CN211569054U - Magnetic lifting conveyor - Google Patents
Magnetic lifting conveyor Download PDFInfo
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- CN211569054U CN211569054U CN201921820633.1U CN201921820633U CN211569054U CN 211569054 U CN211569054 U CN 211569054U CN 201921820633 U CN201921820633 U CN 201921820633U CN 211569054 U CN211569054 U CN 211569054U
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- magnetic roller
- magnetic
- conveying unit
- roller conveying
- belt
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- 239000000463 material Substances 0.000 claims abstract description 35
- 230000005389 magnetism Effects 0.000 abstract description 4
- 239000000696 magnetic material Substances 0.000 abstract description 3
- 238000004519 manufacturing process Methods 0.000 abstract 1
- 238000001179 sorption measurement Methods 0.000 description 3
- XEEYBQQBJWHFJM-UHFFFAOYSA-N Iron Chemical compound [Fe] XEEYBQQBJWHFJM-UHFFFAOYSA-N 0.000 description 2
- 239000004020 conductor Substances 0.000 description 2
- 229910000831 Steel Inorganic materials 0.000 description 1
- 238000009825 accumulation Methods 0.000 description 1
- 239000013590 bulk material Substances 0.000 description 1
- 239000004568 cement Substances 0.000 description 1
- 239000003245 coal Substances 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 229910052742 iron Inorganic materials 0.000 description 1
- 238000005272 metallurgy Methods 0.000 description 1
- 239000002245 particle Substances 0.000 description 1
- 238000000926 separation method Methods 0.000 description 1
- 239000010959 steel Substances 0.000 description 1
- 230000007723 transport mechanism Effects 0.000 description 1
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Abstract
The utility model discloses a magnetism promotes conveyer, including a plurality of magnetic roller conveying unit who arranges in the direction of height range upon range of, magnetic roller conveying unit includes magnetic roller, non-magnetic roller and conveyer belt, the conveyer belt winds magnetic roller and non-magnetic roller are the annular setting, magnetic roller conveying unit is the slope and upwards sets up, the magnetic roller set up in magnetic roller conveying unit's bottom, non-magnetic roller set up in magnetic roller conveying unit's top, the magnetic roller is equipped with along with magnetic roller pivoted magnet, the upper story magnetic roller conveying unit's magnetic roller is located the lower story the top of magnetic roller conveying unit's conveyer belt is equipped with the clearance, the upper story magnetic roller of magnetic roller conveying unit absorbs the lower story magnetic conduction material on magnetic roller conveying unit's the conveyer belt. The utility model discloses can realize magnetic material and carry to the eminence in less transverse distance, simple structure, low in manufacturing cost.
Description
Technical Field
The utility model relates to a conveyer especially relates to a magnetism promotes conveyer.
Background
The belt conveyor is the most important bulk material conveying and loading and unloading equipment, can be widely applied to the industrial fields of mines, metallurgy, and the like, and can be widely applied to coal mines, iron and steel enterprises, ports, cement plants, and the like. However, the existing belt conveyor conveys materials by means of friction force between a belt and the materials and between material particles, so that the belt conveyor cannot convey the materials at a large angle or even a vertical angle. When hope to send the material to the eminence from the low, it is higher to promote the height, and band conveyer length is big more, adopts multistage band transport, then needs material transport mechanism between the different grade belts, perhaps the bottom of the band conveyer of last one-level need be less than the band conveyer's of next one-level top in order to connect the material greatly, consequently the structure occupies a large area of ground on the whole, is unfavorable for equipment compact arrangement. To magnetic conductive material's transport, have the magnet that adopts alternate change to adsorb and send the material to the eminence from the low, this kind of equipment magnetic field control is comparatively complicated, and magnetic field cooperation promotes the effect when improper relatively poor. In addition, when the magnetic adsorption conveying is adopted, the materials can form adsorption residues on the surface of the magnet, and all the materials cannot be conveyed to a high position.
