magnetic impeller, the scraping grooves are attached to the strong magnetic impeller, the cover plate is arranged at the top of the strong magnetic adsorption filter box and is positioned at one side of the strong magnetic impeller, a proper gap is reserved between the strong magnetic impeller and the cover plate, the bottom side of the cover plate is provided with a baffle plate, the other end of the baffle is close to the strong magnetic impeller along the depth but not contacted with the strong magnetic impeller, and the bottom of the strong magnetic adsorption filter box is provided with a leakage opening.

Compared with the prior art, the invention has the following beneficial effects: when the pressure change is sensed by the sub-sensitive element of the pressure sensing plate, the pressure change information is transmitted to the computer control system, then the computer control system drives the phosphorus removal frequency conversion or servo motor to work, then the forged piece is washed, when the lower sliding rail is not provided with the forged piece, the computer control system controls the phosphorus removal frequency conversion or servo motor to be closed, so that the device can automatically complete the working process of standby starting, meanwhile, each electrical equipment in the device can be connected with the computer control system, then the information can be transmitted to the computer control system and displayed by a touch screen operation panel of the computer control system, when the device meets some sudden conditions, an instruction can be input through the touch screen operation panel to close the power supply of the phosphorus removal frequency conversion or servo motor and stop working, the forged piece after phosphorus removal slides down to a designated position and then is obtained by a manipulator or a manual actuating device, this device adopts the dephosphorization frequency conversion or the servo motor control system who is equipped with to control the motor, and good reliability, dephosphorization frequency conversion or servo motor start-up operation when there is the forging, and the private service motor is in standby state when there is not the forging to need the dephosphorization, great reduction the energy consumption of device.

[ description of the drawings ]

FIG. 1 is a schematic view of the overall structure of an ultra-high pressure energy-saving and environment-friendly phosphorus removal device based on steel making and forging.

FIG. 2 is a schematic diagram of the internal structure of a dephosphorization box of the ultrahigh-pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces.

FIG. 3 is a schematic structural view of a dephosphorization box of the ultrahigh-pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces.

FIG. 4 is a schematic view of a structure of a down-sliding rail of the ultrahigh-pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging.

FIG. 5 is a schematic structural view of a strong magnetic adsorption filter box of the ultrahigh pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging.

FIG. 6 is a schematic view showing the connection between a doctor blade and a strong magnetic impeller of the ultrahigh-pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging.

FIG. 7 is a schematic view of the internal structure of a strong magnetic adsorption filtration tank of the ultrahigh pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging.

FIG. 8 is a schematic bottom structure view of a strong magnetic adsorption filter box of the ultrahigh pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging.

FIG. 9 is a schematic view of the overall structure of an ultra-high pressure energy-saving and environment-friendly phosphorus removal device based on steel making and forging.

In the figure: 1. a downslide track; 2. a computer controlled device; 3. a touch screen operation panel; 4. a phosphorus removal box; 5. a liquid collection tank; 6. a base frame; 7. a water tank; 8. a phosphorus removal variable frequency or servo motor; 9. a motor mount; 10. a high-pressure plunger phosphorus removal pump; 11. a high-pressure plunger dephosphorization pump seat; 12. an opening I; 13. a spray head holder; 14. a high pressure rotary nozzle; 15. flushing the cavity; 16. a second opening; 17. a window; 18. a pressure sensing plate; 19. a strong magnetic adsorption filter box; 20. a motor case; 21. scraping a blade; 22. a liquid inlet pipe; 23. a strong magnetic roller; 24. a strong magnetic impeller; 25. a cover plate; 26. a baffle plate; 27. and (4) a leakage opening.

