CN112844606A

CN112844606A - Magnetic separator for mine field

Info

Publication number: CN112844606A
Application number: CN202011569861.3A
Authority: CN
Inventors: 焦守山
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-26
Filing date: 2020-12-26
Publication date: 2021-05-28

Abstract

The invention relates to a magnetic separator, in particular to a magnetic separator in a mine field. The mining field magnetic separator comprises a support body mechanism, a magnetic separation mechanism, a grinding mechanism, a spraying mechanism, a transmission mechanism, a derivation mechanism and a transmission mechanism, wherein the magnetic separation mechanism is connected to the left end of the support body mechanism, the grinding mechanism is connected to the middle of the support body mechanism, the spraying mechanism is connected to the left end of the support body mechanism, the transmission mechanism is connected to the lower end of the left end of the support body mechanism, the derivation mechanism is connected to the transmission mechanism, and the transmission mechanism is connected to the left end of the support body mechanism.

Description

Magnetic separator for mine field

Technical Field

The invention relates to a magnetic separator, in particular to a magnetic separator in a mine field.

Background

For example, the publication number CN201910973837.7 discloses a magnetic separator for raw ores, which relates to a magnetic separator, in particular to a magnetic separator for raw ores. The technical problem to be solved is as follows: the magnetic separator for the raw ore can prevent the raw ore from being continuously accumulated on the dry magnetic roller, further improve the ore dressing efficiency, and can adjust the blanking amount of the raw ore according to the proportion of magnetite, pyrrhotite, ilmenite and the like in the raw ore. The technical scheme is as follows: a magnetic separator for raw ore comprises a base, a first bracket and the like; a first support is arranged on the left of the top of the base. According to the invention, through the continuous rotation of the dry magnetic roller, magnetite, pyrrhotite, ilmenite and the like in the raw ore can be adsorbed by the dry magnetic roller, the non-adsorbed ore can be discharged through the second collecting hopper, the ore adsorbed by the dry magnetic roller can be scraped off through the scraper and then discharged through the first collecting hopper, and the raw ore can be prevented from being continuously accumulated on the dry magnetic roller through the material pushing device, so that the ore dressing efficiency can be improved. But the metal impurities contained in the minerals dug out from the composite ore can not be ground before magnetic separation, so that the magnetic separation quality can be improved during magnetic separation.

Disclosure of Invention

The invention aims to provide a magnetic separator for a mine field, which can grind metal impurities contained in minerals dug out from composite ores before magnetic separation, and can improve the quality of magnetic separation during magnetic separation.

The purpose of the invention is realized by the following technical scheme:

the utility model provides a mine field magnet separator, includes support body mechanism, magnetic separation mechanism, grinding mechanism, spraying mechanism, drive mechanism, derivation mechanism and transport mechanism, magnetic separation mechanism connects the left end at support body mechanism, and grinding mechanism connects the middle part at support body mechanism, and spraying mechanism connects the left end of support body mechanism, and drive mechanism connects the lower extreme at support body mechanism left end, and derivation mechanism connects on drive mechanism, and transport mechanism connects the left end at support body mechanism.

The frame body mechanism comprises a frame, a belt conveyor, an upper convex seat, two bottom convex seats, two discharging frames and side convex seats, wherein the belt conveyor is arranged at the right end of the frame, the front end and the rear end of the upper end of the middle part of the frame are fixedly connected with the upper convex seat respectively, the two bottom convex seats are fixedly connected with the left end and the right end of the rear end of the left side of the frame respectively, the discharging frames are fixedly connected with the left end of the frame, and the front end and the rear end of the left end of the frame are fixedly connected with the side convex seats respectively.

