CN113953077A

CN113953077A - Efficient shaking table convenient for tailing treatment for mineral separation

Info

Publication number: CN113953077A
Application number: CN202111302445.1A
Authority: CN
Inventors: 周建斌
Original assignee: Individual
Current assignee: Zhejiang Suichang Shenghao Mining Co ltd
Priority date: 2021-11-04
Filing date: 2021-11-04
Publication date: 2022-01-21
Anticipated expiration: 2041-11-04
Also published as: CN113953077B

Abstract

The invention relates to the field of mineral separation, in particular to a high-efficiency shaking table convenient for treating tailings for mineral separation, which comprises a supporting base, a reciprocating assembly, an outflow assembly, a collecting assembly and the like; be equipped with reciprocal subassembly on the support base, be equipped with the outflow subassembly on the reciprocal subassembly, be equipped with the collection subassembly on the support base. After the concentrate and the middlings are sorted, the swinging plate and the devices on the swinging plate can swing, so that the tailings left on the multi-groove sliding plate are fully poured onto the first guide frame, and the purpose of fully and effectively treating the tailings is achieved.

Description

Efficient shaking table convenient for tailing treatment for mineral separation

Technical Field

The invention relates to the field of beneficiation, in particular to a high-efficiency shaking table convenient for tailing treatment for beneficiation.

Background

The ore is a mineral stone block which is mined from a mine and contains a certain value, and can be applied to engineering fields such as metal mines, metallurgical industry, chemical industry, building industry and the like after being processed step by step through crushing, grinding and the like, however, ore mining and processing can not be separated from ore dressing, and reasonable ore dressing can achieve the purpose of achieving a good effect with low investment.

At present, the common beneficiation methods mainly include a gravity separation method, a flotation method, a magnetic separation method and an electric separation method, wherein the gravity separation method is used for separating minerals according to the difference of relative densities of the minerals, a beneficiation table is common equipment for separating fine-grained ores based on the gravity separation method, water flow is needed to wash ore particles in the beneficiation process of the beneficiation table, the traditional table needs to manually control the water flow, the traditional table does not have the function of stirring the ore particles to be separated, the separation efficiency is not high, and meanwhile more tailings are left on the traditional table after separation, so that the separation is not convenient to process.

Disclosure of Invention

Based on this, it is necessary to provide a high-efficiency shaking table for mineral separation, which can automatically control water flow, effectively improve the separation efficiency of mineral particles, and facilitate the treatment of tailings, so as to solve the problems of the prior art that the water flow needs to be manually controlled, the separation efficiency is not high, and the tailings are not conveniently treated.

The technical scheme is as follows: the utility model provides a mineral processing is with high-efficient shaking table of tailing is convenient for handle, including supporting base, reciprocal subassembly, outflow subassembly and collection subassembly:

the reciprocating assembly is arranged on the supporting base and used for reciprocating and shaking the ore particles;

the reciprocating assembly is provided with a reciprocating assembly, and the reciprocating assembly is used for conveying ore particles to the reciprocating assembly;

the collecting assembly is arranged on the supporting base and used for collecting separated ore particles.

In addition, it is particularly preferable that the reciprocating assembly comprises a first support frame, a swing plate, a limit block, a multi-groove sliding plate, a pushing clamp frame, a supporting baffle frame, a motor, a rotating wedge frame, a first straight gear, a second support frame and a limit frame, wherein the first support frame is connected to the supporting base through a bolt, the swing plate is rotatably connected to the first support frame, the limit block is fixedly connected to the supporting base, the limit block is contacted with the swing plate, the multi-groove sliding plate is slidably connected to the top of the swing plate, the pushing clamp frame is fixedly connected to one side of the bottom of the multi-groove sliding plate, the supporting baffle frame is fixedly connected to the multi-groove sliding plate, the motor is fixedly installed on the supporting base, the rotating wedge frame is fixedly connected to one end of the output shaft of the motor, the rotating wedge frame is rotatably connected to the supporting base, the first straight gear is fixedly connected to the rotating wedge frame, the second straight gear is rotatably connected to the supporting base, the second straight gear is meshed with the first straight gear, a second supporting frame is fixedly connected to the supporting base, a limiting frame is connected to the second supporting frame in a sliding mode, the limiting frame is in limiting fit with the second straight gear, and the limiting frame is in contact with the pushing clamping frame.

