CN211168999U - Waste material transfer device for processing magnetic steel - Google Patents
Waste material transfer device for processing magnetic steel Download PDFInfo
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- CN211168999U CN211168999U CN201921544130.6U CN201921544130U CN211168999U CN 211168999 U CN211168999 U CN 211168999U CN 201921544130 U CN201921544130 U CN 201921544130U CN 211168999 U CN211168999 U CN 211168999U
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Abstract
A waste transfer device for processing magnetic steel comprises a carriage and a turning plate, wherein the carriage is arranged at the top of the turning plate, a funnel-shaped partition plate is arranged inside the carriage, an outlet is formed in the bottom of the funnel-shaped partition plate, a rectangular frame is mounted on the outlet, and a plug board is arranged in the rectangular frame; an output mechanism is arranged below the funnel-shaped partition plate and comprises a plurality of first conveying rollers and a first conveying belt, the first conveying rollers are wound on the first conveying rollers, a first roller shaft is fixedly arranged at the center of each first conveying roller, and two ends of each first roller shaft are arranged on a carriage through bearings; the rear part of the turning plate is provided with an input mechanism, and the input mechanism comprises a second conveying roller, a second conveying belt, a second conveying roller frame and a bearing seat; the utility model discloses a conveying mechanism carries out the material loading and unloads, uses manpower sparingly greatly, is worth wideling popularize.
Description
Technical Field
The utility model belongs to the technical field of the tungsten smelting technique and specifically relates to a waste material transfer device is used in magnet steel processing.
Background
The most original definition of magnetic steel is AlNiCo (AlNiCo is an abbreviation for AlNiCo in english), which is a kind of hard metal, such as iron, aluminum, nickel, cobalt, etc., sometimes copper, niobium, tantalum, used to make super-hard permanent-magnet alloy. The magnetic sensor has different metal components, different magnetic properties and different purposes, and is mainly used in the fields of various sensors, instruments, electronics, electromechanics, medical treatment, teaching, automobiles, aviation, military technology and the like. Alnico is the oldest type of magnetic steel, called natural magnet, and although it is the oldest, its outstanding adaptability to high temperature makes it still one of the most important magnetic steels so far, alnico can work normally at high temperature above 500 ℃, which is the greatest characteristic of alnico, and in addition, its corrosion resistance is also stronger than that of other magnets.
Magnet steel supplied ore and various intermediate products and waste materials all need to be transported through the transfer car, generally all shovels into the travelling bogie through the manual work and carries the processing link, and dumping material also can consume the manpower in a large number when unloading, and the amount of labour is big.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a reduce work load's waste material transfer device is used in magnet steel processing.
In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a waste material transfer device is used in magnet steel processing, includes carriage and sweep, the top of sweep is located in the carriage, and the inside in carriage is equipped with the infundibulate baffle, and the bottom of infundibulate baffle is equipped with the export, installs the rectangle frame in this export, is equipped with the picture peg in the rectangle frame, the interior limit of rectangle frame be equipped with picture peg clearance fit's spout, in picture peg embedding spout, the pull rod is connected to the front side of picture peg, the pull rod extends to the front side in carriage to connect the handle. The inserting plate is driven to slide by the handle, so that an outlet at the bottom of the funnel-shaped partition plate is plugged or opened.
The output mechanism is arranged below the funnel-shaped partition plate and comprises a plurality of first conveying rollers and a first conveying belt, the first conveying belt is wound on the first conveying rollers, first roller shafts are fixedly arranged at the centers of the first conveying rollers, the two ends of the first roller shafts are installed on a carriage through bearings, a first driven belt wheel is fixedly arranged on one first roller shaft and connected with a first driving belt wheel on an output shaft of a motor through a belt, and the first motor is fixedly installed at the bottom of the vehicle plate through a first motor base. The first motor drives a first roller shaft to rotate through belt transmission, and then drives one of the first conveying rollers to rotate, and then drives the first conveying belt to move around the first conveying roller, so that the material is output.
The rear part of the turning plate is provided with an input mechanism, the input mechanism comprises second conveying rollers, second conveying belts, second conveying roller frames and bearing seats, the second conveying rollers are wound on a plurality of second conveying rollers, second roller shafts are arranged at the centers of the second conveying rollers, the second conveying rollers are connected with the second roller shafts through bearings, two ends of each second roller shaft are fixedly installed on the second conveying roller frames on two sides, one second roller shaft at the front end penetrates through the second conveying roller frames, extends to two sides of each second conveying roller frame and is connected with the bearing seat, and the bearing seats are fixedly installed on the rear side of the turning plate; and a second driven belt wheel is also arranged on the second roller shaft at the front end through a bearing, the second driven belt wheel is fixedly connected with a second conveying roller on the second roller shaft, and the second driven belt wheel is connected with a second driving belt wheel on an output shaft of a second motor through a belt. The second motor drives the second driving belt wheel to rotate, and the second driven belt wheel is driven to rotate through belt transmission, so that the second conveying roller is driven to rotate, and the second conveying roller drives the second conveying belt to move.
