CN114798152B - Shaking table convenient for collecting mineral aggregate - Google Patents

Abstract

The invention discloses a cradle convenient for collecting mineral aggregate, which relates to the technical field of mineral processing equipment and comprises a cradle mechanism, a driving mechanism, an adjusting mechanism and a collecting mechanism, wherein the driving mechanism, the collecting mechanism and the adjusting mechanism are arranged on the cradle mechanism, the driving mechanism is used for providing power for the cradle mechanism, and the adjusting mechanism is used for adjusting the angle of the cradle mechanism; according to the invention, the shaking table mechanism is arranged to perform vibration separation and water flow flushing on mineral aggregates; the invention can recycle the working water and provide power for the shaking table by arranging the driving mechanism; according to the invention, the collecting mechanism is arranged, so that the water flow can be adjusted according to the quality of mineral aggregate to improve the separation efficiency, and the positioning and the collection of the mineral aggregate discharge level can be performed while the water flow is adjusted.

Description

Shaking table convenient for collecting mineral aggregate

Technical Field

The invention relates to the technical field of mineral processing equipment, in particular to a shaking table convenient for collecting mineral materials.

Background

The concentrating table is a gravity concentrating device with wide application, and the separating of the target mineral and the gangue mineral is realized by the combined action of mechanical vibration and water flow flushing by utilizing the specific gravity difference of the target mineral and the gangue mineral. Because the mineral separation effect of the concentrating table is influenced by the specific gravity difference between the target mineral and the gangue mineral and the size fraction composition of the mineral, for the mineral with smaller specific gravity difference and finer granularity composition, the target mineral and the gangue mineral cannot be effectively separated only by mechanical vibration and water flow flushing, and the problems of low recovery rate, poor separation effect and insufficient processing capacity exist in the separation processing process. The invention patent with the publication number of CN104128247B discloses a bottom sliding concentrating table, which comprises a transmission case, a motor, a slope regulator, a bed surface, a mineral groove, a water tank, a connecting screw and a machine base, wherein the motor drives the transmission case, the bed surface is arranged on the slope regulator, the slope regulator is arranged on the machine base, the mineral groove and the water tank are arranged on the bed surface, the transmission case and the motor are arranged on a machine frame at the lower part of the bed surface, the connecting part of the transmission case and the bed surface comprises a connecting mechanism and a stabilizing mechanism, and the connecting mechanism comprises a connecting plate, a connecting shaft and a linkage seat which are welded at the bottom of the bed surface. Although this patent can separate minerals, the following problems also exist: (1) the water flow cannot be adjusted according to the mineral aggregate quality; (2) the position of the collection bin cannot be adjusted; (3) the working water cannot be recycled.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a shaking table convenient to collect mineral aggregate, includes shaking table mechanism, actuating mechanism, adjustment mechanism, still includes collection mechanism, actuating mechanism, collection mechanism, adjustment mechanism all set up on shaking table mechanism, actuating mechanism be used for providing power for shaking table mechanism, adjustment mechanism be used for adjusting shaking table mechanism's angle; the collecting mechanism comprises a driving assembly, a water baffle and a collecting box, and the driving assembly is respectively connected with the water baffle and the collecting box; the driving assembly comprises a bracket four, a rack, a diagonal rod and a linkage unit, wherein the rack is slidably arranged on the bracket four, the rack is connected with the diagonal rod through a fixing plate, the diagonal rod is obliquely arranged, the diagonal rod and the water baffle are slidably arranged, when the rack moves towards the direction close to the water baffle, the diagonal rod drives the water baffle to lift along the vertical direction, the rack drives the collecting box to horizontally move through the linkage unit, and the moving directions of the collecting box and the rack are opposite.