Magnetic separation mechanism includes motor I, mobile jib, band pulley, disc, belt I, auxiliary rod and magnetic separation wheel, and the output shaft of motor I passes through shaft coupling and mobile jib rigid coupling, and the band pulley rigid coupling is at the rear end of mobile jib, and the disc rigid coupling is at the rear end of auxiliary rod, and the band pulley passes through I transmission of belt with the disc to be connected, and the magnetic separation wheel rigid coupling is at the front end of auxiliary rod, and I rigid coupling of motor is at the lower extreme at the framework middle part, and both ends rotate respectively around the auxiliary rod and connect both ends around the framework left end.

Grind mechanism includes motor II, the rotary rod, the grinding miller, concave type frame, electric putter I and spacing, shaft coupling and rotary rod rigid coupling are passed through to the output shaft of motor II, the grinding miller rigid coupling is at the middle part of rotary rod, both ends are rotated respectively around the rotary rod and are connected a concave type frame, electric putter I is provided with two, the expansion end of electric putter I of the equal rigid coupling in upper end of every concave type frame, spacing frame of the equal rigid coupling in upper end of every concave type frame, the rigid coupling is on the last convex seat at both ends around being located respectively for the stiff end of two electric putter I, both ends are sliding connection respectively at both ends around framework middle part around the rotary rod, both ends around the inboard difference sliding connection framework middle part upside of two spacing frames.

Spraying mechanism includes the water tank, is responsible for, violently manages and the nozzle stub, and the lower extreme of being responsible for is fixed and communicates in the upper end of water tank, and the right-hand member of being responsible for the upper end is fixed and communicates at the left end of violently managing the middle part, and the nozzle stub is provided with a plurality ofly, and a plurality of nozzle stubs are fixed respectively in proper order and communicate at the right-hand member of violently managing, and both ends rotate respectively around violently managing and connect on two side convex seats, and the water tank.

Drive mechanism includes motor III, lead screw, belt II and meshing frame, and the lead screw is provided with two, and two lead screws rotate respectively and connect on two base bosses, and motor III's output shaft passes through the shaft coupling and the lead screw rigid coupling that is located the right-hand member, and two lead screws pass through II transmissions of belt and connect, and threaded connection is on two lead screws respectively at both ends about meshing frame, and motor III rigid couplings are on the base boss that is located the right-hand member.

The guiding mechanism comprises a material pushing frame, two electric push rods II, a motor IV and two cleaning rods, the movable ends of the two electric push rods II are fixedly connected to the left end and the right end of the rear end of the material pushing frame respectively, the motor IV is fixedly connected to the middle of the rear end of the material pushing frame, the cleaning rods are rotatably connected to the front end and the rear end of the middle of the material pushing frame, an output shaft of the motor IV is fixedly connected with the cleaning rods through a coupler, and the fixed ends of the two electric push rods II are fixedly connected to the left end and the right end of the upper end of the meshing.

Transport mechanism includes motor V, dwang and drive belt, and the dwang is provided with two, and two dwangs rotate respectively and connect both ends around the framework left end, and two dwangs pass through drive belt transmission and connect, and motor V's output shaft passes through the shaft coupling and is located the dwang rigid coupling of front end.

The frame body mechanism further comprises a discharging belt, and the discharging belt is arranged at the front end of the left end of the frame.

The guiding mechanism further comprises a plurality of sweeping blades, and the sweeping blades are sequentially fixedly connected to the cleaning rod.

The mine field magnetic separator has the beneficial effects that:

the mine field magnetic separator can grind metal impurities contained in the mined minerals of the composite ores before magnetic separation, further facilitates the improvement of the quality of magnetic separation during magnetic separation, improves the efficiency of magnetic separation work, and the grinding mechanism grinds the minerals to be subjected to magnetic separation so that the minerals can more easily magnetically separate the metal substances during magnetic separation, thereby improving the overall efficiency of magnetic separation.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall structure of a magnetic separator in a mine field according to the invention;

FIG. 2 is a partial schematic view of the first embodiment of the present invention;

FIG. 3 is a second partial schematic structural view of the present invention;

FIG. 4 is a third schematic view of a portion of the present invention;

FIG. 5 is a fourth schematic view of a portion of the present invention;

FIG. 6 is a schematic diagram of a portion of the present invention;

FIG. 7 is a schematic diagram six of a portion of the present invention;

FIG. 8 is a seventh schematic view of a portion of the present invention;

FIG. 9 is a partial schematic view eight of the present invention;

FIG. 10 is a partial schematic illustration nine of the present invention;

fig. 11 is a partial schematic structural diagram of the present invention.

