KR20060020964A - An apparatus for transmitting electric power to rotating shaft using solar cell - Google Patents

Abstract

It is an object of the present invention to provide a power transmission device of a rotating shaft using a solar cell for wirelessly transmitting power to a signal processor mounted on the rotating shaft by using a solar cell mounted on a lamp and the rotating shaft.

A power transmission device of a rotating shaft using the solar cell of the present invention is a power transmission device of a rotating shaft applied to a device having a rotating shaft 13 provided with a signal processor 16 having a wireless transmission and / or reception function. A power supply unit 31 for supplying; A lamp (32) installed on the rotating shaft (13) at regular intervals and illuminated by the power supply device (31) to irradiate light toward the rotating shaft (13); A ring-shaped solar cell array plate 33 fixed to the outside of the rotary shaft 13; A solar cell unit 34 fixedly arranged on the solar cell array plate 33 and converting light from the lamp 32 into electrical energy to generate electromotive force; A unidirectional transmitter 35 for transmitting electromotive force from the solar cell unit 34 in a unidirectional direction; And a power controller 36 for converting the electromotive force from the solar cell unit 34 into a predetermined operating power through the unidirectional transmitter 35 and supplying it to the signal processor 16.

Rotating shaft, solar cell, power transmission

Description

Power transmission device of rotating shaft using solar cell {AN APPARATUS FOR TRANSMITTING ELECTRIC POWER TO ROTATING SHAFT USING SOLAR CELL}

1 is a block diagram of a power transmission device of a rotating shaft using a conventional induction coil.

2 is a structural diagram of an induction coil of FIG. 1.

3 is a configuration diagram of a power transmission device of a rotating shaft using a solar cell according to the present invention.

4 is a diagram illustrating a diode connection diagram of the arrangement and the unidirectional transmitter of the solar cell of FIG. 3.

Explanation of symbols on the main parts of the drawings

13: rotating shaft 16: signal processor

31: power supply device 32: lamp

33: solar cell array plate 34: solar cell

35: unidirectional transmission unit 36: power control unit

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a power transmission device of a rotating shaft using a solar cell, and in particular, by using a solar cell mounted on a lamp and a rotating shaft to wirelessly transmit power to a signal processor mounted on the rotating shaft, constant power is supplied to the signal processor. The present invention relates to a power transmission device for a rotating shaft using a solar cell that can be continuously supplied, can be easily manufactured due to its simple structure, and can be easily and inexpensively manufactured.

In general, there are a number of methods for supplying power to a rotating shaft, which is difficult or impossible to install a power line, such as a rotating shaft of a rotating body such as a generator, an electric motor and a rolling mill. There is a method of using, a method of using a slip ring and a brush, and a method of using a fixed magnetic flux generator and an induction coil.

Here, the method of using the battery is a simple method, but there is a problem of stopping the rotating shaft in order to replace the battery when the battery is operated for a long time, and the method of using the slip ring and the brush is capable of continuously supplying power, but the slip ring and burr There is a problem that noise occurs in the contact surface of the rush.

Due to these problems, a method using a flux generator and an induction coil as shown in FIG. 1 is mainly used.

1 is a block diagram of a power transmission device of a rotating shaft using a conventional induction coil.

The power transmission device of the rotating shaft using the conventional induction coil shown in Figure 1 is a magnetic field generator 12 for generating a magnetic field by receiving the current from the power supply device 11, and the coil winding is fixed to the outside of the rotating shaft 13 The induction coil 14B wound around the ring 14A to generate induced electromotive force by the magnetic field of the magnetic field generator 12, and the induced electromotive force generated in the induction coil 14B is converted into a predetermined operating power source. It consists of a power control unit 15 to supply to the signal processor 16 installed on the rotary shaft (13).

The signal processor 16 operates by receiving operating power from the power control unit 15, and is installed on the rotary shaft 13 to detect a detection signal from the sensor 17 that senses torque of the rotary shaft 13. Processing to control wireless transmission via antenna 18.

2 is a structural diagram of an induction coil of FIG. 1.

As shown in FIG. 2, the induction coil 14B has a staggered structure of one strand, so that the induction coil 14B needs to be manufactured in accordance with the circumferential length of the rotation shaft to be mounted on the rotation shaft 13.

