CN209020737U - A kind of vertical vibrating ore separators - Google Patents

Abstract

The utility model discloses a kind of vertical vibrating ore separators, including ore separators, the upper right end surfaces of the ore separators are respectively equipped with toggle switch, power supply line, the right side of the ore separators is equipped with primary discharge port, gear box is equipped with inside the upper left side of the ore separators, the inside of the gear box is rotatably connected to cam by motor, the right surface of the cam slidably connects guide plate, the middle part of the guide plate is equipped with charging and divides mouth, the on both sides of the middle of the guide plate is symmetrically arranged with deflector, the upper end face of the deflector is fixedly connected with slide plate, the left outer surface of the slide plate slidably connects ore separators, the right end face of the slide plate is fixedly connected with feed hopper, slideway is rotatably connected to by first rotating shaft inside the lower right side of the ore separators, the first vibrating motor is equipped with inside the left side of the ore separators.The vertical vibrating ore separators, ore raw materials is divided into two strands for realization and left and right is back and forth sprinkling upon on sieve plate, realizes that the slag of ramp surface strikes off.

Description

A kind of vertical vibrating ore separators

Technical field

The utility model relates to ore separators apparatus field, specially a kind of vertical vibrating ore separators.

Background technique

Ore dressing is the physical property and chemical property according to different minerals in ore, ore reduction it is levigate after, use Gravity separation method, floatation, magnetic method, electrical concentration etc., valuable mineral and gangue mineral are separated, and make the valuable mineral of various symbiosis Be separated from each other as far as possible, remove or reduce objectionable impurities, with smelted or other industry needed for raw material process.

Currently, existing vertical vibrating ore separators, feeding manner is mostly by single feed inlet directly by ore raw materials It is sprinkling upon on sieve plate, ore raw materials is be easy to cause to be sprinkling upon on sieve plate less uniformly, in addition, ramp surface is easier to remain mine Slag does not have fixture block rotational structure and connecting rod blade structure usually, strikes off from the slag for being unable to realization ramp surface.

Utility model content

It is mentioned above in the background art to solve the purpose of this utility model is to provide a kind of vertical vibrating ore separators Problem.

To achieve the above object, the utility model provides the following technical solutions: a kind of vertical vibrating ore separators, including ore dressing Machine, the upper right end surfaces of the ore separators are respectively equipped with toggle switch, power supply line, and the power supply line is connected in series with by conducting wire Motor, the first vibrating motor, the second vibrating motor, the right side of the ore separators are equipped with primary discharge port, a left side for the ore separators Upper interior is equipped with gear box, and the inside of the gear box is rotatably connected to cam by motor, and the right surface of the cam is sliding Dynamic to be connected with guide plate, the middle part of the guide plate is equipped with charging and divides mouth, and the on both sides of the middle of the guide plate is symmetrically arranged with deflector, described The upper end face of deflector is fixedly connected with slide plate, and the left outer surface of the slide plate slidably connects ore separators, the slide plate Right end face be fixedly connected with feed hopper, slideway is rotatably connected to by first rotating shaft inside the lower right side of the ore separators, The first vibrating motor is equipped with inside the left side of the ore separators.

Preferably, vibrating mass is connected on the upside of first vibrating motor, the upside of the vibrating mass, which is hinged, is connected to sieve Plate, the lower right side of the sieve plate, which is hinged, is connected to link block, and the lower right side of the sieve plate is equipped with funnel.

Preferably, the left outer surface of the guide plate slidably connects gear box, the right side of the guide plate by square guide hole Outer surface slidably connects sleeve, and the right end face of the sleeve is fixedly connected with ore separators, and the right end face of the guide plate is solid Surely it is connected with reset spring.

Preferably, the intermediate upper end face of the guide plate is fixedly connected with the second vibrating motor, second vibrating motor Upside be fixedly connected with flow distribution plate, the two sides rear surface of the flow distribution plate is fixedly connected with buffer bar.

Preferably, the rear surface of the buffer bar is fixedly connected with spring, the lower side external surface sliding of the buffer bar It is connected with guide plate.

