CN116281019A - Ore conveyor - Google Patents

Abstract

The invention discloses an ore conveyor, which comprises an oscillating conveying assembly and a dust cleaning conveying assembly; the oscillating conveying assembly comprises an oscillating device and an oscillating conveying device, and the oscillating conveying device comprises an oscillating conveying disc; the oscillating device is connected with the oscillating conveying disc, the oscillating device enables the oscillating conveying disc to perform front-back oscillating movement, ore is conveyed through the oscillation of the oscillating conveying disc, and dust on the ore is separated from the ore; the dust cleaning and conveying assembly comprises a dust cleaning device and a cleaning and conveying device, and the cleaning and conveying device comprises a cleaning and conveying belt; the dust cleaning devices are distributed along the movable path of the cleaning conveyor belt and face the cleaning conveyor belt, and dust which is separated from the ore and residual dust on the ore are cleaned by the dust cleaning devices; the vibration conveying assembly and the dust cleaning conveying assembly can finish the primary cleaning of the ore in the conveying process, the ore is not required to be cleaned by manpower or other equipment, the cost is reduced, and the time is saved.

Description

Ore conveyor

Technical Field

The invention relates to the field of design and manufacture of mineral conveying equipment, in particular to an ore conveyor.

Background

An ore conveyor is one type of mineral conveying equipment; in a mine where ore is mined, ore is transported from inside the mine to outside the mine by operation of an ore conveyor; typically, the ore transported to the outside of the mine site needs to be initially cleaned for subsequent processing or transportation.

Typically, after the ore is mined, a large amount of soil is attached to the surface of the ore; meanwhile, in the conveying process of the ore conveyor for conveying the mined ore from the inside of the mining point to the outside of the mining point, a large amount of dust is adhered to the surface of the ore due to the working environment; however, the conventional ore conveyor has no structure for cleaning soil and dust; then, after the ore is conveyed from the inside of the mining point to the outside of the mining point, a cleaning procedure is needed to be carried out to primarily clean the soil or dust attached to the ore; the cleaning process is carried out manually or by other equipment, so that time waste is caused and the cost is increased; there is a need for an ore conveyor that cleans the ore of dirt or dust adhering to the ore during the conveying process.

Disclosure of Invention

The ore conveyor overcomes the defects of the prior art, has a simple structure and reasonable design, and can clean the soil or dust attached to the ore in the conveying process from the inside of the mining point to the outside of the mining point.

In order to solve the technical problems, the technical scheme of the invention is as follows:

an ore conveyor comprises an oscillating conveying assembly, a dust cleaning conveying assembly and an ore stabilizing conveying assembly;

the oscillating conveying assembly comprises an oscillating device and an oscillating conveying device, and the oscillating conveying device comprises an oscillating conveying disc; the oscillating device is connected with the oscillating conveying disc, the oscillating conveying disc performs front-back oscillating movement through the action of the oscillating device, ore is conveyed through the oscillation of the oscillating conveying disc, and dust on the ore is separated from the ore;

the dust cleaning and conveying assembly comprises a dust cleaning device and a cleaning and conveying device, and the cleaning and conveying device comprises a cleaning and conveying belt; the dust cleaning devices are distributed along the movable path of the cleaning conveyor belt and face the cleaning conveyor belt, and dust separated from ores and dust remained on the ores are cleaned by the dust cleaning devices;

The oscillation conveying device is provided with an oscillation conveying inlet and an oscillation conveying outlet; the cleaning and conveying device is provided with a cleaning and conveying inlet and a cleaning and conveying outlet; the ore stable conveying assembly comprises a stable conveying device, and the stable conveying device is provided with a stable conveying inlet and a stable conveying outlet; the oscillation conveying outlet is positioned above the cleaning conveying inlet; the height of the cleaning conveying inlet is lower than that of the cleaning conveying outlet, and the cleaning conveying outlet is positioned above the stable conveying inlet; the height of the stable conveying inlet is higher than that of the stable conveying outlet; the collected ore sequentially passes through an oscillation conveying assembly, a dust cleaning conveying assembly and an ore stabilizing conveying assembly.

Further, the oscillation conveying device comprises an oscillation bracket and an oscillation transmission assembly, wherein the oscillation transmission assembly comprises a first oscillation transmission plate, a second oscillation transmission plate and an oscillation transmission rod; the two ends of the oscillating transmission rod are respectively provided with a first transmission connecting end and a second transmission connecting end, the first transmission connecting end is rotatably connected with the first oscillating transmission plate, the second oscillating transmission plate is rotatably connected, the middle part of the oscillating transmission rod is provided with a third transmission connecting part, and the third transmission connecting part is rotatably connected with the oscillating bracket; the first oscillation transmission plate is connected with the oscillation conveying disc, and the second oscillation transmission plate is connected with the output part of the oscillation device; the oscillation conveying inlet and the oscillation conveying outlet are positioned on the same straight line, and the moving path of the output part of the oscillation device corresponds to the straight line.

Further, the oscillating conveyor tray comprises an oscillating conveyor side plate and an oscillating conveyor bottom plate; the oscillating conveying side plates are arranged on two sides of the oscillating conveying bottom plate, the included angle between the oscillating conveying side plates and the oscillating conveying bottom plate is smaller than or equal to 90 degrees, the oscillating conveying side plates and the oscillating conveying bottom plate surround to form an oscillating conveying space, and the oscillating conveying inlet and the oscillating conveying outlet are respectively arranged on two ends of the oscillating conveying space; the inner surfaces of the oscillating conveying side plate and the oscillating conveying bottom plate are respectively provided with oscillating grooves; the oscillating groove is formed by wrapping a stop surface and a forward surface; the stop surface is arranged on one side close to the oscillation conveying inlet, and the advancing surface is arranged on one side close to the oscillation conveying outlet; the retaining surface is connected with the advancing surface and forms an included angle, and an angular bisector of the included angle faces the oscillating conveying outlet;

an oscillation falling guide is further arranged at the oscillation conveying outlet and comprises an oscillation guiding bottom plate and an oscillation guiding side plate; the oscillation guide side plates are arranged on two sides of the oscillation guide bottom plate, one end of each oscillation guide side plate is connected with the oscillation conveying side plate at the oscillation conveying outlet, and one end of each oscillation guide bottom plate is connected with the oscillation conveying bottom plate at the oscillation conveying outlet; the vibration guiding base plate comprises a first vibration guiding area and a second vibration guiding area, wherein the first vibration guiding area is connected with the vibration conveying base plate, the second vibration guiding area is obliquely arranged, the second vibration guiding area adopts an inclined plane or a curved surface, and one end, far away from the first vibration guiding area, of the second vibration guiding area is downwardly inclined and faces to a cleaning conveying inlet of the dust cleaning conveying assembly.

Further, the oscillation transmission assembly comprises a first oscillation transmission assembly and a second oscillation transmission assembly; the first oscillation transmission plate of the first oscillation transmission assembly and the first oscillation transmission plate of the second oscillation transmission assembly are respectively connected with the left side and the right side of the lower surface of the oscillation conveying disc, and the first oscillation transmission plate of the first oscillation transmission assembly and the first oscillation transmission plate of the second oscillation transmission assembly are arranged corresponding to the length direction of the oscillation conveying disc;

the oscillating device comprises an oscillating motor, an oscillating motor mounting frame and a synchronous movable frame; the oscillating motor is fixed on the oscillating motor mounting frame, and the output part of the oscillating motor is connected with the synchronous movable frame; the synchronous movable frame comprises a left synchronous connecting rod, a right synchronous connecting rod and a synchronous connecting rod, the synchronous connecting rod is connected with the output part of the oscillating motor, the two ends of the synchronous connecting rod are respectively connected with the left synchronous connecting rod and the right synchronous connecting rod, the left synchronous connecting rod is connected with the second oscillating transmission plate of the first oscillating transmission assembly, and the right synchronous connecting rod is connected with the second oscillating transmission plate of the second oscillating transmission assembly;

the oscillating bracket is connected with the oscillating motor mounting frame.

Further, the cleaning and conveying device comprises a cleaning and conveying bracket, a cleaning and conveying platform and a cleaning and conveying transmission device; the cleaning conveying platform is arranged above the cleaning conveying support, the cleaning conveying platform is obliquely arranged, the cleaning conveying inlet and the cleaning conveying outlet are respectively positioned at two ends of the cleaning conveying platform, the cleaning conveying inlet is positioned at a low point, and the cleaning conveying outlet is positioned at a high point; the cleaning conveying inlet and the cleaning conveying outlet are positioned on the same straight line;

A cleaning space is arranged in the cleaning conveying platform, and the cleaning conveying belt is arranged in the cleaning space; a cleaning transmission rod capable of rolling is further arranged in the cleaning space, the cleaning transmission rod is matched with the cleaning conveyer belt, and the cleaning conveyer belt is driven to move by the rolling of the cleaning transmission rod; the cleaning conveying transmission device is fixed on the cleaning conveying platform; an output shaft of the cleaning conveying transmission device enters the cleaning space to be connected with the cleaning transmission rod and drives the cleaning transmission rod to roll;

an opening is formed in one end of the cleaning space, corresponding to the cleaning conveying outlet, and a cleaning falling guide piece is arranged at the opening and faces to a stable conveying inlet of the ore stable conveying assembly;

the cleaning and conveying platform comprises a cleaning and conveying bottom plate and a cleaning and conveying side plate; the cleaning conveying bottom plate is obliquely arranged; the cleaning and conveying side plates comprise a cleaning and conveying left side plate, a cleaning and conveying right side plate and a cleaning and conveying rear side plate; the lower side of the cleaning and conveying left side plate is connected with the left side of the cleaning and conveying bottom plate, the lower side of the cleaning and conveying right side plate is connected with the right side of the cleaning and conveying bottom plate, the lower side of the cleaning and conveying rear side plate is connected with one end of the cleaning and conveying bottom plate corresponding to the cleaning and conveying inlet, the left side of the cleaning and conveying rear side plate is connected with one end of the cleaning and conveying left side plate, and the right side of the cleaning and conveying rear side plate is connected with one end of the cleaning and conveying right side plate; the cleaning and conveying bottom plate, the cleaning and conveying left side plate, the cleaning and conveying right side plate and the cleaning and conveying rear side plate are surrounded to form a cleaning space;

The cleaning conveying transmission device is fixed on the cleaning conveying left side plate or the cleaning conveying right side plate and is connected with the cleaning transmission rod;

the cleaning falling guide piece comprises a cleaning guide bottom plate and a cleaning guide side plate; the cleaning guide side plates are arranged on two sides of the cleaning guide bottom plate, one end of each cleaning guide side plate is connected with the cleaning conveying side plate at the cleaning conveying outlet, the cleaning guide bottom plate is obliquely arranged, the cleaning guide bottom plate adopts an inclined surface or a curved surface, and one end of the cleaning guide bottom plate, far away from the cleaning conveying bottom plate, is inclined downwards and faces to the stable conveying inlet of the ore stable conveying assembly;

the dust cleaning device is arranged along the cleaning conveying side plate;

the clearance conveying support includes first clearance mounting bracket, second clearance mounting bracket and clearance connecting rod, the height of first clearance mounting bracket is less than the height of second clearance mounting bracket, and the upper end of first clearance mounting bracket is connected with clearance conveying platform's one end that is equipped with the clearance and carries the entry, and the upper end of second clearance mounting bracket is connected with clearance conveying platform's one end that is equipped with the clearance and carries the export, and the both ends of clearance connecting rod are connected with first clearance mounting bracket and second clearance mounting bracket respectively.

