CN218014554U - Gravity concentrator conveyer - Google Patents

Abstract

The utility model discloses a gravity concentrator conveyer belongs to ore dressing technical field, including gravity concentrator body and support frame, gravity concentrator body upper portion is provided with ore feeding tank and intake chamber, gravity concentrator body one side is connected with actuating mechanism, gravity concentrator body bottom is provided with the guiding gutter, the water guide mouth has been seted up to the bottom of guiding gutter, guiding gutter lower part bottom is provided with the circulation case, the water inlet has been seted up on circulation case upper portion, inside conveying mechanism and the circulation mechanism of being provided with of circulation case, rivers are when the water conservancy diversion of the formation of both sides inner wall about conveying mechanism and circulation case box, carry out separation transport with mineral and water through filtering the guipure, the ore sand flows on the sand blocking plate in the sand storage box after carrying, water is stored after the separation at the storage water tank then behind the suction pump suction, carry out the operation through the aqueduct again to the intake chamber and handle, the extravagant unable cyclic utilization of water reuse of ore dressing in-process has been solved, the aquatic ore can's problem that can't obtain the separation.

Description

Gravity concentrator conveyer

Technical Field

The utility model belongs to the technical field of the ore dressing, specifically a gravity concentrator conveyer.

Background

Mineral separation mainly is separation of ore and sand, and mainly utilizes physical and chemical properties of different minerals, adopts different methods to separate useful minerals from gangue minerals, separates various symbiotic useful minerals from each other as much as possible, and removes or reduces harmful impurities so as to obtain a separation process of raw materials required by smelting or other industries. The existing ore dressing methods generally include a gravity separation method, a flotation method, a magnetic separation method, an electric separation method and the like, wherein the gravity separation method utilizes the difference of gravity of different components in ores so as to stratify and separate the different components of the ores, and the existing gravity dressing machine mainly comprises a frame, a bed surface and a transmission mechanism in the ore dressing process.

During the ore dressing operation of the gravity concentrator, the bed surface is washed by adopting washing water for ore dressing, so that the problems that water is wasted in the ore dressing process, the water cannot be recycled seriously, and ores in water cannot be separated exist.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reselect quick-witted conveyer for solve following technical problem: during the ore dressing operation of the gravity concentrator, the problems that water is wasted seriously and cannot be recycled in the ore dressing process, and ores in water cannot be separated exist.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a gravity concentrator conveyer, includes gravity concentrator body and support frame, the support frame top is provided with the guiding gutter, the guiding gutter top is provided with the gravity concentrator body, gravity concentrator body one side is connected with actuating mechanism, the guiding mouth has been seted up to the guiding gutter lower part, guiding mouth bottom is provided with the circulation case, circulation case upper portion is provided with the water inlet, the water inlet lower part is provided with the guide plate, the circulation case includes conveying mechanism and circulation mechanism, conveying mechanism and circulation case both sides inner wall form the water conservancy diversion way, the conveying mechanism bottom is provided with circulation mechanism, circulation mechanism is including setting up at inside sand storage box and the storage water tank of circulation case, sand storage box sets up on storage water tank upper portion, the circulation case outside still is provided with the suction pump, the suction pump suction end runs through inside the circulation case inner wall connection storage water tank, the suction pump delivery end passes through the aqueduct and connects the intake chamber.

Further, a check valve is further arranged on the water guide opening.

Further, conveying mechanism is including setting up first pivot and the second pivot at circulation incasement wall, there is the difference in height first pivot and second pivot, first pivot is located the guide plate bottom, and the transmission is connected with filter mesh belt between first pivot and second pivot, circulation incasement wall still is provided with the second motor of fixed connection in first pivot.

Further, the sand storage box comprises a sand blocking plate, a sand storage groove and a connecting assembly, the connecting assembly is arranged on the outer wall of the bottom of the circulating box, the sand storage groove is arranged inside the circulating box, the sand blocking plate is arranged on the upper portion of the sand storage groove, and one end of the sand blocking plate is fixedly connected with the connecting assembly.

Further, coupling assembling includes two limiting plates, adjusting bolt, two the mounting hole has all been seted up on outer wall and upper portion of circulation bottom of the case portion in the limiting plate setting, adjusting bolt stretches into mounting hole bolted connection in the sand baffle on two limiting plates.