In addition, it is particularly preferred that the subassembly that flows out is including fluting frame, inlet tube, gag lever post, backup pad and spacing loop bar, and the last rotation type of swinging plate is connected with fluting frame, and the intercommunication has the inlet tube on the fluting frame, fluting frame outer wall one side fixedly connected with gag lever post, and there is the backup pad stopper upper portion one side through bolted connection, and the slip type is connected with the spacing loop bar in the backup pad, and the spacing loop bar is connected with the gag lever post slidingtype.

In addition, it is especially preferred that the collection assembly includes first guide frame, third support frame, second guide frame and third guide frame, and there is first guide frame through bolted connection on the first support frame, and fixed welding has the third support frame on the support base, and fixedly connected with second guide frame on the third support frame, and fixedly connected with third guide frame on the third support frame.

In addition, especially preferred is, still including the separation subassembly, the separation subassembly is located on the support keeps off the frame, the separation subassembly is including the fourth support frame, the separation frame, first spring, L shape bracing piece and C shape drive frame, there is the fourth support frame through bolted connection on the support keeps off the frame, sliding connection has the separation frame on the fourth support frame, symmetrical connection has first spring between separation frame and the fourth support frame, fixed welding has L shape bracing piece on the third support frame, sliding connection has C shape drive frame on the L shape bracing piece, C shape drive frame and separation frame fixed connection.

In addition, especially preferred is, still including stirring the subassembly, stir the subassembly and locate on supporting the base, stir the subassembly including fifth support frame, slip group frame and fluting swing span, fixedly connected with fifth support frame on the support base, the frame is dialled in the slip connection on the fifth support frame, and the fifth support frame is last to rotate the type and is connected with the fluting swing span, and the equal spacing cooperation of frame is dialled in fluting swing span and C shape transmission frame, slip.

In addition, particularly preferably, the device also comprises a turning top frame, and the bottom of the swinging plate is fixedly connected with the turning top frame.

In addition, particularly preferably, the stirring device also comprises a stirring component, the stirring component is arranged on the supporting base, the stirring component comprises a sixth supporting frame, a pushing frame, a return spring and a T-shaped supporting frame, the rack, the second spring, the stirring frame, freewheel clutch and third straight-teeth gear, fixedly connected with sixth support frame on the support base, the sliding type is connected with the propelling movement frame on the sixth support frame, the propelling movement frame contacts with rotating wedge frame, be connected with the playback spring between propelling movement frame and the sixth support frame, fixedly connected with T shape support frame on the fluting frame outer wall, the sliding type is connected with the rack on the T shape support frame, be connected with the second spring between rack and the fluting frame, the inside rotary type of fluting frame is connected with the stirring frame, fixedly connected with freewheel clutch on the stirring frame, fixedly connected with third straight-teeth gear on the freewheel clutch, third straight-teeth gear and rack meshing.

In addition, it is especially preferred, still including the outflow control subassembly, the outflow control subassembly is located on the fluting frame, the outflow control subassembly is including the baffle frame, the slide rail frame, fluting buoyancy frame, jam frame and screen cloth, fluting frame outer bottom sliding connection has the baffle frame, symmetry fixedly connected with slide rail frame on the fluting frame inner wall, common sliding connection has fluting buoyancy frame between two slide rail frames, fluting buoyancy frame and baffle frame spacing cooperation, fixedly connected with blocks up the frame on the fluting buoyancy frame, block up the frame and contact with the fluting frame, fixedly connected with screen cloth on the fluting frame.

