CN109127692B

CN109127692B - Can be to filterable soil prosthetic devices of metallic element

Info

Publication number: CN109127692B
Application number: CN201811031613.6A
Authority: CN
Inventors: 曹荣翠
Original assignee: Rizhao Shengheng Environmental Protection Technology Co Ltd
Current assignee: Rizhao Shengheng Environmental Protection Technology Co., Ltd
Priority date: 2018-09-05
Filing date: 2018-09-05
Publication date: 2020-11-20
Anticipated expiration: 2038-09-05
Also published as: CN109127692A

Abstract

The invention relates to a soil remediation device capable of filtering metal elements, which comprises a bottom plate, a box body, an electromagnetic sorting mechanism and a conveying mechanism, wherein the box body is arranged on the bottom plate, the box body is of a top opening structure, conveying grooves are formed in the left end and the right end of the lower side of the box body, the electromagnetic sorting mechanism is arranged on the box body, the number of the electromagnetic sorting mechanism is two, the electromagnetic sorting mechanism is symmetrically arranged on the box body, the conveying mechanism is arranged on the bottom plate, the conveying mechanism is arranged in the conveying grooves, polluted soil is rolled and crushed by original equipment, the electromagnetic sorting mechanism adsorbs heavy metals in the crushed soil, the purpose of separating the heavy metals from the soil is achieved, the problems that manual operation extraction is time-consuming and labor-consuming and the efficiency is low are solved, in addition, the heavy metals have a great amount of personal harm to workers, the metal, the collected metal elements contain a large amount of soil and impurities.

Description

Can be to filterable soil prosthetic devices of metallic element

Technical Field

The invention relates to the field of soil remediation equipment, in particular to a soil remediation device capable of filtering metal elements.

Technical Field

Along with the development of society and economy, people have higher and higher requirements on the environment, and relevant laws, regulations and regulations related to heavy metal contaminated soil remediation are provided, heavy metal contaminated soil contains a large amount of recyclable metals and needs to be separated from the soil, manual operation extraction is time-consuming and labor-consuming, the efficiency is low, in addition, the heavy metals have a large amount of personal harm to workers, at present, domestic and foreign soil remediation methods mainly comprise a physical remediation method, a chemical remediation method and a physical remediation method, but the chemical remediation method and the physical remediation method have the defects of high cost, inexhaustibility, long period, large environmental condition influence and the like, while the metal elements are not easy to be separated from the soil during the existing physical remediation separation, the efficiency is low, and the collected metal elements contain a large amount of soil and impurities and the like.

Disclosure of Invention

In order to solve the problems, the invention provides a soil remediation device capable of filtering metal elements, which can solve the problems that manual extraction is time-consuming and labor-consuming, in addition, the efficiency is low, in addition, because heavy metals have a great deal of personal harm to workers, the chemical restoration method and the physical restoration method have the defects of high cost, incomplete treatment, long period, great influence on environmental conditions and the like, the invention can realize the function of efficiently separating and collecting the soil and the metal elements, is convenient to operate, saves time and labor, improves the working efficiency, reduces the labor intensity and the harm of workers, adopts efficient electromagnetic adsorption to separate the metal elements from the metal elements, has less impurities in the collected metal elements, is beneficial to post-treatment and the like.

In order to achieve the purpose, the invention adopts the following technical scheme to realize the purpose: the utility model provides a can be to filterable soil prosthetic devices of metallic element, including bottom plate, box, electromagnetism sorting mechanism and conveying mechanism, install the box on the bottom plate, the box is open-top structure, open at both ends about the box downside has the conveyer trough, install electromagnetism sorting mechanism on the box, electromagnetism sorting mechanism quantity is two, and the symmetry is installed on the box, install conveying mechanism on the bottom plate, conveying mechanism installs in the conveyer trough, the soil of pollution is smashed through rolling of former equipment, electromagnetism sorting mechanism adsorbs heavy metal in the soil after smashing, reach the purpose of heavy metal and soil separation, and convenient for operation, time saving and labor saving have improved work efficiency, and staff's intensity of labour has been reduced.

