CN219150381U - Mineral separation table for zirconium middling - Google Patents
Mineral separation table for zirconium middling Download PDFInfo
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- CN219150381U CN219150381U CN202320285326.8U CN202320285326U CN219150381U CN 219150381 U CN219150381 U CN 219150381U CN 202320285326 U CN202320285326 U CN 202320285326U CN 219150381 U CN219150381 U CN 219150381U
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Abstract
The utility model discloses a mineral separation table for zirconium middlings, which comprises a bed frame, a moving component, a bed body, a mineral separation component and a driving component, wherein the moving component is arranged above the bed frame, the bed body is fixedly connected above the moving component, the mineral separation component is arranged on the bed body, the mineral separation component comprises a water collecting tank, a mineral feeding tank, a main process water tank and a secondary process water tank, the water collecting tank is arranged above the bed body and near one side, the mineral feeding tank, the main process water tank and the secondary process water tank are sequentially arranged at the upper end of the water collecting tank from left to right, and the bottoms of the mineral feeding tank, the main process water tank and the secondary process water tank are respectively communicated with the water collecting tank; a driving component is arranged on the bed frame at the front side of the bed body, and the driving component is fixedly connected with the moving component so as to drive the bed body to move relative to the bed frame; solves the problems of poor separation effect, low efficiency and the like of the existing zirconium middling separation shaking table, realizes high separation efficiency, has good effect, and simultaneously does not have the condition that the screen is blocked by ore, thereby reducing the maintenance cost of equipment.
Description
Technical Field
The utility model relates to the field of concentrating tables, in particular to a concentrating table for a zirconium middling ore.
Background
A concentrating table is a common device for separating fine ore; the mineral separation table can enable mineral grains to move along different directions according to different densities and particle sizes, and spread in a sector along a diagonal line from a mineral feeding groove, and are sequentially discharged along the edge of a bed surface, so that the mineral discharge line is long, and products with different qualities, such as concentrate, secondary concentrate, medium concentrate, tailings and the like, can be accurately produced; the concentrating table is used as a gravity separation device, is widely used for separating minerals such as placer gold and the like, and is mainly used for gold separation, coal separation and the like.
The main components of the zircon middling in the mineral production are as follows: ilmenite concentrate and titanium dioxide are separated to zirconium middling in the prior art, and separation is often carried out by adopting a shaking table from top to bottom, so that the separation efficiency is poor, meanwhile, the screen is easy to be blocked due to the fact that the ore falls from top to bottom, the separation cannot be carried out continuously, and the working efficiency is affected.
Disclosure of Invention
The utility model provides a concentrating table for a zirconium middling, which aims to solve the problems of poor sorting effect, low efficiency and the like of the existing zirconium middling sorting table.
The technical scheme of the utility model is realized by the following scheme: a dressing table for zircon middling, its characterized in that: the ore dressing device comprises a bed frame, a moving assembly, a bed body, an ore dressing assembly and a driving assembly, wherein the moving assembly is arranged above the bed frame, the bed body is fixedly connected above the moving assembly, the ore dressing assembly is arranged on the bed body and comprises a water collecting tank, an ore feeding tank, a main process water tank and an auxiliary process water tank, the water collecting tank is arranged above the bed body and near one side, the ore feeding tank, the main process water tank and the auxiliary process water tank are sequentially arranged at the upper end of the water collecting tank from left to right, and the bottoms of the ore feeding tank, the main process water tank and the auxiliary process water tank are respectively communicated with the water collecting tank; the bed frame at the front side of the bed body is provided with a driving component which is fixedly connected with the moving component to drive the bed body to move relative to the bed frame.
Preferably, the moving assembly comprises a longitudinal guide rail and a sliding base, two longitudinal guide rails are fixedly arranged above the bed frame, the bottom of the bed body is fixedly connected with the sliding base, the sliding base is positioned above the longitudinal guide rails, and the driving assembly is fixedly connected with the sliding base to drive the bed body to longitudinally slide relative to the bed frame.