Compared with the prior art, the invention has the following advantages:

through the cooperation of separation frame and device above, the separation frame separates the multislot slide plate into two parts, can increase the rivers that flow to third guide frame and second guide frame to the separation efficiency of increase concentrate and middlings has reached the effect that can select separately the ore grain high-efficiently.

Through stirring the cooperation of putting up and device on it, stir the frame and can stir fully the ore grain in the frame that the slotted frame is close to T shape support frame one side to further improve the separation efficiency of ore grain, make the ore grain intensive mixing, realized the purpose that can improve the separation efficiency of ore grain effectively.

After the concentrate and the middlings are sorted, the swinging plate and the devices on the swinging plate can swing, so that the tailings left on the multi-groove sliding plate are fully poured onto the first guide frame, and the purpose of fully and effectively treating the tailings is achieved.

Through the cooperation of blocking frame and device on it, when the water yield was too much in the fluting frame, the blocking frame can be plugged up the inlet tube for the inlet tube no longer inputs water to in the fluting frame, in order to prevent the water in the fluting frame too much and spill over, saved the trouble that manual control inlet tube intake, realize the purpose that can automatically control the water yield in the fluting frame.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

FIG. 3 is a schematic view of a first partially assembled body of the reciprocating assembly of the present invention.

FIG. 4 is a schematic view of a second partially assembled body of the reciprocating assembly of the present invention.

Figure 5 is a perspective view of a third portion of the reciprocating assembly of the present invention.

Figure 6 is a perspective view of a fourth portion of the reciprocating assembly of the present invention.

FIG. 7 is a schematic view of a fifth partially separated body configuration of a reciprocating assembly according to the present invention.

Fig. 8 is a perspective view of the collection assembly of the present invention.

Fig. 9 is a schematic perspective view of the blocking assembly and the toggle assembly of the present invention.

Fig. 10 is a schematic perspective view of the toggle assembly of the present invention.

Fig. 11 is a schematic perspective view of the flip top frame of the present invention.

FIG. 12 is a schematic view of a first partial body configuration of an agitated assembly according to the invention.

FIG. 13 is a schematic view of a second partial body configuration of an agitated assembly according to the invention.

FIG. 14 is a perspective view of a third portion of an agitator assembly according to the present invention.

FIG. 15 is a schematic cross-sectional perspective view of an outflow control assembly of the present invention.

Fig. 16 is a schematic perspective view of the baffle plate rack of the present invention.

In the figure: 1. a supporting base, 2, a reciprocating component, 21, a first supporting frame, 22, a swinging plate, 23, a limiting block, 24, a multi-groove sliding plate, 25, a pushing clamping frame, 26, a supporting baffle frame, 27, a motor, 28, a rotating wedge-shaped frame, 29, a first straight gear, 210, a second straight gear, 211, a second supporting frame, 212, a limiting frame, 3, an outflow component, 31, a slotting frame, 3101, a water inlet pipe, 32, a limiting rod, 33, a supporting plate, 34, a limiting sleeve rod, 4, a collecting component, 41, a first guide frame, 42, a third supporting frame, 43, a second guide frame, 44, a third guide frame, 5, a blocking component, 51, a fourth supporting frame, 52, a blocking frame, 53, a first spring, 54, an L-shaped supporting rod, 55, a C-shaped driving frame, 6, a shifting component, 61, a fifth supporting frame, 62, a sliding shifting frame, 63, a slotting swinging frame, 7, a turning top frame, 8 and a stirring component, 81. sixth support frame, 82, pushing frame, 821, homing spring, 83, T-shaped support frame, 84, rack frame, 85, second spring, 86, stirring frame, 87, overrunning clutch, 88, third straight gear, 9, outflow control assembly, 91, baffle frame, 92, slide rail frame, 93, slotted buoyancy frame, 94, blocking frame, 95 and screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

A high-efficiency shaking table convenient for tailing treatment for mineral separation is shown in figures 1-8 and comprises a supporting base 1, a reciprocating component 2, an outflow component 3 and a collecting component 4, wherein the supporting base 1 is provided with the reciprocating component 2 used for shaking mineral particles, the reciprocating component 2 is provided with the outflow component 3 used for enabling water to flow out, and the supporting base 1 is provided with the collecting component 4 used for collecting the mineral particles.