The electromagnetic sorting mechanism comprises a sorting driving motor, a sorting branched chain, a sorting driving gear and a sorting driven gear, wherein the sorting driving motor is installed on the box body through a motor base, an output shaft of the sorting driving motor is connected with the sorting branched chain through a coupler, the sorting driving gear is installed on the output shaft of the sorting driving motor, the sorting driven gear is installed on the sorting driving gear in a gear meshing mode, and the sorting branched chain is installed on the sorting driven gear; the sorting branched chain comprises a sorting rotating roller, a sorting cylinder, a sorting push rod, a sorting telescopic rod, a bidirectional cylinder, an electromagnetic rod, a sorting limit rod and a sorting electric slide block, one end of the sorting rotating roller is connected with an output shaft of a sorting driving motor through a coupler, the other end of the sorting rotating roller is installed on a box body through a bearing, the sorting rotating roller is of a cylindrical cavity structure, sorting holes are uniformly formed in the sorting rotating roller, a discharge chute is formed in the sorting rotating roller, the sorting cylinder is installed on the inner wall of the left end of the sorting rotating roller, the sorting push rod is installed on the top end of the sorting cylinder through a flange and is connected with the sorting telescopic rod through a pin shaft, the sorting telescopic rod is installed on the inner wall of the sorting rotating roller through a pin shaft, installation holes are uniformly formed in the sorting push rod, the bidirectional cylinder is installed in the installation holes, the, one end of the electromagnetic rod is arranged on the sorting push rod through a pin shaft, the other end of the electromagnetic rod is positioned in the sorting hole, sorting limit rods are symmetrically arranged on the side walls of the left end and the right end of the sorting rotating roller, and sorting electric sliding blocks are arranged on the sorting limit rods; the separation roller is characterized in that separation fixed plates are uniformly arranged on the inner wall of the separation roller, separation cylinders are arranged on the separation fixed plates, separation sliding plates are arranged on the top ends of the separation cylinders and are arranged on the inner wall of the separation roller in a sliding fit mode, the separation sliding plates are located at the left ends of the separation holes, and the width of each separation sliding plate is larger than the diameter of each separation hole; the sorting roller is characterized in that a discharging fixed plate is installed on the outer wall of the sorting roller, a discharging air cylinder is installed on the discharging fixed plate, a discharging sliding plate is installed on the top end of the discharging air cylinder, the discharging sliding plate is installed on the outer wall of the sorting roller in a sliding fit mode, the discharging sliding plate is located at the right end of a discharging groove, and the width of the discharging sliding plate is larger than that of the discharging groove; the diameter of the electromagnetic rod is smaller than that of the sorting hole; the separation driving motor drives the separation roller mounted on the output shaft to rotate, the separation roller on the separation driven gear is driven to rotate in a gear meshing mode, the separation cylinder drives the electromagnetic rod on the separation push rod to transversely move through controlling extension and retraction, the bidirectional cylinder drives the electromagnetic rod to longitudinally move, the electromagnetic rod is made of a high-permeability non-gold alloy material with strong adsorption force, when the separation device works, the electromagnetic rod extends out of the separation roller through the separation hole under the control of the separation cylinder and the bidirectional cylinder, the electromagnetic rod rotates under the drive of the separation roller and adsorbs metal elements, after adsorption is completed, the electromagnetic rod returns to the separation roller under the control of the separation cylinder and the bidirectional cylinder, the separation sliding plate moves to a specified position under the drive of the separation cylinder, the purpose of closing the separation hole is achieved, the electromagnetic rod is powered off, the separation roller rotates, and the metal elements adsorbed on the electromagnetic rod are separated, sorting electric slider is like the scraper blade, collects the blown down tank position with the metallic element who breaks away from, and ejection of compact sliding plate removes the assigned position under ejection of compact cylinder's drive, opens the blown down tank, and metallic element takes out through the blown down tank, reaches the purpose of separating from soil, collecting metallic element, and impurity is few in the metallic element of collection, is favorable to the post processing.

Conveying mechanism includes the carriage, carry driving motor, carry and change roller and conveyer belt, the carriage symmetry is installed on the both ends of controlling of bottom plate, install through the motor cabinet on the carriage and carry driving motor, carry to be connected with carrying roller one end through the shaft coupling on driving motor's the output shaft, carry the other end that changes the roller to pass through the bearing and install on the carriage, the transport that is located the bottom plate left end changes the roller and is located and passes through the conveyer belt connection between the roller of conveying of bottom plate right-hand member, the conveyer belt is located the conveyer trough, soil after the processing falls on the conveyer belt, carry driving motor and drive the conveyer belt through carrying the roller and remove, remove soil to the assigned position, high durability and convenient operation, time saving and labor saving, and the work efficiency is improved, and the labor intensity of staff is reduced.