Preferably, the driving assembly comprises a driving motor, a driving wheel, a driven wheel, a connecting belt and a rocker arm connecting rod, wherein the driving motor is fixedly installed on the bed frame at the front side of the bed body, the output end of the driving motor is connected with the driving wheel to drive the driving wheel to rotate, the driving wheel is connected with the driven wheel through the connecting belt, and one end of the rocker arm connecting rod is connected with the driven wheel while the other end of the rocker arm connecting rod is fixedly connected with the sliding base.
Preferably, the water collecting tank is of a rectangular structure, and a plurality of drain holes are formed in one side, close to the lathe bed, of the water collecting tank at equal intervals.
Preferably, a plurality of grooves are arranged above the bed body and parallel to the water collecting tank.
Preferably, a baffle is arranged on one side of the lathe bed, which is close to the driving assembly, and the height of the baffle is larger than the highest point of the drain hole.
Preferably, a cushion pad is provided at a lower corner of the frame.
In summary, the utility model has the following beneficial effects:
1. according to the utility model, the driving assembly is arranged to drive the lathe bed to reciprocate along the longitudinal direction, meanwhile, the water collecting tank is provided with the water discharge holes at equal intervals on one side close to the lathe bed, so that the water outflow direction is vertical to the movement direction of the lathe bed, the movement speed of fine heavy minerals towards the concentrate end is maximum, the movement speed towards the tailing side is minimum, the movement speeds of coarse light minerals are opposite, the movement speeds of other types of mineral grains are between the two, the mineral grains with different properties move in different directions, the sector zonation is developed on the lathe bed, and the concentrate, middling, tailing and slime are obtained after the concentrate end and the tailing end are respectively connected; adding an auxiliary process water tank to enable the material to reach the optimal state in a grading manner on the bed surface; the separation efficiency is high, the effect is good, meanwhile, the condition that the screen is blocked by ore cannot be generated because the screen is not arranged, and the maintenance cost of equipment is reduced.
2. According to the utility model, the buffer pad is arranged at the corner below the bedstead, so that the noise of equipment in operation is effectively reduced, and meanwhile, the whole equipment is placed to slide.
Drawings
FIG. 1 is a perspective view of the present utility model;
FIG. 2 is a side view of the present utility model;
FIG. 3 is a rear view of the present utility model;
fig. 4 is a top view of the present utility model.
Reference numerals illustrate: 1. a bed frame; 2. a moving assembly; 21. a longitudinal guide rail; 22. a sliding base; 3. a bed body; 4. a beneficiation assembly; 41. a water collection tank; 42. a feeding trough; 43. a main process water tank; 44. an auxiliary process water tank; 5. a drive assembly; 51. a driving motor; 52. a driving wheel; 53. driven wheel; 54. a connecting belt; 55. a rocker arm link; 6. a drain hole; 7. a strip groove; 8. a baffle; 9. and a cushion pad.
Detailed Description
In order that the above objects, features and advantages of the utility model will be more clearly understood, a further description of the utility model will be rendered by reference to the appended drawings and examples.
In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, however, the present utility model may be practiced otherwise than as described herein, and therefore the present utility model is not limited to the specific embodiments of the present disclosure, as described in further detail below with reference to the accompanying drawings.
1-4, a dressing table for zirconium middling comprises a bed frame 1, a moving component 2, a bed body 3, a dressing component 4 and a driving component 5, wherein the moving component 2 is arranged above the bed frame 1, the bed body 3 is fixedly connected above the moving component 2, the dressing component 4 is arranged on the bed body 3, the dressing component 4 comprises a water collecting tank 41, a mineral feeding tank 42, a main process water tank 43 and a secondary process water tank 44, the water collecting tank 41 is arranged above the bed body 3 at a position close to one side, the mineral feeding tank 42, the main process water tank 43 and the secondary process water tank 44 are sequentially arranged at the upper end of the water collecting tank 41 from left to right, and the bottoms of the mineral feeding tank 42, the main process water tank 43 and the secondary process water tank 44 are respectively communicated with the water collecting tank 41; the bed frame 1 at the front side of the bed body 3 is provided with a driving component 5, and the driving component 5 is fixedly connected with the moving component 2 so as to drive the bed body 3 to move relative to the bed frame 1.