[ detailed description ] embodiments

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

As shown in fig. 1-8, an ultra-high pressure energy-saving environment-friendly phosphorus removal device based on steel making and forging comprises a downslide track 1, a liquid collection tank 5, a base frame 6, a water tank 7, a phosphorus removal frequency conversion or servo motor 8, a high-pressure plunger phosphorus removal pump 10 and accessory equipment, and further comprises a pressure sensing plate 18, a computer control system, a phosphorus removal tank 4, a high-pressure rotary spray head 14 and a flushing cavity 15, wherein a pressure-sensitive element is arranged in the pressure sensing plate 18, the base frame 6 comprises two parts, the heights of the two parts of the base frame 6 are different, namely, the height of one side of the base frame 6 is higher than that of the other side of the base frame 6, the downslide track 1 is transversely fixed on the base frame 6, one end of the downslide track 1 is fixed on the higher side of the base frame 6, the other end of the downslide track 1 is fixed on the lower side of the base frame 6, one, the phosphorus removal variable-frequency or servo motor 8 is arranged on the motor base 9, the high-pressure plunger phosphorus removal pump 10 is arranged on the high-pressure plunger phosphorus removal pump base 11, the phosphorus removal variable-frequency or servo motor 8 is connected with the high-pressure plunger phosphorus removal pump 10, the computer control system comprises a computer control device 2 and a touch screen operation panel 3, a pressure sensing plate 18 is arranged at the top of the lower sliding rail 1, two through first openings 12 are arranged on the side edge of the phosphorus removal tank 4, the flushing cavity 15 is a cylindrical cavity, the inner diameter of the flushing cavity is larger than the maximum width of the lower sliding rail 1, the bottom side of the lower sliding rail 1 is tightly and fixedly connected with the flushing cavity 15, the lower sliding rail 1 is tightly and fixedly connected with the liquid collection tank 5 through the first openings 12, a strong magnetic adsorption filter tank 19 is arranged on one side of the liquid collection tank 5, and the water tank 7 is arranged at the bottom of the strong magnetic adsorption filter tank 19, the outer side surface of the flushing cavity 15 is provided with a second opening 16, the top of the phosphorus removal box 4 is provided with a window 17, the bottom of the phosphorus removal box 4 is open, the liquid collection box 5 is arranged at the bottom side of the phosphorus removal box 4, the accessory equipment comprises an electromagnetic valve, a high-pressure phosphorus removal water pipe, a common water pipe, a safety valve, a pressure transmitter and the like, the high-pressure rotary spray head 14 is used for electrically connecting the second opening 16, the phosphorus removal frequency conversion or servo motor 8 and the pressure sensing plate 18 with the computer control system.

The invention relates to an ultrahigh pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces, wherein some main functional components of the device are connected through a high-pressure dephosphorization water pipe, for example, a high-pressure rotary spray head is connected with a high-pressure plunger dephosphorization pump through the high-pressure dephosphorization water pipe, the high-pressure plunger dephosphorization pump is connected with a water tank through a common water pipe, clear water is filled in the water tank, the water tank can be a filter screen mechanism with multiple processes and is used for filtering scale cinder dropped off from a steel piece, a safety valve, a pressure transmitter and the like can be arranged in the water pipeline according to needs, the high-pressure plunger dephosphorization pump extracts water in the water tank and pressurizes the water by using the common water pipe under the action of frequency conversion or a servo motor, and the pressurized water flow can pass through the high-pressure dephosphorization water pipe and is transmitted to the.

The spray head support is fixedly connected to the outer side of the flushing cavity, the bottom of the high-pressure rotating spray head is fixedly connected with the spray head support, the number of the high-pressure rotating spray head and the number of the spray head supports are multiple, the multiple spray heads can flush the forged piece for multiple times when the forged piece enters, and oxides on the surface of the forged piece can be fully flushed to enable the forged piece to fall off.

The forging piece is to be cleaned with the number of the second openings being a plurality of and a plurality of the second openings not being on the same axis, and the plurality of the second openings not being on the same axis means that the second openings can be cleaned without the orientation of position angles, and finally the high-pressure rotating nozzle can be washed at multiple angles when being washed, so that phosphorus removal can be carried out on the front surface and the circumference of the forging piece.

Wherein, the liquid collecting box 5 is connected with the strong magnetic adsorption filter box 19.

One side of the phosphorus removal box is tightly attached to the inner side of the liquid collection box, and the bottom of the phosphorus removal box is open, so that mixed liquid formed after flushing can be left in the liquid collection box through the bottom of the phosphorus removal box.

Wherein the strong magnetic adsorption filter box 19 comprises a motor case 20, a scraping blade 21, a liquid inlet pipe 22, a strong magnetic roller 23, a strong magnetic impeller 24, a cover plate 25 and a leakage opening 27, the strong magnetic roller 23 penetrates through the strong magnetic adsorption filter box 19, one end of the strong magnetic roller is movably connected with the strong magnetic adsorption filter box 19, the other end of the strong magnetic roller is connected with a transmission shaft bearing of the motor case 20, the outer side of the strong magnetic roller 23 is fixedly connected with a plurality of strong magnetic impellers 24, one side of the scraping blade 21 close to the strong magnetic impeller 24 is provided with rectangular scraping grooves, the number of the rectangular scraping grooves is equal to that of the strong magnetic impeller 24, the scraping grooves are attached to the strong magnetic impeller 24, the cover plate 25 is arranged at the top of the strong magnetic adsorption filter box 19 and is positioned at one side of the strong magnetic impeller 24, a proper gap is left between the strong magnetic impeller 24 and the cover plate 25, the bottom side of the, one end of the baffle 26 is fixedly connected with the inner side of the strong magnetic adsorption filter box 19, the other end of the baffle 26 is close to the strong magnetic impeller 24 along the depth but does not contact the strong magnetic impeller 24, and a leakage opening 27 is formed in the bottom of the strong magnetic adsorption filter box 19.