Preferably, the right end face of the slide plate is fixedly connected with arc-shaped guide plate, and the lower left side of the arc-shaped guide plate passes through First guide hole is plugged with ore separators.

Preferably, the lower inner part of the arc-shaped guide plate is equipped with card slot, and the arc-shaped guide plate is connected with fixture block by card slot, The left slide of the fixture block is connected with ore separators, and the rear surface of the fixture block is fixedly connected with holddown spring.

Preferably, connecting rod is plugged with by the second guide hole inside the lower left side of the ore separators, is set on the right side of the connecting rod There is scraper plate, the left end surface of the connecting rod is equipped with screw rod, and the left side inside of the screw rod is rotatably connected to L-type by the second shaft Connecting rod.

Preferably, the bottom right end surfaces of the L-type connecting rod are equipped with magnetic block, and the L-type connecting rod is inhaled by magnetic block magnetism It is attached to be connected to ore separators.

Preferably, the upper outside surfaces of the L-type connecting rod are equipped with limited block, and the upper end face of the limited block compresses connection There is position-limiting tube, the inside of the position-limiting tube is connected to L-type connecting rod by inner screw sheath.

Compared with prior art, the utility model has the beneficial effects that the vertical vibrating ore separators, passes through vibration distributary plate Structure and cam drive, realize by ore raw materials be divided into two strands and left and right be back and forth sprinkling upon on sieve plate, rotated by fixture block Structure and connecting rod blade structure, the slag for realizing ramp surface strike off.

Detailed description of the invention

Fig. 1 is the overall structure facade view of the utility model；

Fig. 2 is the shunting spreading and cam structure portion cross-sectional view of the utility model；

Fig. 3 is the slideway fixture block position limiting structure partial sectional view of the utility model；

Fig. 4 is the connecting rod blade structure partial sectional view of the utility model.

In figure: 1 ore separators, 2 toggle switches, 3 power supply lines, 4 primary discharge ports, 5 gear boxes, 51 motors, 52 cams, 53 are led Plate, 54 side's guide holes, 55 second vibrating motors, 56 flow distribution plates, 57 buffer bars, 58 springs, 59 charging divide mouth, 6 deflectors, 7 slideways, 71 first rotating shafts, 72 arc-shaped guide plates, 73 first guide holes, 74 card slots, 75 fixture blocks, 76 holddown springs, 8 connecting rods, 81 scraper plates, 82 second Guide hole, 83 screw rods, 84 second shafts, 85 L-type connecting rods, 86 magnetic blocks, 87 limited blocks, 88 position-limiting tubes, 89 internal screw threads, 9 chargings Bucket, 10 slide plates, 11 sleeves, 12 reset springs, 13 sieve plates, 14 funnels, 15 link blocks, 16 first vibrating motors, 17 vibrating mass.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

In the description of the present invention, it should be understood that term " longitudinal direction ", " transverse direction ", "upper", "lower", " preceding ", The orientation or positional relationship of the instructions such as " rear ", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside" be based on Orientation or positional relationship shown in the drawings is merely for convenience of description the utility model, rather than the dress of indication or suggestion meaning It sets or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as to the utility model Limitation.

Referring to Fig. 1, a kind of vertical vibrating ore separators, including ore separators 1, the upper right end surfaces of ore separators 1 are respectively equipped with Toggle switch 2, power supply line 3, the model MD-1S-102 of toggle switch 2, toggle switch 2 can control the rotating forward of motor 51, with And first vibrating motor 16 and the second vibrating motor 55 carry out vibration work, the first vibrating motor 16 and the second vibrating motor 55 Model is HY-TB-0.28, and motor 51 belongs to pot motor, model HF-SN52BJ-S200, and power supply line 3 is external to On 220V power supply, power supply line 3 is connected in series with motor 51, the first vibrating motor 16, the second vibrating motor 55, ore dressing by conducting wire The right side of machine 1 is equipped with primary discharge port 4, is equipped with gear box 5 inside the upper left side of ore separators 1, the inside of gear box 5 passes through motor 51 are rotatably connected to cam 52, and the right surface of cam 52 slidably connects guide plate 53, and the middle part of guide plate 53 is equipped with charging and divides mouth 59, The on both sides of the middle of guide plate 53 is symmetrically arranged with deflector 6, and deflector 6 plays the role of the guidance guiding fed to ore raw materials, leads The upper end face of flowing plate 6 is fixedly connected with slide plate 10, and the left outer surface of slide plate 10 slidably connects ore separators 1, slide plate 10 Right end face is fixedly connected with feed hopper 9, passes through first rotating shaft 71 inside the lower right side of ore separators 1 and is rotatably connected to slideway 7, selects The first vibrating motor 16 is equipped with inside the left side of mine machine 1.