The moving assembly 2 comprises a longitudinal guide rail 21 and a sliding base 22, two longitudinal guide rails 21 are fixedly arranged above the bed frame 1, the sliding base 22 is fixedly connected to the bottom of the bed body 3, the sliding base 22 is positioned above the longitudinal guide rails 21, and the driving assembly 5 is fixedly connected with the sliding base 22 so as to drive the sliding base 22 to drive the bed body 3 to longitudinally slide relative to the bed frame 1; the driving assembly 5 comprises a driving motor 51, a driving wheel 52, a driven wheel 53, a connecting belt 54 and a rocker arm connecting rod 55, wherein the driving motor 51 is fixedly arranged on the bed frame 1 at the front side of the bed body 3, the output end of the driving motor 51 is connected with the driving wheel 52 to drive the driving wheel 52 to rotate, the driving wheel 52 is connected with the driven wheel 53 through the connecting belt 54, and one end of the rocker arm connecting rod 55 is connected with the driven wheel 53 while the other end is fixedly connected with the sliding base 22; the driving motor 51 rotates to drive the driving wheel 52 to rotate, the driving wheel 52 drives the driven wheel 53 to rotate through the connecting belt 54, and the position where the rocker arm connecting rod 55 is connected with the driven wheel 53 is deviated from the circle center of the rotation of the driven wheel 53, so that the driven wheel 53 rotates to drive the rocker arm connecting rod 55 to move back and forth to drive the machine body 3 to longitudinally reciprocate.
The water collecting tank 41 is of a rectangular structure, a plurality of drain holes 6 are formed in one side, close to the lathe bed 3, of the water collecting tank 41 at equal intervals, water enters the water collecting tank 41 from the main process water tank 43 and the auxiliary process water tank 44, flows out to the lathe bed 3 through the drain holes 6, the water flow direction is perpendicular to the reciprocating motion direction of the lathe bed 3, a plurality of strip grooves 7 are formed above the lathe bed 3 and parallel to the water collecting tank 41, under the action of transverse water flow flushing and longitudinal shaking of the lathe bed 3, the motion speed of fine heavy minerals to a concentrate end is the largest, the motion speed of coarse light minerals to a tailing side is the smallest, the motion speeds of coarse light minerals are the opposite, the motion speeds of other types of mineral grains are between the two, and the mineral grains with different properties move in different directions, so that sector zonation is developed on the lathe bed, and concentrate, middlings, tailing and slime are obtained after the concentrate end and the tailing end are respectively connected; a baffle plate 8 is arranged on one side of the lathe bed 3 close to the driving assembly 5, and the height of the baffle plate 8 is larger than the highest point of the drain hole 6; the buffer cushion 9 is arranged at the corner of the lower part of the bedstead 1, so that the noise of the equipment in operation is effectively reduced, and meanwhile, the whole equipment is placed to slide; the purpose of adding the auxiliary process water tank 44 is to make the material in the bed surface to reach the optimal state; the utility model has high separation efficiency and good effect, and simultaneously, the condition that the screen is blocked by ore is avoided because the screen is not present, so that the maintenance cost of equipment is reduced.
The working principle of the utility model is as follows: the water is flushed into the water collecting tank 41 through the main process water tank 43 and the auxiliary process water tank 44, the zirconium middlings to be separated are flushed into the water collecting tank 41 through the ore feeding tank 42, the water and the ores are flushed onto the machine body 3 through the water discharging holes 6, the driving motor 51 drives the driving wheel 52 and the driven wheel 53 to rotate, the driven wheel 53 drives the machine body 3 to reciprocate along the longitudinal direction through the rocker arm connecting rod 55, under the actions of transverse water flushing and longitudinal rocking of the machine body 3, the movement speed of the fine heavy minerals towards the concentrate end is the largest, the movement speed towards the tailing side is the smallest, the movement speed of the coarse light minerals is the opposite, the movement speeds of the other types of the mineral grains are between the two, the mineral grains with different properties move in different directions, so that sector zonation is developed on the machine surface, and the concentrate, the middlings, the tailings and the slime are obtained after the concentrate end and the tailing end are respectively connected, so that the separation of the zirconium middlings is completed.