Further, the cleaning conveyer belt comprises a cleaning conveyer belt body, and two ends of the cleaning conveyer belt body are connected to form a closed loop; the cleaning conveying belt body surrounds the cleaning conveying belt body to form a cleaning transmission space; the cleaning transmission rods are arranged at two ends of the cleaning transmission space and are contacted with the inner surface of the cleaning conveyer belt body, and the cleaning conveyer belt body is driven to move by rolling of the cleaning transmission rods; the cleaning conveyer belt further comprises a retaining plate, the retaining plate is arranged on the outer surface of the cleaning conveyer belt body, an included angle exists between the retaining plate and the outer surface of the cleaning conveyer belt body, and the included angle between one side of the retaining plate, which faces the cleaning conveyer outlet, and the outer surface of the cleaning conveyer belt body is smaller than or equal to 90 degrees.

Further, the dust cleaning device comprises a fan dust removing assembly and a flushing dust removing assembly;

the fan dust removing assembly comprises fans, the fans are distributed along the cleaning conveying side plates, and the air outlet direction of the fans is aligned to the cleaning conveying belt so as to blow off dust separated from ores;

the flushing dust removal assembly comprises a water pipe and spray heads, and the spray heads are distributed along the cleaning conveying side plates; the water pipe is connected and communicated with the spray head so as to supply water for the spray head; the water outlet direction of the spray head is aligned with the cleaning conveyer belt, so that the ore with dust is washed;

The movable path of the cleaning conveyer belt has a certain gap with the cleaning conveyer bottom plate, the side edges of the left side and the right side of the cleaning conveyer belt have a certain gap with the cleaning conveyer left side plate and the cleaning conveyer right side plate, dust falls into the bottom of the cleaning space through the gaps, and the dust is converged to the lowest part of the cleaning space through the obliquely arranged cleaning conveyer bottom plate; the cleaning and conveying rear side plate is provided with a dust outlet, and the cleaned dust leaves the cleaning space from the dust outlet.

Further, the ore stable conveying assembly comprises a stable conveying underframe, and the stable conveying device is arranged on the stable conveying underframe; the stable conveying device comprises a stable conveying bracket, a stable conveying belt, a roller transmission device and a stable conveying transmission device; the stable conveying support is arranged above the stable conveying underframe and is obliquely arranged; the stable conveying inlet and the stable conveying outlet are respectively arranged at two ends of the stable conveying bracket, the stable conveying inlet is positioned at a high point, and the stable conveying outlet is positioned at a low point;

the stable conveying support comprises a first conveying stabilizing rod, a second conveying stabilizing rod and a conveying connecting rod, the first conveying stabilizing rod is connected with the second conveying stabilizing rod through the conveying connecting rod, the first conveying stabilizing rod is positioned above the second conveying stabilizing rod, and the second conveying stabilizing rod is connected with the stable conveying underframe;

The stable conveying support further comprises a first conveying assembly part and a second conveying assembly part, wherein the first conveying assembly part is connected with one end of the first conveying stabilizer bar corresponding to the stable conveying inlet and one end of the second conveying stabilizer bar corresponding to the stable conveying inlet, and the second conveying assembly part is connected with one end of the first conveying stabilizer bar corresponding to the stable conveying outlet and one end of the second conveying stabilizer bar corresponding to the stable conveying outlet;

the first conveying assembly part and the second conveying assembly part are respectively provided with a stable transmission bearing and a stable transmission rod matched with the stable transmission bearings, and meanwhile, the stable transmission rods are matched with the stable conveying belt and roll through the stable transmission rods to drive the stable conveying belt to move;

the stable conveying transmission device is fixed on the stable conveying bracket; an output shaft of the stable conveying transmission device is connected with the stable transmission rod and drives the stable transmission rod to roll;

the stable conveying belt is made of deformable materials;

the roller driving devices are distributed on the stable conveying support, and each roller driving device is arranged between the first conveying assembly part and the second conveying assembly part; each roller transmission device comprises a main roller, a side roller, a main roller frame and a side roller frame; the main roller is arranged on the main roller frame and is connected with the main roller frame in a rolling way; the side roller is arranged on the side roller frame and can roll to be connected with the side roller frame; the main roller frames are arranged on the first conveying stabilizing rod and distributed along the first conveying stabilizing rod; the side roller frames comprise a first side roller frame and a second side roller frame, the side roller frames comprise a first side roller arranged on the first side roller frame and a second side roller arranged on the second side roller frame, and the first side roller frame and the second side roller frame are respectively arranged on two sides of the main roller frame; the rolling direction of the main roller corresponds to the rolling direction of the side roller; the first side roller and the second side roller are obliquely arranged; one end of the first side roller faces one end of the main roller, the other end of the first side roller faces the direction away from the main roller, and one end of the first side roller, facing the main roller, is a low point; one end of the second side roller faces one end of the main roller, the other end of the second side roller faces the direction away from the main roller, and one end of the second side roller, facing the main roller, is a low point;

The main roller, the first side roller and the second side roller of the same roller transmission device are all contacted with the same area of the stable conveying belt, and the stable conveying belt in the area deforms through contact with the main roller, the first side roller and the second side roller to form a stable conveying space with barriers at two sides.

Further, two ends of the stable conveying belt are connected to form a closed loop; the stable conveying belt surrounds to form a stable transmission space; the stable transmission rods are arranged at two ends of the stable transmission space and are contacted with the inner surface of the stable conveying belt, and the stable conveying belt is driven to move by rolling of the stable transmission rods;

the main roller, the first side roller and the second side roller of the roller transmission device are arranged on the upper surface of the first conveying stabilizing rod and are contacted with the inner surface of the stabilizing conveying belt; the main roller, the first side roller and the second side roller are in contact with a region of the stable conveying belt moving from the stable conveying inlet to the stable conveying outlet;

the stable conveying device also comprises an auxiliary transmission device, wherein the auxiliary transmission device comprises auxiliary rollers and auxiliary roller frames; the auxiliary roller frame is arranged on the lower surface of the first conveying stabilizing rod, and the auxiliary roller can roll and is connected with the auxiliary roller frame; the auxiliary roller is contacted with the outer surface of the stable conveying belt; the stable conveying belt passes through the space between the auxiliary roller and the first conveying stabilizing rod from the stable conveying outlet to the stable conveying inlet.

Further, the stable conveying device further comprises a conveying falling guide part, and the conveying falling guide part is arranged at the stable conveying outlet; the conveying and falling guide part comprises an upper baffle, a left baffle, a right baffle, a front baffle and a rear baffle; the left baffle and the right baffle are respectively connected with the left end and the right end of the upper baffle, the front baffle and the rear baffle are respectively connected with the front end and the rear end of the upper baffle, the two ends of the front baffle are respectively connected with one end of the left baffle and one end of the right baffle, and the two ends of the rear baffle are respectively connected with the other end of the left baffle and the other end of the right baffle; the upper baffle, the left baffle, the right baffle, the front baffle and the rear baffle are surrounded to form a conveying and falling guide space with an opening; an opening of the conveying falling guide space is arranged at the bottom of the conveying falling guide part, and ore leaves the ore stabilizing and conveying assembly through the opening; the stable conveying outlet is surrounded by a conveying and falling guide space, the second conveying assembly part is positioned in the conveying and falling guide space, and a gap for ore to fall is reserved between a stable transmission rod on the second conveying assembly part and the inner wall of the stable conveying belt on the stable transmission rod and the falling guide space; the front baffle is arranged at one end of the upper baffle, which is close to the stable conveying inlet, a notch is formed in the front baffle, and the stable conveying belt conveys ores into the conveying and falling guide space through the notch;

The auxiliary guide assembly comprises an auxiliary guide bracket and an auxiliary guide baffle, wherein one end of the auxiliary guide bracket is connected with one side of the auxiliary guide baffle, and the other end of the auxiliary guide bracket is connected with the first conveying stabilizer bar; the auxiliary guide bracket and the auxiliary guide baffle are arranged on two sides of the stable conveying belt; the auxiliary guide baffle is obliquely arranged, and the other side of the auxiliary guide baffle enters the stable conveying space.

In the invention, the dust cleaning and conveying device comprises an oscillating conveying assembly and a dust cleaning and conveying assembly; the oscillating conveying assembly comprises an oscillating device and an oscillating conveying device, the oscillating conveying device comprises an oscillating conveying disc, the oscillating device is connected with the oscillating conveying disc, the oscillating movement of the oscillating conveying disc is realized through the oscillating device, ore is conveyed through the oscillation of the oscillating conveying disc, and dust on the ore is separated from the ore; the dust cleaning and conveying assembly comprises a dust cleaning device and a cleaning and conveying device, and the cleaning and conveying device comprises a cleaning and conveying belt; the dust cleaning devices are distributed along the movable path of the cleaning conveyor belt and face the cleaning conveyor belt, and dust separated from ores and dust remained on the ores are cleaned by the dust cleaning devices; furthermore, when the oscillating conveying assembly and the dust cleaning conveying assembly are in the conveying process, the primary cleaning of ores can be completed; furthermore, the ores do not need to be cleaned by manpower or other equipment, so that the cost is reduced and the time is saved.