As shown in the strong magnetic adsorption filter box 19 shown in FIG. 5, most of impurities after dephosphorization of the forged piece are metal oxide skin, so the strong magnetic can adsorb the oxide skin in the mixed liquid, and further achieve the filtering effect, specifically, the waste liquid mixed with the oxide skin flows into the strong magnetic adsorption filter box 19 through the liquid inlet pipe 22, the waste liquid entering the strong magnetic adsorption filter box 19 further flows to the strong magnetic impeller 24 and the strong magnetic roller 23 through the baffle 26, at this time, the motor case 20 controls the counterclockwise rotation of the strong magnetic roller 23, meanwhile, because the other end of the baffle 26 is close to the strong magnetic impeller 24 along the depth but not in contact with the strong magnetic impeller 24, the water flow can flow downwards through the gap between the baffle 26 and the strong magnetic impeller 24 and finally is discharged through the leakage opening 27, the oxide skin is captured and adsorbed by the strong magnetic impeller 24 and the strong magnetic roller 23 when passing through the vicinity of the strong magnetic impeller 24 and the strong magnetic roller 23, then, when the strong magnetic impeller 24 and the strong magnetic roller 23 rotates to the position of the scraping blade, the scraping sheet can scrape the oxidized leather scraps, then workers can manually clean the oxidized leather scraps, and the parts of the strong magnetic adsorption filter box 19 can be fixedly connected through common bolts, so that the integral device is convenient to assemble and disassemble.

The working principle is as follows: the device is arranged in a process line as a whole, the arrangement positions of all components of the device can be determined according to the field requirement and the working environment, when the device works, some forged pieces needing dephosphorization are placed at the end part of the downslide track, because the height difference exists between the end part of the downslide track and the other end, the forged pieces can slide down on the falling body of the downslide track, when the forged pieces pass through the dephosphorization box, a high-pressure rotating nozzle in the dephosphorization box can scour the forged pieces to enable oxides to fall off, a pressure sensing plate acts on the top of the downslide track, because a sub-sensitive element is arranged in the pressure sensing plate, when the sub-sensitive element of the pressure sensing plate senses the pressure change, the pressure change information can be transmitted to a computer control system, and then the computer control system can drive the dephosphorization frequency conversion or the servo motor to work, and then flushing the forged piece, wherein under the condition that the lower sliding rail is not provided with the forged piece, the computer control system can control the dephosphorization frequency conversion or the servo motor to be closed, so that the device can automatically complete the working process of standby starting, meanwhile, each electrical equipment in the device can be connected with the computer control system, then information can be transmitted to the computer control system and displayed by a touch screen operation panel of the computer control system, when the device meets some emergency conditions, an instruction can be input through the touch screen operation panel, the power supply of the dephosphorization frequency conversion or the servo motor is closed, the work is stopped, and the forged piece after dephosphorization slides down to a specified position and then is obtained by a manipulator or a manual movement device.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides an energy-concerving and environment-protective type phosphorus removal device of superhigh pressure based on steelmaking, forging, includes glide track (1), header tank (5), bed frame (6), water tank (7), dephosphorization frequency conversion or servo motor (8), high-pressure plunger dephosphorization pump (10) and accessory equipment, its characterized in that: the phosphorus removal device is characterized by further comprising a pressure sensing plate (18), a computer control system, a phosphorus removal box (4), a high-pressure rotary sprayer (14) and a flushing cavity (15), wherein a pressure-sensitive element is arranged inside the pressure sensing plate (18), the base frame (6) comprises two parts, the heights of the two parts of the base frame (6) are different, namely, one side of the base frame (6) is higher than the other side of the base frame, the downslide track (1) is transversely fixed on the base frame (6), one end of the downslide track (1) is fixed on the higher side of the base frame (6), the other end of the downslide track (1) is fixed on the lower side of the base frame (6), one side of the base frame (6) is provided with a motor base (9) and a high-pressure plunger phosphorus removal pump base (11) arranged at the bottom of the motor base (9), and phosphorus removal frequency conversion or servo motors (8) are arranged, the high-pressure plunger phosphorus removal pump (10) is arranged on the high-pressure plunger phosphorus removal pump seat (11), the phosphorus removal frequency conversion or servo motor (8) is connected with the high-pressure plunger phosphorus removal pump (10), the computer control system comprises a computer control device (2) and a touch screen operation panel (3), the pressure sensing plate (18) is arranged at the top of the lower sliding rail (1), two communicated first openings (12) are arranged on the side edge of the phosphorus removal tank (4), the flushing cavity (15) is a cylindrical cavity, the inner diameter of the flushing cavity is larger than the maximum width of the lower sliding rail (1), the bottom side of the lower sliding rail (1) is tightly and fixedly connected with the flushing cavity (15), the lower sliding rail (1) is tightly and fixedly connected with the liquid collection tank (5) through the first openings (12), and one side of the liquid collection tank (5) is provided with a strong magnetic adsorption filter tank (19), the water tank (7) is arranged at the bottom of the strong magnetic adsorption filter tank (19), the opening (16) is formed in the outer side face of the flushing cavity (15), a window (17) is formed in the top of the phosphorus removal tank (4), the bottom of the phosphorus removal tank (4) is open, the liquid collection tank (5) is arranged at the bottom side of the phosphorus removal tank (4), the accessory equipment comprises an electromagnetic valve, a high-pressure phosphorus removal water pipe, a common water pipe, a safety valve, a pressure transmitter and the like, the high-pressure rotary spray head (14) is opposite to the opening (16) and the phosphorus removal frequency conversion or servo motor (8) and the pressure induction plate (18) are electrically connected with the computer control system.