The reciprocating component 2 comprises a first supporting frame 21, a swinging plate 22, a limiting block 23, a multi-groove sliding plate 24, a pushing clamping frame 25, a supporting baffle frame 26, a motor 27, a rotating wedge-shaped frame 28, a first straight gear 29, a second straight gear 210, a second supporting frame 211 and a limiting frame 212, wherein the supporting base 1 is connected with the first supporting frame 21 through bolts, the swinging plate 22 is rotatably connected on the first supporting frame 21, the limiting block 23 is fixedly connected on one side of the supporting base 1 far away from the first supporting frame 21, the limiting block 23 is contacted with the swinging plate 22, the multi-groove sliding plate 24 is slidably connected on the top of the swinging plate 22, the top of the multi-groove sliding plate 24 is provided with a plurality of sliding grooves in a transverse linear distribution manner, the pushing clamping frame 25 is fixedly connected on one side of the bottom of the multi-groove sliding plate 24, the supporting baffle frame 26 is fixedly connected on the multi-groove sliding plate 24, the supporting baffle frame 26 is used for blocking ore particles from water flow, the motor 27 is fixedly installed on the supporting base 1, motor 27 is used for providing power for this equipment, motor 27 output shaft one end fixedly connected with rotates wedge frame 28, it is the triangle-shaped structure to rotate wedge frame 28 top and be close to first support frame 21 one side, it is connected with support base 1 rotary type to rotate wedge frame 28, fixedly connected with first spur gear 29 on the rotation wedge frame 28, it is connected with second spur gear 210 to rotate the formula on the support base 1, second spur gear 210 meshes with first spur gear 29, fixedly connected with second support frame 211 on the support base 1, it is connected with spacing 212 to slide on the second support frame 211, recessed structure is adopted to spacing 212 top one side of spacing 212, spacing 212 and the spacing cooperation of second spur gear 210, spacing 212 and the contact of promotion card frame 25.

Outflow subassembly 3 is including slotted frame 31, inlet tube 3101, gag lever post 32, backup pad 33 and stop collar lever 34, swing the board 22 on the rotation type be connected with be used for storing the slotted frame 31 of water, the intercommunication has the inlet tube 3101 that is used for pouring water into slotted frame 31 inside on the slotted frame 31, slotted frame 31 outer wall one side fixedly connected with gag lever post 32, there is backup pad 33 stopper 23 upper portion one side through bolted connection, the sliding connection has stop collar lever 34 on the backup pad 33, stop collar lever 34 and gag lever post 32 sliding type connection.

The collecting assembly 4 comprises a first guide frame 41, a third supporting frame 42, a second guide frame 43 and a third guide frame 44, the first supporting frame 21 is connected with the first guide frame 41 used for collecting tailings through bolts, the supporting base 1 is fixedly welded with the third supporting frame 42, the third supporting frame 42 is fixedly connected with the second guide frame 43 used for collecting middlings, and the third supporting frame 42 is fixedly connected with the third guide frame 44 used for collecting concentrates.

The water inlet pipe 3101 is communicated with an external water supply pipe, the external water supply pipe is opened to enable water to flow into the slotted frame 31 through the water inlet pipe 3101, the water can flow onto the multi-slot sliding plate 24 through an opening at the bottom of the slotted frame 31, the ore particles to be sorted are manually poured into the frame at one side of the slotted frame 31 far away from the third support frame 42, the ore particles to be sorted are enabled to flow onto the multi-slot sliding plate 24 along with water flow, before that, the motor 27 is manually controlled to be started, the motor 27 drives the rotary wedge-shaped frame 28 and the upper device thereof to rotate forward through the output shaft, the first straight gear 29 drives the second straight gear 210 and the upper device thereof to rotate backward, the limiting frame 212 drives the pushing clamp frame 25 and the upper device to reciprocate, and the ore particle groups move along different directions under the effects of longitudinal water flow flushing and transverse shaking of the multi-slot sliding plate 24, so that the ore particles with different properties move along different directions, and the concentrate, the middlings and the tailings respectively flow to the third guide frame 44, the multi-slot sliding plate 24, The second guide frame 43 and the first guide frame 41, so as to realize the purpose of automatically sorting out concentrate, middling and tailings.