In the invention, a first transmission connecting end, a second transmission connecting end and a third transmission connecting part are arranged on an oscillation transmission rod, the third transmission connecting end, the second transmission connecting end and the third transmission connecting part are respectively and rotatably connected with a first oscillation transmission plate, a second oscillation transmission plate and an oscillation bracket, the first oscillation transmission plate is connected with an oscillation conveying disc, and the second oscillation transmission plate is connected with an output part of an oscillation device; when the output part of the oscillating device drives the second oscillating transmission plate to move through the expansion of the output part, the first oscillating transmission plate and the oscillating conveying disc move towards opposite directions, and the moving direction of the oscillating conveying disc corresponds to the setting direction of the oscillating conveying inlet and the oscillating conveying outlet; the oscillating movement of the oscillating conveying disc is realized by the back and forth swinging of the first transmission connecting end and the second transmission connecting end at the two ends of the oscillating transmission rod; the dust on the ore is separated from the ore by the oscillating movement of the oscillating conveyor tray.

In the invention, the oscillating conveying tray comprises an oscillating conveying side plate and an oscillating conveying bottom plate, an oscillating conveying space is formed by surrounding the oscillating conveying side plate and the oscillating conveying bottom plate, and ore is conveyed in the oscillating conveying space through the oscillating movement of the oscillating conveying tray, so that dust on the ore is separated from the ore; the included angle between the oscillating conveying side plate and the oscillating conveying bottom plate is smaller than or equal to 90 degrees, and the limiting effect is applied to ores in the oscillating conveying space through the oscillating conveying side plate, so that the ores are prevented from falling out of the oscillating conveying space easily due to the oscillating movement of the oscillating conveying plate.

In the invention, the oscillating groove is formed by enclosing a stopping surface and a advancing surface, the stopping surface is arranged at one side close to the oscillating conveying inlet, the advancing surface is arranged at one side close to the oscillating conveying outlet, the stopping surface is connected with the advancing surface, an included angle is formed, and the angular bisector of the included angle faces the oscillating conveying outlet; because the angular bisector of the included angle between the stop surface and the advancing surface faces the oscillation conveying outlet, the included angle is obliquely arranged towards the oscillation conveying outlet, and meanwhile, the advancing surface and the stop surface are obliquely arranged; compared with the non-return surface, the inclination angle of the advancing surface is smaller and flatter and is closer to the horizontal plane; the inclination angle of the retaining surface is larger and is closer to the vertical surface; when the oscillation conveying disc moves towards the oscillation conveying inlet under the drive of the oscillation device, the ore in the oscillation conveying space is contacted with the stop surface, and the stop surface applies pushing force to the ore to move forwards; stopping the movement when the oscillating conveying disc moves towards the oscillating conveying outlet to a certain extent, and continuously moving the ore towards the oscillating conveying outlet under the action of self inertia; when the oscillation conveying disc moves towards the oscillation conveying inlet under the drive of the oscillation device, the ore in the oscillation conveying space is contacted with the stop surface, and the movement of the ore towards the oscillation conveying inlet is limited by the stop surface; the ore is enabled to move towards the oscillation conveying outlet through the cooperation, then the ore is conveyed through the oscillation of the oscillation conveying disc, and dust on the ore is separated from the ore synchronously through the oscillation of the oscillation conveying disc while the ore is conveyed.

According to the invention, the vibrating grooves are distributed on the inner surfaces of the vibrating conveying side plate and the vibrating conveying bottom plate, so that ores in the vibrating conveying space can be matched with the vibrating grooves, and dust on the ores can be separated from the ores synchronously through vibration of the vibrating conveying plate while ore transportation is realized.

In the invention, the ore which reaches the oscillation conveying outlet is arranged to play a role in guiding the oscillation falling guide, so that the ore can fall into the dust cleaning conveying assembly for further subsequent procedures.

In the invention, the oscillation transmission assembly comprises a first oscillation transmission assembly and a second oscillation transmission assembly; the first oscillation transmission plate of the first oscillation transmission assembly and the first oscillation transmission plate of the second oscillation transmission assembly are respectively connected with the left side and the right side of the lower surface of the oscillation conveying disc; so that the acting force from the oscillating device to the oscillating conveying disc is more uniform; the arrangement of the synchronous connecting rods enables the left synchronous connecting rod and the right synchronous connecting rod to apply the same acting force to the second oscillating transmission plate of the first oscillating transmission assembly and the second oscillating transmission plate of the second oscillating transmission assembly, and therefore the oscillating conveying disc is enabled to be more uniform in acting force from the oscillating device.

In the invention, the cleaning and conveying platform comprises a cleaning and conveying bottom plate and a cleaning and conveying side plate, wherein the cleaning and conveying side plate comprises a cleaning and conveying left side plate, a cleaning and conveying right side plate and a cleaning and conveying rear side plate, the cleaning and conveying bottom plate, the cleaning and conveying left side plate, the cleaning and conveying right side plate and the cleaning and conveying rear side plate are enclosed to form a cleaning space, a cleaning and conveying belt is arranged in the cleaning space, and a dust cleaning device is arranged along the cleaning and conveying side plate; and when the dust cleaning device cleans the ore on the cleaning conveyer belt, dust and the like outside the cleaning space can be prevented from being attached to the ore again as much as possible, and the influence of the dust cleaning device on the environment outside the cleaning space can be prevented as much as possible.

In the invention, the ore reaching the cleaning conveying outlet through the cleaning falling guide piece plays a role in guiding so that the ore can fall into the ore stabilizing conveying assembly to further carry out the subsequent process.

In the invention, the cleaning conveyer belt comprises a cleaning conveyer belt body, and a retaining plate is arranged on the outer surface of the cleaning conveyer belt body; compared with the mode that only through the frictional force between ore and the clearance conveyer belt body drive the ore activity, drive the ore by the backstop board and move about and make the transportation of ore more stable.

In the invention, the cleaning effect of the dust cleaning and conveying assembly is better through the arrangement of the fan dust removing assembly and the flushing dust removing assembly; meanwhile, certain gaps exist between the side edges of the left side and the right side of the cleaning conveying belt and the cleaning conveying left side plate and the cleaning conveying right side plate, dust falls into the bottom of the cleaning space through the gaps, and dust is converged to the lowest position of the cleaning space through the obliquely arranged cleaning conveying bottom plate; a dust outlet is formed in the cleaning and conveying rear side plate, and cleaned dust leaves the cleaning space from the dust outlet; the dust that makes clear up on the ore and wash the dust removal subassembly and be used for washing the liquid of ore and leave in clearance conveyer belt and the clearance space, avoid influencing the cleaning effect of follow-up ore.

According to the invention, the main roller, the first side roller and the second side roller are in contact with the same area of the stable conveying belt, and the stable conveying belt in the area deforms through contact with the main roller, the first side roller and the second side roller to form a blocked stable conveying space at two sides, so that the wrapping property and the limiting effect of the stable conveying belt on ores are better, and the stability of the stable conveying belt in conveying ores is improved.

In the invention, the auxiliary transmission device further improves the working stability of the stable conveying belt.

In the invention, the ore reaching the stable conveying outlet is guided by the arrangement of the conveying falling guide part, so that the ore can orderly and stably leave from the stable conveying outlet; simultaneously, the blocking effect produced by the upper baffle, the left baffle, the right baffle, the front baffle and the rear baffle orients the direction of the ore leaving the ore stabilizing and conveying assembly, so that the worker can collect or load the ore leaving the ore stabilizing and conveying assembly conveniently.

In the invention, the auxiliary guide assembly is arranged so that ore can enter the conveying and falling guide part more stably and orderly.

Drawings

Fig. 1 is a block diagram of an oscillating conveyor assembly.

Fig. 2 is a structural diagram of one end of fig. 1.

Fig. 3 is a block diagram of an oscillating drive assembly.

Fig. 4 is a structural view of the oscillating conveyor tray.

Fig. 5 is a cross-sectional view of fig. 4.

Fig. 6 is a structural diagram of the cooperation of the synchronous movable frame and the oscillating motor.

FIG. 7 is a block diagram of one side of the dust cleaning transport assembly.

FIG. 8 is a block diagram of the other side of the dust cleaning transport assembly.

Fig. 9 is a block diagram of a clean-up transport platform.

Fig. 10 is a cross-sectional view of fig. 9.

Fig. 11 is a structural view of the cleaning conveyor belt.

Fig. 12 is a structural view of the cleaning conveyor belt in the cleaning space.

Fig. 13 is a block diagram of an ore stabilizing conveyor assembly.

Fig. 14 is a structural view of the removal conveying drop guide in fig. 13.

Fig. 15 is a structural view at the first conveyance fitting part.

Fig. 16 is a structural view at the second conveyance fitting part.

Fig. 17 is a block diagram of the cooperation of the roller drive, auxiliary drive, first conveyor stabilizer bar and stabilizing conveyor.

Fig. 18 is a structural view of the roller gear, the auxiliary gear, and the first conveyance stabilizer bar.

Fig. 19 is a structural view of the transport fall guide.