However, the coil of the magnetic field generator 12 should be wound in a straight line, and in order to generate an appropriate electromotive force, the coil winding ring 14A should be manufactured in particular according to the diameter of the rotating shaft 13, and the rotating shaft 13 may be appropriate. It should rotate at speed.

Therefore, although the conventional power transmission device is a method capable of continuously supplying power, there is a problem in that the induction coil and the coil winding ring must be manufactured in accordance with the corresponding rotation shaft when the diameter of the rotating shaft is changed, and it is difficult to manufacture the customized coil winding ring. In addition, it is difficult to install, there is a problem that the production price increases by that much.

The present invention has been proposed to solve the above problems, and its object is to use a solar cell mounted on a lamp and a rotating shaft to wirelessly transmit power to a signal processor mounted on the rotating shaft, thereby providing a constant power to the signal processor. The present invention provides a power transmission device for a rotating shaft using a solar cell that can be continuously supplied, can be easily manufactured due to its simple structure, can be easily modified, and can be manufactured at low cost.

In order to achieve the above object of the present invention, the power transmission device of the rotating shaft using the solar cell of the present invention,

A power transmission device of a rotating shaft applied to a device having a rotating shaft provided with a signal processor having a wireless transmission and / or reception function,

A power supply for supplying power;

A lamp installed at a predetermined interval apart from the rotating shaft and turned on by the power supply device to irradiate light toward the rotating shaft;

A ring-shaped solar cell array plate fitted to the outside of the rotating shaft and fixed;

A solar cell unit fixedly arranged on the solar cell array plate to convert light from the lamp into electric energy to generate electromotive force;

Unidirectional transmission unit for transmitting the electromotive force from the solar cell unit in one direction; And

A power control unit for converting the electromotive force from the solar cell unit to a predetermined operating power supply to the signal processor through the unidirectional transmission unit

Characterized in that it comprises a.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

3 is a configuration diagram of a power transmission device of a rotating shaft using a solar cell according to the present invention.

Referring to FIG. 3, the power transmission device of the rotating shaft using the solar cell of the present invention is applied to the apparatus having the rotating shaft 13 installed with a signal processor 16 having a wireless transmission and / or reception function, which supplies power. And a lamp 32 which is installed at a predetermined interval apart from the power supply device 31 and the rotation shaft 13 and is turned on by the power supply device 31 to irradiate light toward the rotation shaft 13, and the rotation shaft ( Ring-shaped solar cell array plate 33 fixed to the outside of the 13 and fixed to the solar cell array plate 33, converts the light from the lamp 32 into electrical energy to generate an electromotive force From the solar cell unit 34 through the solar cell unit 34, the unidirectional transmitter 35 for transmitting the electromotive force from the solar cell unit 34 in one direction, and the unidirectional transmitter 35. The electromotive force is converted into a predetermined operating power source And a power control unit 36 to be supplied to the signal processor (16).

4 is a diagram illustrating a diode connection diagram of the arrangement and the unidirectional transmitter of the solar cell of FIG. 3.

Referring to FIG. 4, the solar cell unit 34 includes a plurality of solar cells SC1 to SCn arranged in parallel on the solar cell array plate 33 at uniform intervals in the circumferential direction of the rotation shaft 13. It includes.

Each of the solar cells SC1 to SCn of the solar cell unit 34 converts light from the lamp 32 into electrical energy to output an electromotive force to the unidirectional transmitter 35.

The unidirectional transmitter 35 is connected to an output terminal of each of the solar cells SC1 to SCn of the solar cell unit 34 to pass electromotive force from each solar cell of the solar cell unit 34 in one direction. The diodes D1-Dn are included.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

Referring to Figure 3, the power transmission device of the rotary shaft of the present invention is applied to a device having a rotary shaft 13 is provided with a signal processor 16 having a wireless transmission and / or reception function, the apparatus having the rotary shaft 13 Oscillator, electric motor and rolling mill, etc. are applicable.

In the power transmission device of the rotating shaft of the present invention, the lamp 32 is installed at a predetermined interval spaced on the rotating shaft 13 is turned on by the power supply device 31 and irradiates light toward the outer surface of the rotating shaft 13. .

