CN112246665A

CN112246665A - Material feeding and conveying mechanism for easily-maintained material color sorter

Info

Publication number: CN112246665A
Application number: CN202010896528.7A
Authority: CN
Inventors: 钱广华; 钱程
Original assignee: Anhui Sharpvision Optoelectronic Technology Co ltd
Current assignee: Anhui Sharpvision Optoelectronic Technology Co ltd
Priority date: 2020-08-31
Filing date: 2020-08-31
Publication date: 2021-01-22

Abstract

The invention discloses a material supply and transmission mechanism for a material color selector, which is easy to maintain and is used for solving the problems that the recovery purity and the recovery rate of materials cannot reach the technical index, wherein through the arrangement of a grinding machine, after heterochromatic materials with larger particles or stuck with normal materials enter a main cavity chamber through a feeding box, the heterochromatic materials are fully stirred through a spiral stirrer, so that the heterochromatic materials stuck with the normal materials are separated, then the normal materials and the heterochromatic materials enter an auxiliary cavity chamber through a second conveying pipe, a grinding disc motor drives a flat knife grinding disc in the auxiliary cavity chamber to rotate, and the normal materials or the heterochromatic materials with larger particles are ground into the materials meeting the recovery standard size; the materials which accord with the recovery standard size rotate through the spiral feeding piece in the feeding machine and then move on the feeding machine, and the materials which accord with the recovery standard size are dried through a plurality of heaters.

Description

Material feeding and conveying mechanism for easily-maintained material color sorter

Technical Field

The invention belongs to the field of conveying; relates to the technology of conveying belts; in particular to a material supply and transmission mechanism for a material color selector, which is easy to maintain.

Background

The mineral powder particles have a size of between 40 mesh and 80 mesh, and the basic colors include white, yellow, green, red and black. Different types of mineral powders are generally sorted according to color. The traditional separation work is mainly completed manually, but the manual analysis efficiency is low. In order to replace manual ore sorting work, the ore powder color sorter is bred, the ore powder color sorter is required to count and recover all normal materials (namely qualified color materials) and different color materials, the materials cannot be lost, the recovery purity and the recovery rate of the normal materials are required to meet the technical index requirements, and in order to complete the ore sorting work, an easily maintained material supply and conveying mechanism for the material color sorter is urgently required to be developed.

Disclosure of Invention

The invention aims to provide a material supply and conveying mechanism for a material color selector, which is easy to maintain and is used for solving the problem that the recovery purity and the recovery rate of materials cannot reach technical indexes.

The purpose of the invention can be realized by the following technical scheme:

a material supply and transmission mechanism for a material color selector easy to maintain comprises a feeding machine, wherein one end of the feeding machine is connected with a grinding machine, the other end of the feeding machine is connected with a discharging pipe, the bottom end of the discharging pipe is provided with a conveyer, and the conveyer transmits materials into the material color selector;

the feeder comprises a feeder shaft and a shell, the feeder shaft is a hollow thin-wall pipeline, one end of the feeder shaft is provided with a first hole, and a first temperature sensor is arranged in the first hole;

a second hole is formed in the other end of the feeder shaft, and a second humidity sensor is mounted in the second hole; the first temperature sensor and the second humidity sensor are both connected to the control box through cables; one end of the feeding machine, which is far away from the discharge pipe, is provided with a plurality of heaters;

a plurality of grooves are formed in one side, far away from the discharge pipe, of the outer shell, and the grooves are opposite to the heaters;

a fan is arranged at one end of the discharge pipe close to the feeding machine, and a rolling separator is arranged at one end of the discharge pipe close to the conveying machine;

the rolling separator comprises a bearing seat and a plurality of separating shafts, one end of each separating shaft is embedded into the inner wall of the discharge pipe, and the other end of each separating shaft penetrates through the inner wall of the discharge pipe and is embedded into the bearing seat;

the separation shaft is provided with a separation plate mounting belt, the separation plate mounting belt is evenly provided with a first separation plate, a second separation plate, a third separation plate and a fourth separation plate, and the separation plate mounting belt is fastened on the separation shaft through bolts.