In the figure: a frame body mechanism 1; an architecture 101; a belt conveyor 102; an upper boss 103; a bottom boss 104; a discharge frame 105; a side boss 106; a discharge belt 107; a magnetic separation mechanism 2; a motor I201; a main pole 202; a pulley 203; a disk 204; a belt I205; the sub-rod 206; a magnetic separation wheel 207; a grinding mechanism 3; a motor II 301; a rotating rod 302; a grinding wheel 303; a female frame 304; an electric push rod I305; a spacing frame 306; a spraying mechanism 4; a water tank 401; a master pipe 402; cross tube 403; a short tube 404; a transmission mechanism 5; a motor III 501; a lead screw 502; a belt II 503; an engagement frame 504; a lead-out mechanism 6; a material pushing frame 601; an electric push rod II 602; a motor IV 603; a cleaning rod 604; sweeping the leaves 605; a transfer mechanism 7; a motor V701; turning the rod 702; a belt 703.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

as shown in fig. 1-11, a mine field magnet separator, includes support body mechanism 1, magnetic separation mechanism 2, grinding mechanism 3, spraying mechanism 4, drive mechanism 5, derivation mechanism 6 and transport mechanism 7, its characterized in that: magnetic separation mechanism 2 is connected at the left end of support body mechanism 1, and grinding mechanism 3 is connected at the middle part of support body mechanism 1, and spraying mechanism 4 connects the left end of support body mechanism 1, and drive mechanism 5 is connected at the lower extreme of 1 left end of support body mechanism, and derivation mechanism 6 is connected on drive mechanism 5, and transport mechanism 7 is connected at the left end of support body mechanism 1.

The mine field magnetic separator can grind the metal impurities contained in the mined minerals of the composite ores before magnetic separation, so that the quality of the magnetic separation can be further improved during the magnetic separation, the efficiency of the magnetic separation work is improved, the grinding mechanism 3 grinds the minerals to be magnetically separated, the minerals can be more easily magnetically separated from the metal substances during the magnetic separation, and the overall efficiency of the magnetic separation is improved.

The second embodiment is as follows:

as shown in fig. 1-11, a magnetic separator for a mine field, where the frame body mechanism 1 includes a frame 101, a belt conveyor 102, an upper convex base 103, a bottom convex base 104, a discharging frame 105, and side convex bases 106, the belt conveyor 102 is disposed at the right end of the frame 101, the upper convex base 103 is fixedly connected to the front and rear ends of the upper end of the middle portion of the frame 101, the bottom convex bases 104 are two, the two bottom convex bases 104 are fixedly connected to the left and right ends of the rear end of the left side of the frame 101, the discharging frame 105 is fixedly connected to the left end of the frame 101, and the side convex bases 106 are fixedly connected to the front and rear ends of the left end of the. Belt conveyor 102 is the prior art that market can obtain, and the mineral in the composite ore is taken out and wherein can contain iron fillings impurity, and then places this iron fillings impurity and carry out the transportation on belt conveyor 102 and be convenient for follow-up magnetic separation work that carries on, and the inside arc seat that is provided with the magnetic separation meshing of left end of framework 101, and device simple structure is convenient for carry out the magnetic separation in composite ore field and is used.