SUMMERY OF THE UTILITY MODEL
To the not enough of above-mentioned prior art, the utility model provides a magnetism promotes conveyer to simple mechanical structure realizes carrying magnetic material and magnetic conduction powdery material to the eminence to magnetic conduction material and non-magnetic conduction material's separation in less lateral distance.
The utility model discloses technical scheme as follows: the utility model provides a magnetism promotes conveyer, includes a plurality of magnetic roller conveying unit who arranges in the direction of height range upon range of, magnetic roller conveying unit includes magnetic roller, non-magnetic roller and conveyer belt, the conveyer belt winds magnetic roller and non-magnetic roller are the annular setting, magnetic roller conveying unit is the slope and upwards sets up, magnetic roller set up in magnetic roller conveying unit's bottom, non-magnetic roller set up in magnetic roller conveying unit's top, magnetic roller is equipped with along with magnetic roller pivoted magnet, the last layer magnetic roller conveying unit's magnetic roller is located the one deck down magnetic roller conveying unit's conveyer belt's top is equipped with the clearance, the last layer magnetic roller conveying unit's magnetic roller absorbs the one deck down the magnetic conduction material on magnetic roller conveying unit's the conveyer belt.
In order to fully utilize the conveying distance of each magnetic roller conveying unit, the magnetic roller of the magnetic roller conveying unit on the upper layer is positioned above the non-magnetic roller of the magnetic roller conveying unit on the lower layer and is provided with a gap.
In order to compress the transverse space of the device, further, the arrangement directions of the magnetic rollers and the non-magnetic rollers of the adjacent magnetic roller conveying units are opposite.
In order to make it easier to transport all the material to a high place during the shutdown, the surface of the conveyor belt is further provided with at least one concave-convex structure extending along the width direction of the conveyor belt.
Further, the included angle between the upper side surface of the conveying belt in the magnetic roller conveying unit and the horizontal direction is 10-60 degrees.
The utility model provides a technical scheme's advantage lies in: the lifting is carried out between different magnetic roller conveying units in a magnetic adsorption mode, so that the lifting and conveying of materials with larger height can be realized within a smaller transverse distance through the multi-stage magnetic roller conveying units, and meanwhile, the structure is simple and complex control is not needed; the magnetic roller is arranged at the bottom end of the magnetic roller conveying unit, the top end of the magnetic roller conveying unit is a non-magnetic roller, the magnetic conduction materials are adsorbed by the magnetic roller and are stacked at the bottom end of the conveying belt, and the magnetic conduction materials are conveyed and paved towards the top end along with the increase of the stacking quantity, so that the conveying at a larger angle than that of a common conveying belt can be realized; after the concave-convex structure is added on the surface of the conveying belt, the magnetic force of the magnetic roller can be overcome without accumulation of a large amount of materials to be conveyed to the position of the non-magnetic roller through the pushing of the concave-convex structure, so that the whole device can convey all the materials completely when being stopped, and the phenomenon that the materials are adsorbed on the position of the magnetic roller and cannot be processed is avoided.
Drawings
Fig. 1 is a schematic structural view of a magnetic lifting conveyor according to embodiment 1.
Fig. 2 is a schematic structural view of a magnetic lifting conveyor according to embodiment 2.
Detailed Description
The present invention will be further described with reference to the following examples, which should not be construed as limiting the invention.
Referring to fig. 1, the magnetic lifting conveyor according to the present embodiment includes a plurality of magnetic roller conveying units, and the number of the magnetic roller conveying units is determined according to the height to be lifted. Each magnetic roller conveying unit comprises a magnetic roller 100, a non-magnetic roller 101 and a conveying belt 102, wherein the conveying belt 102 is annularly arranged around the magnetic roller 100 and the non-magnetic roller 101, and the conveying belt 102 can be driven to rotate by driving the magnetic roller 101 or the non-magnetic roller 102 to rotate, so that the materials 103 on the surface of the conveying belt 102 move.
