JP2003333800A - Roller power generating set and belt conveyor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a roller power generating set and a belt conveyor in which wiring/installation cost incident to lengthening of the conveyor is suppressed and the labor for maintaining/inspecting the wiring is saved. <P>SOLUTION: A generator generating power using rotation of rollers 14 for guiding the belt 4 of a belt conveyor 1 is provided. The generator is installed in the roller 14. A noncontact generator is employed. In the belt conveyor 1 where the belt 4 travels on a plurality of rollers 14, the roller 14 is provided with a roller generator 21. The roller generators 21 are installed at a specified interval over the entire length of the belt conveyor 1. The roller generator 21 is connected with peripheral apparatus 10 and 11 of the belt conveyor 1. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a roller power generator using rotation of rollers for guiding a belt of a belt conveyor, and a belt conveyor equipped with this roller power generator.

[0002]

2. Description of the Related Art Generally, a belt conveyor is used to continuously convey lumps, granules, powders, etc. of ores, coal, grains, etc. An endless conveyor belt is laid over a pair of pulleys and is guided by a plurality of arranged rollers to run. Further, the belt conveyor has peripheral devices such as a lighting device for illuminating the surroundings and a heat insulating device for keeping heat of the pipe for absorbing water, and for supplying power to these peripheral devices, for example, in a building. The power supply etc. which were equipped were used.

[0003]

As described above, in the conventional belt conveyor, since the power source in the building is used to drive the peripheral equipment, it is necessary to wire up to the lighting device when illuminating the conveyor, for example. In addition, wiring to the heat retention device is also required for the heat retention device that keeps the water absorption pipe warm, and the longer the conveyor, the longer the wiring distance and the increase in installation cost. There is a problem that maintenance and inspection is troublesome.

The present invention is to solve the above problems, and an object thereof is to reduce the installation cost for wiring the lighting device and the heat insulating device accompanying the long distance of the conveyor, and
An object of the present invention is to provide a roller power generator and a belt conveyor that save the trouble of maintenance and inspection of these wirings.

[0005]

In order to achieve the above object, the present invention proposes the following means. The invention according to claim 1 is characterized by including a generator that generates electric power by using rotation of a roller that guides a belt of a belt conveyor.

According to the roller power generator of the present invention,
Since the roller that guides the belt of the belt conveyor is equipped with a generator that uses the rotation of the roller to generate electricity, when the belt of the belt conveyor is run and the roller is rotated by the belt, the generator of the roller is rotated. Generate electricity. Since the generator generates electricity by rotating the roller, the generated electric power can be used in the vicinity of the generator.

The invention according to claim 2 is the belt conveyor according to claim 1, wherein the generator is installed inside the roller.

According to the roller power generator of the present invention,
Since the generator is installed inside the roller, power generation by the generator is performed inside the roller. Since the power is generated by the generator inside the roller, the generated power can be used near the roller.

The invention according to claim 3 is the invention according to claim 1 or 2.
In the roller power generator described above, a non-contact type is used as the power generator.

According to the roller power generator of the present invention,
Since a non-contact type generator is used as the generator, the load on the rollers during power generation is reduced, and therefore the power is generated with the load on the drive pulley of the belt conveyor being low. Therefore, it is possible to suppress the loss of electric power caused by the unnecessary load on the drive pulley, and it is possible to suppress the waste of electric power. Further, since there is no contact portion associated with power generation, there is no wear associated with power generation, and stable use for a long period of time is possible.

According to a fourth aspect of the present invention, in a belt conveyor in which a belt travels over a plurality of rollers, the roller power generation device according to any one of the first to third aspects is installed on the rollers. To do.

According to the belt conveyor of the present invention,
Since the power generator is installed on the rollers of the belt conveyor in which the belt travels over the plurality of rollers, when the belt of the belt conveyor is run and the rollers are rotated by the belt, the power is generated by the generator by the rotation of the rollers. Since the generator is generated by the rotation of the roller, the generated power can be used in the vicinity of the generator.Therefore, the installation cost for wiring for power supply due to the long distance of the belt conveyor is suppressed. In addition, it is possible to save the trouble of maintenance and inspection of these wirings.

According to a fifth aspect of the present invention, in the belt conveyor according to the fourth aspect, the roller power generators are installed at predetermined intervals over the entire length of the belt conveyor.

According to the belt conveyor of the present invention,
Since the power generators are installed at predetermined intervals on the rollers of the belt conveyor in which the belt runs over a plurality of rollers, when the belt of the belt conveyor is run and the rollers are rotated by the belt, the rollers are installed at the predetermined intervals. The generated generator generates electricity. Since the generators installed at the specified intervals generate electricity, by setting the intervals of the generators according to the required power, only the necessary amount that eliminates waste in the vicinity of the generators installed at the set intervals is set. The power of can be used.