Further, the linkage unit include connecting rod, movable plate, gas tank, connecting chamber, plunger, first end and rack fixed mounting of connecting rod, the second end of connecting rod passes through push rod and movable plate fixed mounting, the inside slidable mounting of movable plate at the gas tank, gas tank and connecting chamber intercommunication, the inside slidable mounting of connecting chamber has the plunger, the plunger passes through link and collection box fixed mounting.

Further, shaking table mechanism include bed surface, receipts ore deposit groove, water tank, supporting component, shake the subassembly, the bed surface slope sets up, shake subassembly and bed surface link to each other, supporting component set up in the both sides of bed surface, receipts ore deposit groove and water tank intercommunication are provided with the filter screen between receipts ore deposit groove and the water tank, the inside of water tank is provided with the filter screen.

Further, the shaking assembly comprises a first bracket, a sliding rod and a connecting plate, wherein the sliding rod is fixedly arranged at two ends of the connecting plate, the sliding rod is slidably arranged on the first bracket, and the sliding rod and the bed surface are rotatably arranged.

Further, the driving mechanism comprises a power assembly and a pumping assembly, and the power assembly is connected with the pumping assembly.

Further, the power component comprises a connecting shaft, a rotating rod and a connecting rod, wherein the connecting shaft is fixedly arranged at the first end of the rotating rod, the second end of the rotating rod is rotatably arranged at the first end of the connecting rod, and the second end of the connecting rod is rotatably arranged at the connecting plate.

Further, the pumping assembly comprises a first water pipe, a water pump shell, a second water pipe, an impeller and a transmission unit, wherein the transmission unit is connected with the connecting shaft, the transmission unit is connected with the impeller, the impeller is arranged in the water pump shell, the water pump shell is communicated with the second water pipe, the second water pipe is communicated with the inside of the water tank, the water pump shell is communicated with the first water pipe, and the first water pipe is communicated with the water supply mouth.

Further, the adjusting mechanism comprises a top plate and a top rod, wherein the top plate is obliquely arranged, and the top plate moves to drive the top rod to lift.

Compared with the prior art, the invention has the beneficial effects that: (1) According to the invention, the shaking table mechanism is arranged to perform vibration separation and water flow flushing on mineral aggregates; (2) The invention can recycle the working water and provide power for the shaking table by arranging the driving mechanism; (3) According to the invention, the collecting mechanism is arranged, so that the water flow size can be adjusted according to the quality of mineral aggregate to improve the separation efficiency, and the positioning and the collection of the mineral aggregate discharge level can be performed while the water flow size is adjusted.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic diagram of the overall internal structure of the present invention.

FIG. 3 is a schematic diagram of the structure of the shaking table mechanism of the invention.

FIG. 4 is a side view of the swing mechanism of the present invention.

Fig. 5 is a partial enlarged view of a portion a in fig. 4.

FIG. 6 is a schematic view of a part of the structure of the shaking table mechanism of the present invention.

Fig. 7 is a schematic structural view of a driving mechanism of the present invention.

Fig. 8 is a schematic view of a part of the driving mechanism of the present invention.

Fig. 9 is a schematic view of another partial structure of the driving mechanism of the present invention.

FIG. 10 is a schematic view of the structure of the collecting mechanism of the present invention.

FIG. 11 is a schematic view of another angular configuration of the collection mechanism of the present invention.

FIG. 12 is a schematic view of the adjusting mechanism of the present invention.

Reference numerals: 1-a shaking table mechanism; 2-a driving mechanism; 3-a collection mechanism; 4-an adjusting mechanism; 101-a base; 102-bed surface; 103-a ore feeding port; 104-a ore collecting tank; 105-filtering net; 106-a water tank; 107-springs; 108-supporting rods; 109-a support plate; 110-arc chute; a 111-limiting block; 112-a slider; 113-first bracket; 114-slide bar; 115-connecting plates; 201-a second bracket; 202-feeding mouth; 203-first water pipe; 204-motor one; 205-connecting shaft; 206-rotating the rod; 207-connecting rod; 208-synchronous belt; 209-a water pump housing; 210-third bracket; 211-a second water pipe; 212-pump shaft; 213-gear shaft; 214-first bevel gear; 215-bevel gear two; 216-impeller; 301-a bracket IV; 302-motor two; 303-a gear; 304-rack; 305-a fixed plate; 306-diagonal bar; 307-water baffle; 308-connecting rods; 309-push rod; 310-moving plate; 311-gas box; 312-connecting the cavities; 313-plunger; 314-a connection rack; 315-collecting box; 401-fifth bracket; 402-electric cylinder; 403-riser; 404-top plate; 405-ejector rod; 406-a limiting frame.