Further, the driving mechanism comprises a first motor, a transmission shaft and a fixed seat, the gravity concentrator body is rotatably connected in the water guide groove through a center shaft, the fixed seat is arranged at the top of the support frame, the first motor is fixedly mounted at the top of the fixed seat, the output end of the first motor is fixedly connected with one end of the transmission shaft, and the other end of the transmission shaft is movably connected with the center shaft on one side of the gravity concentrator body.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a water that the guiding gutter that reselects machine body bottom set up produced in with the ore dressing operation passes through water guide mouth inflow circulation case, water inlet through circulation case upper portion, only flow valve on the water inlet can the control flow, water is carried to conveyor through the guide plate, utilize the water conservancy diversion way of conveyor and circulation box upper and lower both sides inner wall formation, separate mineral and water through filter screen belt transportation process and carry, ore sand flows to the sand baffle in the sand storage box after carrying, water is stored at the storage water tank after the separation then carries again through the aqueduct to the intake chamber through the water pump suction and carries out the operation processing, the extravagant serious unable cyclic utilization of ore dressing in-process water has been solved, the aquatic ore can't obtain the problem of separation.

Drawings

To facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a front view of the structure of the present invention;

FIG. 2 is a front sectional view of the present invention;

fig. 3 is a schematic view of the internal structure of the conveying mechanism of the present invention;

fig. 4 is an enlarged view of the structure of the area a in fig. 2.

In the figure: 1. a gravity concentrator body; 11. feeding into an ore tank; 12. a water inlet groove; 2. a support frame; 3. a water chute; 4. a water guide port; 41. a flow stop valve; 5. a circulation box; 51. a water inlet; 53. a conveying mechanism; 54. a circulating mechanism; 55. a flow guide way; 6. a sand storage box; 7. a water storage tank; 8. a water suction pump; 9. a water conduit; 531. A second motor; 532. a first rotating shaft; 533. a filter mesh belt; 534. a second rotating shaft; 61. a sand baffle plate; 62. a sand storage tank; 63. a connection assembly; 631. a limiting plate; 632. adjusting the bolt; 10. a drive mechanism; 101. a first motor; 102. a drive shaft; 103. a fixed seat.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention, i.e., the described embodiments are merely illustrative of some, but not all, of the embodiments of the invention. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiment of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention.

Please refer to fig. 1-4, in an embodiment of the present invention, a gravity concentrator conveying device includes a support frame 2 and a gravity concentrator body 1, a water chute 3 is disposed on the top of the support frame 2, the gravity concentrator body 1 is disposed on the top of the water chute 3, a mineral inlet groove 11 and a water inlet groove 12 are disposed on the upper portion of the gravity concentrator body 1, a driving mechanism 10 is connected to one side of the gravity concentrator body 1, the gravity concentrator body 1 is rotatably connected to the water chute 3 through a central shaft, the water chute 3 is used for receiving mineral water flowing down on the surface of the gravity concentrator body 1, a water guide opening 4 is disposed on the lower portion of the water chute 3, a circulation box 5 is disposed on the bottom of the water guide opening 4, a water inlet 51 is disposed on the upper portion of the circulation box 5 for water inlet operation, so as to facilitate subsequent mineral separation, a conveying mechanism 53 is formed by inner walls on two sides of the conveying mechanism 53 and the circulation box 5 to form a flow guide channel 55 for guiding mineral water to enter the sand storage box 6 and the water storage tank 7 respectively, a circulation mechanism 54 is disposed at the end of the conveying mechanism 53, the circulation box 53 includes a sand storage box 6, a water storage box 7 disposed inside the circulation box 5, a water storage tank 7, a water storage tank 8 and a water storage tank 9, a water storage tank 7 disposed on the inner wall disposed inside the circulation box 5, a water storage tank 7, a water storage tank separation mechanism 54 is disposed on the circulation box inner wall disposed inside the circulation box 5, and a water storage box inner wall disposed inside the circulation box 7, the circulation box 5, the circulation box 7, and a water storage box 8 disposed inside the circulation box, and a water storage box 5, and a water storage box separation mechanism 7 disposed inside the water storage box 5, and a water storage tank separation mechanism for separating water storage tank, the water storage box 8 disposed inside the water storage box 7, and a water storage tank 5, and a water storage tank separation mechanism 7 disposed inside the water storage tank, and a water storage box inner wall disposed inside the separation tank 5, and a separation mechanism 7, and a water storage tank 5, and a water storage tank separation mechanism 7 disposed inside the water storage tank.