The invention according to claim 6 is the invention according to claim 4 or 5.
In the above described belt conveyor, the roller power generation device is connected to peripheral equipment of the belt conveyor.

According to the belt conveyor of the present invention,
Since the roller power generator is connected to the peripheral equipment of the belt conveyor, the electric power generated by the generator by the rotation of the roller is supplied to the peripheral equipment. Since the electric power generated by the generator is supplied to the peripheral devices, these peripheral devices can be used.

[0017]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to the drawings. FIG. 3 is a view showing an embodiment of the present invention. In the figure, a belt conveyor 1 winds an endless belt 4 (belt) around a driving pulley 2 and a driven pulley 3 to convey an object to be conveyed. It will be. On the lower surface of the endless belt 4, roller mounts 5 are provided at a predetermined interval. Each of the roller mounts 5 has a roller 14, and some of the rollers 14 have a generator and some do not have a generator.

As shown in FIG. 1, around the belt conveyor 1, water is absorbed on a handrail 7 and a rack 8 at the back of the handrail 7 with passages 6 located on both sides of the belt conveyor 1 in the width direction. And a water supply pipe 9 which is a pipe of the above. Handrail 7
An illumination 10 (peripheral device) that illuminates the vicinity of the passage 6 is attached to the upper part of the water supply pipe 9, and the water supply pipe 9 has a heating element 11 that warms the water supply pipe 9 with electric power to keep water absorbed in the pipe.
(Peripheral equipment) is attached.

The roller mount 5 comprises rollers 14 rotatably supported by brackets 13 on a conveyor mount 12. The roller 14 includes a roller 14c that supports the intermediate portion of the endless belt 4 in the width direction, a roller 14a that supports the end portion of the endless belt 4 in the width direction in a state of being inclined from the side,
14b and. In this case, the roller 14a and the roller 1
The rotation axis of 4b is located in a plane orthogonal to the running direction of the belt, and the rotation axis of the roller 14a and the rotation axis of the roller 14b are arranged so as to be opposite to each other. Further, the roller 14c located at the center is positioned so that its axis line is oriented in the horizontal direction.

As shown in FIG. 2, the roller 14 comprises a shaft portion 15 supported by a bracket 13 and a housing 16. The housing 16 has a side wall 17 and a cylindrical portion 1.
It consists of 8. A bearing portion 19 is provided on the side wall 17, and a shaft portion 15 is arranged inside the bearing portion 19. The shaft portion 15 is fixed at a fixed position, and the housing 16 can rotate with respect to the shaft portion 15.

The shaft portion 15 has a coil portion 20 around which a coil is wound, and the inner surface of the cylindrical portion 18 has a coil portion 20.
A plurality of magnets having different polarities are arranged in a ring shape on the side opposed to. The coil and the magnet form a generator, and the roller 14 having the generator inside forms a roller power generator 21. Further, an electrode portion 22 is formed at an end of the shaft portion 15 of the roller power generation device 21, and a lead wire 23 for supplying electric power to the heating element 11 of the water supply pipe 9 or the illumination 10 is formed on the electrode portion 22. Is attached. In FIG. 3, the roller 14 having a generator is shown by a black circle, and the roller 14 not having a generator is shown by a white circle.

Next, the operation when the belt conveyor 1 having the above structure is used will be described. When the drive pulley 2 is rotated to run the endless belt 4, the housing 1 of the roller power generation device 21 supporting the endless belt 4
6 is moved in the traveling direction together with the endless belt 4 by the frictional force. In this case, in the housing 16, the cylindrical portion 18 has a cylindrical shape, and the shaft of the housing 16 is formed by the shaft portion 15.
Since it is fixed to 3, the shaft 15 rotates about the shaft 15 as an axis. When the housing 16 rotates, an electromotive force is generated in the generator provided on the shaft portion 15 in the roller power generator 21, and the electric power can be supplied.

Electric power from the generator is supplied from the electrode portion 22 to the heating element 11 or the lighting 10 attached to the water supply pipe 9 by the lead wire 23. The heating element 11 to which electric power is supplied heats up and heats the water supply pipe 9 to keep water absorbed in the pipe, and the lighting 10 illuminates the periphery of the passage 6 to lighten the periphery of the passage 6.

According to the above structure, the endless belt 4 of the belt conveyor 1 is run, and the endless belt 4 causes the roller 1 to move.
When 4 is rotated, the generator is generated by the rotation of the roller 14, so that the generated power can be used in the vicinity of the generator. At this time, the generator is installed inside the roller 14, and since the power generation by the generator is performed inside the roller 14, the generated power can be used in the vicinity of the roller 14.