Detailed Description

The technical scheme of the invention is further described below by the specific embodiments with reference to the accompanying drawings.

Wherein the drawings are for illustrative purposes only and are shown in schematic, non-physical, and not intended to be limiting of the present patent; for the purpose of better illustrating embodiments of the invention, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the size of the actual product; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Examples: as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, a cradle convenient for collecting mineral aggregate comprises a cradle mechanism 1, a driving mechanism 2, an adjusting mechanism 4, and a collecting mechanism 3, wherein the driving mechanism 2, the collecting mechanism 3 and the adjusting mechanism 4 are all arranged on the cradle mechanism 1, the driving mechanism 2 is used for providing power for the cradle mechanism 1, and the adjusting mechanism 4 is used for adjusting the angle of the cradle mechanism 1.

The shaking table mechanism 1 comprises a base 101, a bed surface 102, a mineral feeding port 103, a mineral receiving tank 104, a filter screen 105, a water tank 106, a supporting component and a shaking component, wherein the bed surface 102 is obliquely arranged, a plurality of grooves are formed in the length direction of the bed surface 102, the mineral feeding port 103 is arranged on one side of the bed surface 102, the mineral feeding port 103 is fixedly arranged on the base 101, a discharge port is formed in the mineral feeding port 103, the mineral receiving tank 104 is arranged on the base 101, the mineral receiving tank 104 is arranged at a mineral material outlet, the mineral receiving tank 104 is communicated with the water tank 106, the filter screen 105 is arranged between the mineral receiving tank 104 and the water tank 106, the filter screen is arranged in the water tank 106, the filter screen is used for filtering wastewater, the supporting board is arranged on the outer side of the water tank 106, the shaking component is connected with the bed surface 102, the supporting component is arranged on two sides of the bed surface 102, and the supporting component and the shaking component are arranged on the base 101.

The support assembly comprises a spring 107, a support rod 108, a support plate 109, an arc chute 110, a limiting block 111 and a sliding block 112, wherein the support rod 108 is slidably mounted on the support plate on the outer side of the water tank 106, the spring 107 is sleeved on the support rod 108, the first end of the spring 107 is fixedly mounted on the support plate on the outer side of the water tank 106, the second end of the spring 107 is fixedly mounted on the support rod 108, the top of the support rod 108 is in contact fit with the bed surface 102, the support rod 108 is used for supporting one end of the bed surface 102, the support plate 109 is fixedly mounted on the base 101, the support plate 109 and the arc chute 110 are slidably mounted, the sliding block 112 is slidably mounted on the arc chute 110, the limiting block 111 is fixedly mounted at two ends of the sliding block 112, the sliding block 112 and the bed surface 102 are fixedly mounted, when the bed surface 102 rotates, the sliding block 112 performs circular motion, an arc groove is formed in the arc chute 110, and the motion track of the arc groove and the sliding block 112 is identical.

The shaking assembly comprises a first bracket 113, a sliding rod 114 and a connecting plate 115, wherein the sliding rod 114 is fixedly arranged at two ends of the connecting plate 115, the sliding rod 114 is slidably arranged on the first bracket 113, the first bracket 113 is fixedly arranged on the base 101, the sliding rod 114 and the bed surface 102 are rotatably arranged, and the bed surface 102 cannot slide along the radial direction of the sliding rod 114.