Reference numerals in the drawings:

1. an oscillating conveyor assembly; 2. a dust cleaning and conveying assembly; 3. an ore stabilizing and conveying assembly; 11. an oscillating device; 12. an oscillating conveyor; 13. an oscillating delivery inlet; 14. an oscillating delivery outlet; 15. an oscillating support; 16. an oscillating drive assembly; 17. oscillating the drop guide; 21. a dust cleaning device; 22. cleaning the conveying device; 23. cleaning a conveying inlet; 24. cleaning a conveying outlet; 25. cleaning a conveying bracket; 26. cleaning a conveying platform; 27. cleaning a conveying belt; 28. cleaning a conveying transmission device; 29. cleaning the falling guide; 31. a stable conveying device; 32. a stable delivery inlet; 33. a stable delivery outlet; 34. a stable conveying underframe; 35. a stable conveying support; 36. stabilizing the conveyor belt; 37. a roller transmission device; 38. a stable conveying transmission device; 39. an auxiliary transmission; 40. a conveying drop guide; 41. an auxiliary guide assembly; 111. an oscillating motor; 112. an oscillating motor mounting rack; 113. a synchronous movable frame; 114. a left synchronous connecting rod; 115. a right synchronous connecting rod; 116. synchronizing the connecting rods; 121. oscillating the conveying tray; 122. oscillating the conveying side plate; 123. oscillating the conveying bottom plate; 124. oscillating the conveying space; 125. an oscillating tank; 126. a stop surface; 127. advancing the surface; 161. a first oscillation transmission plate; 162. a second oscillation transmission plate; 163. oscillating the transmission rod; 164. a first drive connection; 165. a second drive connection; 166. a third drive connection; 167. a first oscillating drive assembly; 168. a second oscillating drive assembly; 171. an oscillation guide base plate; 172 oscillating the guide side plate; 173. a first oscillation guide area; 174. a second oscillation guide area; 211. a fan dust removal assembly; 212. a fan; 213. flushing the dust removal assembly; 214. a water pipe; 215. a spray head; 251. a first cleaning mounting frame; 252. a second cleaning mounting rack; 253. cleaning the connecting rod; 261. cleaning the space; 262. cleaning a transmission rod; 263. cleaning a conveying bottom plate; 264. cleaning a conveying side plate; 265. cleaning and conveying a left side plate; 266. cleaning a right conveying side plate; 267. cleaning and conveying the rear side plate; 268. a dust outlet; 269. cleaning a conveying bearing; 271. cleaning a conveyor belt body; 272. cleaning a transmission space; 273. a retaining plate; 274. a gap; 291. cleaning a guide bottom plate; 292. cleaning a guide side plate; 351. a first conveying stabilizer bar; 352. a second conveying stabilizer bar; 353. conveying the connecting rod; 354. a first conveying assembly part; 355. a second conveying assembly part; 356. stabilizing the transmission bearing; 357. stabilizing the transmission rod; 361. stabilizing the conveying space; 362. stabilizing the transmission space; 371. a main roller; 372. a side roller; 373. a main roller frame; 374. a side roller frame; 375. a first side roller frame; 376. a second side roller frame; 377. a first side roller; 378. a second side roller; 391. an auxiliary roller; 392. an auxiliary roller frame; 401. an upper baffle; 402. a left baffle; 403. a right baffle; 404. a front baffle; 405. a rear baffle; 406. a notch; 411. an auxiliary guide bracket; 412. and an auxiliary guide baffle.

Description of the embodiments

The invention will be further described with reference to the drawings and specific examples. It should be noted that the examples are only specific to the present invention and are for the purpose of better understanding of the technical solutions of the present invention to those skilled in the art, and should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, as the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," and the like are used for convenience of description and simplicity of description, only as to the orientation or positional relationship shown in the drawings, and not as an indication or suggestion that the apparatus or element in question must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention.

In the description of the present invention, it should be noted that unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases to those skilled in the art.

Examples

As shown in fig. 1-19, an ore conveyor includes an oscillating conveyor assembly 1, a dust cleaning conveyor assembly 2, and an ore stabilizing conveyor assembly 3; the oscillating conveyor assembly 1 comprises an oscillating device 11 and an oscillating conveyor device 12, the oscillating conveyor device 12 comprising an oscillating conveyor tray 121; the oscillating device 11 is connected with the oscillating conveying disc 121, the oscillating conveying disc 121 performs front-back oscillating movement by the movement of the oscillating device 11, the ore is conveyed by the oscillation of the oscillating conveying disc 121, and dust on the ore is separated from the ore; the dust cleaning and conveying assembly 2 comprises a dust cleaning device 21 and a cleaning and conveying device 22, and the cleaning and conveying device 22 comprises a cleaning and conveying belt 27; the dust cleaning devices 21 are distributed along the movable path of the cleaning conveyer belt 27 and face the cleaning conveyer belt 27, and dust which is separated from ore and dust which remains on the ore are cleaned by the dust cleaning devices 21; furthermore, when the oscillating conveying assembly 1 and the dust cleaning conveying assembly 2 are in the conveying process, the primary cleaning of ores can be completed; furthermore, the ores do not need to be cleaned by manpower or other equipment, so that the cost is reduced and the time is saved.

In the present invention, the oscillating conveyor 12 is provided with an oscillating conveyor inlet 13 and an oscillating conveyor outlet 14; the cleaning conveyor 22 is provided with a cleaning conveyor inlet 23 and a cleaning conveyor outlet 24; the ore stabilizing conveyor assembly 3 comprises a stabilizing conveyor 31, the stabilizing conveyor 31 being provided with a stabilizing conveyor inlet 32 and a stabilizing conveyor outlet 33; the oscillating conveyor outlet 14 is above the clean conveyor inlet 23; the cleaning delivery inlet 23 is located at a lower elevation than the cleaning delivery outlet 24, and the cleaning delivery outlet 24 is located above the stabilizing delivery inlet 32; the height of the steady delivery inlet 32 is higher than the height of the steady delivery outlet 33; the collected ore sequentially passes through an oscillation conveying assembly 1, a dust cleaning conveying assembly 2 and an ore stabilizing conveying assembly 3, and then a complete ore conveying route is formed.

In the present invention, the oscillating conveyor 12 includes an oscillating bracket 15 and an oscillating drive assembly 16, and the oscillating drive assembly 16 includes a first oscillating drive plate 161, a second oscillating drive plate 162, and an oscillating drive lever 163; the two ends of the oscillation transmission rod 163 are respectively provided with a first transmission connection end 164 and a second transmission connection end 165, the first transmission connection end 164 is rotatably connected with the first oscillation transmission plate 161, the second oscillation transmission plate 162 is rotatably connected, the middle part of the oscillation transmission rod 163 is provided with a third transmission connection part 166, and the third transmission connection part 166 is rotatably connected with the oscillation bracket 15; the first oscillation transmission plate 161 is connected to the oscillation delivery plate 121, and the second oscillation transmission plate 162 is connected to the output part of the oscillation device 11; the oscillation conveying inlet 13 and the oscillation conveying outlet 14 are on the same straight line, and the moving path of the output part of the oscillation device 11 corresponds to the straight line; the oscillating transmission rod 163 is provided with a first transmission connection end 164, a second transmission connection end 165 and a third transmission connection part 166, which are respectively and rotatably connected with the first oscillating transmission plate 161, the second oscillating transmission plate 162 and the oscillating bracket 15, the first oscillating transmission plate 161 is connected with the oscillating conveyor disc 121, and the second oscillating transmission plate 162 is connected with the output part of the oscillating device 11; when the output part of the oscillating device 11 drives the second oscillating drive plate 162 to move through the expansion and contraction of the oscillating device, the first oscillating drive plate 161 and the oscillating conveying plate 121 move towards opposite directions, and the moving direction of the oscillating conveying plate 121 corresponds to the setting directions of the oscillating conveying inlet 13 and the oscillating conveying outlet 14; the oscillating movement of the oscillating conveyor tray 121 is further achieved by oscillating the oscillating drive lever 163 back and forth with the first drive link 164 and the second drive link 165 at both ends; the dust on the ore is separated from the ore by the oscillating movement of the oscillating conveyor tray 121.

In this embodiment, the first transmission connection end 164, the second transmission connection end 165 and the third transmission connection portion 166 are respectively provided with a threaded hole penetrating therethrough, and rotatable connection between the first transmission connection end 164, the second transmission connection end 165 and the third transmission connection portion 166 and the first oscillation transmission plate 161, the second oscillation transmission plate 162 and the oscillation bracket 15 is achieved through cooperation of bolts and nuts; of course, in other embodiments, the rotatable connection between the first drive connection 164, the second drive connection 165 and the third drive connection 166 and the first oscillating drive plate 161, the second oscillating drive plate 162 and the oscillating bracket 15 may be achieved in other ways.

In the present invention, the oscillating conveyor tray 121 includes an oscillating conveyor side plate 122 and an oscillating conveyor bottom plate 123; the oscillating conveying side plates 122 are disposed at two sides of the oscillating conveying bottom plate 123, an included angle between the oscillating conveying side plates 122 and the oscillating conveying bottom plate 123 is less than or equal to 90 °, the oscillating conveying side plates 122 and the oscillating conveying bottom plate 123 enclose an oscillating conveying space 124, and the oscillating conveying inlet 13 and the oscillating conveying outlet 14 are disposed at two ends of the oscillating conveying space 124 respectively; the ore is conveyed in the oscillating conveying space 124 through the oscillating movement of the oscillating conveying disc 121, so that dust on the ore is separated from the ore; in this embodiment, the included angle between the oscillating conveying side plate 122 and the oscillating conveying bottom plate 123 is 90 °, and the limiting effect is applied to the ore in the oscillating conveying space 124 by the oscillating conveying side plate 122, so as to prevent the ore from easily falling out of the oscillating conveying space 124 due to the oscillating movement of the oscillating conveying plate 121.

In the invention, the oscillating grooves 125 are distributed on the inner surfaces of the oscillating conveying side plate 122 and the oscillating conveying bottom plate 123; the oscillation groove 125 is surrounded by a stop surface 126 and a forward surface 127; the stop surface 126 is disposed on a side close to the oscillating conveyor inlet 13, and the advancing surface 127 is disposed on a side close to the oscillating conveyor outlet 14; the stop surface 126 and the forward surface 127 are connected and form an included angle, and an angular bisector of the included angle faces the oscillation delivery outlet 14; since the angular bisector of the angle between the stop surface 126 and the advance surface 127 is oriented toward the oscillating conveyor outlet 14, the angle is set obliquely toward the oscillating conveyor outlet 14, while both the advance surface 127 and the stop surface 126 are set obliquely; the angle of inclination of the advancing surface 127 is smaller and flatter than that of the stopping surface 126, and is closer to the horizontal plane; the inclination angle of the retaining surface 126 is larger and is closer to the vertical surface; when the oscillation conveying disc 121 moves towards the oscillation conveying inlet 13 under the drive of the oscillation device 11, the ore in the oscillation conveying space 124 contacts with the stopping surface 126, and the stopping surface 126 applies pushing force to the ore to move forwards; stopping movement when the oscillating conveyor tray 121 moves towards the oscillating conveyor outlet 14 to a certain extent, and allowing ore to continuously move towards the oscillating conveyor outlet 14 under the action of self inertia; when the oscillation conveying disc 121 moves towards the oscillation conveying inlet 13 under the drive of the oscillation device 11, the ore in the oscillation conveying space 124 contacts with the stopping surface 126, and the movement of the ore towards the oscillation conveying inlet 13 is limited by the stopping surface 126; the ore is moved toward the oscillating conveyor outlet 14 by the above-described engagement, and is conveyed by the oscillation of the oscillating conveyor tray 121, and dust on the ore is separated from the ore by the oscillation of the oscillating conveyor tray 121 in synchronization with the conveyance of the ore.

