CN217368563U - Tail sand grading recovery device for fluorite powder processing - Google Patents
Tail sand grading recovery device for fluorite powder processing Download PDFInfo
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- CN217368563U CN217368563U CN202220291909.7U CN202220291909U CN217368563U CN 217368563 U CN217368563 U CN 217368563U CN 202220291909 U CN202220291909 U CN 202220291909U CN 217368563 U CN217368563 U CN 217368563U
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Abstract
The utility model relates to a fluorite technical field just discloses a fluorite powder processing is with graded recovery unit of tailings, the on-line screen storage device comprises a base, the upper end of base is provided with the pillar, the top of base is provided with box and support frame, the outside of box is provided with vibrating motor, the outside of pillar is provided with buffer gear. This fluorite powder processing is with graded recovery unit of tailings, be provided with the box, the top of box is provided with feed mechanism through the support frame, the tailings is broken up in feed mechanism, rethread transmission band one is carried to the box in, box accessible vibrating motor vibrates from top to bottom, the box outside is provided with buffer gear, reduce the damage that the vibration caused, during the box vibration, inside three filter plate sieves the tailings in grades in proper order, two drive tailings of transmission band carry between three filter plate. The material that the screening got off is discharged through transmission band three and three play hopper respectively, and overall structure is simple, and screening efficiency is higher, is convenient for retrieve the fluorite powder tailings.
Description
Technical Field
The utility model relates to a fluorite technical field specifically is a tail sand grading recovery unit is used in fluorite powder processing.
Background
Fluorite is also called fluorite, and a mineral which is common in nature can be symbiotic with other various minerals and is produced in many places in the world, a large amount of waste water can be produced during fluorite powder processing, the waste water contains a large amount of tailings, and the tailings can be recycled.
Most tailings recovery unit all need dewater earlier at present and sieve the tailings again, and the caking appears after the tailings dewaters, and screening plant does not possess the function of breaing up, and the tailings of caking directly falls into screening plant, leads to screening efficiency to reduce, and does not possess the hierarchical recovery function, and functional not enough.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
Not enough to prior art, the utility model provides a fluorite powder processing is with tailing graded recovery unit to propose most tailing recovery unit in solving above-mentioned background and all need dewater earlier and sieve the tailing again, and the tailing takes off and appears caking after the completion, and screening plant does not possess the function of breaing up, and the tailing of caking directly falls into screening plant, leads to screening efficiency to reduce, and does not possess graded recovery function, the not enough problem of functionality.
(II) technical scheme
In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a fluorite powder processing is with graded recovery unit of tailings, includes the base, the upper end of base is provided with the pillar, the top of base is provided with box and support frame, the outside of box is provided with vibrating motor, the outside of pillar is provided with buffer gear, the upper end of support frame is provided with feed mechanism, the inboard of support frame is provided with transmission band one, the connecting hole has been seted up to the upper end of box, the inside of box is provided with filter plate, transmission band two and transmission band three, the lower extreme of box is provided with out the hopper, the outside of box is provided with control panel.
Preferably, the pillar is symmetrically provided with six in the upper end of the base, the box is located below the supporting frame, the vibrating motors are arranged on the outer sides of the box, and the vibrating motors drive the box to vibrate up and down.
Preferably, buffer gear includes fixed sleeve, movable sleeve, fixed block and spring, fixed sleeve fixed mounting is in the outside of support frame, movable sleeve fixed mounting is in the outside of box, fixed block fixed mounting is in the outside of pillar, the spring cup joints the outside of installing at the pillar, fixed sleeve fixed mounting is in the upper end of pillar, movable sleeve movable mounting is in the outside of pillar, the fixed block is located movable sleeve's below, the spring respectively is provided with one in movable sleeve's upper and lower both sides, and during the box vibration, movable sleeve removed along the pillar, and the spring plays the cushioning effect to the box through fixed sleeve and fixed block, reduces the damage that the vibration caused.