The driving mechanism 2 comprises a power component and a pumping component, wherein the power component and the pumping component are arranged on the base 101, and the power component is connected with the pumping component.

The power assembly comprises a first motor 204, a connecting shaft 205, a rotating rod 206 and a connecting rod 207, wherein the first motor 204 is fixedly arranged on the base 101, an output shaft of the first motor 204 is fixedly arranged on the connecting shaft 205, the connecting shaft 205 is fixedly arranged on the first end of the rotating rod 206, the second end of the rotating rod 206 is rotatably arranged on the first end of the connecting rod 207, and the second end of the connecting rod 207 is rotatably arranged on the connecting plate 115.

The pumping assembly comprises a second bracket 201, a water feeding port 202, a first water pipe 203, a second water pump shell 209, a third bracket 210, a second water pipe 211, a pump shaft 212, an impeller 216 and a transmission unit, wherein the transmission unit is connected with a connecting shaft 205, the transmission unit is connected with the impeller 216 through the pump shaft 212, the impeller 216 is arranged in the water pump shell 209, the impeller 216 is fixedly arranged on the third bracket 210, the third bracket 210 is fixedly arranged on the base 101, the water pump shell 209 is communicated with the second water pipe 211, the second water pipe 211 is communicated with the inside of the water tank 106, the water pump shell 209 is communicated with the first water pipe 203, the first water pipe 203 is communicated with the water feeding port 202, the water feeding port 202 is fixedly arranged on the second bracket 201, and a water outlet is arranged on the water feeding port 202, and the second bracket 201 is fixedly arranged on the base 101.

The transmission unit comprises a synchronous belt 208, a gear shaft 213, a first bevel gear 214 and a second bevel gear 215, wherein the gear shaft 213 is rotatably arranged on the base 101, the gear shaft 213 is connected with the connecting shaft 205 through the synchronous belt 208, the gear shaft 213 is fixedly arranged with the first bevel gear 214, the first bevel gear 214 is meshed with the second bevel gear 215, and the second bevel gear 215 is fixedly arranged with the pump shaft 212.

The collecting mechanism 3 comprises a driving assembly, a water baffle 307 and a collecting box 315, wherein the driving assembly is arranged on the base 101 and is respectively connected with the water baffle 307 and the collecting box 315.

The driving assembly comprises a bracket IV 301, a motor II 302, a gear 303, a rack 304, a fixing plate 305, an inclined rod 306 and a linkage unit, wherein the bracket IV 301 is fixedly arranged on the base 101, the rack 304 is slidably arranged on the bracket IV 301, the motor II 302 is fixedly arranged on the bracket IV 301, an output shaft of the motor II 302 and the gear 303 are fixedly arranged, the gear 303 and the rack 304 are in meshed installation, the fixing plate 305 is fixedly arranged on the rack 304, two inclined rods 306 are fixedly arranged on the fixing plate 305, the inclined rods 306 are obliquely arranged, the inclined rods 306 and the water baffle 307 are slidably arranged, the water baffle 307 is slidably arranged on the water feeding port 202, when the rack 304 moves towards the direction close to the water baffle 307, the inclined rods 306 drive the water baffle 307 to rise along the vertical direction, the rack 304 drives the collecting box 315 to horizontally move through the linkage unit, and the moving directions of the collecting box 315 and the rack 304 are opposite.

The linkage unit includes connecting rod 308, push rod 309, movable plate 310, gas tank 311, connecting chamber 312, plunger 313, link 314, the first end and the rack 304 fixed mounting of connecting rod 308, the second end of connecting rod 308 passes through push rod 309 and movable plate 310 fixed mounting, movable plate 310 slidable mounting in the inside of gas tank 311, gas tank 311 fixed mounting is on backup pad 109, gas tank 311 and connecting chamber 312 intercommunication, connecting chamber 312 and gas tank 311 fixed mounting, the inside slidable mounting of connecting chamber 312 has plunger 313, plunger 313 passes through link 314 and collecting box 315 fixed mounting.