In the present invention, an oscillation drop guide 17 is further provided at the oscillation delivery outlet 14, the oscillation drop guide 17 including an oscillation guide bottom plate 171 and an oscillation guide side plate 172; the oscillation guide side plates 172 are disposed on both sides of the oscillation guide bottom plate 171, one end of the oscillation guide side plate 172 is connected to the oscillation conveying side plate 122 at the oscillation conveying outlet 14, and one end of the oscillation guide bottom plate 171 is connected to the oscillation conveying bottom plate 123 at the oscillation conveying outlet 14; the oscillating guide bottom plate 171 comprises a first oscillating guide area 173 and a second oscillating guide area 174, wherein the first oscillating guide area 173 is connected with the oscillating conveyor bottom plate 123, the second oscillating guide area 174 is obliquely arranged, the second oscillating guide area 174 adopts an inclined plane or a curved plane, and one end of the second oscillating guide area 174 away from the first oscillating guide area 173 is downward inclined and faces the cleaning conveyor inlet 23 of the dust cleaning conveyor assembly 2; the ore of the oscillating drop guide 17, which is arranged to reach the oscillating conveyor outlet 14, plays a guiding role so that the ore can fall into the dust cleaning conveyor assembly 2 for subsequent processes; in the present embodiment, the second oscillation guide area 174 is a slope, and a curved surface may be used in case of product demand.

In the present invention, the oscillating drive assembly 16 includes a first oscillating drive assembly 167 and a second oscillating drive assembly 168; the first oscillation transmission plate 161 of the first oscillation transmission assembly 167 and the first oscillation transmission plate 161 of the second oscillation transmission assembly 168 are respectively connected with the left and right sides of the lower surface of the oscillation conveying tray 121, and the first oscillation transmission plate 161 of the first oscillation transmission assembly 167 and the first oscillation transmission plate 161 of the second oscillation transmission assembly 168 are arranged corresponding to the length direction of the oscillation conveying tray 121; further, the oscillating conveyor plate 121 is more uniformly subjected to the force from the oscillating device 11; the oscillating device 11 includes an oscillating motor 111, an oscillating motor mounting frame 112, and a synchronous movable frame 113; the oscillating motor 111 is fixed on the oscillating motor mounting frame 112, and the output part of the oscillating motor 111 is connected with the synchronous movable frame 113; the synchronous movable frame 113 comprises a left synchronous connecting rod 114, a right synchronous connecting rod 115 and a synchronous connecting rod 116, the synchronous connecting rod 116 is connected with the output part of the oscillating motor 111, two ends of the synchronous connecting rod 116 are respectively connected with the left synchronous connecting rod 114 and the right synchronous connecting rod 115, the left synchronous connecting rod 114 is connected with the second oscillating transmission plate 162 of the first oscillating transmission assembly 167, and the right synchronous connecting rod 115 is connected with the second oscillating transmission plate 162 of the second oscillating transmission assembly 168; the arrangement of the synchronous connecting rod 116 makes the left synchronous connecting rod 114 and the right synchronous connecting rod 115 apply the same acting force to the second oscillating drive plate 162 of the first oscillating drive assembly 167 and the second oscillating drive plate 162 of the second oscillating drive assembly 168, so that the oscillating conveyor 121 is more uniformly acted by the acting force from the oscillating device 11; the oscillating bracket 15 is connected with the oscillating motor mounting frame 112, so that the overall structure of the oscillating device 11 is more stable.

In the present invention, the cleaning conveyor 22 includes a cleaning conveyor support 25, a cleaning conveyor platform 26, and a cleaning conveyor transmission 28; the cleaning conveying platform 26 is arranged above the cleaning conveying support 25, the cleaning conveying platform 26 is obliquely arranged, the cleaning conveying inlet 23 and the cleaning conveying outlet 24 are respectively positioned at two ends of the cleaning conveying platform 26, the cleaning conveying inlet 23 is positioned at a low point, and the cleaning conveying outlet 24 is positioned at a high point; the cleaning delivery inlet 23 and the cleaning delivery outlet 24 are on the same straight line; a cleaning space 261 is arranged in the cleaning conveying platform 26, and the cleaning conveying belt 27 is arranged in the cleaning space 261; a cleaning transmission rod 262 capable of rolling is further arranged in the cleaning space 261, the cleaning transmission rod 262 is matched with the cleaning conveyer belt 27, and the cleaning conveyer belt 27 is driven to move by the rolling of the cleaning transmission rod 262; the cleaning conveyor transmission 28 is fixed on the cleaning conveyor platform 26; the output shaft of the cleaning conveying transmission device 28 enters the cleaning space 261 to be connected with the cleaning transmission rod 262 and drive the cleaning transmission rod 262 to roll; the cleaning conveyor belt 27 is arranged in the cleaning space 261, and the dust cleaning device 21 is arranged along the cleaning conveying side plate 264; further, when the dust cleaning device 21 cleans the ore on the cleaning conveyor belt 27, the dust and the like outside the cleaning space 261 can be prevented from adhering to the ore as much as possible, and the influence of the dust cleaning device 21 on the environment outside the cleaning space 261 can be prevented as much as possible.

In the invention, one end of the cleaning space 261 corresponding to the cleaning conveying outlet 24 is provided with an opening, and a cleaning falling guide 29 is arranged at the opening, and the cleaning falling guide 29 faces to a stable conveying inlet 32 of the ore stable conveying assembly 3; the ore that reaches the cleaning delivery outlet 24 through the setting of the cleaning drop guide 29 plays a guiding role so that the ore can fall into the ore stabilizing delivery assembly 3, and further the subsequent process is performed.

In the present invention, the cleaning and conveying platform 26 includes a cleaning and conveying bottom plate 263 and a cleaning and conveying side plate 264; the cleaning conveying bottom plate 263 is obliquely arranged; the cleaning and conveying side plates 264 comprise a cleaning and conveying left side plate 265, a cleaning and conveying right side plate 266 and a cleaning and conveying rear side plate 267; the lower side of the cleaning and conveying left side plate 265 is connected with the left side of the cleaning and conveying bottom plate 263, the lower side of the cleaning and conveying right side plate 266 is connected with the right side of the cleaning and conveying bottom plate 263, the lower side of the cleaning and conveying rear side plate 267 is connected with one end of the cleaning and conveying bottom plate 263 corresponding to the cleaning and conveying inlet 23, the left side of the cleaning and conveying rear side plate 267 is connected with one end of the cleaning and conveying left side plate 265, and the right side of the cleaning and conveying rear side plate 267 is connected with one end of the cleaning and conveying right side plate 266; the cleaning conveying bottom plate 263, the cleaning conveying left side plate 265, the cleaning conveying right side plate 266 and the cleaning conveying rear side plate 267 enclose a cleaning space 261; meanwhile, the cleaning and conveying side plate 264 only comprises a cleaning and conveying left side plate 265, a cleaning and conveying right side plate 266 and a cleaning and conveying rear side plate 267, and the lower side edge of the cleaning and conveying rear side plate 267 is connected with one end of the cleaning and conveying bottom plate 263 corresponding to the cleaning and conveying inlet 23, so that an opening is formed at one end of the cleaning space 261 corresponding to the cleaning and conveying outlet 24 for setting the cleaning and falling guide member 29; cleaning conveying bearings 269 matched with the cleaning transmission rods 262 are arranged at two ends of the cleaning conveying left side plate 265 and the cleaning conveying right side plate 266, and the cleaning conveying transmission device 28 is fixed on the cleaning conveying left side plate 265 or the cleaning conveying right side plate 266 and connected with the cleaning transmission rods 262; the dust cleaning apparatus 21 is disposed along the cleaning conveyance side plate 264.

Typically, the clean-up conveyor drive 28 employs a motor.

In the present embodiment, the cleaning fall guide 29 includes a cleaning guide bottom plate 291 and a cleaning guide side plate 292; the cleaning guide side plates 292 are arranged on two sides of the cleaning guide bottom plate 291, one end of each cleaning guide side plate 292 is connected with the cleaning conveying side plate 264 at the cleaning conveying outlet 24, the cleaning guide bottom plate 291 is obliquely arranged, the cleaning guide bottom plate 291 adopts an inclined surface, and one end of the cleaning guide bottom plate 291 far away from the cleaning conveying bottom plate 263 is obliquely downward and faces the stable conveying inlet 32 of the ore stable conveying assembly 3; so that the ore can fall into the ore stabilizing conveyor assembly 3 for further processing.

In this embodiment, the cleaning conveying support 25 includes a first cleaning mounting frame 251, a second cleaning mounting frame 252 and a cleaning connecting rod 253, where the height of the first cleaning mounting frame 251 is lower than that of the second cleaning mounting frame 252, so as to implement an inclined setting of the cleaning conveying platform 26; the upper end of first clearance mounting bracket 251 is connected with the one end that clearance conveying platform 26 was equipped with clearance conveying entry 23, and the upper end of second clearance mounting bracket 252 is connected with the one end that clearance conveying platform 26 was equipped with clearance conveying exit 24, and the both ends of clearance connecting rod 253 are connected with first clearance mounting bracket 251 and second clearance mounting bracket 252 respectively, and then promote the intensity of clearance conveying support 25.

