CN216094727U - Conveying mechanism for tailing pulp - Google Patents

Abstract

The utility model belongs to the field of tailing pulp, and particularly relates to a conveying mechanism for tailing pulp, which comprises a conveying mechanism, a drying mechanism and a vibrating mechanism, wherein the drying mechanism is convenient for accelerating the dehydration of the surface of tailing, and the vibrating mechanism can screen tailing with different sizes. According to the utility model, the drying mechanism and the vibration mechanism are adopted, the electric push rod is used for stretching and pushing the heating pipe and the fan to move left and right, the tailings conveyed by the feeding port can be dried and dehydrated, and then the vibration mechanism is started to screen and filter the tailings with different sizes, so that the blockage of the tailings during discharging and conveying is prevented, the manual operation is reduced, and the working quality is improved.

Description

Conveying mechanism for tailing pulp

Technical Field

The utility model belongs to the field of tailing pulp, and particularly relates to a conveying mechanism for tailing pulp.

Background

One of the products of the separation operation in mineral separation, the fraction with the lowest content of useful target components, is called tailings. Under the current technological economic conditions, further sorting is not suitable. However, with the development of the production science technology, useful target components may have economic value for further recycling. Tailings are not completely useless wastes, and often contain components that can be used for other purposes, so that mineral resources are fully utilized and the ecological environment is protected. In the transportation process of tailing pulp in the current market, the surface of the tailing pulp is not uniformly dehydrated, so that impurities appear in the tailing pulp during screening, the blockage situation appears during transportation, the filtering time is long, and the working efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a conveying mechanism for tailing pulp.

The technical scheme adopted by the utility model is as follows:

a conveying mechanism for tailing pulp comprises a conveying mechanism, a drying mechanism convenient for accelerating dehydration of the surface of tailings and a vibrating mechanism capable of screening tailings with particles of different sizes, wherein the vibrating mechanism is arranged above the conveying mechanism, the drying mechanism is arranged above the vibrating mechanism, the conveying mechanism comprises a conveying frame, a conveying shaft, a conveying belt and a conveying motor, the conveying shaft is arranged on the inner side above the conveying frame, the conveying belt is arranged on the outer side of the conveying shaft, the conveying motor is arranged on the front side of the conveying shaft, the drying mechanism comprises a shell, a feeding hole, an electric push rod, a bracket, a heating pipe and a fan, the feeding hole is arranged above the shell, the electric push rod is arranged on the inner side of the shell, the bracket is arranged at the telescopic end of the electric push rod, the heating pipe is arranged on the inner side of the bracket, the bracket outside is provided with the fan.

Preferably: the vibration mechanism comprises a support column, a spring, a vibration frame, a filter screen, a rotating shaft, an eccentric hammer, a first motor and a valve, wherein the spring is arranged at four corners above the support column, the spring is arranged above the vibration frame, the valve is arranged below the vibration frame, the filter screen is arranged on the inner side of the vibration frame, the rotating shaft is arranged below the filter screen, the eccentric hammer is arranged on the front side of the rotating shaft, and the first motor is arranged on the front side of the eccentric hammer.

So set up, through first motor drive the pivot with the eccentric weight rotates, is coordinating the support column with spring interact carries out vibration motion.

Preferably: the utility model discloses a vibration mechanism, including vibrations mechanism, support column, spring, vibrations frame, filter screen, pivot, eccentric hammer, valve, drive gear, second motor, support column top four corners is provided with the spring, the spring top is provided with the vibrations frame, vibrations frame below is provided with the valve, vibrations frame inboard is provided with the filter screen, the filter screen below is provided with the pivot, the pivot front side is provided with the eccentric hammer, eccentric hammer front side is provided with drive gear, drive gear one side is provided with drive gear, the drive gear rear side is provided with the second motor.

So set up, through the second motor drives drive gear with drive gear rotates, drive gear drives the pivot with eccentric hammer rotates, is coordinating the support column with spring interact carries out vibration motion.

Preferably: the conveying frame is connected with the conveying shaft through a bearing, and the conveying shaft is connected with the conveying motor in a key mode.

So set up, bearing connection has guaranteed carry the axle nimble rotation.