Example 2

On the basis of embodiment 1, as shown in fig. 9 to 10, the multi-groove sliding plate further includes a blocking assembly 5, the blocking assembly 5 for blocking water flow on the multi-groove sliding plate 24 is disposed on the supporting and blocking frame 26, the blocking assembly 5 includes a fourth supporting frame 51, a blocking frame 52, a first spring 53, an L-shaped supporting rod 54 and a C-shaped transmission frame 55, the supporting and blocking frame 26 is connected with the fourth supporting frame 51 through a bolt, the blocking frame 52 is slidably connected on the fourth supporting frame 51, the first spring 53 for driving the blocking frame 52 to reset is symmetrically connected between the blocking frame 52 and the fourth supporting frame 51, the L-shaped supporting rod 54 is fixedly welded on one side of the third supporting frame 42 away from the second supporting frame 211, the C-shaped transmission frame 55 is slidably connected on the L-shaped supporting rod 54, the C-shaped transmission frame 55 is C-shaped, and the C-shaped transmission frame 55 is fixedly connected with the blocking frame 52.

Still including stirring subassembly 6, stir subassembly 6 and locate on supporting base 1, stir subassembly 6 including fifth support frame 61, slide and dial frame 62 and fluting swing span 63, support base 1 and go up fixedly connected with fifth support frame 61, the frame 62 is dialled in the sliding connection on the fifth support frame 61, the rotation is connected with fluting swing span 63 on the fifth support frame 61, the spout has been opened to fluting swing span 63 both sides, fluting swing span 63 and C shape driving frame 55, the equal spacing cooperation of frame 62 is dialled in the slip.

Then, the sliding shifting frame 62 is pushed to move upwards by rotating the wedge-shaped frame 28, the C-shaped transmission frame 55 and the device thereon move downwards under the action of the slotted swing frame 63, the first spring 53 is compressed therewith, so that the blocking frame 52 blocks the multi-slot sliding plate 24 into two parts, water flow to the third guide frame 44 and the second guide frame 43 can be increased, the separation efficiency of concentrate and middlings is increased, then the rotating wedge-shaped frame 28 is separated from the sliding shifting frame 62, the first spring 53 is reset therewith and drives the blocking frame 52 and the device thereon to reset, the sliding shifting frame 62 is reset therewith under the action of the slotted swing frame 63, and the effect of efficiently separating the ore particles is achieved.

Example 3

On the basis of the embodiment 2, as shown in fig. 11, the mine tailing pond further comprises a top turning frame 7, and the bottom of the swinging plate 22 is fixedly connected with the top turning frame 7 for pouring out the residual mine tailing on the multi-groove sliding plate 24.

Then, the turning top frame 7 and the devices thereon are pushed to move upwards by rotating the wedge-shaped frame 28, the swinging plate 22 and the devices thereon swing, so that the residual tailings on the multi-groove sliding plate 24 fall onto the first guide frame 41, in the process, the slotted frame 31 and the devices thereon are always in a vertical state through the matching of the limiting sleeve rod 34, the limiting rod 32 and the devices thereon, and a large amount of water in the slotted frame 31 is prevented from being poured out, so that the separation of the ore particles is not influenced, then, the turning wedge-shaped frame 28 is separated from the turning top frame 7, the turning top frame 7 and the devices thereon are reset under the action of gravity, and the purpose of efficiently treating the tailings is realized through the above operations.