Preferably, feed mechanism includes feeding case, feed inlet, discharge gate, crushing roller and driving motor, feeding case fixed mounting is in the upper end of support frame, the feed inlet is located the upper end of feeding case, the discharge gate is located the lower extreme of feeding case, the crushing roller rotates in the inboard of feeding case and is provided with two, driving motor is provided with two in the outside of feeding case, driving motor's output shaft and crushing roller fixed connection, and the tailings is transmitted to the feeding case through the feed inlet after the dehydration in, and driving motor drives the crushing roller and rotates, breaks up the tailings of caking.
Preferably, one end of the first transmission belt is located below the feeding mechanism, the other end of the first transmission belt is located above the connecting hole, the scattered tailings fall onto the first transmission belt, the first transmission belt transmits the tailings to the upper portion of the connecting hole, and the tailings then fall into the box body through the connecting hole.
Preferably, transmission band two is provided with two about the inside of box, the filter plate respectively is provided with one in the upper and lower both sides of transmission band two, transmission band three is located the below of filter plate, transmission band two and transmission band three are the slope structure, three outsides that extend to the box of transmission band, it is provided with threely to go out the hopper, it is located the filter plate and keeps away from the below of three one ends of transmission band to go out the hopper, and the tailings falls into the filter plate, and the filter plate vibrates along with the box, sieves the tailings to the upper end, and the tailings that filter down falls into transmission band two on, and transmission band two transmits the tailings to the upper end of another filter plate, filters once more, and after the repetition cubic, the tailings falls into transmission band three, and the transmission band three is discharged the tailings of tailings discharge box, and the tailings of staying on the filter plate then discharges through going out the hopper.
Compared with the prior art, the utility model provides a fluorite powder processing is with tail sand grading recovery unit possesses following beneficial effect: be provided with the box, the top of box is provided with feed mechanism through the support frame, and the tailings is broken up in feed mechanism after the dehydration, and rethread transmission band one is carried to the box in, and box accessible vibrating motor vibrates from top to bottom, and the box outside is provided with buffer gear, reduces the damage that the vibration caused, and during the box vibration, inside three filter plate carries out hierarchical screening to the tailings in proper order, and transmission band two drives the tailings and carries between three filter plate. The material that the screening got off is discharged through transmission band three and three play hopper respectively, and overall structure is simple, and screening efficiency is higher, is convenient for retrieve the fluorite powder tailings.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic view of the internal structure of the present invention;
FIG. 3 is a schematic side view of the structure of the present invention
Fig. 4 is an enlarged schematic view of a portion a in fig. 2 according to the present invention.
Wherein: 1. a base; 2. a pillar; 3. a box body; 4. a support frame; 5. a vibration motor; 6. a buffer mechanism; 601. fixing the sleeve; 602. a movable sleeve; 603. a fixed block; 604. a spring; 7. a feeding mechanism; 701. a feeding box; 702. a feed inlet; 703. a discharge port; 704. a crushing roller; 705. a drive motor; 8. a first conveying belt; 9. connecting holes; 10. filtering the plate; 11. a second conveying belt; 12. a third conveying belt; 13. a discharge hopper; 14. a control panel.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-4, a tailing grading and recycling device for fluorite powder processing includes a base 1, a pillar 2, a box 3, a supporting frame 4, a vibration motor 5, a buffer mechanism 6, a fixed sleeve 601, a movable sleeve 602, a fixed block 603, a spring 604, a feeding mechanism 7, the automatic feeding device comprises a feeding box 701, a feeding hole 702, a discharging hole 703, a crushing roller 704, a driving motor 705, a first transmission belt 8, a connecting hole 9, a filter plate 10, a second transmission belt 11, a third transmission belt 12, a discharging hopper 13 and a control panel 14, wherein a strut 2 is arranged at the upper end of a base 1, a box body 3 and a support frame 4 are arranged above the base 1, a vibrating motor 5 is arranged on the outer side of the box body 3, six struts 2 are symmetrically arranged at the upper end of the base 1, the box body 3 is positioned below the support frame 4, two vibrating motors 5 are arranged on the outer side of the box body 3, and the vibrating motor 5 drives the box body 3 to vibrate up and down;