Further, the grinder comprises a feeding box, and a first conveying pipe is fixed at the lower end of the feeding box; one end of the first conveying pipe, which is far away from the material inlet box, is embedded into the main cavity, and one end of the main cavity, which is far away from the first conveying pipe, is connected with a second conveying pipe; the one end embedding auxiliary chamber of main cavity is kept away from to the second conveying pipeline, the discharge gate has been seted up to the one end that auxiliary chamber kept away from the second conveying pipeline, the discharge gate is a plurality of through-hole.

Furthermore, an arc-shaped sliding plate is arranged in the feeding box, a circular through hole is formed in the middle of the arc-shaped sliding plate, and the circular through hole is arranged corresponding to the first conveying pipe; a spiral stirrer is arranged in the main chamber, and a switch is arranged on one side of the main chamber;

two flat knife grinding discs are installed in the auxiliary cavity, the two flat knife grinding discs are installed on an auxiliary cavity bearing, and one end of the auxiliary cavity bearing is embedded into a grinding disc motor.

Furthermore, a rectangular opening is formed in the middle of the first conveying pipe, and a rectangular iron sheet penetrates through the rectangular opening; the shape of the rectangular iron sheet is the same as the cross section of the first conveying pipe; a plurality of small holes are formed in the rectangular iron sheet; the diameters of a plurality of small holes are the same.

Furthermore, the spiral feeding piece is welded on the feeder shaft, one end of the feeder shaft penetrates through the shell and is embedded into the first bearing seat, the other end of the feeder shaft penetrates through the shell and is embedded into the feeding motor, and the feeder shaft and the spiral feeding piece are both wrapped in the shell.

Furthermore, at least one separating plate mounting belt is arranged on the separating shaft; the cross sections of the first separating plate, the second separating plate, the third separating plate and the fourth separating plate are all rectangular; and the first separating plate, the second separating plate, the third separating plate and the fourth separating plate are all provided with small separating holes.

Further, the control box is connected with the heaters and the feeding motor through cables.

Further, the conveyor comprises a conveyor belt; and the conveying belt is paved with an inner lining plate, and is sleeved on the rolling shaft.

Compared with the prior art, the invention has the beneficial effects that:

through the arrangement of the grinding machine, after the different-color materials with larger material particles or stuck with normal materials enter the main cavity through the feeding box, the materials are fully stirred through the spiral stirrer, so that the different-color materials stuck with the normal materials are separated, then the normal materials and the different-color materials enter the auxiliary cavity through the second conveying pipe, the flat knife grinding disc in the auxiliary cavity is driven by the grinding disc motor to rotate, and the normal materials or the different-color materials with larger particles are ground into the materials which accord with the recovery standard size;

materials in accordance with the recovery standard size rotate through a spiral feeding sheet in the feeding machine and move on the feeding machine, and the materials in accordance with the recovery standard size are dried through a plurality of heaters, so that the water content in the materials in accordance with the recovery standard size is reduced, and the loss caused by the fact that the materials in accordance with the recovery standard size are adhered to a machine in the conveying process is avoided;

a first temperature sensor and a second humidity sensor are installed in the feeder shaft and are connected into the control box through cables, an operator can set the control box according to different types of materials in different seasons, and then the heating temperature of the heater and the humidity of the materials are controlled, so that more appropriate materials are selected to enter the discharge pipe;

when materials meeting the recovery standard enter the discharge pipe, a fan arranged on the discharge pipe separates dust from the materials with different masses, the dust is blown out of the discharge pipe, the materials with different masses fall downwards due to the principle of gravity and fall onto the rolling separator, smaller particles directly pass through the separation holes in the first separation plate, the second separation plate, the third separation plate and the fourth separation plate, larger particles fall onto the first separation plate, the second separation plate, the third separation plate or the fourth separation plate, and the materials are further fully separated;

the materials which are fully separated and accord with the recovery standard fall onto the conveying belt, and the materials which are fully separated and accord with the recovery standard are conveyed to the ore powder color sorter by the conveying belt for further processing.