As a further aspect of the present invention: and the top of the second conveying roller frame is provided with an input support leg, and the bottom of the second conveying roller frame is provided with an output support leg. When the input mechanism rotates to one side close to the carriage, the input mechanism is supported at the rear side of the carriage through the input support legs, and when the input mechanism rotates to one side close to the ground, the input mechanism is supported on the ground through the output support legs.
As a further aspect of the present invention: the second conveyer belt is a skirt conveyer belt. The material can be lifted to the top.
As a further aspect of the present invention: and a bearing is arranged between the bearing seat and the second roller shaft.
As a further aspect of the present invention: the rear side of the output mechanism is provided with a sliding table, the top surface of the sliding table is an inclined plane, and the height of the front end is greater than that of the rear end. The material output by the output mechanism is guided by the sliding table to be conveyed onto the second conveying belt.
Compared with the prior art, the beneficial effects of the utility model are that: the waste material transfer device for processing the magnetic steel is provided with the input mechanism and the output mechanism, materials can be input and output through the conveying belt, and only the materials need to be shoveled to the lower end of the input mechanism with lower height during input, so that the workload is reduced, and the efficiency is improved;
when the material is output, the material can be output from the output mechanism only by pulling off the inserting plate, so that the labor is saved.
Drawings
Fig. 1 is a schematic structural diagram of the present invention in the first embodiment;
fig. 2 is a schematic structural diagram of the utility model in the first embodiment when outputting materials;
fig. 3 is a schematic structural view of the input mechanism according to the first embodiment of the present invention, in which the second conveying roller frame is removed from one side;
fig. 4 is a schematic structural view of a funnel-shaped partition plate according to the first embodiment of the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Example one
Please refer to fig. 1-4, in an embodiment of the present invention, a waste material transfer device for processing magnetic steel, including carriage 1 and sweep 2, carriage 1 locates the top of sweep 2, and the inside of carriage 1 is equipped with infundibulate baffle 3, and the bottom of infundibulate baffle 3 is equipped with the export, installs rectangle frame 4 in this export, is equipped with picture peg 5 in the rectangle frame 4, and the interior limit of rectangle frame 4 is equipped with the spout with 5 clearance fit of picture peg, and in picture peg 5 embedding spout, pull rod 6 is connected to the front side of picture peg 5, and pull rod 6 extends to the front side of carriage 1 to connect the handle. The inserting plate 5 is driven to slide by the handle, so that the outlet at the bottom of the funnel-shaped partition plate 3 is plugged or opened.
The below of infundibulate baffle 3 is equipped with output mechanism, output mechanism includes the first conveying roller 7 of a plurality of and a first conveyer belt 8, first conveyer belt 8 is around on first conveying roller 7, the fixed first roller that is equipped with in center of first conveying roller 7, the both ends of first roller are passed through the bearing and are installed on carriage 1, the fixed first driven pulley 9 that is equipped with on one of them first roller, this first driven pulley 9 passes through the first driving pulley 10 on the output shaft of belt connection motor, this first motor 11 is through 11 fixed mounting of first motor in the bottom of sweep 2. First motor 11 drives a first roller through belt drive and rotates, and then drives one of them first conveying roller 7 and rotates, and then drives first conveyer belt 8 and removes around first conveying roller 7, exports the material.
An input mechanism is arranged at the rear part of the car plate 2, the input mechanism comprises a second conveying roller 12, a second conveying belt 13, a second conveying roller frame 14 and a bearing seat 15, the second conveying belt 13 is wound on a plurality of second conveying rollers 12, a second roller shaft is arranged at the center of the second conveying roller 12, the second conveying rollers 12 are connected with the second roller shaft through bearings, two ends of the second roller shaft are fixedly arranged on the second conveying roller frames 14 at two sides, one second roller shaft at the front end penetrates through the second conveying roller frame 14, extends to two sides of the second conveying roller frame 14 and is connected with the bearing seat 15, and the bearing seat 15 is fixedly arranged at the rear side of the car plate 2; a second driven pulley 16 is also arranged on the second roller shaft at the front end through a bearing, the second driven pulley 16 is fixedly connected with the second conveying roller 12 on the second roller shaft, and the second driven pulley 16 is connected with a second driving pulley 17 on the output shaft of a second motor 18 through a belt. The second motor 18 drives the second driving pulley 17 to rotate, and drives the second driven pulley 16 to rotate through belt transmission, so as to drive the second conveying roller 12 to rotate, and the second conveying roller 12 drives the second conveying belt 13 to move.
Further, the second conveyor roller frame 14 is provided with an input leg 19 at the top and an output leg 20 at the bottom. The input mechanism is supported at the rear side of the vehicle body 1 by the input support leg 19 when rotated to the side close to the vehicle body, and is supported on the ground by the output support leg 20 when rotated to the side close to the ground.
Further, the second conveyor belt 13 is a skirt conveyor belt. The material can be lifted to the top.
Further, a bearing is provided between the bearing housing 15 and the second roller shaft.
Furthermore, the rear side of the output mechanism is provided with a sliding table, the top surface of the sliding table is an inclined plane, and the height of the front end is greater than that of the rear end. The material output by the output mechanism is guided by the sliding table and sent to the second conveying belt 13.