In the present invention, the cleaning conveyor belt 27 includes a cleaning conveyor belt body 271, and two ends of the cleaning conveyor belt body 271 are connected to form a closed loop; the cleaning conveyer belt body 271 encloses a cleaning transmission space 272; the cleaning transmission rods 262 are arranged at two ends of the cleaning transmission space 272 and are in contact with the inner surface of the cleaning conveyer belt body 271, and the cleaning conveyer belt body 271 is driven to move by the rolling of the cleaning transmission rods 262; the cleaning conveyor belt 27 further comprises a retaining plate 273, the retaining plate 273 is arranged on the outer surface of the cleaning conveyor belt body 271, an included angle exists between the retaining plate 273 and the outer surface of the cleaning conveyor belt body 271, and the included angle between one side of the retaining plate 273, which faces the cleaning conveying outlet 24, and the outer surface of the cleaning conveyor belt body 271 is smaller than or equal to 90 degrees; compared with the way that the ore is driven to move only by the friction force between the ore and the cleaning conveyer belt body 271, the backstop plate 273 drives the ore to move so that the ore is conveyed more stably; in the present embodiment, the stopper 273 is vertically provided on the outer surface of the cleaning belt body 271.

In the present invention, the dust cleaning apparatus 21 includes a fan dust removing assembly 211 and a rinse dust removing assembly 213; the fan dust removing assembly 211 comprises fans 212, the fans 212 are distributed along the cleaning conveying side plates 264, and the air outlet direction of the fans 212 is aligned with the cleaning conveying belt 27 so as to blow off dust separated from ore; the flushing dust removal assembly 213 comprises a water pipe 214 and spray heads 215, and the spray heads 215 are distributed along a cleaning and conveying side plate 264; the water pipe 214 is connected and communicated with the spray head 215, so as to supply water for the spray head 215; the water outlet direction of the spray head 215 is aligned with the cleaning conveyer belt 27 so as to wash the ore with dust; a certain gap 274 exists between the movable path of the cleaning conveyor belt 27 and the cleaning conveyor bottom plate 263, a certain gap 274 exists between the side edges of the left side and the right side of the cleaning conveyor belt 27 and the cleaning conveyor left side plate 265 and the cleaning conveyor right side plate 266, dust falls into the bottom of the cleaning space 261 through the gaps 274, and the dust is converged to the lowest position of the cleaning space 261 through the cleaning conveyor bottom plate 263 which is obliquely arranged; a dust outlet 268 is arranged on the cleaning and conveying rear side plate 267, and cleaned dust leaves the cleaning space 261 from the dust outlet 268; the dust cleaning and conveying assembly 2 has better cleaning effect through the arrangement of the fan dust removing assembly 211 and the flushing dust removing assembly 213; meanwhile, a certain gap 274 exists between the side edges of the left side and the right side of the cleaning conveyer belt 27 and the cleaning conveyer left side plate 265 and the cleaning conveyer right side plate 266, dust falls into the bottom of the cleaning space 261 through the gap 274, and the dust is converged to the lowest part of the cleaning space 261 through the cleaning conveyer bottom plate 263 which is obliquely arranged; a dust outlet 268 is arranged on the cleaning and conveying rear side plate 267, and cleaned dust leaves the cleaning space 261 from the dust outlet 268; so that the dust cleaned out of the ore and the liquid used to flush the ore by the flushing dust removal assembly 213 can leave the cleaning conveyor belt 27 and the cleaning space 261, avoiding affecting the cleaning effect of the subsequent ore.

In this embodiment, the fan dust removing assembly 211 is disposed on the cleaning and conveying left side plate 265, and the flushing dust removing assembly 213 is disposed on the cleaning and conveying right side plate 266; in other approaches, the fan dust assembly 211 may be disposed on the clean-up delivery right side plate 266 and the rinse dust assembly 213 may be disposed on the clean-up delivery left side plate 265; of course, the fan dust removal assembly 211 and the rinse dust removal assembly 213 may be disposed on both the clean-up left side plate 265 and the clean-up right side plate 266.

It should be noted that, in the present embodiment, the cleaning and conveying side plate 264 is provided with both the fan dust removing assembly 211 and the flushing dust removing assembly 213; in other embodiments, one of the fan dust removal assembly 211 and the rinse dust removal assembly 213 or other scenario components may be selected to clean ore on the cleaning conveyor belt 27 according to specific cleaning requirements.

In the present invention, the ore stabilizing conveyor assembly 3 includes a stabilizing conveyor base 34, and the stabilizing conveyor 31 is disposed on the stabilizing conveyor base 34; the steady conveying device 31 comprises a steady conveying bracket 35, a steady conveying belt 36, a roller transmission device 37 and a steady conveying transmission device 38; the stable conveying support 35 is arranged above the stable conveying underframe 34 and is obliquely arranged; the stable conveying inlet 32 and the stable conveying outlet 33 are respectively arranged at two ends of the stable conveying bracket 35, the stable conveying inlet 32 is at a high point, and the stable conveying outlet 33 is at a low point; the stable conveying support 35 comprises a first conveying stabilizing rod 351, a second conveying stabilizing rod 352 and a conveying connecting rod 353, the first conveying stabilizing rod 351 and the second conveying stabilizing rod 352 are connected through the conveying connecting rod 353, the first conveying stabilizing rod 351 is positioned above the second conveying stabilizing rod 352, and the second conveying stabilizing rod 352 is connected with the stable conveying underframe 34; the steady conveying bracket 35 further includes a first conveying fitting portion 354 and a second conveying fitting portion 355, the first conveying fitting portion 354 is connected with one end of the first conveying stabilizer bar 351 corresponding to the steady conveying inlet 32 and one end of the second conveying stabilizer bar 352 corresponding to the steady conveying inlet 32, and the second conveying fitting portion 355 is connected with one end of the first conveying stabilizer bar 351 corresponding to the steady conveying outlet 33 and one end of the second conveying stabilizer bar 352 corresponding to the steady conveying outlet 33; a stable transmission bearing 356 and a stable transmission rod 357 matched with the stable transmission bearing 356 are arranged on the first conveying assembly part 354 and the second conveying assembly part 355, meanwhile, the stable transmission rod 357 is matched with the stable conveying belt 36, and the stable conveying belt 36 is driven to move by the rolling of the stable transmission rod 357; the steady conveying transmission device 38 is fixed on the steady conveying bracket 35; the output shaft of the steady delivery transmission 38 is connected to the steady transmission rod 357 and drives the steady transmission rod 357 to roll.

Typically, the stabilizing conveyor drive 38 employs a motor.

In this embodiment, the stabilizing conveyor belt 36 is of a deformable material; the roller driving devices 37 are distributed on the stable conveying support 35, and each roller driving device 37 is arranged between the first conveying assembly 354 and the second conveying assembly 355; each roller transmission 37 includes a main roller 371, a side roller 372, a main roller frame 373, and a side roller frame 374; the main roller 371 is arranged on the main roller frame 373 and is connected with the main roller frame 373 in a rolling manner; the side roller 372 is arranged on a side roller frame 374 and is rollably connected with the side roller frame 374; the main roller frames 373 are arranged on the first conveying stabilizing bars 351, and the main roller frames 373 are distributed along the first conveying stabilizing bars 351; the side roller frames 374 include a first side roller frame 375 and a second side roller frame 376, the side roller 372 includes a first side roller 377 disposed on the first side roller frame 375 and a second side roller 378 disposed on the second side roller frame 376, and the first side roller frame 375 and the second side roller frame 376 are disposed on two sides of the main roller frame 373 respectively; the rolling direction of the main roller 371 corresponds to the rolling direction of the side roller 372; the first side roller 377 and the second side roller 378 are obliquely arranged; one end of the first side roller 377 faces one end of the main roller 371, the other end of the first side roller 377 faces away from the main roller 371, and one end of the first side roller 377 faces the main roller 371 is a low point; one end of the second side roller 378 faces one end of the main roller 371, the other end of the second side roller 378 faces away from the main roller 371, and one end of the second side roller 378 faces the main roller 371 is a low point; the main roller 371, the first side roller 377 and the second side roller 378 of the same roller transmission device 37 are in contact with the same area of the stable conveying belt 36, the stable conveying belt 36 in the area deforms through contact with the main roller 371, the first side roller 377 and the second side roller 378 to form a stable conveying space 361 with barriers at two sides, so that the wrapping property and the limiting effect of the stable conveying belt 36 on ores are better, and the stability of the stable conveying belt 36 in conveying ores is improved; the two ends of the stable conveying belt 36 are connected to form a closed loop; the stabilizing conveyor 36 encloses a stabilizing drive space 362; the stabilizing transmission rods 357 are arranged at two ends of the stabilizing transmission space 362 and are contacted with the inner surface of the stabilizing conveyer belt 36, and the stabilizing conveyer belt 36 is driven to move by the rolling of the stabilizing transmission rods 357; the main roller 371, the first side roller 377 and the second side roller 378 of the roller transmission device 37 are arranged on the upper surface of the first conveying stabilizing rod 351 and are contacted with the inner surface of the stabilizing conveying belt 36; the main roller 371, the first side roller 377, and the second side roller 378 are in contact with the region where the steady conveyer belt 36 moves from the steady conveyer inlet 32 to the steady conveyer outlet 33.

In the present embodiment, the steady conveying device 31 further comprises an auxiliary transmission device 39, and the auxiliary transmission device 39 comprises an auxiliary roller 391 and an auxiliary roller carrier 392; the auxiliary roller frame 392 is arranged on the lower surface of the first conveying stabilizing rod 351, and the auxiliary roller 391 can roll and is connected with the auxiliary roller frame 392; the auxiliary rollers 391 contact the outer surface of the stabilizing conveyor belt 36; the stable conveyor belt 36 passes through the space between the auxiliary roller 391 and the first conveying stabilizer 351 from the stable conveyor outlet 33 to the movable area of the stable conveyor inlet 32, and the arrangement of the auxiliary transmission device 39 further improves the stability of the stable conveyor belt 36.