Drawings

In order 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 schematic structural view of a material supply and conveying mechanism for a material color sorter easy to maintain;

FIG. 2 is a schematic view of a grinder configuration;

FIG. 3 is a schematic view of the feeder;

FIG. 4 is a schematic illustration of the tapping pipe construction;

fig. 5 is a schematic view of a rolling separator configuration.

In the figure: 1. a grinder; 101. a feeding box; 102. a first delivery pipe; 103. a main chamber; 104. a second delivery pipe; 105. a secondary chamber; 106. a helical agitator; 107. a switch; 108. a flat knife grinding disc; 109. a millstone motor; 110. a rectangular iron sheet; 2. a feeding machine; 201. a feeder shaft; 202. a housing; 203. a first hole; 204. a second hole; 205. a first temperature sensor; 206. a second humidity sensor; 207. a heater; 208. a feeding motor; 209. a control box; 3. a discharge pipe; 301. a fan; 302. a rolling separator; 303. a release shaft; 304. a separator plate mounting strap; 305. a first separation plate; 306. a second separation plate; 307. a third separation plate; 308. a fourth separation plate; 4. a conveyor.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.

As shown in fig. 1-5, a material supply and delivery mechanism for a material color selector, which is easy to maintain, includes a feeder 2, one end of the feeder 2 is connected with a grinding machine 1, the other end of the feeder 2 is connected with a discharge pipe 3, the bottom end of the discharge pipe 3 is provided with a conveyor 4, and the conveyor 4 transmits the material into the material color selector;

the feeder 2 comprises a feeder shaft 201 and a shell 202, the feeder shaft 201 is a hollow thin-wall pipeline, one end of the feeder shaft 201 is provided with a first hole 203, and a first temperature sensor 205 is arranged in the first hole 203; the control box 209 is connected with the heaters 207 and the feeding motor 208 through cables;

a second hole 204 is formed in the other end of the feeder shaft 201, and a second humidity sensor 206 is installed in the second hole 204; the first temperature sensor 205 and the second humidity sensor 206 are both connected to the control box 209 by cables; one end of the feeder 2, which is far away from the discharge pipe 3, is provided with a plurality of heaters 207;

a spiral feeding sheet is welded on the feeder shaft 201, one end of the feeder shaft 201 penetrates through the shell 202 and is embedded into the first bearing seat, the other end of the feeder shaft 201 penetrates through the shell 202 and is embedded into the feeding motor 208, and the feeder shaft 201 and the spiral feeding sheet are both wrapped in the shell 202;

a plurality of grooves are formed in one side of the outer shell 202, which is far away from the discharge pipe 3, and are opposite to the heaters 207;

a fan 301 is arranged at one end of the discharge pipe 3 close to the feeder 2, and a rolling separator 302 is arranged at one end of the discharge pipe 3 close to the conveyor 4;

the rolling separator 302 comprises a bearing seat and a plurality of separating shafts 303, wherein the plurality of separating shafts 303 are installed, one ends of the plurality of separating shafts 303 are embedded into the inner wall of the discharge pipe 3, and the other ends of the plurality of separating shafts 303 penetrate through the inner wall of the discharge pipe 3 and are embedded into the bearing seat;

a separation plate mounting belt 304 is mounted on the separation shaft 303, a first separation plate 305, a second separation plate 306, a third separation plate 307 and a fourth separation plate 308 are uniformly mounted on the separation plate mounting belt 304, and the separation plate mounting belt 304 is fastened on the separation shaft 303 through bolts;

the separating shaft 303 is provided with at least one separating plate mounting belt 304; the first separating plate 305, the second separating plate 306, the third separating plate 307 and the fourth separating plate 308 are rectangular in cross section; the first separating plate 305, the second separating plate 306, the third separating plate 307 and the fourth separating plate 308 are all provided with small separating holes;

the grinder 1 comprises a feeding box 101, a first delivery pipe 102 is fixed at the lower end of the feeding box 101; one end of the first delivery pipe 102 far away from the material inlet box 101 is embedded into the main chamber 103, and one end of the main chamber 103 far away from the first delivery pipe 102 is connected with a second delivery pipe 104; the end of the second delivery conduit 104 remote from the main chamber 103 is embedded in the sub-chamber 105, and the end of the sub-chamber 105 remote from the second delivery conduit 104 is provided with a discharge hole which is a plurality of through holes.