The adjusting mechanism 4 comprises a fifth bracket 401, an electric cylinder 402, a vertical plate 403, a top plate 404, a top plate 405 and a limiting frame 406, wherein the fifth bracket 401 is fixedly arranged on the base 101, the electric cylinder 402 is fixedly arranged on the fifth bracket 401, a telescopic rod of the electric cylinder 402 and the vertical plate 403 are fixedly arranged on the vertical plate 403, the top plate 404 is obliquely arranged, the limiting frame 406 is fixedly arranged on the base 101, the top plate 405 is slidably arranged on the limiting frame 406, a first end of the top plate 405 is in contact fit with an inclined surface of the top plate 404, a second end of the top plate 405 is in contact fit with the bed surface 102, and the top plate 404 moves to drive the top plate 405 to lift.

The working principle of the invention is as follows: when the device is used, mineral aggregate is put into the ore mouth 103 and then enters the bed surface 102 through the discharge hole of the ore mouth 103, the first motor 204 drives the connecting shaft 205 to rotate, the connecting shaft 205 drives the rotating rod 206 to rotate, the rotating rod 206 drives the connecting plate 115 to reciprocate through the connecting rod 207, the sliding rods 114 at two ends of the connecting plate 115 slide on the first bracket 113, and the sliding rods 114 drive the bed surface 102 to synchronously move, so that the mineral aggregate on the bed surface 102 is separated by vibration; while the connecting shaft 205 rotates, the connecting shaft 205 drives the gear shaft 213 to rotate through the synchronous belt 208, the gear shaft 213 drives the first bevel gear 214 to rotate, the first bevel gear 214 drives the second bevel gear 215 to rotate, the second bevel gear 215 drives the pump shaft 212 to rotate, the pump shaft 212 drives the impeller 216 to rotate, and the impeller 216 pumps water in the water tank 106 into the water feeding mouth 202 through the first water pipe 203 through the second water pipe 211, so that mineral aggregate is washed.

The second motor 302 drives the rack 304 to move through the gear 303, the rack 304 drives the inclined rod 306 to synchronously move through the fixed plate 305, the inclined rod 306 moves to drive the water baffle 307 to slide in the water feeding mouth 202, and the size of the water outlet of the water feeding mouth 202 can be changed when the water baffle 307 moves; the rack 304 moves, the movable plate 310 is driven to move in the air tank 311 through the connecting rod 308 and the push rod 309, the air tank 311 moves to enable the plunger 313 in the connecting cavity 312 to move in an air compression mode, the plunger 313 moves to drive the collecting box 315 to synchronously move through the connecting frame 314, so that the position of the collecting box 315 is synchronously controlled while the water flow is controlled, other materials enter the ore collecting tank 104, when the impeller 216 works, water in the ore collecting tank 104 is filtered through the filter screen 105 and then enters the water tank 106, and water flowing out of the side face of the bed surface 102 is collected and filtered by the water tank 106 to recycle working water.

When the inclination of the bed surface 102 needs to be adjusted, the electric cylinder 402 is started, the telescopic rod of the electric cylinder 402 drives the vertical plate 403 to move, the top plate 404 moves synchronously, the top rod 405 slides on the inclined surface of the top plate 404, the top rod 405 is lifted, the top rod 405 drives the bed surface 102 to rotate around the sliding rod 114, meanwhile, the sliding block 112 slides in the arc groove of the arc chute 110, when the top rod 405 is lifted, the bed surface 102 compresses the spring 107 through the supporting rod 108, and when the top rod 405 is lifted, the spring 107 drives the supporting rod 108 to reset.

The present invention is not limited to the above-described embodiments, and various modifications are possible within the scope of the present invention without inventive labor, as those skilled in the art will recognize from the above-described concepts.