In the present embodiment, the steady conveying device 31 further includes a conveying-drop guide 40, the conveying-drop guide 40 being provided to the steady conveying outlet 33; the conveying-falling guide 40 includes an upper barrier 401, a left barrier 402, a right barrier 403, a front barrier 404, and a rear barrier 405; the left baffle 402 and the right baffle 403 are respectively connected with the left end and the right end of the upper baffle 401, the front baffle 404 and the rear baffle 405 are respectively connected with the front end and the rear end of the upper baffle 401, the two ends of the front baffle 404 are respectively connected with one end of the left baffle 402 and one end of the right baffle 403, and the two ends of the rear baffle 405 are respectively connected with the other end of the left baffle 402 and the other end of the right baffle 403; a conveyance-falling guide space with an opening is surrounded by an upper barrier 401, a left barrier 402, a right barrier 403, a front barrier 404, and a rear barrier 405; an opening of the conveying-falling guide space through which ore leaves the ore stabilizing conveyor assembly 3 is provided at the bottom of the conveying-falling guide portion 40; the stable conveying outlet 33 is surrounded by a conveying and falling guiding space, the second conveying assembly 355 is positioned in the conveying and falling guiding space, and a gap 274 for ore falling exists between a stable transmission rod 357 on the second conveying assembly 355 and the stable conveying belt 36 on the stable transmission rod 357 and the inner wall of the falling guiding space; the front baffle 404 is arranged at one end of the upper baffle 401 near the stable conveying inlet 32, a notch 406 is arranged on the front baffle 404, and the stable conveying belt 36 sends ore into the conveying and falling guiding space through the notch 406; by providing the conveying-falling guide portion 40, the ore reaching the stable conveying outlet 33 is guided so that the ore can be orderly and stably separated from the stable conveying outlet 33; simultaneously, the direction of the ore leaving the ore stabilizing and conveying assembly 3 is oriented through the blocking effect generated by the upper baffle 401, the left baffle 402, the right baffle 403, the front baffle 404 and the rear baffle 405, so that workers can collect or load the ore leaving the ore stabilizing and conveying assembly 3 conveniently.

In the present embodiment, an auxiliary guide assembly 41 is further disposed in the area of the stable conveying support 35 near the stable conveying outlet 33, the auxiliary guide assembly 41 includes an auxiliary guide support 411 and an auxiliary guide baffle 412, one end of the auxiliary guide support 411 is connected to one side of the auxiliary guide baffle 412, and the other end of the auxiliary guide support 411 is connected to the first conveying stabilizer bar 351; the auxiliary guide brackets 411 and the auxiliary guide baffles 412 are provided on both sides of the stabilizing conveyor 36; the auxiliary guide baffle 412 is obliquely arranged, and the other side of the auxiliary guide baffle 412 enters the stable conveying space 361; the provision of the auxiliary guide assembly 41 enables ore to enter the conveyor drop guide 40 more stably and orderly.

It should be noted that other technical solutions of the present invention belong to the prior art, and are not described in detail.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the concept of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the present invention.

Claims (10)

1. An ore conveyor is characterized by comprising an oscillating conveying assembly, a dust cleaning conveying assembly and an ore stabilizing conveying assembly;

The oscillating conveying assembly comprises an oscillating device and an oscillating conveying device, and the oscillating conveying device comprises an oscillating conveying disc; the oscillating device is connected with the oscillating conveying disc, the oscillating conveying disc performs front-back oscillating movement through the action of the oscillating device, ore is conveyed through the oscillation of the oscillating conveying disc, and dust on the ore is separated from the ore;

the dust cleaning and conveying assembly comprises a dust cleaning device and a cleaning and conveying device, and the cleaning and conveying device comprises a cleaning and conveying belt; the dust cleaning devices are distributed along the movable path of the cleaning conveyor belt and face the cleaning conveyor belt, and dust separated from ores and dust remained on the ores are cleaned by the dust cleaning devices;

the oscillation conveying device is provided with an oscillation conveying inlet and an oscillation conveying outlet; the cleaning and conveying device is provided with a cleaning and conveying inlet and a cleaning and conveying outlet; the ore stable conveying assembly comprises a stable conveying device, and the stable conveying device is provided with a stable conveying inlet and a stable conveying outlet; the oscillation conveying outlet is positioned above the cleaning conveying inlet; the height of the cleaning conveying inlet is lower than that of the cleaning conveying outlet, and the cleaning conveying outlet is positioned above the stable conveying inlet; the height of the stable conveying inlet is higher than that of the stable conveying outlet; the collected ore sequentially passes through an oscillation conveying assembly, a dust cleaning conveying assembly and an ore stabilizing conveying assembly.

2. The ore conveyor of claim 1, wherein the oscillating conveyor comprises an oscillating bracket and an oscillating drive assembly, the oscillating drive assembly comprising a first oscillating drive plate, a second oscillating drive plate, and an oscillating drive rod; the two ends of the oscillating transmission rod are respectively provided with a first transmission connecting end and a second transmission connecting end, the first transmission connecting end is rotatably connected with the first oscillating transmission plate, the second oscillating transmission plate is rotatably connected, the middle part of the oscillating transmission rod is provided with a third transmission connecting part, and the third transmission connecting part is rotatably connected with the oscillating bracket; the first oscillation transmission plate is connected with the oscillation conveying disc, and the second oscillation transmission plate is connected with the output part of the oscillation device; the oscillation conveying inlet and the oscillation conveying outlet are positioned on the same straight line, and the moving path of the output part of the oscillation device corresponds to the straight line.

3. An ore conveyor as in claim 2 wherein the oscillating conveyor tray comprises oscillating conveyor side plates and an oscillating conveyor bottom plate; the oscillating conveying side plates are arranged on two sides of the oscillating conveying bottom plate, the included angle between the oscillating conveying side plates and the oscillating conveying bottom plate is smaller than or equal to 90 degrees, the oscillating conveying side plates and the oscillating conveying bottom plate surround to form an oscillating conveying space, and the oscillating conveying inlet and the oscillating conveying outlet are respectively arranged on two ends of the oscillating conveying space; the inner surfaces of the oscillating conveying side plate and the oscillating conveying bottom plate are respectively provided with oscillating grooves; the oscillating groove is formed by wrapping a stop surface and a forward surface; the stop surface is arranged on one side close to the oscillation conveying inlet, and the advancing surface is arranged on one side close to the oscillation conveying outlet; the retaining surface is connected with the advancing surface and forms an included angle, and an angular bisector of the included angle faces the oscillating conveying outlet;

An oscillation falling guide is further arranged at the oscillation conveying outlet and comprises an oscillation guiding bottom plate and an oscillation guiding side plate; the oscillation guide side plates are arranged on two sides of the oscillation guide bottom plate, one end of each oscillation guide side plate is connected with the oscillation conveying side plate at the oscillation conveying outlet, and one end of each oscillation guide bottom plate is connected with the oscillation conveying bottom plate at the oscillation conveying outlet; the vibration guiding base plate comprises a first vibration guiding area and a second vibration guiding area, wherein the first vibration guiding area is connected with the vibration conveying base plate, the second vibration guiding area is obliquely arranged, the second vibration guiding area adopts an inclined plane or a curved surface, and one end, far away from the first vibration guiding area, of the second vibration guiding area is downwardly inclined and faces to a cleaning conveying inlet of the dust cleaning conveying assembly.

4. A mineral ore conveyor as in claim 3 wherein the oscillating drive assembly comprises a first oscillating drive assembly and a second oscillating drive assembly; the first oscillation transmission plate of the first oscillation transmission assembly and the first oscillation transmission plate of the second oscillation transmission assembly are respectively connected with the left side and the right side of the lower surface of the oscillation conveying disc, and the first oscillation transmission plate of the first oscillation transmission assembly and the first oscillation transmission plate of the second oscillation transmission assembly are arranged corresponding to the length direction of the oscillation conveying disc;

The oscillating device comprises an oscillating motor, an oscillating motor mounting frame and a synchronous movable frame; the oscillating motor is fixed on the oscillating motor mounting frame, and the output part of the oscillating motor is connected with the synchronous movable frame; the synchronous movable frame comprises a left synchronous connecting rod, a right synchronous connecting rod and a synchronous connecting rod, the synchronous connecting rod is connected with the output part of the oscillating motor, the two ends of the synchronous connecting rod are respectively connected with the left synchronous connecting rod and the right synchronous connecting rod, the left synchronous connecting rod is connected with the second oscillating transmission plate of the first oscillating transmission assembly, and the right synchronous connecting rod is connected with the second oscillating transmission plate of the second oscillating transmission assembly;

the oscillating bracket is connected with the oscillating motor mounting frame.

5. An ore conveyor as in claim 1 wherein the clean-up conveyor means comprises a clean-up conveyor stand, a clean-up conveyor platform and a clean-up conveyor drive; the cleaning conveying platform is arranged above the cleaning conveying support, the cleaning conveying platform is obliquely arranged, the cleaning conveying inlet and the cleaning conveying outlet are respectively positioned at two ends of the cleaning conveying platform, the cleaning conveying inlet is positioned at a low point, and the cleaning conveying outlet is positioned at a high point; the cleaning conveying inlet and the cleaning conveying outlet are positioned on the same straight line;

A cleaning space is arranged in the cleaning conveying platform, and the cleaning conveying belt is arranged in the cleaning space; a cleaning transmission rod capable of rolling is further arranged in the cleaning space, the cleaning transmission rod is matched with the cleaning conveyer belt, and the cleaning conveyer belt is driven to move by the rolling of the cleaning transmission rod; the cleaning conveying transmission device is fixed on the cleaning conveying platform; an output shaft of the cleaning conveying transmission device enters the cleaning space to be connected with the cleaning transmission rod and drives the cleaning transmission rod to roll;

an opening is formed in one end of the cleaning space, corresponding to the cleaning conveying outlet, and a cleaning falling guide piece is arranged at the opening and faces to a stable conveying inlet of the ore stable conveying assembly;

the cleaning and conveying platform comprises a cleaning and conveying bottom plate and a cleaning and conveying side plate; the cleaning conveying bottom plate is obliquely arranged; the cleaning and conveying side plates comprise a cleaning and conveying left side plate, a cleaning and conveying right side plate and a cleaning and conveying rear side plate; the lower side of the cleaning and conveying left side plate is connected with the left side of the cleaning and conveying bottom plate, the lower side of the cleaning and conveying right side plate is connected with the right side of the cleaning and conveying bottom plate, the lower side of the cleaning and conveying rear side plate is connected with one end of the cleaning and conveying bottom plate corresponding to the cleaning and conveying inlet, the left side of the cleaning and conveying rear side plate is connected with one end of the cleaning and conveying left side plate, and the right side of the cleaning and conveying rear side plate is connected with one end of the cleaning and conveying right side plate; the cleaning and conveying bottom plate, the cleaning and conveying left side plate, the cleaning and conveying right side plate and the cleaning and conveying rear side plate are surrounded to form a cleaning space;