An arc-shaped sliding plate is arranged in the material inlet box 101, a circular through hole is formed in the middle of the arc-shaped sliding plate, and the circular through hole is arranged corresponding to the first conveying pipe 102; a spiral stirrer 106 is arranged in the main chamber 103, and a switch 107 is arranged on one side of the main chamber 103;

two flat knife grinding discs 108 are arranged in the auxiliary chamber 105, and the two flat knife grinding discs 108 are both arranged on an auxiliary chamber bearing; one end of the sub-chamber bearing is embedded in the disc motor 109.

A rectangular opening is formed in the middle of the first conveying pipe 102, and a rectangular iron sheet 110 penetrates through the rectangular opening; the rectangular iron sheet 110 has the same shape as the cross section of the first delivery pipe 102; the rectangular iron sheet 110 is provided with a plurality of small holes; the diameters of the small holes are the same.

The conveyor 4 comprises a conveyor belt; the conveyer belt upper berth is equipped with interior welt, and conveyer belt suit is on the roller bearing.

The invention is implemented specifically as follows:

through the arrangement of the grinder 1, after the different-color materials with larger material particles or stuck with normal materials enter the main cavity 103 through the material inlet box 101, the materials are fully stirred through the spiral stirrer 106, so that the different-color materials stuck with the normal materials are separated, then the normal materials and the different-color materials enter the auxiliary cavity 105 through the second material conveying pipe 104, the grinding disc motor 109 drives the flat knife grinding disc 108 in the auxiliary cavity 105 to rotate, and the normal materials or the different-color materials with larger particles are ground into the materials meeting the recovery standard size;

materials meeting the recovery standard size rotate through the spiral feeding piece in the feeding machine 2 and move in the feeding machine 2, and the materials meeting the recovery standard size are dried through the plurality of heaters 207, so that the water content in the materials meeting the recovery standard size is reduced, and the loss caused by the fact that the materials meeting the recovery standard size are adhered to a machine in the conveying process is avoided;

a first temperature sensor 205 and a second humidity sensor 206 are installed in the feeder shaft 201, the first temperature sensor 205 and the second humidity sensor 206 are connected into a control box 209 through cables, an operator can set the control box 209 according to different seasons of different types of materials, and then the heater 207 is controlled to heat the temperature and the humidity of the materials, so that more appropriate materials are selected to enter the discharge pipe 3;

when materials meeting the recovery standard enter the discharge pipe 3, the fan 301 arranged on the discharge pipe 3 separates dust and materials with different masses, the dust is blown out of the discharge pipe 3, the materials with different masses fall downwards due to the principle of gravity and fall onto the rolling separator 302, smaller particles directly pass through the separation holes on the first separation plate 305, the second separation plate 306, the third separation plate 307 and the fourth separation plate 308, and larger particles fall onto the first separation plate 305, the second separation plate 306, the third separation plate 307 or the fourth separation plate 308, so that the materials are fully separated;

the materials which are fully separated and accord with the recovery standard fall onto the conveying belt, and the conveying belt conveys the materials which are fully separated and accord with the recovery standard to the ore powder color sorter for further processing.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The material supply and transmission mechanism for the easily maintained material color selector comprises a feeding machine (2), and is characterized in that one end of the feeding machine (2) is connected with a grinding machine (1), the other end of the feeding machine (2) is connected with a discharging pipe (3), a conveyor (4) is arranged at the bottom end of the discharging pipe (3), and the conveyor (4) transmits materials into the material color selector;

the feeder (2) comprises a feeder shaft (201) and a shell (202), the feeder shaft (201) is a hollow thin-wall pipeline, one end of the feeder shaft (201) is provided with a first hole (203), and a first temperature sensor (205) is installed in the first hole (203);

a second hole (204) is formed in the other end of the feeder shaft (201), and a second humidity sensor (206) is installed in the second hole (204); the first temperature sensor (205) and the second humidity sensor (206) are connected with a control box (209) through cables; a plurality of heaters (207) are arranged at one end of the feeding machine (2) far away from the discharge pipe (3);