Example 4

On the basis of embodiment 3, as shown in fig. 12 to 14, the ore grain sorting device further includes a stirring assembly 8 for improving efficiency of sorting ore grains, the stirring assembly 8 is disposed on the supporting base 1, the stirring assembly 8 includes a sixth supporting frame 81, a pushing frame 82, a return spring 821, a T-shaped supporting frame 83, a rack frame 84, a second spring 85, a stirring frame 86, an overrunning clutch 87 and a third spur gear 88, the supporting base 1 is fixedly connected with the sixth supporting frame 81, the pushing frame 82 is slidably connected with the sixth supporting frame 81, the pushing frame 82 is in contact with the rotating wedge frame 28, the return spring 821 for driving the pushing frame 82 to return is connected between the pushing frame 82 and the sixth supporting frame 81, the T-shaped supporting frame 83 is connected to the outer wall of the slotted frame 31 through a bolt, the T-shaped supporting frame 83 is T-shaped, the rack frame 84 is slidably connected to the T-shaped supporting frame 83, the second spring 85 for driving the rack frame 84 to return is connected between the slotted frame 84 and the slotted frame 31, the inside rotary type of fluting frame 31 is connected with and is used for stirring the frame 86 that fully stirs to the ore grain, and fixedly connected with freewheel clutch 87 on stirring the frame 86, and fixedly connected with third straight-toothed gear 88 on freewheel clutch 87, third straight-toothed gear 88 and rack 84 meshing.

Then the pushing frame 82 is pushed to move by rotating the wedge frame 28, the homing spring 821 is stretched accordingly, the pushing frame 82 pushes the rack frame 84 to move upwards and drive the third spur gear 88 and the upper device thereof to rotate, the second spring 85 is stretched accordingly, so that the stirring frame 86 stirs the ore particles in the frame of the open slot frame 31 close to the T-shaped support frame 83 sufficiently to improve the separation efficiency of the ore particles, then the rotating wedge frame 28 is separated from the pushing frame 82, the pushing frame 82 is reset accordingly under the reset action of the homing spring 821, the second spring 85 is reset accordingly and drives the pushing rack frame 84 to reset accordingly, the pushing rack frame 84 drives the third spur gear 88 and the upper device thereof to rotate reversely, the stirring frame 86 cannot rotate under the action of the overrunning clutch 87, and the ore particles in the frame of the open slot frame 31 close to the T-shaped support frame 83 are separated at the moment, therefore, agitation is not required, and the effect of effectively improving the sorting efficiency is achieved by the above operation.

Example 5

On the basis of embodiment 4, as shown in fig. 15 to 16, the device further includes an outflow control assembly 9, the outflow control assembly 9 for controlling water flow is disposed on the slotted frame 31, the outflow control assembly 9 includes a baffle frame 91, a slide rail frame 92, a slotted buoyancy frame 93, a blocking frame 94 and a screen 95, the baffle frame 91 is slidably connected to the outer bottom of the slotted frame 31, the slide rail frame 92 is symmetrically and fixedly connected to the inner wall of the slotted frame 31, the slide rail frame 92 is I-shaped, the slotted buoyancy frame 93 is slidably connected between the two slide rail frames 92, the slotted buoyancy frame 93 has the characteristic of small mass, the slotted buoyancy frame 93 is in limit fit with the baffle frame 91, the blocking frame 94 is fixedly connected to the slotted buoyancy frame 93, the blocking frame 94 is used for blocking the water inlet pipe 3101, the blocking frame 94 is in contact with the slotted frame 31, and the screen 95 for blocking ore particles is fixedly connected to the slotted frame 31.