Further, the sweep 2 is provided with a slot for the belt to pass through.
Further, the first motor 11 and the second motor 18 are both direct current motors, and are connected to a power supply through a switch, where the power supply may be a storage battery of a vehicle head connected to the vehicle panel 2, or a storage battery fixedly mounted at the bottom of the vehicle panel 2. The second motor 18 needs to switch the direction of rotation, so a double pole double throw switch or a switch with the same function can be used for changing the direction of rotation by changing the current reversal.
Further, the front end of the sweep 2 is connected with the locomotive. The locomotive is various locomotives with power in the prior art.
The utility model discloses a structural feature and theory of operation: during the material loading, with input mechanism rotation to one side that is close to carriage 1, then support on carriage 1 through input stabilizer blade 19, start second motor 18 corotation this moment, the manpower is thrown the material to the second conveyer belt 13 through the instrument on, and the top is carried from the bottom to the second conveyer belt 13 with the material, falls into carriage 1 in, accomplishes the material loading.
During unloading, the input mechanism is rotated to one side close to the ground, the handle is pulled to drive the inserting plate 5 to slide forwards, the outlet at the bottom of the funnel-shaped partition plate 3 is opened, the material falls onto the first conveying belt 8 from the outlet, the first motor 11 is started to drive the first conveying belt 8 to move through belt transmission, and the material is discharged from the rear side; the second motor 18 is started to rotate reversely to drive the second conveyer belt 13 to move, and the materials output by the first conveyer belt 8 are conveyed to the ground through the second conveyer belt 13 (or conveyed to other equipment with the height higher than the ground, and a corresponding support frame is equipped or a jack is arranged at the bottom of the output support leg 19).
It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.
Claims (5)
1. The waste transfer device for processing the magnetic steel is characterized by comprising a carriage and a turning plate, wherein the carriage is arranged at the top of the turning plate, a funnel-shaped partition plate is arranged inside the carriage, an outlet is formed in the bottom of the funnel-shaped partition plate, a rectangular frame is mounted on the outlet, a plug board is arranged in the rectangular frame, a sliding groove in clearance fit with the plug board is formed in the inner edge of the rectangular frame, the plug board is embedded into the sliding groove, a pull rod is connected to the front side of the plug board, and the pull rod extends to the front side of the carriage and is connected with a handle;
an output mechanism is arranged below the funnel-shaped partition plate and comprises a plurality of first conveying rollers and a first conveying belt, the first conveying rollers are wound on the first conveying rollers, a first roller shaft is fixedly arranged at the center of each first conveying roller, two ends of each first roller shaft are arranged on a carriage through bearings, a first driven belt wheel is fixedly arranged on one first roller shaft and is connected with a first driving belt wheel on an output shaft of a motor through a belt, and the first motor is fixedly arranged at the bottom of the vehicle plate through a first motor base;
the rear part of the turning plate is provided with an input mechanism, the input mechanism comprises second conveying rollers, second conveying belts, second conveying roller frames and bearing seats, the second conveying rollers are wound on a plurality of second conveying rollers, second roller shafts are arranged at the centers of the second conveying rollers, the second conveying rollers are connected with the second roller shafts through bearings, two ends of each second roller shaft are fixedly installed on the second conveying roller frames on two sides, one second roller shaft at the front end penetrates through the second conveying roller frames, extends to two sides of each second conveying roller frame and is connected with the bearing seat, and the bearing seats are fixedly installed on the rear side of the turning plate; and a second driven belt wheel is also arranged on the second roller shaft at the front end through a bearing, the second driven belt wheel is fixedly connected with a second conveying roller on the second roller shaft, and the second driven belt wheel is connected with a second driving belt wheel on an output shaft of a second motor through a belt.
2. The scrap transporter for magnetic steel processing according to claim 1, wherein the second transportation roller frame is provided with an input leg at the top and an output leg at the bottom, the input leg is supported at the rear side of the carriage when rotating to a side close to the carriage, and the output leg is supported on the ground when rotating to a side close to the ground.
3. The scrap transporter for magnetic steel processing according to claim 1, wherein the second conveyor is a skirt conveyor.
4. The scrap transporter for magnetic steel processing according to claim 1, wherein a bearing is disposed between the bearing seat and the second roller.
5. The scrap transporter for processing magnetic steel according to claim 1, wherein a sliding table is arranged on the rear side of the output mechanism, the top surface of the sliding table is an inclined surface, and the height of the front end is greater than that of the rear end.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921544130.6U CN211168999U (en) | 2019-09-17 | 2019-09-17 | Waste material transfer device for processing magnetic steel |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201921544130.6U CN211168999U (en) | 2019-09-17 | 2019-09-17 | Waste material transfer device for processing magnetic steel |
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Publication Number | Publication Date |
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CN211168999U true CN211168999U (en) | 2020-08-04 |
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CN201921544130.6U Active CN211168999U (en) | 2019-09-17 | 2019-09-17 | Waste material transfer device for processing magnetic steel |
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2019
- 2019-09-17 CN CN201921544130.6U patent/CN211168999U/en active Active
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