The cleaning conveying transmission device is fixed on the cleaning conveying left side plate or the cleaning conveying right side plate and is connected with the cleaning transmission rod;

the cleaning falling guide piece comprises a cleaning guide bottom plate and a cleaning guide side plate; the cleaning guide side plates are arranged on two sides of the cleaning guide bottom plate, one end of each cleaning guide side plate is connected with the cleaning conveying side plate at the cleaning conveying outlet, the cleaning guide bottom plate is obliquely arranged, the cleaning guide bottom plate adopts an inclined surface or a curved surface, and one end of the cleaning guide bottom plate, far away from the cleaning conveying bottom plate, is inclined downwards and faces to the stable conveying inlet of the ore stable conveying assembly;

the dust cleaning device is arranged along the cleaning conveying side plate;

the clearance conveying support includes first clearance mounting bracket, second clearance mounting bracket and clearance connecting rod, the height of first clearance mounting bracket is less than the height of second clearance mounting bracket, and the upper end of first clearance mounting bracket is connected with clearance conveying platform's one end that is equipped with the clearance and carries the entry, and the upper end of second clearance mounting bracket is connected with clearance conveying platform's one end that is equipped with the clearance and carries the export, and the both ends of clearance connecting rod are connected with first clearance mounting bracket and second clearance mounting bracket respectively.

6. The ore conveyor of claim 5, wherein the cleaning conveyor belt comprises a cleaning conveyor belt body, two ends of the cleaning conveyor belt body being connected to form a closed loop; the cleaning conveying belt body surrounds the cleaning conveying belt body to form a cleaning transmission space; the cleaning transmission rods are arranged at two ends of the cleaning transmission space and are contacted with the inner surface of the cleaning conveyer belt body, and the cleaning conveyer belt body is driven to move by rolling of the cleaning transmission rods; the cleaning conveyer belt further comprises a retaining plate, the retaining plate is arranged on the outer surface of the cleaning conveyer belt body, an included angle exists between the retaining plate and the outer surface of the cleaning conveyer belt body, and the included angle between one side of the retaining plate, which faces the cleaning conveyer outlet, and the outer surface of the cleaning conveyer belt body is smaller than or equal to 90 degrees.

7. The ore conveyor of claim 6, wherein the dust cleaning apparatus includes a fan dust removal assembly and a rinse dust removal assembly;

the fan dust removing assembly comprises fans, the fans are distributed along the cleaning conveying side plates, and the air outlet direction of the fans is aligned to the cleaning conveying belt so as to blow off dust separated from ores;

the flushing dust removal assembly comprises a water pipe and spray heads, and the spray heads are distributed along the cleaning conveying side plates; the water pipe is connected and communicated with the spray head so as to supply water for the spray head; the water outlet direction of the spray head is aligned with the cleaning conveyer belt, so that the ore with dust is washed;

The movable path of the cleaning conveyer belt has a certain gap with the cleaning conveyer bottom plate, the side edges of the left side and the right side of the cleaning conveyer belt have a certain gap with the cleaning conveyer left side plate and the cleaning conveyer right side plate, dust falls into the bottom of the cleaning space through the gaps, and the dust is converged to the lowest part of the cleaning space through the obliquely arranged cleaning conveyer bottom plate; the cleaning and conveying rear side plate is provided with a dust outlet, and the cleaned dust leaves the cleaning space from the dust outlet.

8. An ore conveyor as in claim 1 wherein the ore stabilizing conveyor assembly comprises a stabilizing conveyor base on which the stabilizing conveyor is disposed; the stable conveying device comprises a stable conveying bracket, a stable conveying belt, a roller transmission device and a stable conveying transmission device; the stable conveying support is arranged above the stable conveying underframe and is obliquely arranged; the stable conveying inlet and the stable conveying outlet are respectively arranged at two ends of the stable conveying bracket, the stable conveying inlet is positioned at a high point, and the stable conveying outlet is positioned at a low point;

the stable conveying support comprises a first conveying stabilizing rod, a second conveying stabilizing rod and a conveying connecting rod, the first conveying stabilizing rod is connected with the second conveying stabilizing rod through the conveying connecting rod, the first conveying stabilizing rod is positioned above the second conveying stabilizing rod, and the second conveying stabilizing rod is connected with the stable conveying underframe;

The stable conveying support further comprises a first conveying assembly part and a second conveying assembly part, wherein the first conveying assembly part is connected with one end of the first conveying stabilizer bar corresponding to the stable conveying inlet and one end of the second conveying stabilizer bar corresponding to the stable conveying inlet, and the second conveying assembly part is connected with one end of the first conveying stabilizer bar corresponding to the stable conveying outlet and one end of the second conveying stabilizer bar corresponding to the stable conveying outlet;

the first conveying assembly part and the second conveying assembly part are respectively provided with a stable transmission bearing and a stable transmission rod matched with the stable transmission bearings, and meanwhile, the stable transmission rods are matched with the stable conveying belt and roll through the stable transmission rods to drive the stable conveying belt to move;

the stable conveying transmission device is fixed on the stable conveying bracket; an output shaft of the stable conveying transmission device is connected with the stable transmission rod and drives the stable transmission rod to roll;

the stable conveying belt is made of deformable materials;

the roller driving devices are distributed on the stable conveying support, and each roller driving device is arranged between the first conveying assembly part and the second conveying assembly part; each roller transmission device comprises a main roller, a side roller, a main roller frame and a side roller frame; the main roller is arranged on the main roller frame and is connected with the main roller frame in a rolling way; the side roller is arranged on the side roller frame and can roll to be connected with the side roller frame; the main roller frames are arranged on the first conveying stabilizing rod and distributed along the first conveying stabilizing rod; the side roller frames comprise a first side roller frame and a second side roller frame, the side roller frames comprise a first side roller arranged on the first side roller frame and a second side roller arranged on the second side roller frame, and the first side roller frame and the second side roller frame are respectively arranged on two sides of the main roller frame; the rolling direction of the main roller corresponds to the rolling direction of the side roller; the first side roller and the second side roller are obliquely arranged; one end of the first side roller faces one end of the main roller, the other end of the first side roller faces the direction away from the main roller, and one end of the first side roller, facing the main roller, is a low point; one end of the second side roller faces one end of the main roller, the other end of the second side roller faces the direction away from the main roller, and one end of the second side roller, facing the main roller, is a low point;

The main roller, the first side roller and the second side roller of the same roller transmission device are all contacted with the same area of the stable conveying belt, and the stable conveying belt in the area deforms through contact with the main roller, the first side roller and the second side roller to form a stable conveying space with barriers at two sides.

9. An ore conveyor as in claim 8 wherein the ends of the stabilizing conveyor belt are connected to form a closed loop; the stable conveying belt surrounds to form a stable transmission space; the stable transmission rods are arranged at two ends of the stable transmission space and are contacted with the inner surface of the stable conveying belt, and the stable conveying belt is driven to move by rolling of the stable transmission rods;

the main roller, the first side roller and the second side roller of the roller transmission device are arranged on the upper surface of the first conveying stabilizing rod and are contacted with the inner surface of the stabilizing conveying belt; the main roller, the first side roller and the second side roller are in contact with a region of the stable conveying belt moving from the stable conveying inlet to the stable conveying outlet;

the stable conveying device also comprises an auxiliary transmission device, wherein the auxiliary transmission device comprises auxiliary rollers and auxiliary roller frames; the auxiliary roller frame is arranged on the lower surface of the first conveying stabilizing rod, and the auxiliary roller can roll and is connected with the auxiliary roller frame; the auxiliary roller is contacted with the outer surface of the stable conveying belt; the stable conveying belt passes through the space between the auxiliary roller and the first conveying stabilizing rod from the stable conveying outlet to the stable conveying inlet.

10. The ore conveyor of claim 9, wherein the stationary conveyor further comprises a conveying drop guide disposed at the stationary conveying outlet; the conveying and falling guide part comprises an upper baffle, a left baffle, a right baffle, a front baffle and a rear baffle; the left baffle and the right baffle are respectively connected with the left end and the right end of the upper baffle, the front baffle and the rear baffle are respectively connected with the front end and the rear end of the upper baffle, the two ends of the front baffle are respectively connected with one end of the left baffle and one end of the right baffle, and the two ends of the rear baffle are respectively connected with the other end of the left baffle and the other end of the right baffle; the upper baffle, the left baffle, the right baffle, the front baffle and the rear baffle are surrounded to form a conveying and falling guide space with an opening; an opening of the conveying falling guide space is arranged at the bottom of the conveying falling guide part, and ore leaves the ore stabilizing and conveying assembly through the opening; the stable conveying outlet is surrounded by a conveying and falling guide space, the second conveying assembly part is positioned in the conveying and falling guide space, and a gap for ore to fall is reserved between a stable transmission rod on the second conveying assembly part and the inner wall of the stable conveying belt on the stable transmission rod and the falling guide space; the front baffle is arranged at one end of the upper baffle, which is close to the stable conveying inlet, a notch is formed in the front baffle, and the stable conveying belt conveys ores into the conveying and falling guide space through the notch;

The auxiliary guide assembly comprises an auxiliary guide bracket and an auxiliary guide baffle, wherein one end of the auxiliary guide bracket is connected with one side of the auxiliary guide baffle, and the other end of the auxiliary guide bracket is connected with the first conveying stabilizer bar; the auxiliary guide bracket and the auxiliary guide baffle are arranged on two sides of the stable conveying belt; the auxiliary guide baffle is obliquely arranged, and the other side of the auxiliary guide baffle enters the stable conveying space.

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