The magnetic roller conveying unit is arranged obliquely upwards, the magnetic roller 100 is arranged at the bottom end of the magnetic roller conveying unit, and the non-magnetic roller 101 is arranged at the top end of the magnetic roller conveying unit. An included angle A1 between the upper side surface of the conveying belt 102 in the magnetic roller conveying unit and the horizontal direction is 10-60 degrees, and generally, when the granular magnetic conduction materials 103 are conveyed, the included angle A1 can be set at 30 degrees. The magnet 100a rotating with the magnet 100 is provided in the magnet roll 100, and may be a hollow roll, and a permanent magnet or an electromagnet is installed inside the hollow roll. The magnetic roller 100 'of the magnetic roller conveying unit of the upper layer is positioned above the conveying belt 101 of the magnetic roller conveying unit of the lower layer and is provided with a gap which is not too large, so that the magnetic roller 100' can attract the magnetic conductive material 103 below. The magnetic rollers 100 and the non-magnetic rollers 101 are arranged in the same direction, that is, the magnetic rollers 100 are positioned at the left end of the magnetic roller conveying unit, and the non-magnetic rollers 101 are positioned at the right end of the magnetic roller conveying unit. When the lifting conveyor operates, the magnetic conduction materials 103 are stacked on the surface of the conveying belt 102 at the position of the magnetic roller 100 and move towards the direction of the non-magnetic roller 101 along with the movement of the conveying belt 102 (from left to right), and when the magnetic roller reaches the position below the magnetic roller 100 'of the magnetic roller conveying unit at the upper layer, the magnetic roller is attracted by the magnetic roller 100' at the upper layer, so that the magnetic roller is continuously stacked on the surface of the conveying belt 102 'at the position of the magnetic roller 100' at the upper layer, and then the magnetic roller is continuously moved towards the non-magnetic roller 101 'at the upper layer along with the movement of the conveying belt 102' at the upper layer (.
Referring to fig. 2, the magnetic lifting conveyor according to the present embodiment includes a plurality of magnetic roller conveying units, and the number of the magnetic roller conveying units is determined according to the height to be lifted. Each magnetic roller conveying unit comprises a magnetic roller 200, a non-magnetic roller 201 and a conveying belt 202, wherein the conveying belt 202 is annularly arranged around the magnetic roller 200 and the non-magnetic roller 201, and the conveying belt 202 can be driven to rotate by driving the magnetic roller 200 or the non-magnetic roller 201 to rotate, so that the materials 203 on the surface of the conveying belt 202 move. The surface of the belt 202 is provided with at least one concave-convex structure extending along the width direction of the belt 202, the concave-convex structure may be a transverse convex bar 204, or a herringbone groove or protrusion, when the herringbone groove or protrusion is adopted, the opening of the herringbone groove or protrusion faces the non-magnetic roller 201, and the transverse convex bar 204 is adopted in the embodiment.
The magnetic roller conveying unit is inclined and upwards arranged, the magnetic roller 200 is arranged at the bottom end of the magnetic roller conveying unit, and the non-magnetic roller 201 is arranged at the top end of the magnetic roller conveying unit. An included angle A2 between the upper side surface of the conveying belt 202 in the magnetic roller conveying unit and the horizontal direction is 10-60 degrees, and generally, when the granular magnetic conduction materials 203 are conveyed, the included angle A2 can be set at 30 degrees. The magnetic roller 200 is provided with a magnet 200a rotating with the magnetic roller, and the specific structure thereof can be a hollow roller, and a permanent magnet or an electromagnet is arranged on the inner side of the roller. The magnetic roller 200 'of the magnetic roller conveying unit of the upper layer is positioned above the non-magnetic roller 201 of the magnetic roller conveying unit of the lower layer and is provided with a gap which is not too large, so that the magnetic roller 200' can attract the magnetic conduction material below. The magnetic rollers 200 and the non-magnetic rollers 201 are arranged in opposite directions, namely, one magnetic roller conveying unit, the magnetic roller 200 is positioned at the left end of the magnetic roller conveying unit, the non-magnetic roller 201 is positioned at the right end