The third concrete implementation mode:

as shown in fig. 1-11, a magnetic separator for mine, the magnetic separator 2 includes a motor i 201, a main rod 202, a belt pulley 203, a disc 204, a belt i 205, an auxiliary rod 206 and a magnetic separation wheel 207, an output shaft of the motor i 201 is fixedly connected to the main rod 202 through a coupling, the belt pulley 203 is fixedly connected to the rear end of the main rod 202, the disc 204 is fixedly connected to the rear end of the auxiliary rod 206, the belt pulley 203 is connected to the disc 204 through the belt i 205 in a transmission manner, the magnetic separation wheel 207 is fixedly connected to the front end of the auxiliary rod 206, the motor i 201 is fixedly connected to the lower end of the middle portion of the framework 101, and the front end and the rear end of the auxiliary rod 206 are. During the magnetic separation, can drive I201 by driving motor and drive mobile jib 202 rotatoryly, further because the transmission of belt I205, and then it is rotatory to drive disc 204 by the mobile jib 202 rotation, and then disc 204 drives the rotation of magnetic separation wheel 207 on the auxiliary rod 206, and magnetic separation wheel 207 carries out the magnetic separation work, and this magnetic separation wheel 207 has certain clearance with the inside arc seat that is used for the magnetic separation meshing that sets up of the left end of framework 101, reduces the space with the impurity that compound mineral wherein contains and is convenient for carry out the magnetic separation work.

The fourth concrete implementation mode:

1-11, the grinding mechanism 3 comprises a motor II 301, a rotating rod 302 and a grinding wheel 303, concave frame 304, electric putter I305 and spacing 306, the output shaft of motor II 301 passes through shaft coupling and rotary rod 302 rigid coupling, the middle part of grinding miller 303 rigid coupling at rotary rod 302, rotary rod 302 around both ends rotate respectively and connect a concave frame 304, electric putter I305 is provided with two, the movable end of an electric putter I305 of equal rigid coupling in upper end of every concave frame 304, spacing 306 of equal rigid coupling in upper end of every concave frame 304, the stiff end of two electric putter I305 rigid couplings is on the epirelief seat 103 that is located both ends around being located respectively, sliding connection is at both ends around framework 101 middle part respectively at both ends around the rotary rod 302, the inboard both ends around both ends of sliding connection framework 101 middle part upside respectively of two spacing 306. In order to further facilitate the magnetic separation of the composite minerals, the metal elements in the composite minerals are magnetically separated, and then the composite minerals are ground before the magnetic separation, so as to further improve the working efficiency of the magnetic separation wheel 207 and the purity of the magnetic separation, and further provide a grinding wheel 303, wherein the grinding wheel 303 is driven by a motor II 301 to drive a rotating rod 302 to rotate, and further the rotating rod 302 drives the grinding wheel 303 to rotate, and the grinding wheel 303 has higher roughness, so as to facilitate the grinding work, and is suitable for the composite minerals with different sizes during the grinding work, and further the concave frame 304 can be driven by a driving electric push rod I305 to lift to further drive the grinding wheel 303 to lift during the rotation, so as to facilitate the grinding of the composite minerals taken out by the belt conveyor 102 and improve the efficiency of the magnetic separation wheel 207, and the magnetic separation purity is high, so that the metal substances are effectively extracted.

The fifth concrete implementation mode:

as shown in fig. 1-11, the spraying mechanism 4 includes a water tank 401, a main pipe 402, a horizontal pipe 403 and a plurality of short pipes 404, wherein the lower end of the main pipe 402 is fixed and communicated with the upper end of the water tank 401, the right end of the upper end of the main pipe 402 is fixed and communicated with the left end of the middle part of the horizontal pipe 403, the short pipes 404 are provided in plurality, the short pipes 404 are respectively fixed and communicated with the right end of the horizontal pipe 403 in sequence, the front end and the rear end of the horizontal pipe 403 are respectively rotatably connected to the two side bosses 106, and the water tank 401 is fixedly connected to the left end of the. When the magnetic separation wheel 207 takes out the metal substances, the metal substances are conveniently taken down, and then the water in the water tank 401 is driven by the water pump to be sprayed out, so that the water in the water tank 401 is sprayed out from the short pipe 404 to wash the metal substances, the metal substances are not only washed out, but also the phenomenon that smoke dust exists in a working site is prevented, and the cleanness of the device is kept.