Further, since the generator installed inside the roller 14 is of a non-contact type, the roller 1 is used during power generation.
Therefore, it is possible to reduce power consumption and reduce power loss by generating electricity in a state where the load on the drive pulley 2 of the belt conveyor 1 is low. Further, since there is no contact portion associated with power generation, there is no wear associated with power generation, and stable use for a long period of time is possible.

Further, since the power is generated in the vicinity of the rollers 14 of the belt conveyor 1, the wiring installation cost for supplying power due to the long distance of the belt conveyor 1 can be suppressed, and the maintenance and maintenance of these wirings can be suppressed. The labor of inspection can be saved. Further, since the electric power generated by the generator by the rotation of the roller 14 is supplied to the heating element 11 or the lighting 10, these powers are used in the heating element 11 or the lighting 10 to absorb water in the water supply pipe 9, respectively. Keep it warm
The periphery of the passage 6 can be brightened.

In the above embodiment, the roller 14
The configuration is such that the generator is installed only in a.
You may install a generator in 4b, 14c. According to this configuration, since the rollers 14a, 14b, and 14c individually generate electric power, the electric power obtained by the electric power generation becomes large, and the peripheral device that requires a larger electric power can be used by the electric power.

In the above-described embodiment, the roller power generator 21 is arranged on every other roller mount 5, but the roller power generator 21 arranged on the roller mount 5 is arranged.
The ratio of may be changed appropriately. That is, the predetermined interval between the roller power generators 21 may be changed appropriately. According to this configuration, when the belt 4 of the belt conveyor 1 is run and the roller 14 is rotated by the belt 4, the rotation of the roller 14 causes the generators installed at the predetermined intervals to generate power.
By setting the interval of the roller power generators 21 according to the required power, it is possible to use only the necessary amount of power without waste in the vicinity of the generators provided at the set intervals.

Further, in the above embodiment, the peripheral device 1
Although 0 and 11 are the illumination 10 and the heating element 11, the peripheral devices 10 and 11 are not limited to this. Further, in the above-described embodiment, the non-contact type roller generator 21 is used, but the contact type may be used.

[0030]

As described above, according to the first aspect of the invention, when the belt of the belt conveyor is run and the roller is rotated by the belt, the rotation of the roller causes the generator to generate power. The generated power can be used near the generator.

According to the second aspect of the invention, since the power is generated by the generator inside the roller, the generated power can be used near the roller.

According to the invention of claim 3, the load on the roller during power generation is reduced, and therefore,
Since power is generated without burdening the drive pulley of the belt conveyor, power loss caused by burdening the drive pulley can be suppressed, and waste of power can be reduced. Further, since there is no contact portion associated with power generation, there is no wear associated with power generation, and stable use for a long period of time is possible.

According to the fourth aspect of the invention, when the belt of the belt conveyor is run and the roller is rotated by the belt, the generator is generated by the rotation of the roller. Since it can be used in the vicinity, installation cost for wiring for power supply due to the long distance of the belt conveyor can be suppressed, and maintenance and inspection of these wirings can be omitted.

According to the fifth aspect of the invention, when the belt of the belt conveyor is run and the roller is rotated by the belt, the rotation of the roller causes the generators installed at the predetermined intervals to generate electric power. By setting the interval between the generators according to the power to be generated, it is possible to use only the necessary amount of power in the vicinity of the generators provided at the set intervals without waste.

Further, according to the invention of claim 6, the electric power generated by the generator by the rotation of the roller is supplied to the peripheral equipment, so that the peripheral equipment can use the electric power.

[Brief description of drawings]

FIG. 1 is a schematic front view showing a belt conveyor according to an embodiment of the present invention.

FIG. 2 is a schematic perspective view showing rollers of the belt conveyor according to the embodiment of the present invention.

FIG. 3 is a schematic side view showing a belt conveyor according to an embodiment of the present invention.

[Explanation of symbols]

1 belt conveyor 4 Endless belt (belt) 10 Lighting (peripheral equipment) 11 Heating element (peripheral equipment) 14 Laura 21 Roller generator

   ─────────────────────────────────────────────────── ─── Continued front page    F-term (reference) 3F033 GB08 GE05                 5H607 BB02 BB07 BB14 BB17 CC03                       DD08 DD17 EE28 FF36

Claims (6)

[Claims] 1. A roller power generator comprising a generator for generating electric power by rotating a roller for guiding a belt of a belt conveyor. 2. The roller power generator according to claim 1, wherein the generator is installed inside the roller. 3. The roller power generator according to claim 1, wherein a non-contact type generator is used as the power generator. 4. A belt conveyor in which a belt travels on a plurality of rollers, wherein the roller generator of any one of claims 1 to 3 is installed on the rollers. 5. The belt conveyor according to claim 4, wherein the roller power generators are installed at predetermined intervals over the entire length of the belt conveyor. 6. The belt conveyor according to claim 4, wherein the roller power generator is connected to peripheral equipment of the belt conveyor.