CN114231736A - Device for producing cold-bonded pellets by converter fly ash - Google Patents

Abstract

The invention discloses a device for producing cold-bonded pellets by converter fly ash, which relates to the technical field of cold-bonded pellet processing equipment and comprises a main body; and the processing mechanism is positioned at the top end of the main body, penetrates into the main body and is used for processing the raw material. According to the invention, the processing mechanism is arranged, the motor is started to drive the transmission column to rotate, the driving shaft is driven to rotate, the conveying belt is driven to move, the driven shaft is driven to rotate, the raw material is poured into the main body through the feeding hole, the raw material falls on the conveying belt, the transmission column rotates to drive the transmission gear to rotate, the transmission gear rotates to drive the crushing gear to rotate, the transmission gear rotates to drive the blocking plate to rotate, the raw material is driven to be uniformly laid on the conveying belt, the crushing gear rotates to drive the crushing column to rotate, the laid raw material is extruded and crushed, and the crushed raw material can be crushed.

Description

Device for producing cold-bonded pellets by converter fly ash

Technical Field

The invention relates to the technical field of cold-bonded pellet processing equipment, in particular to a device for producing cold-bonded pellets by converter fly ash.

Background

The dedusting ash cold-bonded ball is a ball which is made by using sludge, dedusting ash, iron scale and the like generated in the production of low-carbon manganese-silicon alloy as raw materials, adding lime, using organic glue as a binder and using a high-pressure ball forming mill, and the cold-bonded ball is used as a coolant and a slagging agent for recycling the converter steelmaking production, so that the pollution of the dedusting ash to the environment can be reduced, the raw material structure of a steel mill can be optimized, the energy can be saved, the converter steelmaking production cost can be reduced, and the recycling of iron-containing resources can be realized.

However, the caking phenomenon can appear when the dedusting ash raw material is not used for a long time, so that the quality of the processed dedusting ash cold-setting ball can be influenced when the raw material is processed, the dedusting ash cold-setting ball is easy to scatter when in use, and the existing device can not process the dedusting ash raw material after being crushed, so that the use cost of the equipment is increased.

Disclosure of Invention

The invention aims to: in order to solve the problems that the fly ash raw material is easy to agglomerate and not easy to crush and the use cost of equipment is high, the device for producing the cold bonded pellets by using the converter fly ash is provided.

In order to achieve the purpose, the invention provides the following technical scheme: a device for producing cold bonded pellets by converter fly ash comprises a main body; the processing mechanism is positioned at the top end of the main body, penetrates into the main body and is used for processing raw materials; the discharging mechanism is provided with a telescopic spring, is positioned on one side of the main body, penetrates into the main body and is used for discharging the processed cold-bonded pellets; and the transmission mechanism is positioned at one end of the main body, penetrates through the inside of the main body, is connected with the processing mechanism and is used for driving the processing mechanism to operate.

As a still further scheme of the invention: the processing mechanism is including feed inlet, driving shaft, driven shaft, transportation area, crushing post, adsorption plate, pressfitting post, No. two pressfitting posts and barrier plate, the feed inlet is located the top of main part to run through to the inside of main part, the driving shaft is located the inside of main part, and is located the bottom of feed inlet, the driven shaft is located one side of driving shaft, the transportation area cup joints the outer wall at driving shaft, driven shaft, crushing post is located the top in transportation area, the adsorption plate is located the below in transportation area, a pressfitting post is located the below in transportation area, and is located one side of adsorption plate, No. two pressfitting posts are located one side of a pressfitting post, the barrier plate is located one side of crushing post, and is located the top in transportation area. Thus, the raw material can be crushed.

As a still further scheme of the invention: discharge mechanism is including discharge gate, play flitch, support column, spliced pole, expanding spring and stripper, the discharge gate is located one side of main part, and runs through to the inside of main part, it is located the inside of main part to go out the flitch, and is located one side of discharge gate, the support column is located one side of a flitch, the spliced pole has a plurality ofly, and is a plurality of the spliced pole is located the top of support column, expanding spring is located the inside of spliced pole, the stripper is located expanding spring's top, and is located the below of a pressfitting post, No. two pressfitting posts. Thus, the processed cold-bonded pellets can be discharged quickly.