Along with the rising of the water level in the slotted frame 31, the slotted buoyancy frame 93 moves upwards under the action of buoyancy, the slotted buoyancy frame 93 drives the baffle frame 91 to move towards the direction away from the fourth support frame 51, so that the baffle frame 91 is opened, water in the slotted frame 31 can flow onto the multi-slot sliding plate 24 through the opening at the bottom of the slotted frame, when the water level in the slotted frame 31 falls, the slotted buoyancy frame 93 resets and drives the baffle frame 91 to reset, when the water level in the slotted frame 31 rises to a certain height, the blocking frame 94 can block the water inlet pipe 3101 to prevent the water in the slotted frame 31 from overflowing due to excessive water, when the water level in the slotted frame 31 falls, the blocking frame 94 opens, and when the water level in the slotted frame 31 falls, a part of mineral particles in the frame at one side, close to the T-shaped support frame 83, of the slotted frame 31 can be prevented from entering the other side of the slotted frame 31 by the screen 95 when the stirring frame 86 stirs the mineral particles in the side, the slotted frame is not only one side of the T-shaped support frame 83, the function of blocking the ore particles is achieved, the purpose of controlling the water quantity in the slotted frame 31 is achieved through the operation, finally, the motor 27 is manually controlled to stop running, and the ore particles can be efficiently sorted again through repeating the operation.

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

1. The utility model provides a mineral processing is with high-efficient shaking table of tailing of being convenient for handle, characterized by, including supporting base (1), reciprocal subassembly (2), outflow subassembly (3) and collection subassembly (4):

the reciprocating assembly (2) is arranged on the supporting base (1), and the reciprocating assembly (2) is used for reciprocating rock ore particles;

the outflow assembly (3) is arranged on the reciprocating assembly (2), and the outflow assembly (3) is used for enabling water to flow onto the reciprocating assembly (2) and has the function of flushing ore particles on the reciprocating assembly (2);

the collecting component (4) is arranged on the supporting base (1), and the collecting component (4) is used for collecting separated ore particles.

2. The efficient shaking table for mineral processing and convenient tailing treatment according to claim 1, characterized in that the reciprocating assembly (2) comprises a first supporting frame (21), a swinging plate (22), a limiting block (23), a multi-groove sliding plate (24), a pushing clamping frame (25), a supporting baffle frame (26), a motor (27), a rotating wedge-shaped frame (28), a first straight gear (29), a second straight gear (210), a second supporting frame (211) and a limiting frame (212), the first supporting frame (21) is connected on the supporting base (1) through bolts, the swinging plate (22) is rotatably connected on the first supporting frame (21), the limiting block (23) is fixedly connected on the supporting base (1), the limiting block (23) is in contact with the swinging plate (22), the multi-groove sliding plate (24) is slidably connected on the top of the swinging plate (22), the pushing clamping frame (25) is fixedly connected on one side of the bottom of the multi-groove sliding plate (24), fixedly connected with supports on multislot sliding plate (24) and keeps off frame (26), fixed mounting has motor (27) on supporting base (1), motor (27) output shaft one end fixedly connected with rotates wedge frame (28), it is connected with supporting base (1) rotary type to rotate wedge frame (28), fixedly connected with first straight gear (29) on rotating wedge frame (28), it is connected with second straight gear (210) to rotate on supporting base (1), second straight gear (210) and first straight gear (29) meshing, fixedly connected with second support frame (211) on supporting base (1), sliding type is connected with spacing (212) on second support frame (211), spacing (212) and second straight gear (210) spacing cooperation, spacing (212) and promotion card frame (25) contact.

3. The efficient shaking table for mineral processing and convenient tailing treatment according to claim 2, characterized in that the outflow assembly (3) comprises a slotted frame (31), a water inlet pipe (3101), a limiting rod (32), a support plate (33) and a limiting sleeve rod (34), the slotted frame (31) is rotatably connected to the swinging plate (22), the water inlet pipe (3101) is communicated with the slotted frame (31), the limiting rod (32) is fixedly connected to one side of the outer wall of the slotted frame (31), the support plate (33) is connected to one side of the upper part of the limiting rod (23) through a bolt, the limiting sleeve rod (34) is slidably connected to the support plate (33), and the limiting sleeve rod (34) is slidably connected to the limiting rod (32).