Preferably: the casing with the feed inlet passes through welded connection, the casing with electric putter passes through bolted connection, electric putter with bolted connection is passed through to the bracket, the bracket with bolted connection is passed through to the heating pipe, the bracket with bolted connection is passed through to the fan.

So set up, make things convenient for the dismouting to change electric putter the heating pipe the fan maintains.

Preferably: the support column with the spring passes through welded connection, the spring with the vibrations frame passes through welded connection, the vibrations frame passes through bolted connection with the valve, the vibrations frame with the filter screen passes through bolted connection, the vibrations frame with the pivot passes through the bearing and connects, the pivot with eccentric hammer passes through welded connection, the pivot with first motor key-type connection.

So set up, guarantee the vibrations screening process, the support column the spring the vibrations frame the durable firm that eccentric hammer connects, bearing connection has guaranteed the pivot is nimble rotatory.

Preferably: the support column with the spring passes through welded connection, the spring with the vibrations frame passes through welded connection, the vibrations frame with the filter screen passes through bolted connection, the vibrations frame with the pivot passes through the bearing and is connected, the vibrations frame passes through bolted connection with the valve, the pivot with eccentric hammer passes through welded connection, the pivot with drive gear passes through welded connection, drive gear with drive gear meshing transmission, drive gear with the second motor key-type connection.

So set up, guarantee the vibrations screening process, the support column the spring the vibrations frame the durable firm that eccentric hammer connects, bearing connection has guaranteed the pivot is nimble rotatory.

The utility model has the beneficial effects that: adopt stoving mechanism and vibrations mechanism, utilize electric putter to stretch out and draw back and promote that heating pipe and fan are moving about, can dry the dehydration with the tailing that the feed inlet was carried, restart vibrations mechanism can filter the tailing of equidimension granule not, prevents that the tailing from taking place the condition of blockking up when the ejection of compact is carried, reduces manual operation, has improved work quality.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

figure 1 is a schematic elevation view of an embodiment 1 of a conveying mechanism for a tailing slurry according to the utility model;

figure 2 is a schematic perspective view of an embodiment 1 of a conveying mechanism for tailing pulp according to the utility model;

figure 3 is a schematic view of a conveying mechanism for a tailing slurry according to the present invention;

figure 4 is a schematic view of a drying mechanism of the conveying mechanism for the tailing pulp of the utility model;

figure 5 is a schematic view of an embodiment 1 of the conveying mechanism for tailing pulp of the utility model;

figure 6 is a schematic view of an embodiment 2 of the conveying mechanism for the tailing pulp, which is disclosed by the utility model, of a vibrating mechanism.

The reference numerals are explained below:

1. a conveying mechanism; 2. a drying mechanism; 3. a vibration mechanism; 11. a carriage; 12. a delivery shaft; 13. a conveyor belt; 14. a conveying motor; 21. a housing; 22. a feed inlet; 23. an electric push rod; 24. a bracket; 25. heating a tube; 26. a fan; 31. a support pillar; 32. a spring; 33. a vibration frame; 34. a filter screen; 35. a rotating shaft; 36. an eccentric weight; 37. a first motor; 38. a valve; 301. a transmission gear; 302. a drive gear; 303. a second motor.

Detailed Description

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings.

Example 1

As shown in fig. 1, 2, 3, 4 and 5, a conveying mechanism for tailing slurry comprises a conveying mechanism 1, a drying mechanism 2 convenient for accelerating the dehydration of the surface of tailings and a vibrating mechanism 3 capable of screening tailings with different sizes, wherein the vibrating mechanism 3 is arranged above the conveying mechanism 1, the drying mechanism 2 is arranged above the vibrating mechanism 3, the conveying mechanism 1 comprises a conveying frame 11, a conveying shaft 12, a conveying belt 13 and a conveying motor 14, the conveying shaft 12 is arranged on the inner side above the conveying frame 11, the conveying belt 13 is arranged on the outer side of the conveying shaft 12, the conveying motor 14 is arranged on the front side of the conveying shaft 12, the drying mechanism 2 comprises a casing 21, a feeding port 22, an electric push rod 23, a bracket 24, a heating pipe 25 and a fan 26, the feeding port 22 is arranged above the casing 21, the electric push rod 23 is arranged on the inner side of the casing 21, the bracket 24 is arranged at the telescopic end of the electric push rod 23, the heating pipe 25 is arranged on the inner side of the bracket 24, the fan 26 is arranged on the outer side of the bracket 24, the vibration mechanism 3 comprises a support column 31, a spring 32, a vibration frame 33, a filter screen 34, a rotating shaft 35, an eccentric hammer 36, a first motor 37 and a valve 38, the springs 32 are arranged at four corners above the support column 31, the vibration frame 33 is arranged above the spring 32, the valve 38 is arranged below the vibration frame 33, the filter screen 34 is arranged on the inner side of the vibration frame 33, the rotating shaft 35 is arranged below the filter screen 34, the eccentric hammer 36 is arranged on the front side of the rotating shaft 35, and the first motor 37 is arranged on the front side of the eccentric hammer 36.