The present utility model is not limited to the above-mentioned embodiments, and any equivalent embodiments which can be changed or modified by the technical content disclosed above can be applied to other fields, but any simple modification and equivalent changes to the above-mentioned embodiments according to the technical substance of the present utility model are still within the protection scope of the technical solution of the present utility model.
Claims (7)
1. A dressing table for zircon middling, its characterized in that: the ore dressing device comprises a bed frame (1), a moving assembly (2), a bed body (3), an ore dressing assembly (4) and a driving assembly (5), wherein the moving assembly (2) is arranged above the bed frame (1), the bed body (3) is fixedly connected above the moving assembly (2), the ore dressing assembly (4) is arranged on the bed body (3), the ore dressing assembly (4) comprises a water collecting tank (41), an ore feeding tank (42), a main process water tank (43) and a secondary process water tank (44), the water collecting tank (41) is arranged above the bed body (3) at a position close to one side, and a ore feeding tank (42), a main process water tank (43) and a secondary process water tank (44) are sequentially arranged at the upper end of the water collecting tank (41) from left to right, and the bottoms of the ore feeding tank (42), the main process water tank (43) and the secondary process water tank (44) are respectively communicated with the water collecting tank (41); the bed frame (1) at the front side of the bed body (3) is provided with a driving component (5), and the driving component (5) is fixedly connected with the moving component (2) so as to drive the bed body (3) to move relative to the bed frame (1).
2. A dressing table for a zircon mine as set forth in claim 1, wherein: the movable assembly (2) comprises a longitudinal guide rail (21) and a sliding base (22), two longitudinal guide rails (21) are fixedly arranged above the bedstead (1), the sliding base (22) is fixedly connected to the bottom of the lathe bed (3), the sliding base (22) is located above the longitudinal guide rail (21), and the driving assembly (5) is fixedly connected with the sliding base (22) to drive the lathe bed (3) to longitudinally slide relative to the bedstead (1).
3. A dressing table for a zircon mine as set forth in claim 2, wherein: the driving assembly (5) comprises a driving motor (51), a driving wheel (52), a driven wheel (53), a connecting belt (54) and a rocker arm connecting rod (55), wherein the driving motor (51) is fixedly installed on the bed frame (1) at the front side of the bed body (3), the output end of the driving motor (51) is connected with the driving wheel (52) to drive the driving wheel (52) to rotate, the driving wheel (52) is connected with the driven wheel (53) through the connecting belt (54), and one end of the rocker arm connecting rod (55) is connected with the other end of the driven wheel (53) and fixedly connected with the sliding base (22).
4. A dressing table for a zircon mine as set forth in claim 1, wherein: the water collecting tank (41) is of a rectangular structure, and a plurality of drain holes (6) are formed in one side, close to the lathe bed (3), of the water collecting tank (41) at equal intervals.
5. A dressing table for a zircon mine as set forth in claim 1, wherein: a plurality of grooves (7) are arranged above the bed body (3) and parallel to the water collecting groove (41).
6. The dressing table for zircon middling as set forth in claim 4, wherein: a baffle plate (8) is arranged on one side of the lathe bed (3) close to the driving assembly (5), and the height of the baffle plate (8) is larger than the highest point of the drain hole (6).
7. A dressing table for a zircon mine as set forth in claim 1, wherein: a cushion pad (9) is arranged at the lower corner of the bedstead (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202320285326.8U CN219150381U (en) | 2023-02-22 | 2023-02-22 | Mineral separation table for zirconium middling |
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CN202320285326.8U CN219150381U (en) | 2023-02-22 | 2023-02-22 | Mineral separation table for zirconium middling |
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CN219150381U true CN219150381U (en) | 2023-06-09 |
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CN202320285326.8U Active CN219150381U (en) | 2023-02-22 | 2023-02-22 | Mineral separation table for zirconium middling |
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