4. The efficient shaking table for mineral processing convenient to treat tailings according to claim 3, wherein the collecting assembly (4) comprises a first guide frame (41), a third support frame (42), a second guide frame (43) and a third guide frame (44), the first guide frame (41) is connected to the first support frame (21) through bolts, the third support frame (42) is fixedly welded to the support base (1), the second guide frame (43) is fixedly connected to the third support frame (42), and the third guide frame (44) is fixedly connected to the third support frame (42).

5. The efficient shaking table for mineral processing and convenient tailing treatment according to claim 4, characterized by further comprising a blocking component (5), wherein the blocking component (5) is arranged on the supporting blocking frame (26), the blocking component (5) comprises a fourth supporting frame (51) and a blocking frame (52), first spring (53), L shape bracing piece (54) and C shape driving frame (55), there is fourth support frame (51) through bolted connection on support blocking frame (26), sliding connection has separation frame (52) on fourth support frame (51), symmetrical connection has first spring (53) between separation frame (52) and fourth support frame (51), fixed welding has L shape bracing piece (54) on third support frame (42), sliding connection has C shape driving frame (55) on L shape bracing piece (54), C shape driving frame (55) and separation frame (52) fixed connection.

6. The efficient shaking table for mineral separation convenient to treat tailings according to claim 5, further comprising a stirring assembly (6), wherein the stirring assembly (6) is arranged on the supporting base (1), the stirring assembly (6) comprises a fifth supporting frame (61), a sliding stirring frame (62) and a slotting swing frame (63), the fifth supporting frame (61) is fixedly connected to the supporting base (1), the sliding stirring frame (62) is slidably connected to the fifth supporting frame (61), the slotting swing frame (63) is rotatably connected to the fifth supporting frame (61), and the slotting swing frame (63) is in limit fit with both the C-shaped transmission frame (55) and the sliding stirring frame (62).

7. The efficient shaking table for mineral processing and convenient tailing treatment according to claim 6, characterized by further comprising a top turning frame (7), wherein the top turning frame (7) is fixedly connected to the bottom of the swing plate (22).

8. The efficient shaking table convenient for treating tailings for mineral separation according to claim 7, which is characterized by further comprising a stirring assembly (8), wherein the stirring assembly (8) is arranged on the supporting base (1), the stirring assembly (8) comprises a sixth supporting frame (81), a pushing frame (82), a homing spring (821), a T-shaped supporting frame (83), a rack frame (84), a second spring (85), a stirring frame (86), an overrunning clutch (87) and a third straight gear (88), the sixth supporting frame (81) is fixedly connected to the supporting base (1), the pushing frame (82) is slidably connected to the sixth supporting frame (81), the pushing frame (82) is in contact with the rotating wedge-shaped frame (28), the homing spring (821) is connected between the pushing frame (82) and the sixth supporting frame (81), the T-shaped supporting frame (83) is fixedly connected to the outer wall of the slotted frame (31), the T-shaped support frame (83) is connected with a rack frame (84) in a sliding mode, a second spring (85) is connected between the rack frame (84) and the slotting frame (31), the slotting frame (31) is connected with a stirring frame (86) in a rotating mode, an overrunning clutch (87) is fixedly connected onto the stirring frame (86), a third straight gear (88) is fixedly connected onto the overrunning clutch (87), and the third straight gear (88) is meshed with the rack frame (84).

9. The efficient shaking table for mineral processing convenient for tailings treatment according to claim 8, further comprising an outflow control assembly (9), wherein the outflow control assembly (9) is arranged on the slotted frame (31), the outflow control assembly (9) comprises a baffle frame (91) and a slide rail frame (92), fluting buoyancy frame (93), block up frame (94) and screen cloth (95), fluting frame (31) outer bottom sliding type is connected with baffle frame (91), symmetry fixedly connected with slide rail frame (92) on fluting frame (31) inner wall, common sliding type is connected with fluting buoyancy frame (93) between two slide rail frames (92), fluting buoyancy frame (93) and baffle frame (91) spacing cooperation, fixedly connected with blocks up frame (94) on fluting buoyancy frame (93), block up frame (94) and fluting frame (31) contact, fixedly connected with screen cloth (95) on fluting frame (31).