The sixth specific implementation mode:

as shown in fig. 1-11, a magnetic separator for a mine, the transmission mechanism 5 includes a motor iii 501, two lead screws 502, a belt ii 503 and a meshing frame 504, the number of the lead screws 502 is two, the two lead screws 502 are respectively rotatably connected to the two bottom bosses 104, an output shaft of the motor iii 501 is fixedly connected to the lead screw 502 located at the right end through a coupling, the two lead screws 502 are in transmission connection through the belt ii 503, the left end and the right end of the meshing frame 504 are respectively in threaded connection to the two lead screws 502, and the motor iii 501 is fixedly connected to the bottom bosses 104 located at the right end. Before the fine pure mineral substances after magnetic separation need to be scraped and removed, the driving motor III 501 can drive the screw rod 502 to rotate, and then the rotation of the two screw rods 502 drives the meshing frame 504 to move back and forth on the screw rod 502 due to the transmission of the belt II 503, so that power is provided for the subsequent removal of the fine pure mineral substances flowing down after being magnetically separated between the lower end of the magnetic separation wheel 207 and the arc-shaped seat in the middle of the framework 101.

The seventh embodiment:

as shown in fig. 1-11, the magnetic separator for the mine field comprises a material pushing frame 601, two electric push rods ii 602, a motor iv 603 and a cleaning rod 604, wherein the two electric push rods ii 602 are provided, the movable ends of the two electric push rods ii 602 are respectively and fixedly connected to the left and right ends of the rear end of the material pushing frame 601, the motor iv 603 is fixedly connected to the middle part of the rear end of the material pushing frame 601, the cleaning rod 604 is rotatably connected to the front and rear ends of the middle part of the material pushing frame 601, the output shaft of the motor iv 603 is fixedly connected to the cleaning rod 604 through a coupling, and the fixed ends of the two electric push rods ii 602 are respectively and fixedly connected to the left and right ends of. Make the material pushing frame 601 get into between the arc seat at magnetic separation wheel 207 lower extreme and framework 101 middle part under the drive of meshing frame 504 when taking off the smart pure mineral substance that flows down after being magnetic separation between the arc seat at magnetic separation wheel 207 lower extreme and framework 101 middle part, drive electric putter II 602 further scrapes the smart pure mineral substance and takes off this moment, prevent to be detained by the smart pure mineral substance that flows down after the magnetic separation between the arc seat at magnetic separation wheel 207 lower extreme and framework 101 middle part and lead to the device operation not smooth, improve the smoothness nature of work.

The specific implementation mode is eight:

as shown in fig. 1 to 11, a magnetic separator for a mine, wherein the conveying mechanism 7 includes a motor v 701, two rotating rods 702 and a transmission belt 703, the two rotating rods 702 are respectively rotatably connected to the front end and the rear end of the left end of the framework 101, the two rotating rods 702 are in transmission connection through the transmission belt 703, and an output shaft of the motor v 701 is fixedly connected with the rotating rod 702 at the front end through a coupler. When the magnetically-separated metal substances flushed by the short pipe 404 are flushed onto the transmission belt 703 for collection by a subsequent worker, the transmission belt 703 is driven by the motor v 701 to rotate, so that the metal substances are carried out.

The specific implementation method nine:

as shown in fig. 1 to 11, in a magnetic separator in a mine, the frame body mechanism 1 further includes a discharging belt 107, and the discharging belt 107 is disposed at the front end of the left end of the framework 101. The discharging belt 107 can store the pure minerals pushed out by the material pushing frame 601, so that the collection work of workers is facilitated.

