CN212450226U - Mining roller cage shoe power generation device - Google Patents
Mining roller cage shoe power generation device Download PDFInfo
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- CN212450226U CN212450226U CN202020274557.5U CN202020274557U CN212450226U CN 212450226 U CN212450226 U CN 212450226U CN 202020274557 U CN202020274557 U CN 202020274557U CN 212450226 U CN212450226 U CN 212450226U
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Abstract
The utility model relates to a mining gyro wheel cage shoe power generation facility. A mining roller cage shoe power generation device is composed of a base, a first connecting pin assembly, a buffer device, a second connecting pin assembly, a power generator, a fastening assembly, a support frame and a third connecting pin assembly. The generator comprises a wear-resistant ring, a top cover, a flange plate, an end cover, a central shaft, a rotor, an armature plate, a bearing, a cable leading-out device and a limiting ring, the generator is used as a roller wheel of the generator, the traditional solid roller wheel is replaced, when the lifting container moves up and down, the kinetic energy generated by mutual friction between the wear-resistant ring of the generator and the lifting container track drives the rotor inside the generator to rotate, and the rotor and the armature plate are interacted to generate electric energy. This mining gyro wheel cage shoe power generation facility has reduced the frequency of charging that promotes the inside power consumption device of container, has improved production efficiency, has increased energy utilization.
Description
Technical Field
The utility model relates to a mining gyro wheel cage shoe power generation facility.
Background
The mine hoisting container is a key device for mine production and life, the hoisting container runs up and down in a mine, a guide device is needed, and the roller cage shoe is a key for ensuring the stable running of the hoisting container along the container rail. Traditional promotion container, its illumination, stereo set, automatic jar curtain door, automatic electromechanics equipment such as car arrester, or use external power supply, or use rechargeable battery, because the limitation of container inner space and current rechargeable battery's characteristic, the electric energy that the group battery stored is limited, and the container need utilize the major period when overhaul of the equipments to frequently charge. The pipeline laying, use maintenance and battery replacement and maintenance of external power supply all need consume a lot of manpower, material resources and financial resources, often can appear and promote the container outage phenomenon, have influenced the normal production life of mine. Therefore, it is necessary to improve the electricity utilization condition of the existing mine hoisting container, not only to ensure the safety and reliability of electricity utilization, but also not to influence the mine production, and at the same time, to save manpower, material resources and financial resources and to realize convenient and fast electricity utilization.
Disclosure of Invention
In order to solve the change time of traditional mine hoisting container battery long, take the manual work, can not in time charge the scheduling problem, the utility model provides a mining gyro wheel cage shoe power generation facility.
The utility model adopts the technical proposal that: a mining roller cage shoe power generation device is composed of a base, a first connecting pin assembly, a buffer device, a second connecting pin assembly, a power generator, a fastening assembly, a support frame and a third connecting pin assembly. The base, the buffer device and the support frame are respectively connected through a first connecting pin assembly, a second connecting pin assembly and a third connecting pin assembly, and the longer extending end of the central shaft of the generator is connected with the middle hole of the support frame in a matched mode. The generator comprises a wear-resistant ring, a top cover, a flange plate, an end cover, a central shaft, a rotor, an armature plate, a bearing, a cable leading-out device and a limiting ring. A mining roller cage shoe power generation device is installed on a lifting container, a generator is used as a roller of the device, when the lifting container moves up and down, kinetic energy generated by mutual friction between a wear-resistant ring of the generator and a lifting container rail drives a rotor inside the generator to rotate, and the rotor and an armature plate are interacted to generate electric energy.
The utility model discloses do not change the service condition who promotes the container, do not increase extra equipment, utilize neotype electricity generation gyro wheel cage shoe to replace original gyro wheel cage shoe, generate electricity in promoting the normal working process of container, reduced the number of times that charges, saved the manpower, improved production efficiency, increased energy utilization and rateed.
Drawings
FIG. 1 is a structural diagram of a mining roller cage shoe power generation device.
Fig. 2 is a diagram of a generator.
Detailed Description
The following is a specific example of the present invention, and the present invention will be further described with reference to the accompanying drawings.
As shown in fig. 1 to 2, a mining roller cage shoe power generation device is characterized in that: the device comprises a base (1), a first connecting pin assembly (2), a buffer device (3), a second connecting pin assembly (4), a generator (5), a fastening assembly (6), a support frame (7) and a third connecting pin assembly (8); the base (1), the buffer device (3) and the support frame (7) are respectively connected through a connecting pin assembly I (2), a connecting pin assembly II (4) and a connecting pin assembly III (8); the longer extending end of a central shaft (5-5) of the generator (5) is matched and connected with a middle hole of the support frame (7) and is fixed by a fastening component (6).