Refering to fig. 1, Fig. 2, the upside of the first vibrating motor 16 are connected with vibrating mass 17, and the upside of vibrating mass 17, which is hinged, to be connected to Sieve plate 13, is equipped with sieve inside sieve plate 13, the larger aperture and ore raw materials for wearing only sieve continues to slide to the right, and by just Grade discharge port 4 drops out, and the surface of slideway 7 can be fallen in by the funnel 14 on right side by the minor diameter ore raw materials of sieve, And sliding underneath is on the oscillating screen plate 13 of junior to the left, carrying out junior, vibration screening, the lower right side of sieve plate 13 are hinged again There is link block 15, the lower right side of sieve plate 13 is equipped with funnel 14.

Refering to fig. 1, Fig. 2, the left outer surface of guide plate 53 pass through square guide hole 54 and slidably connect gear box 5, guide plate 53 Right side outer surface slidably connects sleeve 11, and the right end face of sleeve 11 is fixedly connected with ore separators 1, the right end face of guide plate 53 It is fixedly connected with reset spring 12, reset spring 12 can give the screen resilience of guide plate 53 to the left, guarantee the left end table of guide plate 53 Face and cam 52 keep impaction state.

Refering to fig. 1, Fig. 2, the intermediate upper end face of guide plate 53 are fixedly connected with the second vibrating motor 55, the second vibrating motor 55 upside is fixedly connected with flow distribution plate 56, and flow distribution plate 56 is conical by its shape, and ore raw materials can be divided into the vibration of two bursts of left and right Two sides are slided into, the two sides rear surface of flow distribution plate 56 is fixedly connected with buffer bar 57.

Refering to fig. 1, Fig. 2, the rear surface of buffer bar 57 are fixedly connected with spring 58, and the lower side external surface of buffer bar 57 is sliding It is dynamic to be connected with guide plate 53, when flow distribution plate 56 when the vibrations are up and down, about 58 telescopic deformation of spring, spring will drive by buffer bar 57 58 deformation storage storage deformation energy, the vibration force of about 56 flow distribution plate can be buffered.

Refering to fig. 1, Fig. 3, the right end face of slide plate 10 are fixedly connected with arc-shaped guide plate 72, and the lower left side of arc-shaped guide plate 72 is logical It crosses the first guide hole 73 and is plugged with ore separators 1, arc-shaped guide plate 72 plays the rotation guiding role to slide plate 10.

Refering to fig. 1, Fig. 3, the lower inner part of arc-shaped guide plate 72 are equipped with card slot 74, and arc-shaped guide plate 72 is connected with by card slot 74 Fixture block 75, the left slide of fixture block 75 are connected with ore separators 1, and the rear surface of fixture block 75 is fixedly connected with holddown spring 76, pressure Tight spring 76 can provide fixture block 75 upward elastic force, guarantee the clamping of fixture block 75 and arc-shaped guide plate 72.

Refering to fig. 1, the lower left side inside of Fig. 4, ore separators 1 are plugged with connecting rod 8, the right side of connecting rod 8 by the second guide hole 82 Equipped with scraper plate 81, the left end surface of connecting rod 8 is equipped with screw rod 83, is rotatably connected to inside the left side of screw rod 83 by the second shaft 84 L-type connecting rod 85.