The detailed implementation mode is ten:

as shown in fig. 1 to 11, the guiding mechanism 6 further includes a plurality of sweeping blades 605, and the sweeping blades 605 are sequentially fixed on the cleaning rod 604. When the magnetic separation device is used, the driving motor IV 603 drives the cleaning rod 604 to rotate, the cleaning blade 605 at the upper end is driven to rotate by the rotation of the cleaning rod 604, so that when the material pushing frame 601 enters the lower end of the magnetic separation wheel 207 to push fine pure minerals, the cleaning blade 605 is soft and is suitable for using plastic materials, the magnetic separation wheel 207 and an arc-shaped seat in the middle of the framework 101 are cleaned, and the subsequent magnetic separation work is continued conveniently, so that the service life of the magnetic separation wheel 207 is effectively prolonged.

The invention relates to a mine field magnetic separator, which has the working principle that:

the mine field magnetic separator can grind the metal impurities contained in the mined minerals of the composite ores before magnetic separation, so that the quality of the magnetic separation can be further improved during the magnetic separation, the efficiency of the magnetic separation work is improved, the grinding mechanism 3 grinds the minerals to be magnetically separated, the minerals can be more easily magnetically separated from the metal substances during the magnetic separation, and the overall efficiency of the magnetic separation is improved. Belt conveyor 102 is the prior art that market can obtain, and the mineral in the composite ore is taken out and wherein can contain iron fillings impurity, and then places this iron fillings impurity and carry out the transportation on belt conveyor 102 and be convenient for follow-up magnetic separation work that carries on, and the inside arc seat that is provided with the magnetic separation meshing of left end of framework 101, and device simple structure is convenient for carry out the magnetic separation in composite ore field and is used. During the magnetic separation, can drive I201 by driving motor and drive mobile jib 202 rotatoryly, further because the transmission of belt I205, and then it is rotatory to drive disc 204 by the mobile jib 202 rotation, and then disc 204 drives the rotation of magnetic separation wheel 207 on the auxiliary rod 206, and magnetic separation wheel 207 carries out the magnetic separation work, and this magnetic separation wheel 207 has certain clearance with the inside arc seat that is used for the magnetic separation meshing that sets up of the left end of framework 101, reduces the space with the impurity that compound mineral wherein contains and is convenient for carry out the magnetic separation work. In order to further facilitate the magnetic separation of the composite minerals, the metal elements in the composite minerals are magnetically separated, and then the composite minerals are ground before the magnetic separation, so as to further improve the working efficiency of the magnetic separation wheel 207 and the purity of the magnetic separation, and further provide a grinding wheel 303, wherein the grinding wheel 303 is driven by a motor II 301 to drive a rotating rod 302 to rotate, and further the rotating rod 302 drives the grinding wheel 303 to rotate, and the grinding wheel 303 has higher roughness, so as to facilitate the grinding work, and is suitable for the composite minerals with different sizes during the grinding work, and further the concave frame 304 can be driven by a driving electric push rod I305 to lift to further drive the grinding wheel 303 to lift during the rotation, so as to facilitate the grinding of the composite minerals taken out by the belt conveyor 102 and improve the efficiency of the magnetic separation wheel 207, and the magnetic separation purity is high, so that the metal substances are effectively extracted. When the magnetic separation wheel 207 takes out the metal substances, the metal substances are conveniently taken down, and then the water in the water tank 401 is driven by the water pump to be sprayed out, so that the water in the water tank 401 is sprayed out from the short pipe 404 to wash the metal substances, the metal substances are not only washed out, but also the phenomenon that smoke dust exists in a working site is prevented, and the cleanness of the device is kept. Before the fine pure mineral substances after magnetic separation need to be scraped and removed, the driving motor III 501 can drive the screw rod 502 to rotate, and then the rotation of the two screw rods 502 drives the meshing frame 504 to move back and forth on the screw rod 502 due to the transmission of the belt II 503, so that power is provided for the subsequent removal of the fine pure mineral substances flowing down after being magnetically separated between the lower end of the magnetic separation wheel 207 and the arc-shaped seat in the middle of the framework 101. Make the material pushing frame 601 get into between the arc seat at magnetic separation wheel 207 lower extreme and framework 101 middle part under the drive of meshing frame 504 when taking off the smart pure mineral substance that flows down after being magnetic separation between the arc seat at magnetic separation wheel 207 lower extreme and framework 101 middle part, drive electric putter II 602 further scrapes the smart pure mineral substance and takes off this moment, prevent to be detained by the smart pure mineral substance that flows down after the magnetic separation between the arc seat at magnetic separation wheel 207 lower extreme and framework 101 middle part and lead to the device operation not smooth, improve the smoothness nature of work. When the magnetically-separated metal substances flushed by the short pipe 404 are flushed onto the transmission belt 703 for collection by a subsequent worker, the transmission belt 703 is driven by the motor v 701 to rotate, so that the metal substances are carried out. The discharging belt 107 can store the pure minerals pushed out by the material pushing frame 601, so that the collection work of workers is facilitated. When the magnetic separation device is used, the driving motor IV 603 drives the cleaning rod 604 to rotate, the cleaning blade 605 at the upper end is driven to rotate by the rotation of the cleaning rod 604, so that when the material pushing frame 601 enters the lower end of the magnetic separation wheel 207 to push fine pure minerals, the cleaning blade 605 is soft and is suitable for using plastic materials, the magnetic separation wheel 207 and an arc-shaped seat in the middle of the framework 101 are cleaned, and the subsequent magnetic separation work is continued conveniently, so that the service life of the magnetic separation wheel 207 is effectively prolonged.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a mine field magnet separator, includes support body mechanism (1), magnetic separation mechanism (2), grinds mechanism (3), spraying mechanism (4), drive mechanism (5), derivation mechanism (6) and transport mechanism (7), its characterized in that: magnetic separation mechanism (2) are connected at the left end of support body mechanism (1), grind mechanism (3) and connect at the middle part of support body mechanism (1), and the left end of support body mechanism (1) is connected in spraying mechanism (4), and drive mechanism (5) are connected at the lower extreme of support body mechanism (1) left end, and derivation mechanism (6) are connected on drive mechanism (5), and the left end at support body mechanism (1) is connected in transport mechanism (7).