the outside of the pillar 2 is provided with a buffer gear 6, the buffer gear 6 comprises a fixed sleeve 601, a movable sleeve 602, a fixed block 603 and a spring 604, the fixed sleeve 601 is fixedly arranged at the outside of the supporting frame 4, the movable sleeve 602 is fixedly arranged at the outside of the box body 3, the fixed block 603 is fixedly arranged at the outside of the pillar 2, the spring 604 is sleeved and arranged at the outside of the pillar 2, the fixed sleeve 601 is fixedly arranged at the upper end of the pillar 2, the movable sleeve 602 is movably arranged at the outside of the pillar 2, the fixed block 603 is positioned below the movable sleeve 602, the spring 604 is respectively arranged at the upper side and the lower side of the movable sleeve 602, the pillar 2 plays a supporting role for the supporting frame 4 through the fixed sleeve 601, when the box body 3 vibrates, the movable sleeve 602 moves along the pillar 2, and the spring 604 plays a role in buffering the box body 3 through the fixed sleeve 601 and the fixed block 603, so that damage caused by vibration is reduced;
the upper end of the supporting frame 4 is provided with a feeding mechanism 7, the feeding mechanism 7 comprises a feeding box 701, a feeding hole 702, a discharging hole 703, two crushing rollers 704 and a driving motor 705, the feeding box 701 is fixedly arranged at the upper end of the supporting frame 4, the feeding hole 702 is positioned at the upper end of the feeding box 701, the discharging hole 703 is positioned at the lower end of the feeding box 701, two crushing rollers 704 are rotatably arranged at the inner side of the feeding box 701, two driving motors 705 are arranged at the outer side of the feeding box 701, an output shaft of the driving motor 705 is fixedly connected with the crushing rollers 704, a first transmission belt 8 is arranged at the inner side of the supporting frame 4, the upper end of the box body 3 is provided with a connecting hole 9, one end of the first transmission belt 8 is positioned below the feeding mechanism 7, the other end of the first transmission belt 8 is positioned above the connecting hole 9, a filter plate 10, a second transmission belt 11 and a third transmission belt 12 are arranged inside the box body 3, and the lower end of the box body 3 is provided with a discharging hopper 13, two transmission belts II 11 are arranged up and down in the box body 3, the filter plates 10 are respectively arranged on the upper side and the lower side of the transmission belts II 11, three transmission belts III 12 are arranged below the filter plates 10, the transmission belts II 11 and the transmission belts III 12 are of an inclined structure, the transmission belts III 12 extend to the outer side of the box body 3, three discharge hoppers 13 are arranged, the discharge hoppers 13 are arranged below the ends, away from the transmission belts III 12, of the filter plates 10, a control panel 14 is arranged on the outer side of the box body 3, tailings are dehydrated and then transmitted into the feeding box 701 through the feeding hole 702, the driving motor 705 drives the crushing roller 704 to rotate to break up agglomerated tailings, the broken tailings fall onto the transmission belts I8, the tailings are transmitted to the upper part of the connecting hole 9 through the transmission belts I8, the tailings fall into the box body 3 through the connecting hole 9, the tailings fall onto the filter plates 10, and the filter plates 10 vibrate along with the box body 3, the tailings at the upper end are screened, the filtered tailings fall into the second transmission belt 11, the second transmission belt 11 transmits the tailings to the upper end of the other filter plate 10, the tailings are filtered again, after the filtering is performed for three times, the tailings fall into the third transmission belt 12, the third transmission belt 12 discharges the tailings out of the box body 3, and the tailings left on the filter plate 10 are discharged through the discharge hopper 13.