As a still further scheme of the invention: the transmission mechanism comprises a motor, a transmission column, a transmission gear, a crushing gear, a driven gear, a first gear, a second gear and a connecting gear, the motor is located at one end of the main body, the transmission column is located at one end of the motor and penetrates through the interior of the main body to be connected with the driving shaft in a rotating mode, the transmission gear is located on one side of the transmission column and is located on one side of the transmission gear and penetrates through the main body to be connected with the crushing column in a rotating mode, the driven gear is located on the inner wall of the main body and located at one end of the driven shaft and located on one side of the crushing gear, the first gear is located at the bottom end of the driven gear and located at one end of the first pressing column, the second gear is located on one side of the first gear and located at one end of the second pressing column, and the connecting gear is located at the connecting position of the driven gear and the first gear. So, be favorable to driving the rotation of the inside part of processing agency, improve equipment's machining efficiency.

As a still further scheme of the invention: the inside of main part sets up and transports the conveying tank of area assorted, the surface of transport area is provided with the filtration pore, the outer wall of smashing the post is provided with broken tooth, the surface of a pressure post, No. two pressure posts is provided with a plurality of pressure silos. Thus, the crushing column is beneficial to crushing treatment of the agglomerated raw materials.

As a still further scheme of the invention: the inside of main part be provided with play flitch assorted discharge chute, the inside of spliced pole is provided with expanding spring assorted spring groove, one side that the discharge gate is close to a pressfitting post, No. two pressfitting posts is higher than the one side that the play flitch is close to the discharge gate. Therefore, the processed cold-bonded pellets can slide out of the discharging plate.

As a still further scheme of the invention: the inside of main part is provided with the transmission groove with drive mechanism assorted, the outer wall of transmission post is provided with outer tooth piece all around, drive gear respectively with transmission post, crushing gear intermeshing, connecting gear respectively with driven gear, a gear intermeshing, No. two gears and a gear intermeshing. Therefore, the transmission gear is favorable for driving the gears to rotate together to drive the internal parts of the processing mechanism to transmit mutually.

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

1. the processing mechanism is arranged, the motor is started, the motor drives the transmission column to rotate, the transmission column rotates to drive the driving shaft to rotate, the rotating shaft rotates to drive the conveying belt to move, the conveying belt moves to drive the driven shaft to rotate, raw materials are poured into the main body through the feeding hole, the raw materials drop on the conveying belt, meanwhile, the transmission column rotates to drive the transmission gear to rotate, the transmission gear rotates to drive the crushing gear to rotate, the transmission gear rotates to drive the blocking plate to rotate, the blocking plate rotates to enable the raw materials to be evenly laid on the conveying belt, the crushing gear rotates to drive the crushing column to rotate, the crushing column rotates to extrude and crush the laid raw materials, and through mutual matching of the plurality of parts, the crushed raw materials can be crushed;

2. through setting up drive mechanism, the raw and other materials after smashing drive through the transportation and fall between a pressfitting post and No. two pressfitting posts, the driven shaft rotates the drive, it connects the gear revolve to drive, gear revolve drives No. two gear revolve, drive a pressfitting post and No. two pressfitting post and rotate and carry out extrusion forming to raw and other materials, the cold solid pelletizing after the extrusion forming drops on the stripper, stripper atress extrusion expanding spring, expanding spring atress extrusion shrink, drive the stripper and remove, make the cold solid pelletizing move to the stripper from the stripper, make the cold solid pelletizing follow discharge gate roll-off at last, through the mutual matching between the above a plurality of parts, can accomplish the machine-shaping to raw and other materials, reduce the cost of equipment.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a structural cross-sectional view of the body of the present invention;

FIG. 3 is a schematic structural diagram of the transmission mechanism of the present invention;

fig. 4 is a schematic structural diagram of the discharging structure of the present invention.