Refering to fig. 1, Fig. 4, the bottom right end surfaces of L-type connecting rod 85 are equipped with magnetic block 86, and L-type connecting rod 85 passes through 86 magnetic of magnetic block Property absorption be connected with ore separators 1, magnetic block 86 is the substance or material that can generate magnetic field, can strength be adsorbed on ore separators It, can be by the way that L-type connecting rod 85 to be absorbed and fixed to the metal shell of ore separators 1 when not using scraper plate 81 on 1 metal shell On, play the role of fixed scraper plate 81.

Refering to fig. 1, Fig. 4, the upper outside surfaces of L-type connecting rod 85 are equipped with limited block 87, and the upper end face of limited block 87 compresses It is connected with position-limiting tube 88, the inside of position-limiting tube 88 is socketed with L-type connecting rod 85 by internal screw thread 89, and limited block 87 can be to position-limiting tube 88 play the role of support, prevent position-limiting tube 88 from falling downwards.

When the utility model is specifically implemented: power supply line 3 is by leading in use, power supply line 3 is connected on 220V power supply Line provides motor 51, the first vibrating motor 16,55 working power of the second vibrating motor, and the toggle of toggle switch 2 is dialed up, Route is connected, and is at this time lowered into ore raw materials from feed hopper 9, and the second vibrating motor 55 works and drives flow distribution plate 56 at this time It vibrates up and down, ore raw materials is fallen on the flow distribution plate 56 of vibration, and flow distribution plate 56 is conical by its shape, ore raw materials can be divided into a left side Right two bursts of vibrations slide into two sides, meanwhile, motor 51 works and guide plate 53 is driven to do bilateral reciprocation, and deflector 6 is driven to do Bilateral reciprocation, the two bursts of ore raw materialss in left and right fall into deflector 6 and divide mouth 59 or so back and forth to scatter by charging and sieving at this time The surface of plate 13, the first vibrating motor 16 work and drive the left up-down vibration of sieve plate 13, unrestrained ore raw materials on it is shaken The sliding of trend bottom right, is equipped with sieve inside sieve plate 13, the larger aperture and ore raw materials for wearing only sieve continues to slide to the right, and It is dropped out by primary discharge port 4, and slideway 7 can be fallen in by the funnel 14 on right side by the minor diameter ore raw materials of sieve Surface, and sliding underneath carries out junior's vibration screening again on the oscillating screen plate 13 of junior to the left, realizes ore original Material is divided into two strands and left and right is back and forth sprinkling upon on sieve plate 13, and ore raw materials spreading is relatively uniform, in addition, if remained on slideway 7 When slag, L-type connecting rod 85 is rotated clockwise centered on the second shaft 84, when L-type connecting rod 85 to level, sliding limit to the right Pipe 88 simultaneously catches 8 sets of connecting rod, then rotates clockwise position-limiting tube 88, and be threadedly coupled to screw rod 83 to the right by internal screw thread 89 On, connecting rod 8 and the limit of L-type connecting rod 85 can be spliced into a root long bar, moved right L-type connecting rod then along the second guide hole 82 85, drive scraper plate 81 to move right by connecting rod 8, until when the right end face of scraper plate 81 and ore separators 1 contact, then, to Lower mobile fixture block 75 simultaneously exits card slot 74, then, arc-shaped guide plate 72, band sliding way is rotated clockwise centered on first rotating shaft 71 7 rotations upwards clockwise, when the rotation of slideway 7 to level, release fixture block 75, holddown spring 76 can drive fixture block by screen resilience 75 move up, and are caught in the inside of card slot 74, can be by 7 locking of slideway, and the upper surface of slideway 7 is and under scraper plate 81 at this time Surface contact compresses, and then, is moved to the left L-type connecting rod 85, scraper plate 81 is driven to be moved to the left and will slide along the upper surface of slideway 7 The slag remained on surface of road 7 strikes off to the left, and falls in downwards on the sieve plate 13 of junior, and the slag for realizing 7 surface of slideway strikes off.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (10)