2. The magnetic separator in a mine field according to claim 1, characterized in that: the frame body mechanism (1) comprises a frame (101), a belt conveyor (102), an upper convex seat (103), a bottom convex seat (104), a discharge frame (105) and side convex seats (106), wherein the belt conveyor (102) is arranged at the right end of the frame (101), the front end and the rear end of the upper end of the middle part of the frame (101) are fixedly connected with the upper convex seat (103) respectively, the bottom convex seat (104) is provided with two parts, the two bottom convex seats (104) are fixedly connected with the left end and the right end of the rear end of the left side of the frame (101) respectively, the discharge frame (105) is fixedly connected with the left end of the frame (101), and the front end and the rear end of the left end of the frame (101) are fixedly connected with the.

3. The magnetic separator in a mine field according to claim 2, characterized in that: magnetic separation mechanism (2) are including motor I (201), mobile jib (202), band pulley (203), disc (204), belt I (205), auxiliary rod (206) and magnetic separation wheel (207), the output shaft of motor I (201) passes through shaft coupling and mobile jib (202) rigid coupling, band pulley (203) rigid coupling is in the rear end of mobile jib (202), disc (204) rigid coupling is in the rear end of auxiliary rod (206), band pulley (203) is connected through belt I (205) transmission with disc (204), magnetic separation wheel (207) rigid coupling is in the front end of auxiliary rod (206), the lower extreme at framework (101) middle part of motor I (201) rigid coupling, the front and back both ends of auxiliary rod (206) rotate respectively and connect both ends around framework (101) left end.