When the separation device works, polluted soil is rolled and crushed by original equipment, a separation driving motor drives a separation roller arranged on an output shaft to rotate, the separation roller on a separation driven gear is driven to rotate in a gear meshing mode, a separation cylinder drives an electromagnetic rod on a separation push rod to transversely move through control of stretching and retracting, a bidirectional cylinder drives the electromagnetic rod to longitudinally move, the electromagnetic rod is made of a high-magnetic-permeability non-gold alloy material with strong adsorption force, the electromagnetic rod extends out of the separation roller through a separation hole through the control of the separation cylinder and the bidirectional cylinder when the separation device starts to work, the electromagnetic rod rotates under the drive of the separation roller and adsorbs metal elements, after adsorption is completed, the electromagnetic rod returns to the separation roller under the control of the separation cylinder and the bidirectional cylinder, meanwhile, a separation sliding plate moves to a designated position under the drive of the separation cylinder, the purpose of closing the separation hole is achieved, the electromagnetic rod is powered off, the separation roller rotates to separate the metal elements adsorbed on the electromagnetic bar, the separation electric slide block is like a scraper blade to collect the separated metal elements to the position of the discharge chute, the discharge slide plate moves to a designated position under the drive of the discharge cylinder, the discharge chute is opened, the metal elements are taken out through the discharge chute, the purpose of separating and collecting the metal elements from the soil is achieved, the treated soil falls on the conveying belt, the conveying driving motor drives the conveying belt to move through the conveying roller to convey the soil to the designated position, the operation is convenient, the time and the labor are saved, the working efficiency is improved, the labor intensity and the harm of workers are reduced, high-efficiency electromagnetic adsorption is adopted to separate the metal elements from the soil, fewer impurities are contained in the collected metal elements, the later-stage treatment is facilitated, the function of efficiently separating and collecting the soil and the metal elements can be realized, the problems that manual operation and extraction are time and, and the efficiency is lower, in addition, because heavy metal has a large amount of personal harm to the staff, chemical remediation method and physical remediation method have the cost height, thoroughly, the cycle length, environmental condition influence are big etc. not enough, and the metallic element is difficult to separate with soil when current physical separation is restoreed, and is inefficient, and the metallic element who collects contains a large amount of soil and impurity scheduling difficult problem.

The invention has the beneficial effects that:

1. the invention can solve the problems that manual extraction is time-consuming and labor-consuming, the efficiency is low, in addition, heavy metals have a large amount of personal harm to workers, a chemical remediation method and a physical remediation method have the defects of high cost, incomplete process, long period, large influence on environmental conditions and the like, while metal elements are not easy to separate from soil during the existing physical separation and remediation, the efficiency is low, the collected metal elements contain a large amount of soil and impurities and the like.

2. The invention designs an electromagnetic sorting mechanism, a sorting cylinder and a bidirectional cylinder, wherein an electromagnetic rod extends out of a sorting roller through a sorting hole, is driven by the sorting roller to rotate and adsorb metal elements, after adsorption is finished, the electromagnetic rod returns to the sorting roller under the control of the sorting cylinder and the bidirectional cylinder, and meanwhile, a blocking sliding plate is driven by the blocking cylinder to move to a specified position to close the sorting hole, the electromagnetic rod is powered off, the sorting roller rotates to separate the metal elements adsorbed on the electromagnetic rod, so that the metal elements are separated from soil and collected, and the collected metal elements have few impurities and are beneficial to post-treatment.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic cross-sectional view of the electromagnetic sorting mechanism and housing of the present invention;

FIG. 4 is a schematic cross-sectional view taken along line A-A of FIG. 3 in accordance with the present invention;

FIG. 5 is a schematic cross-sectional view of the separation roller, the separation fixing plate, the separation cylinder and the separation sliding plate according to the present invention;

FIG. 6 is a schematic cross-sectional view of the sorting roller, the discharge fixing plate, the discharge cylinder and the discharge sliding plate according to the present invention.

Detailed Description

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 explained below by combining the specific drawings.

As shown in fig. 1 to 6, a can be to filterable soil prosthetic devices of metallic element, including bottom plate 1, box 2, electromagnetism sorting mechanism 5 and conveying mechanism 6, install box 2 on bottom plate 1, box 2 is open-top structure, open at both ends about box 2 downside has the conveyer trough, install electromagnetism sorting mechanism 5 on box 2, electromagnetism sorting mechanism 5 quantity is two, and the symmetry is installed on box 2, install conveying mechanism 6 on bottom plate 1, conveying mechanism 6 installs in the conveyer trough, contaminated soil passes through crushing of former equipment, electromagnetism sorting mechanism 5 adsorbs heavy metal in the soil after the screening, reach the purpose of heavy metal and soil separation, and convenient for operation, labour saving and time saving has improved work efficiency, staff's intensity of labour has been reduced.