Specifically, referring to fig. 2, the water guiding opening 4 is further provided with a check valve 41 for adjusting the water flow.

Specifically, please refer to fig. 3, the conveying mechanism 53 includes a first rotating shaft 532 and a second rotating shaft 534 disposed on an inner wall of the circulation box 5, a height difference exists between the first rotating shaft 532 and the second rotating shaft 534, the first rotating shaft 532 is located at a bottom of the guide plate 52, a filter mesh belt 533 is connected between the first rotating shaft 532 and the second rotating shaft 534 in a transmission manner, a second motor 531 fixedly connected to the first rotating shaft 532 is further disposed on an outer wall of the circulation box 5, the second motor 531 drives the first rotating shaft 532 to drive the filter mesh belt 533 to rotate so as to drive the second rotating shaft 534 to rotate, mineral water in the upper flow guide channel 55 is separated and conveyed while operating, mineral flows into the sand storage box 6 attached to the mineral water storage channel through the end filter mesh belt 533, and the filtered water flows into the water storage tank 7 through the lower flow guide channel 55 for subsequent recycling.

Specifically, please look at fig. 2 and 4, the sand storage box 6 includes a sand blocking plate 61, a sand storage tank 62, and a connecting assembly 63, the connecting assembly 63 is disposed on the outer wall of the bottom of the circulation box 5, the sand storage tank 62 is disposed inside the circulation box 5, the sand blocking plate 61 is disposed on the upper portion of the sand storage tank 62 and is attached to the inner wall of the sand storage tank 62 for blocking sand, the connecting assembly 63 is fixedly connected to one end of the sand blocking plate 61, and the ore sand on the sand blocking plate 61 can be taken out through the connecting assembly 63 after the collection is completed.

Specifically, please look up fig. 4, coupling assembling 63 includes two limiting plates 631, adjusting bolt 632, and two limiting plates 631 set up at 5 bottom outer walls of circulation case, and the mounting hole has all been seted up on upper portion, stretches into the mounting hole on two limiting plates 631 through adjusting bolt 632, fixes sand baffle 61 between two limiting plates 631, and convenient follow-up taking out.

Specifically, please refer to fig. 1 and 2, the driving mechanism 10 includes a first motor 101, a transmission shaft 102 and a fixing seat 103, the gravity concentrator body 1 is rotatably connected in the water guiding trough 3 through a central shaft, the fixing seat 103 is disposed at the top of the supporting frame 2, the first motor 101 is fixedly mounted at the top of the fixing seat 103, an output end of the first motor 101 is fixedly connected to one end of the transmission shaft 102, the other end of the transmission shaft 102 is movably connected to the central shaft at one side of the gravity concentrator body 1, and the first motor 101 is controlled externally to drive the transmission shaft 102 to drive the central shaft to slightly rotate so as to guide the water flow at the upper part of the gravity concentrator body 1 into the water guiding trough 3 at the bottom of the gravity concentrator body 1 for flow guiding treatment.

The utility model discloses a theory of operation is: when the gravity concentrator body 1 is driven by the driving mechanism 10 to perform mineral separation operation, water generated in the mineral separation operation flows into the circulating box 5 through the water guide groove 3 arranged at the bottom of the gravity concentrator body 1 through the water guide port 4 arranged at the bottom of the water guide groove 3, flows through the circulating box 5 through the water inlet 51 arranged at the upper part of the circulating box 5, the flow stop valve 41 is adjusted to control the flow rate of the water, the water flow forms the flow guide channels 55 through the conveying mechanism 53 and the inner walls of the upper side and the lower side of the box body of the circulating box 5, minerals and water are separated and conveyed, the mineral sand flows onto the sand blocking plate 61 in the sand storage box 6 after being conveyed, and the water is separated and stored in the water storage box 7, then is sucked out by the water suction pump 8 and conveyed to the water inlet groove 12 again through the water guide pipe 9 for operation treatment.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and the like are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate member, or they may be connected through two or more elements. The specific meaning of the above terms in the present invention can be understood as a specific case by those skilled in the art.