In the figure: 1. a main body; 2. a processing mechanism; 201. a feed inlet; 202. a drive shaft; 203. a driven shaft; 204. a conveyor belt; 205. crushing the column; 206. an adsorption plate; 207. pressing the column I; 208. a second compression column; 209. a blocking plate; 3. a discharging mechanism; 301. a discharge port; 302. a discharge plate; 303. a support pillar; 304. connecting columns; 305. a tension spring; 306. a stripper plate; 4. a transmission mechanism; 401. a motor; 402. a drive post; 403. a transmission gear; 404. a crushing gear; 405. a driven gear; 406. a first gear; 407. a second gear; 408. a connecting gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art. The following describes an embodiment of the present invention based on its overall structure.

Referring to fig. 1 to 4, in an embodiment of the present invention, an apparatus for producing cold-bonded pellets from converter fly ash includes:

a main body 1; the processing mechanism 2 is positioned at the top end of the main body 1, penetrates into the main body 1 and is used for processing raw materials; the discharging mechanism 3 is provided with a telescopic spring 305, and the discharging mechanism 3 is positioned on one side of the main body 1 and penetrates into the main body 1 to be used for discharging the processed cold-bonded pellets; and the transmission mechanism 4 is positioned at one end of the main body 1, penetrates into the main body 1 and is connected with the processing mechanism 2, and is used for driving the processing mechanism 2 to operate.

Referring to fig. 2, the processing mechanism 2 includes a feeding port 201, a driving shaft 202, a driven shaft 203, a conveyer belt 204, a crushing column 205, an adsorption plate 206, a first pressing column 207, a second pressing column 208 and a blocking plate 209, the feeding port 201 is located at the top of the main body 1, and penetrates into the main body 1, the driving shaft 202 is positioned inside the main body 1 and is positioned at the bottom end of the feeding hole 201, the driven shaft 203 is positioned at one side of the driving shaft 202, the conveying belt 204 is sleeved on the outer walls of the driving shaft 202 and the driven shaft 203, the crushing column 205 is positioned above the conveying belt 204, the adsorption plate 206 is positioned below the conveying belt 204, the first pressing column 207 is positioned below the conveying belt 204, and is located one side of adsorption plate 206, No. two pressfitting posts 208 are located one side of No. one pressfitting post 207, and barrier plate 209 is located one side of smashing post 205, and is located the top of conveyer belt 204, is favorable to carrying out crushing processing to the raw and other materials.

Please refer to fig. 2 to 4, the discharging mechanism 3 includes a discharging port 301, a discharging plate 302, a supporting column 303, a connecting column 304, a telescopic spring 305 and a discharging plate 306, the discharging port 301 is located at one side of the main body 1 and penetrates through the main body 1, the discharging plate 302 is located inside the main body 1 and located at one side of the discharging port 301, the supporting column 303 is located at one side of the discharging plate 302, the connecting columns 304 are multiple, the connecting columns 304 are located at the top end of the supporting column 303, the telescopic spring 305 is located inside the connecting column 304, the discharging plate 306 is located at the top end of the telescopic spring 305 and located below the first pressing column 207 and the second pressing column 208, which is beneficial to discharging the processed cold-solidified pellets quickly.

Please refer to fig. 3, the transmission mechanism 4 includes a motor 401, a transmission post 402, a transmission gear 403, a crushing gear 404, a driven gear 405, a first gear 406, a second gear 407 and a connection gear 408, the motor 401 is located at one end of the main body 1, the transmission post 402 is located at one end of the motor 401 and penetrates through the interior of the main body 1 to be connected with the driving shaft 202 in a rotating manner, the transmission gear 403 is located at one side of the transmission post 402, the crushing gear 404 is located at one side of the transmission gear 403 and penetrates through the interior of the main body 1 to be connected with the crushing post 205 in a rotating manner, the driven gear 405 is located at the inner wall of the main body 1 and is located at one end of the driven shaft 203 and is located at one side of the crushing gear 404, the first gear 406 is located at the bottom end of the driven gear 405 and is located at one end of the first pressing post 207, the second gear 407 is located at one side of the first pressing post 406 and is located at one end of the second pressing post 208, the connection gear 408 is located at the connection position of the driven gear 405 and the first gear 406, the rotation of the parts in the machining mechanism 2 can be driven, and the machining efficiency of the equipment can be improved.