of the magnetic roller conveying unit, the adjacent magnetic roller conveying unit, the magnetic roller 200 is positioned at the right end of the magnetic roller conveying unit, and the non-magnetic roller 201 is positioned at the left end of the magnetic roller conveying unit. When the lifting conveyor runs, the magnetic conduction materials 203 are stacked on the surface of the conveying belt 202 at the position of the magnetic roller and move towards the direction of the non-magnetic roller 201 (from left to right) along with the movement of the conveying belt 202, when the magnetic roller reaches the position below the magnetic roller 200 'of the magnetic roller conveying unit at the upper layer, the magnetic roller 200' at the upper layer is attracted, the surface of the conveying belt 202 'at the position of the magnetic roller 200' at the upper layer is further stacked, then the magnetic conduction materials continue to move towards the direction of the non-magnetic roller 201 'at the upper layer (from right to left) along with the movement of the conveying belt 202' at the upper layer, and the. When the machine needs to be stopped, the magnetic roller conveying unit at the bottommost layer does not receive new materials any more, the existing residual small amount of magnetic materials 203 can not be conveyed continuously due to the vibration of the machine and the magnetic force of the magnetic rollers 200, and at the moment, the transverse convex strips 204 push the materials along with the rotation of the conveying belt 202 to counteract the magnetic force of the magnetic rollers 200 so that the materials 203 are conveyed to the positions of the non-magnetic rollers 203 and are further attracted by the magnetic rollers 200' of the magnetic roller conveying unit at the upper layer to reach the upper layer. Then, the transverse convex strips 204 'of the upper layer of the conveyer belt 202' continuously push the conveyer belt to be conveyed upwards step by step, and the lifting and conveying of all the materials are completed.
Claims (5)
1. A magnetic lifting conveyor, characterized in that: including a plurality of magnetic roller conveying unit who arranges in the direction of height range upon range of, magnetic roller conveying unit includes magnetic roller, non-magnetic roller and conveyer belt, the conveyer belt winds magnetic roller and non-magnetic roller are the annular setting, magnetic roller conveying unit is the slope and upwards sets up, the magnetic roller set up in magnetic roller conveying unit's bottom, non-magnetic roller set up in magnetic roller conveying unit's top, the magnetic roller is equipped with along with magnetic roller pivoted magnet, the last layer magnetic roller conveying unit's magnetic roller is located the one deck down the top of magnetic roller conveying unit's conveyer belt is equipped with the clearance, the last layer magnetic roller of magnetic roller conveying unit absorbs the one deck down the magnetic conduction material on magnetic roller conveying unit's the conveyer belt.
2. The magnetic lifting conveyor of claim 1, wherein: the magnetic roller of the magnetic roller conveying unit in the upper layer is positioned above the non-magnetic roller of the magnetic roller conveying unit in the lower layer, and a gap is formed between the magnetic roller and the non-magnetic roller.
3. The magnetic lifting conveyor of claim 1, wherein: the arrangement directions of the magnetic rollers and the non-magnetic rollers of the adjacent magnetic roller conveying units are opposite.
4. The magnetic lifting conveyor of claim 1, wherein: the surface of the conveying belt is at least provided with a concave-convex structure extending along the width direction of the conveying belt.
5. The magnetic lifting conveyor of claim 1, wherein: the included angle between the upper side surface of the conveyor belt in the magnetic roller conveying unit and the horizontal direction is 10-60 degrees.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921820633.1U CN211569054U (en) | 2019-10-28 | 2019-10-28 | Magnetic lifting conveyor |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201921820633.1U CN211569054U (en) | 2019-10-28 | 2019-10-28 | Magnetic lifting conveyor |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN211569054U true CN211569054U (en) | 2020-09-25 |
Family
ID=72529992
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201921820633.1U Active CN211569054U (en) | 2019-10-28 | 2019-10-28 | Magnetic lifting conveyor |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN211569054U (en) |
-
2019
- 2019-10-28 CN CN201921820633.1U patent/CN211569054U/en active Active
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