When the vibrating screen is used, tailings are dehydrated and then are transmitted into a feeding box 701 through a feeding hole 702, a driving motor 705 drives a crushing roller 704 to rotate, agglomerated tailings are scattered, the scattered tailings fall onto a first transmission belt 8, the first transmission belt 8 transmits the tailings to a position above a connecting hole 9, the tailings then fall into a box body 3 through the connecting hole 9, a vibrating motor 5 drives the box body 3 to vibrate up and down, when the box body 3 vibrates, a movable sleeve 602 moves along a strut 2, a spring 604 plays a role in buffering the box body 3 through a fixed sleeve 601 and a fixed block 603, damage caused by vibration is reduced, the filter plate 10 vibrates along with the box body 3 to screen the tailings at the upper end, the filtered tailings fall onto a second transmission belt 11, the second transmission belt 11 transmits the tailings to the upper end of another filter plate 10 to filter again, the tailings fall onto a third transmission belt 12 after three times of repeated operation, the third conveying belt 12 discharges the tailings out of the box body 3, and the tailings left on the filter plate 10 are discharged through the discharge hopper 13.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (6)
1. The utility model provides a fluorite powder processing is with graded recovery unit of tailings, includes base (1), its characterized in that: the upper end of base (1) is provided with pillar (2), the top of base (1) is provided with box (3) and support frame (4), the outside of box (3) is provided with vibrating motor (5), the outside of pillar (2) is provided with buffer gear (6), the upper end of support frame (4) is provided with feed mechanism (7), the inboard of support frame (4) is provided with transmission band (8), connecting hole (9) have been seted up to the upper end of box (3), the inside of box (3) is provided with filter plate (10), transmission band two (11) and transmission band three (12), the lower extreme of box (3) is provided with out hopper (13), the outside of box (3) is provided with control panel (14).
2. The device for grading and recovering tailings for processing fluorite powder according to claim 1, is characterized in that: the upper end symmetry of pillar (2) at base (1) is provided with six, box (3) are located the below of support frame (4), vibrating motor (5) are provided with two in the outside of box (3).
3. The device for grading and recovering tailings for processing fluorite powder according to claim 1, is characterized in that: buffer gear (6) are including fixed sleeve (601), activity sleeve (602), fixed block (603) and spring (604), fixed sleeve (601) fixed mounting is in the outside of support frame (4), activity sleeve (602) fixed mounting is in the outside of box (3), fixed block (603) fixed mounting is in the outside of pillar (2), spring (604) cup joint the outside of installing at pillar (2), fixed sleeve (601) fixed mounting is in the upper end of pillar (2), activity sleeve (602) movable mounting is in the outside of pillar (2), fixed block (603) are located the below of activity sleeve (602), spring (604) respectively are provided with one in the upper and lower both sides of activity sleeve (602).
4. The device for grading and recovering tailings for processing fluorite powder according to claim 1, is characterized in that: the feeding mechanism (7) comprises a feeding box (701), a feeding port (702), a discharging port (703), a crushing roller (704) and a driving motor (705), wherein the feeding box (701) is fixedly installed at the upper end of the supporting frame (4), the feeding port (702) is located at the upper end of the feeding box (701), the discharging port (703) is located at the lower end of the feeding box (701), two crushing rollers (704) are rotatably arranged on the inner side of the feeding box (701), two driving motors (705) are arranged on the outer side of the feeding box (701), and an output shaft of the driving motor (705) is fixedly connected with the crushing roller (704).
5. The device for grading and recovering tailings for processing fluorite powder according to claim 1, is characterized in that: one end of the first conveying belt (8) is located below the feeding mechanism (7), and the other end of the first conveying belt (8) is located above the connecting hole (9).
6. The tailing sand grading and recycling device for fluorite powder processing as claimed in claim 1, is characterized in that: two (11) are provided with two from top to bottom in the inside of box (3), filter plate (10) respectively are provided with one in the upper and lower both sides of transmission band two (11), transmission band three (12) are located the below of filter plate (10), transmission band two (11) and transmission band three (12) are the slope structure, transmission band three (12) extend to the outside of box (3), it is provided with three to go out hopper (13), it is located filter plate (10) and keeps away from the below of transmission band three (12) one end to go out hopper (13).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220291909.7U CN217368563U (en) | 2022-02-14 | 2022-02-14 | Tail sand grading recovery device for fluorite powder processing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220291909.7U CN217368563U (en) | 2022-02-14 | 2022-02-14 | Tail sand grading recovery device for fluorite powder processing |
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Publication Number | Publication Date |
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CN217368563U true CN217368563U (en) | 2022-09-06 |
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CN202220291909.7U Active CN217368563U (en) | 2022-02-14 | 2022-02-14 | Tail sand grading recovery device for fluorite powder processing |
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CN (1) | CN217368563U (en) |
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- 2022-02-14 CN CN202220291909.7U patent/CN217368563U/en active Active
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