Preferably: the conveying frame 11 is connected with the conveying shaft 12 through a bearing, and the conveying shaft 12 is connected with a conveying motor 14 in a key mode; the machine shell 21 is connected with the feed inlet 22 through welding, the machine shell 21 is connected with the electric push rod 23 through bolts, the electric push rod 23 is connected with the bracket 24 through bolts, the bracket 24 is connected with the heating pipe 25 through bolts, and the bracket 24 is connected with the fan 26 through bolts; support column 31 passes through welded connection with spring 32, and spring 32 passes through welded connection with vibrations frame 33, and vibrations frame 33 passes through bolted connection with valve 38, and vibrations frame 33 passes through bolted connection with filter screen 34, and vibrations frame 33 passes through bearing with pivot 35 to be connected, and pivot 35 passes through welded connection with eccentric hammer 36, and pivot 35 and first motor 37 key-type connection.

Example 2

As shown in fig. 3, 4, and 6, the present embodiment is different from embodiment 1 in that: the vibration mechanism 3 comprises a support column 31, a spring 32, a vibration frame 33, a filter screen 34, a rotating shaft 35, an eccentric hammer 36, a valve 38, a transmission gear 301, a driving gear 302 and a second motor 303, wherein the spring 32 is arranged at four corners above the support column 31, the vibration frame 33 is arranged above the spring 32, the valve 38 is arranged below the vibration frame 33, the filter screen 34 is arranged on the inner side of the vibration frame 33, the rotating shaft 35 is arranged below the filter screen 34, the eccentric hammer 36 is arranged on the front side of the rotating shaft 35, the transmission gear 301 is arranged on the front side of the eccentric hammer 36, the driving gear 302 is arranged on one side of the transmission gear 301, and the second motor 303 is arranged on the rear side of the driving gear 302; the support column 31 is connected with the spring 32 in a welded mode, the spring 32 is connected with the vibration frame 33 in a welded mode, the vibration frame 33 is connected with the filter screen 34 through bolts, the vibration frame 33 is connected with the rotating shaft 35 through a bearing, the vibration frame 33 is connected with the valve 38 through bolts, the rotating shaft 35 is connected with the eccentric hammer 36 through a welded mode, the rotating shaft 35 is connected with the transmission gear 301 through a welded mode, the transmission gear 301 is in meshed transmission with the drive gear 302, and the drive gear 302 is connected with the second motor 303 in a key mode.

The working principle is as follows: before tailing pulp falls onto a filter screen 34 from a feed port 22, electric push rods 23 are arranged on two sides of a machine shell 21 and stretch to push a bracket 24, a heating pipe 25 and a fan 26 to move left and right, uniform drying and dehydration treatment can be carried out on the tailing pulp, meanwhile, a first motor 37 is started to drive a rotating shaft 35 and an eccentric hammer 36 to rotate, or a second motor 303 is started to drive a driving gear 302 and a transmission gear 301 to rotate, the transmission gear 301 drives the rotating shaft 35 and the eccentric hammer 36 to rotate, so that the inertia motion of the eccentric hammer 36 and the interaction of a support column 31 and a spring 32 are used for carrying out vibration motion, screening, filtering and conveying can be carried out on the tailing pulp with different sizes, the blanking speed is controlled through a valve 38 to prevent blockage, the tailing pulp is conveyed to the upper part of a conveying belt 13, and a conveying motor 14 is started to drive a conveying shaft 12 to rotate, and conveying the screened tailing pulp to the next station.

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the spirit of the present invention.