The foregoing is merely exemplary and illustrative of the structure of the invention, and various modifications, additions and substitutions as described in the detailed description may be made by those skilled in the art without departing from the structure or exceeding the scope of the invention as defined in the claims.

Claims (6)

1. The gravity concentrator conveying device comprises a gravity concentrator body (1) and a support frame (2), and is characterized in that a water guide groove (3) is formed in the top of the support frame (2), the gravity concentrator body (1) is arranged on the top of the water guide groove (3), a mineral inlet groove (11) and a water inlet groove (12) are formed in the upper portion of the gravity concentrator body (1), a driving mechanism (10) is connected to one side of the gravity concentrator body (1), a water guide opening (4) is formed in the lower portion of the water guide groove (3), a circulating box (5) is arranged at the bottom of the water guide opening (4), a water inlet (51) is formed in the upper portion of the circulating box (5), a guide plate (52) is arranged on the lower portion of the water inlet (51), the circulating box (5) comprises a conveying mechanism (53) and a circulating mechanism (54), a guide channel (55) is formed between the conveying mechanism (53) and the inner walls of two sides of the circulating box (5), the circulating mechanism (53) is provided with a circulating mechanism (54), the circulating mechanism (54) is arranged at the bottom end of the circulating box (5), the circulating mechanism (54) comprises a sand storage box (6) and a water storage tank (7) which are arranged inside the sand box (5), the water storage box (8) and a water storage tank (8) connected to the water storage tank (8) which is arranged outside the water storage box (5), the water storage box (7), and a water suction box (8) which is arranged on the water storage box (5), and a water storage box (8) which is arranged outside the water storage box (5), and a water suction box (8) is arranged on the water suction box (5) and a water storage box (8) which is arranged inside of the circulating box (5) 7) Inside, the water outlet end of the water suction pump (8) is connected with a water inlet tank (12) through a water guide pipe (9).

2. A gravity separator conveyor according to claim 1, characterized in that the water guide opening (4) is also provided with a stop valve (41).

3. The gravity separator conveying device according to claim 1, wherein the conveying mechanism (53) comprises a first rotating shaft (532) and a second rotating shaft (534) which are arranged on the inner wall of the circulating box (5), the first rotating shaft (532) and the second rotating shaft (534) have a height difference, the first rotating shaft (532) is located at the bottom of the guide plate (52), a filter mesh belt (533) is in transmission connection between the first rotating shaft (532) and the second rotating shaft (534), and a second motor (531) which is fixedly connected to the first rotating shaft (532) is further arranged on the outer wall of the circulating box (5).

4. The gravity separator conveying device according to claim 1, wherein the sand storage box (6) comprises a sand blocking plate (61), a sand storage groove (62) and a connecting assembly (63), the connecting assembly (63) is arranged on the outer wall of the bottom of the circulating box (5), the sand storage groove (62) is arranged inside the circulating box (5), the sand blocking plate (61) is arranged on the upper portion of the sand storage groove (62), and one end of the sand blocking plate (61) is fixedly connected with the connecting assembly (63).

5. The gravity separator conveying device according to claim 4, characterized in that the connecting assembly (63) comprises two limiting plates (631) and an adjusting bolt (632), the two limiting plates (631) are arranged on the outer wall of the bottom of the circulating box (5), mounting holes are formed in the upper portions of the two limiting plates, and the adjusting bolt (632) extends into the mounting holes in the two limiting plates (631) to fix the sand baffle (61).

6. The gravity concentrator conveying device according to claim 1, wherein the driving mechanism (10) comprises a first motor (101), a transmission shaft (102) and a fixed seat (103), the gravity concentrator body (1) is rotatably connected in the water chute (3) through a central shaft, the fixed seat (103) is arranged at the top of the support frame (2), the first motor (101) is fixedly installed at the top of the fixed seat (103), the output end of the first motor (101) is fixedly connected with one end of the transmission shaft (102), and the other end of the transmission shaft (102) is movably connected with the central shaft on one side of the gravity concentrator body (1).

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