The electromagnetic sorting mechanism 5 comprises a sorting driving motor 51, a sorting branched chain 52, a sorting driving gear 53 and a sorting driven gear 54, wherein the sorting driving motor 51 is installed on the box body 2 through a motor base, an output shaft of the sorting driving motor 51 is connected with the sorting branched chain 52 through a coupler, the sorting driving gear 53 is installed on the output shaft of the sorting driving motor 51, the sorting driven gear 54 is installed on the sorting driving gear 53 in a gear meshing mode, and the sorting branched chain 52 is installed on the sorting driven gear 54; the sorting branched chain 52 comprises a sorting rotary roller 521, a sorting cylinder 522, a sorting push rod 523, a sorting telescopic rod 524, a bidirectional cylinder 525, an electromagnetic rod 526, a sorting limit rod 527 and a sorting electric slide block 528, one end of the sorting rotary roller 521 is connected with an output shaft of a sorting driving motor 51 through a coupler, the other end of the sorting rotary roller 521 is installed on the box body 2 through a bearing, the sorting rotary roller 521 is in a cylindrical cavity structure, sorting holes are uniformly formed in the sorting rotary roller 521, a discharge chute is formed in the sorting rotary roller 521, the sorting cylinder 522 is installed on the inner wall of the left end of the sorting rotary roller 521, the sorting push rod 523 is installed on the top end of the sorting cylinder 522 through a flange, the sorting push rod 523 is connected with the sorting telescopic rod 524 through a pin shaft, the sorting telescopic rod 524 is installed on the inner wall of the sorting rotary roller 521 through a pin shaft, mounting holes are uniformly formed in the sorting, the two ends of the bidirectional cylinder 525 are symmetrically provided with electromagnetic rods 526 through pin shafts, one end of each electromagnetic rod 526 is arranged on a sorting push rod 523 through a pin shaft, the other end of each electromagnetic rod 526 is positioned in a sorting hole, the side walls of the left end and the right end of the sorting rotary roller 521 are symmetrically provided with sorting limit rods 527, and the sorting limit rods 527 are provided with sorting electric sliding blocks 528; the separation and fixing plates 551 are uniformly arranged on the inner walls of the separation and rotation rollers 521, the separation and fixing plates 551 are provided with separation and fixing cylinders 552, the top ends of the separation and fixing cylinders 552 are provided with separation and sliding plates 553, the separation and sliding plates 553 are arranged on the inner walls of the separation and rotation rollers 521 in a sliding fit mode, the separation and sliding plates 553 are positioned at the left ends of the separation holes, and the width of the separation and sliding plates 553 is larger than the diameter of the separation holes; a discharge fixed plate 561 is installed on the outer wall of the sorting rotary roller 521, a discharge cylinder 562 is installed on the discharge fixed plate 561, a discharge sliding plate 563 is installed on the top end of the discharge cylinder 562, the discharge sliding plate 563 is installed on the outer wall of the sorting rotary roller 521 in a sliding fit manner, the discharge sliding plate 563 is located at the right end of a discharge chute, and the width of the discharge sliding plate 563 is greater than that of the discharge chute; the diameter of the electromagnetic rod 526 is smaller than that of the sorting hole; the separation driving motor 51 drives the separation roller 521 mounted on the output shaft to rotate, the separation roller 521 on the separation driven gear 54 is driven to rotate in a gear meshing mode, the separation cylinder 522 drives the electromagnetic rod 526 on the separation push rod 523 to transversely move through controlling expansion and contraction, the bidirectional cylinder 525 drives the electromagnetic rod 526 to longitudinally move, the electromagnetic rod 526 is made of a high-permeability non-gold alloy material with strong adsorption force, when the separation driving device works, the electromagnetic rod 526 extends out of the separation roller 521 through a separation hole through the control of the separation cylinder 522 and the bidirectional cylinder 525, the separation roller 521 rotates under the drive of the separation roller 521 and adsorbs metal elements, after adsorption is completed, the electromagnetic rod 526 returns to the separation roller 521 under the control of the separation cylinder 522 and the bidirectional cylinder 525, meanwhile, the separation sliding plate is prevented from moving to a specified position under the drive of the separation cylinder 553, the purpose of closing the separation hole is achieved, and the electromagnetic rod 526 is powered off, select separately and change roller 521 and rotate, make the metallic element that adsorbs on electromagnetic rod 526 break away from, select separately electronic slider 528 like the scraper blade, collect the blown down tank position with the metallic element who breaks away from, ejection of compact sliding plate 563 moves assigned position under ejection of compact cylinder 562's drive, open the blown down tank, the metallic element takes out through the blown down tank, reaches the purpose of separation in the soil, collection metallic element, impurity is few among the metallic element of collection, is favorable to post processing.