a plurality of grooves are formed in one side, away from the discharge pipe (3), of the shell (202), and the grooves are arranged corresponding to the heaters (207);

a fan (301) is arranged at one end, close to the feeding machine (2), of the discharge pipe (3), and a rolling separator (302) is arranged at one end, close to the conveying machine (4), of the discharge pipe (3);

the rolling separator (302) comprises a bearing seat and a plurality of separating shafts (303), wherein the plurality of separating shafts (303) are installed, one ends of the plurality of separating shafts (303) are embedded into the inner wall of the discharge pipe (3), and the other ends of the plurality of separating shafts (303) penetrate through the inner wall of the discharge pipe (3) and are embedded into the bearing seat;

the separating shaft (303) is provided with a separating plate mounting belt (304), the separating plate mounting belt (304) is uniformly provided with a first separating plate (305), a second separating plate (306), a third separating plate (307) and a fourth separating plate (308), and the separating plate mounting belt (304) is fastened on the separating shaft (303).

2. A material feeding and conveying mechanism for a material color selector easy to maintain according to claim 1, characterized in that the grinder (1) comprises a material feeding box (101), and a first conveying pipe (102) is fixed at the lower end of the material feeding box (101); one end of the first conveying pipe (102) far away from the material inlet box (101) is embedded into a main chamber (103), and one end of the main chamber (103) far away from the first conveying pipe (102) is connected with a second conveying pipe (104); one end, far away from the main cavity (103), of the second conveying pipeline (104) is embedded into the auxiliary cavity (105), one end, far away from the second conveying pipeline (104), of the auxiliary cavity (105) is provided with a discharge hole, and the discharge hole is a plurality of through holes.

3. The material supply and conveying mechanism for the easily maintained material color selector is characterized in that a circular arc-shaped sliding plate is arranged in the material inlet box (101), a circular through hole is formed in the middle of the circular arc-shaped sliding plate, and the circular through hole is arranged corresponding to the first conveying pipe (102); a spiral stirrer (106) is arranged in the main chamber (103), and a switch (107) is arranged on one side of the main chamber (103);

two flat knife grinding disks (108) are installed in the auxiliary chamber (105), the two flat knife grinding disks (108) are installed on an auxiliary chamber bearing, and one end of the auxiliary chamber bearing is embedded into a grinding disk motor (109).

4. The material supply and conveying mechanism for the easy-to-maintain material color sorter is characterized in that a rectangular opening is formed in the middle of the first conveying pipe (102), and a rectangular iron sheet (110) penetrates through the rectangular opening; the shape of the rectangular iron sheet (110) is the same as the cross section of the first conveying pipe (102); a plurality of small holes are formed in the rectangular iron sheet (110); the diameters of a plurality of small holes are the same.

5. The material feeding and conveying mechanism for the easy-to-maintain material color selector is characterized in that a spiral material feeding sheet is welded on the feeder shaft (201), one end of the feeder shaft (201) penetrates through the shell (202) and is embedded into the first bearing seat, the other end of the feeder shaft (201) penetrates through the shell (202) and is embedded into the feeding motor (208), and the feeder shaft (201) and the spiral material feeding sheet are both wrapped in the shell (202).

6. The material supply conveying mechanism for the easy-maintenance material color selector is characterized in that the cross sections of the first separating plate (305), the second separating plate (306), the third separating plate (307) and the fourth separating plate (308) are rectangular; separating holes are formed in the first separating plate (305), the second separating plate (306), the third separating plate (307) and the fourth separating plate (308), and the separating holes formed in the first separating plate (305) and the third separating plate (307) are larger than the separating holes formed in the second separating plate (306) and the fourth separating plate (308).

7. The material supply conveying mechanism for the easy-maintenance material color selector is characterized in that the control box (209) is connected with a plurality of heaters (207), a feeding motor (208) and a fan (301) through cables.

8. A material-feeding conveyor mechanism for a material colour selector easy to maintain according to claim 2, characterised in that the conveyor (4) comprises a conveyor belt; and the conveying belt is paved with an inner lining plate, and is sleeved on the rolling shaft.