4. The magnetic separator in a mine field according to claim 3, characterized in that: the grinding mechanism (3) comprises a motor II (301), a rotating rod (302), a grinding wheel (303), a concave frame (304), an electric push rod I (305) and a limiting frame (306), the output shaft of motor II (301) passes through shaft coupling and rotary rod (302) rigid coupling, grinding wheel (303) rigid coupling is in the middle part of rotary rod (302), both ends rotate respectively around rotary rod (302) and connect a concave frame (304), electric putter I (305) are provided with two, the expansion end of an electric putter I (305) of equal rigid coupling in upper end of every concave frame (304), spacing (306) of equal rigid coupling in upper end of every concave frame (304), the stiff end of two electric putter I (305) rigid couplings is on last convex seat (103) that are located both ends around, both ends are sliding connection respectively around framework (101) middle part around rotary rod (302), both ends are both ends around the inboard difference sliding connection framework (101) middle part upside of two spacing (306).

5. The magnetic separator in a mine field according to claim 4, characterized in that: spraying mechanism (4) are including water tank (401), be responsible for (402), violently manage (403) and nozzle stub (404), the lower extreme of being responsible for (402) is fixed and communicate in the upper end of water tank (401), the right-hand member of being responsible for (402) upper end is fixed and communicate at the left end of violently managing (403) middle part, nozzle stub (404) are provided with a plurality ofly, a plurality of nozzle stubs (404) are fixed in proper order respectively and communicate at the right-hand member of violently managing (403), the front and back both ends of violently managing (403) rotate respectively and connect on two side convex seats (106), water tank (401) rigid coupling is at the left end of framework (101).

6. The magnetic separator in a mine field according to claim 5, characterized in that: drive mechanism (5) are including motor III (501), lead screw (502), belt II (503) and meshing frame (504), lead screw (502) are provided with two, two lead screws (502) rotate respectively and connect on two end convex bases (104), the output shaft of motor III (501) passes through the shaft coupling and is located lead screw (502) rigid coupling of right-hand member, two lead screws (502) are connected through belt II (503) transmission, both ends difference threaded connection is on two lead screws (502) about meshing frame (504), motor III (501) rigid coupling is on end convex base (104) that are located the right-hand member.

7. The magnetic separator in a mine field according to claim 6, characterized in that: the guiding mechanism (6) comprises a material pushing frame (601), two electric push rods II (602), a motor IV (603) and a cleaning rod (604), the two electric push rods II (602) are arranged, the movable ends of the two electric push rods II (602) are fixedly connected to the left end and the right end of the rear end of the material pushing frame (601) respectively, the motor IV (603) is fixedly connected to the middle of the rear end of the material pushing frame (601), the cleaning rod (604) is rotatably connected to the front end and the rear end of the middle of the material pushing frame (601), an output shaft of the motor IV (603) is fixedly connected with the cleaning rod (604) through a coupler, and the fixed ends of the two electric push rods II (602) are fixedly connected to the left end and the right end of the upper end.

8. The magnetic separator in a mine field according to claim 7, characterized in that: conveying mechanism (7) include motor V (701), dwang (702) and drive belt (703), and dwang (702) is provided with two, and two dwang (702) rotate respectively and connect both ends around framework (101) left end, and two dwang (702) pass through drive belt (703) transmission connection, and the output shaft of motor V (701) passes through the shaft coupling and is located dwang (702) rigid coupling of front end.

9. The magnetic separator in a mine field according to claim 8, characterized in that: the frame body mechanism (1) further comprises a material outlet belt (107), and the material outlet belt (107) is arranged at the front end of the left end of the framework (101).

10. The magnetic separator in a mine field according to claim 9, characterized in that: the guiding mechanism (6) further comprises a plurality of sweeping blades (605), and the sweeping blades (605) are sequentially fixedly connected to the cleaning rod (604).