2. The ultrahigh pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces of claim 1, which is characterized in that: wash chamber (15) outside fixed connection shower nozzle support (13), high pressure rotatory nozzle (14) bottom with shower nozzle support (13) fixed connection, high pressure rotatory nozzle (14) with the quantity of shower nozzle support (13) is a plurality of.

3. The ultrahigh pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces of claim 1, which is characterized in that: the number of the second openings (16) is multiple, and the second openings (16) are not on the same axis.

4. The ultrahigh pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces of claim 1, which is characterized in that: the number of the phosphorus removal variable frequency or servo motor (8) and the number of the high-pressure plunger phosphorus removal pump (10) are three.

5. The ultrahigh pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces of claim 1, which is characterized in that: the liquid collecting box (5) is connected with the strong magnetic adsorption filter box (19).

6. The ultrahigh pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces of claim 1, which is characterized in that: one side of the dephosphorization box (4) is tightly attached to the inner side of the liquid collection box (5).

7. The ultrahigh pressure energy-saving environment-friendly dephosphorization device based on steel making and forging pieces of claim 1, which is characterized in that: the strong magnetic adsorption filter box (19) comprises a motor case (20), a scraping blade (21), a liquid inlet pipe (22), a strong magnetic roller (23), a strong magnetic impeller (24), a cover plate (25) and a leakage opening (27), wherein the strong magnetic roller (23) penetrates through the strong magnetic adsorption filter box (19), one end of the strong magnetic roller is movably connected with the strong magnetic adsorption filter box (19), the other end of the strong magnetic roller is connected with a transmission shaft bearing of the motor case (20), the outer side of the strong magnetic roller (23) is fixedly connected with a plurality of strong magnetic impellers (24), the scraping blade (21) is close to one side of the strong magnetic impeller (24) and is provided with rectangular scraping grooves, the number of the rectangular scraping grooves is equal to that of the strong magnetic impeller (24), the scraping grooves are attached to the strong magnetic impeller (24), the cover plate (25) is arranged at the top of the strong magnetic adsorption filter box (19) and is positioned at one side of the strong magnetic impeller (, an appropriate gap is reserved between the strong magnetic impeller (24) and the cover plate (25), a baffle (26) is arranged on the bottom side of the cover plate (25), one end of the baffle (26) is fixedly connected with the inner side of the strong magnetic adsorption filter box (19), the other end of the baffle (26) is close to the strong magnetic impeller (24) along the depth but does not contact with the strong magnetic impeller (24), and a leakage opening (27) is formed in the bottom of the strong magnetic adsorption filter box (19).

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