1. a kind of vertical vibrating ore separators, including ore separators (1), it is characterised in that: the upper right end surfaces of the ore separators (1) point Not She You toggle switch (2), power supply line (3), the power supply line (3) by conducting wire be connected in series with motor (51), first vibration Motor (16), the second vibrating motor (55), the right side of the ore separators (1) are equipped with primary discharge port (4), the ore separators (1) Upper left side inside be equipped with gear box (5), the inside of the gear box (5) is rotatably connected to cam (52) by motor (51), The right surface of the cam (52) slidably connects guide plate (53), and the middle part of the guide plate (53) is equipped with charging and divides mouth (59), institute The on both sides of the middle for stating guide plate (53) is symmetrically arranged with deflector (6), and the upper end face of the deflector (6) is fixedly connected with slide plate (10), the left outer surface of the slide plate (10) slidably connects ore separators (1), and the right end face of the slide plate (10) is fixed to be connected It is connected to feed hopper (9), is rotatably connected to slideway (7) inside the lower right side of the ore separators (1) by first rotating shaft (71), it is described The first vibrating motor (16) are equipped with inside the left side of ore separators (1).

2. a kind of vertical vibrating ore separators according to claim 1, it is characterised in that: first vibrating motor (16) Upside is connected with vibrating mass (17), and the upside of the vibrating mass (17), which is hinged, to be connected to sieve plate (13), the bottom right of the sieve plate (13) Side is hinged and is connected to link block (15), and the lower right side of the sieve plate (13) is equipped with funnel (14).

3. a kind of vertical vibrating ore separators according to claim 1, it is characterised in that: the left side appearance of the guide plate (53) Face passes through square guide hole (54) and slidably connects gear box (5), and the right side outer surface of the guide plate (53) slidably connects sleeve (11), the right end face of the sleeve (11) is fixedly connected with ore separators (1), and the right end face of the guide plate (53) is fixedly connected There are reset spring (12).

4. a kind of vertical vibrating ore separators according to claim 3, it is characterised in that: the intermediate upper end of the guide plate (53) Surface is fixedly connected with the second vibrating motor (55), is fixedly connected with flow distribution plate on the upside of second vibrating motor (55) (56), the two sides rear surface of the flow distribution plate (56) is fixedly connected with buffer bar (57).

5. a kind of vertical vibrating ore separators according to claim 4, it is characterised in that: the lower end table of the buffer bar (57) Face is fixedly connected with spring (58), and the lower side external surface of the buffer bar (57) slidably connects guide plate (53).

6. a kind of vertical vibrating ore separators according to claim 1, it is characterised in that: the right end face of the slide plate (10) It is fixedly connected with arc-shaped guide plate (72), the lower left side of the arc-shaped guide plate (72) is plugged with ore separators by the first guide hole (73) (1).

7. a kind of vertical vibrating ore separators according to claim 6, it is characterised in that: the downside of the arc-shaped guide plate (72) Inside is equipped with card slot (74), and the arc-shaped guide plate (72) is connected with fixture block (75) by card slot (74), a left side for the fixture block (75) Slideslip is connected with ore separators (1), and the rear surface of the fixture block (75) is fixedly connected with holddown spring (76).

8. a kind of vertical vibrating ore separators according to claim 1, it is characterised in that: the lower left side of the ore separators (1) Inside is plugged with connecting rod (8) by the second guide hole (82), and the right side of the connecting rod (8) is equipped with scraper plate (81), the connecting rod (8) Left end surface is equipped with screw rod (83), is rotatably connected to L-type connecting rod by the second shaft (84) inside the left side of the screw rod (83) (85).

9. a kind of vertical vibrating ore separators according to claim 8, it is characterised in that: the bottom right of the L-type connecting rod (85) End surfaces are equipped with magnetic block (86), and the L-type connecting rod (85) is connected with ore separators (1) by magnetic block (86) magnetic absorption.

10. a kind of vertical vibrating ore separators according to claim 8, it is characterised in that: the upside of the L-type connecting rod (85) Outer surface is equipped with limited block (87), and the upper end face compression of the limited block (87) is connected with position-limiting tube (88), the position-limiting tube (88) inside is socketed with L-type connecting rod (85) by internal screw thread (89).