Claims (7)

1. A conveying mechanism for tailing ore pulp which characterized in that: the tailing dewatering device comprises a conveying mechanism (1), a drying mechanism (2) convenient for accelerating the dewatering of the surface of tailings and a vibration mechanism (3) capable of screening tailings with different sizes, wherein the vibration mechanism (3) is arranged above the conveying mechanism (1), and the drying mechanism (2) is arranged above the vibration mechanism (3);

the conveying mechanism (1) comprises a conveying frame (11), a conveying shaft (12), a conveying belt (13) and a conveying motor (14), wherein the conveying shaft (12) is arranged on the inner side above the conveying frame (11), the conveying belt (13) is arranged on the outer side of the conveying shaft (12), and the conveying motor (14) is arranged on the front side of the conveying shaft (12);

drying mechanism (2) include casing (21), feed inlet (22), electric putter (23), bracket (24), heating pipe (25), fan (26), casing (21) top is provided with feed inlet (22), casing (21) inboard is provided with electric putter (23), the flexible end of electric putter (23) is provided with bracket (24), bracket (24) inboard is provided with heating pipe (25), the bracket (24) outside is provided with fan (26).

2. The conveying mechanism for tailing pulp as claimed in claim 1, wherein: vibrations mechanism (3) are including support column (31), spring (32), vibrations frame (33), filter screen (34), pivot (35), eccentric hammer (36), first motor (37), valve (38), support column (31) top four corners is provided with spring (32), spring (32) top is provided with vibrations frame (33), vibrations frame (33) below is provided with valve (38), vibrations frame (33) inboard is provided with filter screen (34), filter screen (34) below is provided with pivot (35), pivot (35) front side is provided with eccentric hammer (36), eccentric hammer (36) front side is provided with first motor (37).

3. The conveying mechanism for tailing pulp as claimed in claim 1, wherein: the vibration mechanism (3) comprises a supporting column (31), a spring (32), a vibration frame (33), a filter screen (34), a rotating shaft (35), an eccentric hammer (36), a valve (38), a transmission gear (301), a driving gear (302) and a second motor (303), wherein the spring (32) is arranged at four corners above the supporting column (31), the vibration frame (33) is arranged above the spring (32), the valve (38) is arranged below the vibration frame (33), the filter screen (34) is arranged at the inner side of the vibration frame (33), the rotating shaft (35) is arranged below the filter screen (34), the eccentric hammer (36) is arranged at the front side of the rotating shaft (35), the transmission gear (301) is arranged at the front side of the eccentric hammer (36), the driving gear (302) is arranged at one side of the transmission gear (301), the second motor (303) is arranged on the rear side of the driving gear (302).

4. The conveying mechanism for tailing pulp as claimed in claim 1, wherein: the conveying frame (11) is connected with the conveying shaft (12) through a bearing, and the conveying shaft (12) is connected with the conveying motor (14) in a key mode.

5. The conveying mechanism for tailing pulp as claimed in claim 1, wherein: casing (21) with feed inlet (22) are through welded connection, casing (21) with electric putter (23) pass through bolted connection, electric putter (23) with bracket (24) pass through bolted connection, bracket (24) with heating pipe (25) pass through bolted connection, bracket (24) with fan (26) pass through bolted connection.

6. A conveying mechanism for tailings slurry according to claim 2 wherein: support column (31) with spring (32) pass through welded connection, spring (32) with vibrations frame (33) pass through welded connection, vibrations frame (33) pass through bolted connection with valve (38), vibrations frame (33) with filter screen (34) pass through bolted connection, vibrations frame (33) with pivot (35) pass through the bearing and connect, pivot (35) with eccentric hammer (36) pass through welded connection, pivot (35) with first motor (37) key-type connection.

7. A conveying mechanism for tailings slurry according to claim 3 wherein: support column (31) with spring (32) pass through welded connection, spring (32) with vibrations frame (33) pass through welded connection, vibrations frame (33) with filter screen (34) pass through bolted connection, vibrations frame (33) with pivot (35) pass through the bearing and connect, vibrations frame (33) pass through bolted connection with valve (38), pivot (35) with eccentric hammer (36) pass through welded connection, pivot (35) with drive gear (301) pass through welded connection, drive gear (301) with drive gear (302) meshing transmission, drive gear (302) with second motor (303) key-type connection.

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