Claims (2)

1. The utility model provides a shaking table convenient to collect mineral aggregate, includes shaking table mechanism (1), actuating mechanism (2), adjustment mechanism (4), its characterized in that: the device also comprises a collecting mechanism (3), wherein the driving mechanism (2), the collecting mechanism (3) and the adjusting mechanism (4) are arranged on the shaking table mechanism (1), the driving mechanism (2) is used for providing power for the shaking table mechanism (1), and the adjusting mechanism (4) is used for adjusting the angle of the shaking table mechanism (1);

the collecting mechanism (3) comprises a driving assembly, a water baffle (307) and a collecting box (315), and the driving assembly is respectively connected with the water baffle (307) and the collecting box (315);

the driving assembly comprises a bracket IV (301), a rack (304), an inclined rod (306) and a linkage unit, wherein the rack (304) is slidably arranged on the bracket IV (301), the rack (304) is connected with the inclined rod (306) through a fixing plate (305), the inclined rod (306) is obliquely arranged, the inclined rod (306) and the water baffle (307) are slidably arranged, when the rack (304) moves towards the direction close to the water baffle (307), the inclined rod (306) drives the water baffle (307) to lift along the vertical direction, the rack (304) drives a collecting box (315) to horizontally move through the linkage unit, and the moving directions of the collecting box (315) and the rack (304) are opposite;

the linkage unit comprises a connecting rod (308), a moving plate (310), an air box (311), a connecting cavity (312) and a plunger (313), wherein a first end of the connecting rod (308) is fixedly installed with a rack (304), a second end of the connecting rod (308) is fixedly installed with the moving plate (310) through a push rod (309), the moving plate (310) is slidably installed in the air box (311), the air box (311) is communicated with the connecting cavity (312), the plunger (313) is slidably installed in the connecting cavity (312), and the plunger (313) is fixedly installed with a collecting box (315) through a connecting frame (314);

the shaking table mechanism (1) comprises a bed surface (102), a mineral collecting tank (104), a water tank (106), a supporting component and a shaking component, wherein the bed surface (102) is obliquely arranged, the shaking component is connected with the bed surface (102), the supporting component is arranged at two sides of the bed surface (102), the mineral collecting tank (104) is communicated with the water tank (106), and a filter screen is arranged between the mineral collecting tank (104) and the water tank (106);

the shaking assembly comprises a first bracket (113), a sliding rod (114) and a connecting plate (115), wherein the sliding rod (114) is fixedly arranged at two ends of the connecting plate (115), the sliding rod (114) is slidably arranged on the first bracket (113), and the sliding rod (114) and the bed surface (102) are rotatably arranged;

the driving mechanism (2) comprises a power assembly and a water pumping assembly, and the power assembly is connected with the water pumping assembly;

the power assembly comprises a connecting shaft (205), a rotating rod (206) and a connecting rod (207), wherein the connecting shaft (205) is fixedly arranged at the first end of the rotating rod (206), the second end of the rotating rod (206) is rotatably arranged at the first end of the connecting rod (207), and the second end of the connecting rod (207) is rotatably arranged at the connecting plate (115);

the water pumping assembly comprises a first water pipe (203), a second water pipe (209), an impeller (216) and a transmission unit, wherein the transmission unit is connected with a connecting shaft (205), the transmission unit is connected with the impeller (216), the impeller (216) is arranged inside the first water pipe (209), the second water pipe (211) is communicated with the second water pipe (211), the second water pipe (211) is communicated with the inside of the water tank (106), the first water pipe (203) is communicated with the first water pipe (209), and the first water pipe (203) is communicated with a water supply port (202).

2. A cradle for facilitating the collection of mineral aggregate as defined in claim 1, wherein: the adjusting mechanism (4) comprises a top plate (404) and a top rod (405), wherein the top plate (404) is obliquely arranged, and the top plate (404) moves to drive the top rod (405) to lift.