Please refer to fig. 1-2, a conveying trough matched with the conveying belt 204 is arranged inside the main body 1, a filtering hole is arranged on the surface of the conveying belt 204, crushing teeth are arranged on the outer wall of the crushing column 205, and a plurality of material pressing troughs are arranged on the surfaces of the first pressing column 207 and the second pressing column 208, which is beneficial for the crushing column 205 to crush the caked raw materials.

Please refer to fig. 2 to 4, a discharge chute matched with the discharge plate 302 is disposed inside the main body 1, a spring chute matched with the extension spring 305 is disposed inside the connecting column 304, and one side of the discharge port 301 close to the first pressing column 207 and the second pressing column 208 is higher than one side of the discharge plate 302 close to the discharge port 301, which is beneficial for the processed cooled agglomerated pellets to slide out from the discharge plate 302.

Please refer to fig. 3, a transmission groove matched with the transmission mechanism 4 is arranged inside the main body 1, an outer tooth block is arranged around the outer wall of the transmission column 402, the transmission gear 403 is respectively meshed with the transmission column 402 and the crushing gear 404, the connecting gear 408 is respectively meshed with the driven gear 405 and the first gear 406, and the second gear 407 is meshed with the first gear 406, so that the transmission gear 403 can drive a plurality of gears to rotate together to drive the mutual transmission of the internal parts of the processing mechanism 2.

The working principle of the invention is as follows: when the raw material needs to be crushed, a motor 401 is started, the motor 401 drives a transmission column 402 to rotate, the transmission column 402 drives a driving shaft 202 to rotate, a rotating shaft 202 rotates to drive a conveying belt 204 to move, the conveying belt 204 moves to drive a driven shaft 203 to rotate, the raw material is poured into the main body 1 through a feeding hole 201, the raw material falls on the conveying belt 204, meanwhile, the transmission column 402 rotates to drive a transmission gear 403 to rotate, the transmission gear 403 rotates to drive a crushing gear 404 to rotate, the transmission gear 403 rotates to drive a blocking plate 209 to rotate, the blocking plate 209 rotates to lay the raw material uniformly on the conveying belt 204, the crushing gear 404 rotates to drive a crushing column 205 to rotate, the crushing column 205 rotates to crush the laid raw material, the quality of the raw material during processing can be improved, the crushed raw material is driven to fall between a first pressing column 207 and a second pressing column 208 through the conveying belt 204, the driven shaft 203 rotates to drive the driven gear 405 to rotate, the driven gear 405 rotates to drive the connecting gear 408 to rotate, the connecting gear 408 drives the first gear 406 to rotate, the first gear 406 rotates to drive the second gear 407 to rotate, the first gear 406 and the second gear 407 rotate to drive the first pressing column 207 and the second pressing column 208 to rotate, the first pressing column 207 and the second pressing column 208 rotate to extrude raw materials, the extruded cold-bonded pellets fall on the discharging plate 306, the discharging plate 306 is stressed to extrude the expansion spring 305, the expansion spring 305 is stressed to extrude and contract to drive the discharging plate 306 to move, the cold-bonded pellets are moved to the discharging plate 302 from the discharging plate 306, and finally the cold-bonded pellets slide out from the discharging port 301, so that the processing and forming of the raw materials can be completed, and the cost of equipment is reduced.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention are equivalent to or changed within the technical scope of the present invention.

Claims (7)

1. The utility model provides a device of converter fly ash production cold bonded pellet which characterized in that includes:

a main body (1);

the processing mechanism (2) is positioned at the top end of the main body (1), penetrates into the main body (1) and is used for processing raw materials;

the discharging mechanism (3) is provided with a telescopic spring (305), and the discharging mechanism (3) is positioned on one side of the main body (1), penetrates into the main body (1) and is used for discharging the processed cold-bonded pellets;

the transmission mechanism (4) is located at one end of the main body (1), penetrates into the main body (1), is connected with the machining mechanism (2), and is used for driving the machining mechanism (2) to operate.