Conveying mechanism 6 includes carriage 61, carry driving motor 62, carry and change roller 63 and conveyer belt 64, carriage 61 symmetry is installed on bottom plate 1's left and right sides both ends, install through the motor cabinet on carriage 61 and carry driving motor 62, carry to be connected with carrying roller 63 one end through the shaft coupling on driving motor 62's the output shaft, carry to change the other end of roller 63 and pass through the bearing and install on carriage 61, be located and carry that the roller 63 of 1 left end of bottom plate and be located and connect through conveyer belt 64 between the roller 63 of carrying of 1 right-hand member of bottom plate, conveyer belt 64 is located the conveyer trough, the soil after the processing falls on conveyer belt 64, carry driving motor 62 to drive conveyer belt 64 through carrying roller 63 and remove, move soil to the assigned position, and convenient for operation, time and labor saving, and high working efficiency, and labor intensity of staff is reduced.

When the device works, polluted soil is rolled and crushed by the original equipment, the sorting driving motor 51 drives the sorting rotating roller 521 arranged on the output shaft to rotate, the sorting rotating roller 521 on the sorting driven gear 54 is driven to rotate in a gear meshing mode, the sorting cylinder 522 drives the electromagnetic rod 526 on the sorting push rod 523 to transversely move through controlling stretching, the bidirectional cylinder 525 drives the electromagnetic rod 526 to longitudinally move, the electromagnetic rod 526 adopts a high-permeability non-gold alloy material with strong adsorption force, when the device starts to work, the electromagnetic rod 526 extends out of the sorting rotating roller 521 through the sorting hole under the control of the sorting cylinder 522 and the bidirectional cylinder 525, the electromagnetic rod 526 rotates under the drive of the sorting rotating roller 521 and adsorbs metal elements, after adsorption is completed, the electromagnetic rod 526 returns to the sorting rotating roller 521 under the control of the sorting cylinder 522 and the bidirectional cylinder 525, and the blocking sliding plate 553 moves to a designated position under the drive of the blocking cylinder 552 at the same time, the purpose of closing the sorting hole is achieved, the electromagnetic rod 526 is powered off, the sorting rotary roller 521 rotates to enable the metal elements adsorbed on the electromagnetic rod 526 to be separated, the sorting electric slide block 528 collects the separated metal elements to the position of the discharge chute like a scraper, the discharge slide plate 563 is driven by the discharge air cylinder 562 to move to a designated position, the discharge chute is opened, the metal elements are taken out through the discharge chute to achieve the purpose of separating and collecting the metal elements from the soil, the treated soil falls on the conveyer belt 64, the conveyer driving motor 62 drives the conveyer belt 64 to move through the conveyer rotary roller 63 to convey the soil to the designated position, the operation is convenient, time and labor are saved, the working efficiency is improved, the labor intensity and harm of workers are reduced, efficient electromagnetic adsorption is adopted to separate the metal elements, impurities in the collected metal elements are few, post-processing is facilitated, and the function of efficiently separating and collecting the soil and the metal elements can be achieved, the problem of manual operation extract not only waste time and energy, efficiency is lower moreover, in addition because heavy metal has a large amount of personal harm to the staff, chemical remediation method and physical remediation method have with high costs, not thorough, cycle length, environmental condition influence greatly etc. not enough, and metal element is difficult to separate with soil when current physical separation is restoreed, and is inefficient, and the metal element of collection contains difficult problems such as a large amount of soil and impurity, has reached the purpose.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a can be to filterable soil prosthetic devices of metallic element, includes bottom plate (1), box (2), electromagnetism sorting mechanism (5) and conveying mechanism (6), its characterized in that: install box (2) on bottom plate (1), box (2) are open-top structure, and both ends are opened there is the conveyer trough about box (2) downside, installs electromagnetism sorting mechanism (5) on box (2), and electromagnetism sorting mechanism (5) quantity is two, and the symmetry is installed on box (2), installs conveying mechanism (6) on bottom plate (1), and conveying mechanism (6) are installed in the conveyer trough, wherein:

the electromagnetic sorting mechanism (5) comprises a sorting driving motor (51), a sorting branched chain (52), a sorting driving gear (53) and a sorting driven gear (54), wherein the sorting driving motor (51) is installed on the box body (2) through a motor base, an output shaft of the sorting driving motor (51) is connected with the sorting branched chain (52) through a coupler, the sorting driving gear (53) is installed on the output shaft of the sorting driving motor (51), the sorting driven gear (54) is installed on the sorting driving gear (53) in a gear meshing mode, and the sorting branched chain (52) is installed on the sorting driven gear (54);

the sorting branched chain (52) comprises a sorting rotating roller (521), a sorting cylinder (522), a sorting push rod (523), a sorting telescopic rod (524), a bidirectional cylinder (525), an electromagnetic rod (526), a sorting limiting rod (527) and a sorting electric slider (528), one end of the sorting rotating roller (521) is connected with an output shaft of a sorting driving motor (51) through a coupler, the other end of the sorting rotating roller (521) is installed on the box body (2) through a bearing, the sorting rotating roller (521) is of a cylindrical cavity structure, sorting holes are uniformly formed in the sorting rotating roller (521), discharge chutes are formed in the sorting rotating roller (521), the sorting cylinder (522) is installed on the inner wall of the left end of the sorting rotating roller (521), the sorting push rod (523) is installed on the top end of the sorting cylinder (522) through a flange, the sorting push rod (523) is connected with the sorting telescopic rod (524) through a pin shaft, the sorting telescopic rod (524) is installed on the inner wall of the sorting rotating roller (521, the sorting device is characterized in that mounting holes are uniformly formed in the sorting push rod (523), a bidirectional cylinder (525) is mounted in each mounting hole, electromagnetic rods (526) are symmetrically mounted at two ends of each bidirectional cylinder (525) through pin shafts, one end of each electromagnetic rod (526) is mounted on the sorting push rod (523) through a pin shaft, the other end of each electromagnetic rod (526) is located in each sorting hole, sorting limit rods (527) are symmetrically mounted on the side walls of the left end and the right end of the sorting rotating roller (521), and sorting electric sliding blocks (528) are mounted on the sorting limit rods (527);

the separation roller is characterized in that separation fixing plates (551) are uniformly arranged on the inner wall of the separation roller (521), separation cylinders (552) are arranged on the separation fixing plates (551), separation sliding plates (553) are arranged on the top ends of the separation cylinders (552), the separation sliding plates (553) are arranged on the inner wall of the separation roller (521) in a sliding fit mode, and the separation sliding plates (553) are located at the left ends of the separation holes;

a discharge fixing plate (561) is mounted on the outer wall of the sorting rotating roller (521), a discharge cylinder (562) is mounted on the discharge fixing plate (561), a discharge sliding plate (563) is mounted on the top end of the discharge cylinder (562), the discharge sliding plate (563) is mounted on the outer wall of the sorting rotating roller (521) in a sliding fit mode, and the discharge sliding plate (563) is located at the right end of a discharge chute;

conveying mechanism (6) include carriage (61), carry driving motor (62), carry and change roller (63) and conveyer belt (64), carriage (61) symmetry is installed on the both ends of controlling of bottom plate (1), install through the motor cabinet on carriage (61) and carry driving motor (62), carry on the output shaft of driving motor (62) to be connected with carrying roller (63) one end through the shaft coupling, carry the other end of changeing roller (63) to pass through the bearing and install on carriage (61), be located the transport of bottom plate (1) left end and be located and change between roller (63) and install conveyer belt (64) through the roll mode between roller (63) of carrying of bottom plate (1) right-hand member, conveyer belt (64) are located the conveyer trough.

2. A soil remediation device for filtering elemental metal according to claim 1 further comprising: the diameter of the electromagnetic rod (526) is smaller than the diameter of the sorting hole.

3. A soil remediation device for filtering elemental metal according to claim 1 further comprising: the width of the blocking slide plate (553) is greater than the diameter of the sorting orifice.

4. A soil remediation device for filtering elemental metal according to claim 1 further comprising: the width of the discharging sliding plate (563) is larger than that of the discharging groove.

5. A soil remediation device for filtering elemental metal according to claim 1 further comprising: the electromagnetic rod (526) is made of a high-permeability non-alloy material.