At this time, the ring-shaped solar cell array plate 33 is inserted and fixed to the outside of the rotating shaft 13, the solar cell unit 34 is fixed to the ring-shaped solar cell array plate 33 is the lamp ( The light from 32 is converted into electrical energy to generate an electromotive force.

On the other hand, since the lamp 32 is fixedly installed, some of the solar cells of the solar cell unit 34 attached to the rotating shaft 13 receives light from the lamp 32 to produce an electromotive force, while the The remaining solar cells that do not receive light from the lamp 32 do not produce electromotive force.

Accordingly, each of the solar cells of the solar cell unit 34 are all connected in parallel, so that the electromotive force generated by the corresponding solar cell that receives the light from the lamp 32 is introduced into another solar cell that cannot produce the electromotive force. Consumption of current backflow may occur.

In order to prevent such a current backflow phenomenon, the unidirectional transmitter 35 is provided at the output terminal of each solar cell of the solar cell unit 34. The one-way transmitter 35 transmits the electromotive force from the solar cell unit 34 in one direction.

Then, the power control unit 36 of the present invention converts the electromotive force from the solar cell unit 34 to a predetermined operating power through the unidirectional transmitter 35 to supply to the signal processor 16.

Accordingly, the signal processor 16 is stably operated by receiving power required for operation by the power transmission device of the rotary shaft of the present invention as described above, and, for example, adjusts the torque of the rotary shaft 13. When the sensor 17 for detecting is installed, the signal processor 16 receives the detection signal from the sensor 17 and performs predetermined signal processing to wirelessly process the processed data through the antenna 18. Can be transferred.

The power transmission device of the rotating shaft of the present invention as described above, unlike the conventional power transmission device of the rotating shaft using an induction coil, generates a electromotive force by receiving light from the lamp even if the rotating shaft of the rotating body hardly rotates, so that a constant power is generated. In addition, even when the rotating shaft rotates, since the solar cell is replaced with the rotation of the rotating shaft to generate an electromotive force can be supplied a constant power even in this case.

Therefore, the electric power transmission device of the rotating shaft of the present invention can supply a constant electric power without limiting the rotating speed of the rotating shaft.

According to the present invention as described above, in the power transmission device of the rotating shaft using a solar cell, by using a solar cell mounted on the lamp and the rotating shaft, by wirelessly transmitting power to the signal processor mounted on the rotating shaft, The present invention relates to a power transmission device for a rotating shaft using a solar cell that can continuously supply a constant power, and is simple in structure, easy to manufacture, and easy to deform in structure, and inexpensively.

In addition, the rotation shaft power transmitter of the present invention has a simpler structure than the conventional apparatus using an induction coil, making it easy to manufacture and easily changing the shape of the solar cell array plate even when the diameter of the rotating shaft changes. It is easy to apply to the device.

Claims (3)

A power transmission device of a rotating shaft applied to a device having a rotating shaft 13 provided with a signal processor 16 having a wireless transmission and / or reception function, A power supply unit 31 for supplying power; A lamp (32) installed on the rotating shaft (13) at regular intervals and illuminated by the power supply device (31) to irradiate light toward the rotating shaft (13); A ring-shaped solar cell array plate 33 fixed to the outside of the rotary shaft 13; A solar cell unit 34 fixedly arranged on the solar cell array plate 33 and converting light from the lamp 32 into electrical energy to generate electromotive force; A unidirectional transmitter 35 for transmitting electromotive force from the solar cell unit 34 in a unidirectional direction; And The power control unit 36 converts the electromotive force from the solar cell unit 34 to a predetermined operating power through the unidirectional transmitter 35 to supply to the signal processor 16. Power transmission device of a rotating shaft using a solar cell comprising a. The method of claim 1, wherein the solar cell 34 The solar cell array plate 33, a plurality of solar cells (SC1 ~ SCn) arranged in parallel at equal intervals in the circumferential direction of the rotary shaft 13, the power of the rotating shaft using a solar cell Transmission device. The method of claim 2, wherein the unidirectional transmitter 35 It is characterized in that it comprises a plurality of diodes (D1 ~ Dn) connected to the output terminal of each solar cell of the solar cell unit 34 to pass the electromotive force from each solar cell of the solar cell unit 34 in one direction. Power transmission device of a rotating shaft using a solar cell.

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