The generator (5) comprises a wear-resistant ring (5-1), a top cover (5-2), a flange plate (5-3), an end cover (5-4), a central shaft (5-5), a rotor (5-6), an armature plate (5-7), a bearing (5-8), a cable leading-out device (5-9) and a limiting ring (5-10); the rotor (5-6) is fixed on the inner side of the flange plate (5-3); the armature plate (5-7) is fixed in the middle of the central shaft (5-5) and is connected with the cable leading-out device (5-9) by a lead; a top cover (5-2) is penetrated from one end of a central shaft (5-5), and then a limiting ring (5-10), a flange plate (5-3) for fixing a rotor (5-6), a bearing (5-8) and an end cover (5-4) are penetrated from two ends of the central shaft (5-5); the outer rings of the two flange plates (5-3) clamp the top cover (5-2), and the flange plates (5-3) and the top cover (5-2) and the flange plates (5-3) and the end covers (5-4) are fastened by fastening pieces; the wear-resistant ring (5-1) is fastened on the flange plate (5-3) and the outer ring of the top cover (5-2); the cable leading-out device (5-9) is arranged at one end of the central shaft (5-5).
The wear-resistant ring (5-1) is made of wear-resistant materials.
The rotor (5-6) is made of magnetic steel, the rotor (5-6) is symmetrically arranged on the outer side of the armature plate (5-7), and a gap is reserved between the rotor (5-6) and the armature plate (5-7).
The armature plate (5-7) is distributed with coil windings.
The working process is as follows: a mining roller cage shoe power generation device is installed on a lifting container, and a wear-resistant ring (5-1) of a generator (5) is in contact with a lifting container rail. When the lifting container lifts or lowers materials, the wear-resistant ring (5-1) rolls along the lifting container track under the action of friction force to drive the flange (5-3) fixedly connected with the wear-resistant ring (5-1) and the end cover (5-4) to rotate; as the rotor (5-6) is fixed on the inner side of the flange (5-3), the rotor (5-6) also rotates along with the wear-resistant ring (5-1). Because the rotor (5-6) is made of magnetic steel and symmetrically arranged on the outer side of the armature disc (5-7), and a gap is reserved between the rotor (5-6) and the armature disc (5-7), when the rotor (5-6) rotates, a rotating magnetic field interlinked with a coil winding on the armature disc (5-7) is generated at the air gap between the rotor (5-6) and the rotor (5-6), and the coil winding on the armature disc (5-7) cuts a magnetic induction line to induce alternating current electromotive force and generate current. The current is led out to an energy storage device in the lifting container through a cable leading-out device (5-9) at one end of a central shaft (5-5) for an electric device.
Claims (5)
1. The utility model provides a mining gyro wheel cage shoe power generation facility which characterized in that: the device comprises a base (1), a first connecting pin assembly (2), a buffer device (3), a second connecting pin assembly (4), a generator (5), a fastening assembly (6), a support frame (7) and a third connecting pin assembly (8); the base (1), the buffer device (3) and the support frame (7) are respectively connected through a connecting pin assembly I (2), a connecting pin assembly II (4) and a connecting pin assembly III (8); the longer extending end of a central shaft (5-5) of the generator (5) is matched and connected with a middle hole of the support frame (7) and is fixed by a fastening component (6).
2. The mining roller cage shoe power generation device of claim 1, characterized in that: the generator (5) comprises a wear-resistant ring (5-1), a top cover (5-2), a flange plate (5-3), an end cover (5-4), a central shaft (5-5), a rotor (5-6), an armature plate (5-7), a bearing (5-8), a cable leading-out device (5-9) and a limiting ring (5-10); the rotor (5-6) is fixed on the inner side of the flange plate (5-3); the armature plate (5-7) is fixed in the middle of the central shaft (5-5) and is connected with the cable leading-out device (5-9) by a lead; a top cover (5-2) is penetrated from one end of a central shaft (5-5), and then a limiting ring (5-10), a flange plate (5-3) for fixing a rotor (5-6), a bearing (5-8) and an end cover (5-4) are penetrated from two ends of the central shaft (5-5); the outer rings of the two flange plates (5-3) clamp the top cover (5-2), and the flange plates (5-3) and the top cover (5-2) and the flange plates (5-3) and the end covers (5-4) are fastened by fastening pieces; the wear-resistant ring (5-1) is fastened on the flange plate (5-3) and the outer ring of the top cover (5-2); the cable leading-out device (5-9) is arranged at one end of the central shaft (5-5).
3. The mining roller cage shoe power generation device of claim 2, characterized in that: the wear-resistant ring (5-1) is made of wear-resistant materials.
4. The mining roller cage shoe power generation device of claim 2, characterized in that: the rotor (5-6) is made of magnetic steel, the rotor (5-6) is symmetrically arranged on the outer side of the armature plate (5-7), and a gap is reserved between the rotor (5-6) and the armature plate (5-7).
5. The mining roller cage shoe power generation device of claim 2, characterized in that: the armature plate (5-7) is distributed with coil windings.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020274557.5U CN212450226U (en) | 2020-03-04 | 2020-03-04 | Mining roller cage shoe power generation device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020274557.5U CN212450226U (en) | 2020-03-04 | 2020-03-04 | Mining roller cage shoe power generation device |
Publications (1)
Publication Number | Publication Date |
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CN212450226U true CN212450226U (en) | 2021-02-02 |
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CN202020274557.5U Active CN212450226U (en) | 2020-03-04 | 2020-03-04 | Mining roller cage shoe power generation device |
Country Status (1)
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CN (1) | CN212450226U (en) |
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2020
- 2020-03-04 CN CN202020274557.5U patent/CN212450226U/en active Active
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