2. The device for producing the cold-bonded pellets by using the converter fly ash according to claim 1, wherein the processing mechanism (2) comprises a feeding hole (201), a driving shaft (202), a driven shaft (203), a conveying belt (204), a crushing column (205), an adsorption plate (206), a first pressing column (207), a second pressing column (208) and a blocking plate (209), the feeding hole (201) is located at the top end of the main body (1) and penetrates into the main body (1), the driving shaft (202) is located inside the main body (1) and is located at the bottom end of the feeding hole (201), the driven shaft (203) is located at one side of the driving shaft (202), the conveying belt (204) is sleeved on the outer walls of the driving shaft (202) and the driven shaft (203), the crushing column (205) is located above the conveying belt (204), and the adsorption plate (206) is located below the conveying belt (204), the first pressing column (207) is located below the conveying belt (204) and located on one side of the adsorption plate (206), the second pressing column (208) is located on one side of the first pressing column (207), and the blocking plate (209) is located on one side of the crushing column (205) and located above the conveying belt (204).

3. The device for producing the cooled agglomerated pellets through the converter fly ash according to claim 2, wherein the discharging mechanism (3) comprises a discharging hole (301), a discharging plate (302), a supporting column (303), a connecting column (304), a telescopic spring (305) and a discharging plate (306), the discharging hole (301) is located at one side of the main body (1) and penetrates through the main body (1), the discharging plate (302) is located inside the main body (1) and located at one side of the discharging hole (301), the supporting column (303) is located at one side of the discharging plate (302), the connecting column (304) is provided with a plurality of connecting columns (304) which are located at the top ends of the supporting column (303), the telescopic spring (305) is located inside the connecting column (304), the discharging plate (306) is located at the top end of the telescopic spring (305) and located at one pressing column (207), The second pressing column (208) is arranged below the first pressing column.

4. The device for producing the cold-bonded pellets by using the converter fly ash as claimed in claim 2, wherein the transmission mechanism (4) comprises a motor (401), a transmission column (402), a transmission gear (403), a crushing gear (404), a driven gear (405), a first gear (406), a second gear (407) and a connecting gear (408), the motor (401) is located at one end of the main body (1), the transmission column (402) is located at one end of the motor (401) and penetrates through the inside of the main body (1) to be rotationally connected with the driving shaft (202), the transmission gear (403) is located at one side of the transmission column (402), the crushing gear (404) is located at one side of the transmission gear (403) and penetrates through the inside of the main body (1) to be rotationally connected with the crushing column (205), the driven gear (405) is located at the inner wall of the main body (1), the first gear (406) is located at the bottom end of the driven gear (405) and located at one end of the first pressing column (207), the second gear (407) is located at one side of the first gear (406) and located at one end of the second pressing column (208), and the connecting gear (408) is located at the connecting position of the driven gear (405) and the first gear (406).

5. The device for producing the cooled agglomerated pellets by using the converter fly ash according to claim 2, wherein a conveying groove matched with the conveying belt (204) is formed in the main body (1), filtering holes are formed in the surface of the conveying belt (204), crushing teeth are formed in the outer wall of the crushing column (205), and a plurality of pressing grooves are formed in the surfaces of the first pressing column (207) and the second pressing column (208).

6. The device for producing the cooled agglomerated pellets by using the converter fly ash as claimed in claim 3, wherein a discharge chute matched with the discharge plate (302) is arranged inside the main body (1), a spring chute matched with the expansion spring (305) is arranged inside the connecting column (304), and one side of the discharge port (301) close to the first pressing column (207) and the second pressing column (208) is higher than one side of the discharge plate (302) close to the discharge port (301).

7. The device for producing the cold-bonded pellets by using the converter fly ash is characterized in that a transmission groove matched with a transmission mechanism (4) is formed in the main body (1), outer tooth blocks are arranged on the periphery of the outer wall of the transmission column (402), the transmission gear (403) is meshed with the transmission column (402) and the crushing gear (404), the connecting gear (408) is meshed with the driven gear (405) and the first gear (406), and the second gear (407) is meshed with the first gear (406).

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