KR20120058414A - A electricity generator - Google Patents

Abstract

PURPOSE: A power generation apparatus is provided to improve a power generation performance by preventing moisture and dust from flowing in a case from the outside. CONSTITUTION: A rotating vane(30) rotates a rotary shaft(20). A first electrified body is connected to the rotary shaft. The first electrified body is charged into a positive charge or a negative charge. A second electrified body is installed inside a case(10). The second electrified body is charged into a charge having polarity opposite to the charge charged to the first electrified body.

Description

Electricity generator

The present invention relates to a power generator, and more particularly to a power generator using a triboelectric.

Electrostatic generation phenomenon has long been known and encountered in industrial or everyday life, but recently has been receiving attention in order to secure clean energy, it occurs when the object that can easily generate static electricity in the wind or rotating friction using wings Development of a static electricity generating device has been developed.

However, this technology does not make sense to collect the energy from the electricity generating device using static electricity due to natural discharge through humidity when there is humidity or heavy air in the outside or around the device, and also fine dust by magnetic force There is a significant problem in the performance exhibited by the adsorption accumulated on the static electricity generating object continuously.

The problem to be solved by the present invention is to provide a power generation apparatus that seals the space in which the static electricity generating object is disposed so that moisture and dust do not flow from the outside, thereby improving power generation performance.

The problems of the present invention are not limited to the above-mentioned problems, and other problems not mentioned can be clearly understood by those skilled in the art from the following description.

In order to achieve the above object, the power generation apparatus according to the present invention, a case, a rotating shaft provided to be rotatable in the case, a rotating means connected to the rotating shaft to rotate the rotating shaft, and connected to the rotating shaft positive or negative charge And a second charger installed in the case to be in contact with the first charger and charged with a charge having a polarity opposite to that charged with the first charger.

In addition, the power generation apparatus according to the present invention further includes a charge inductor which is installed inside the k and is charged by inducing a charge of a polarity charged in the first or second charger.

Specific details of other embodiments are included in the detailed description and drawings.

In the power generation apparatus according to the present invention, since the positively charged whole body and the negatively charged whole body, which are the static electricity generating objects, are sealed and disposed in the case through the sealing member, moisture and dust from the outside are not introduced into the case, thereby improving the power generation performance. It works.

The effects of the present invention are not limited to the above-mentioned effects, and other effects that are not mentioned will be clearly understood by those skilled in the art from the description of the claims.

1 is a side cross-sectional view of a power generator according to an embodiment of the present invention;
2 is a front sectional view of a power generation device according to an embodiment of the present invention;
3 is a wire drawing system diagram of a power generation device according to an embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The advantages and features of the present invention, and how to accomplish them, will become apparent by reference to the embodiments described in detail below with reference to the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various forms. It is provided to fully convey the scope of the invention to those skilled in the art, and the present invention is defined only by the scope of the claims. Like reference numerals refer to like elements throughout.

Hereinafter, a power generation apparatus according to an embodiment of the present invention will be described with reference to the drawings.

1 is a side cross-sectional view of a power generation apparatus according to an embodiment of the present invention, FIG. 2 is a front sectional view of a power generation apparatus according to an embodiment of the present invention, and FIG. 3 is a wire drawing system diagram of a power generation apparatus according to an embodiment of the present invention.

1 to 2, the power generation apparatus according to the embodiment of the present invention includes a case 10 and a rotating shaft rotatably disposed inside the case 10 and partially protruding to the outside of the case 10. 20), a rotary blade 30 disposed on a part of the rotary shaft 20 protruding out of the case 10 and rotated by wind to rotate the rotary shaft 20, and a positive charge disposed on the rotary shaft 20 The charger 40, a negative charge charger 50 disposed inside the case 10, and a sealing member 60 through which the rotating shaft 20 penetrates and seals the case 10.

The case 10 includes a case body 12 having a hollow cylindrical shape, an upper cover 14 covering an upper side of the case body 12, and a lower cover 16 covering a lower side of the case body 12. .

The upper cover 14 and the lower cover 16 are fastened to the case body 12 through the fastening member (2).

The rotating shaft 20 is supported in the case 10 through the bearing 70 and is rotatably disposed.

Bearing mounting portions 15 are formed on the upper cover 14 and the lower cover 16, respectively, to protrude toward the inside of the case 10, and the bearing 70 is inserted into the bearing mounting portion 15 to be disposed to rotate the shaft 20. Support rotatably.

The rotating shaft 20 protrudes outwardly through the upper cover 14 to the outside of the case 10.

The upper cover 14 is formed with a sealing member mounting portion 17, the sealing member 60 is inserted into the sealing member mounting portion 17.

The rotating shaft 20 partially penetrates the sealing member 60 and the upper cover 14 in order to protrude out of the case 10, and the sealing member 60 opens the upper cover 14 through which the rotating shaft 20 penetrates. The case 10 is sealed to prevent moisture and dust from entering the case 10 from the outside of the case 10 by sealing.

The rotary blade 30 is fixed to the rotating shaft 20 protruding out of the case 10, and rotates the rotating shaft 20 while being rotated by the wind. Rotating blade 30 may be formed to have a plurality of wings similar to the rotating blade of the fan to be rotated by the wind.

The positive charge charged body 40 is disposed to rotate together with the rotation shaft 20. In addition, the positive charge charger 40 is thin, long and flexible like a thread, and is disposed to be in contact with the negative charge charger 50.

Therefore, when the rotating shaft 20 is rotated, while the positive charge charger 40 is rotated, the positive charge charger 40 and the negative charge charger 50 are rubbed with each other.

The positively charged whole body 40 is formed of a material which is easily charged with positive charges when friction with the negatively charged whole body 50, and the negatively charged whole body 50 becomes negatively charged when friction with the positively charged whole body 40. It is formed of a material that is easy to charge.

For example, the positive charge charger 40 may be formed of at least one material of nylon, hair, wool, and silk cloth, and the negative charge charger 50 may be formed of at least one material of acrylic, Teflon, silicon, and vinyl chloride. Can be.

Therefore, the positive charge charger 40 and the negative charge charger 50 are rubbed with each other, the positive charge charger 40 is charged with positive charge, and the negative charge charger 50 is charged with negative charge.

In addition, the inside of the case 10 is further disposed a positive charge conductor 80 is induced to be positively charged by the positive charge charged whole body 40.

The positive charge conductor 80 is formed of a material capable of inducing a positive charge from the positive charge charged body 40. For example, it may be formed of copper, which is a copper alloy.

The positive charge conductor 40 is in contact with the positive charge conductor 80 as well as the negative charge conductor 50. Therefore, when the positive charge charged body 40 is rubbed with the negative charge charged device 50 and charged with the positive charge, the positive charge of the positive charge charged device 40 is induced to the positive charge conductor 80.

A plurality of negatively charged charged bodies 50 and positively charged conductors 80 are provided in plural and alternately arranged along the inner circumference of the case 10. Therefore, when the rotating shaft 20 is rotated and the positively charged whole body 40 is rubbed with the negatively charged whole body 50 and charged with the positive charge, the positive charge of the positively charged whole body 40 is negatively charged in the rotational direction of the rotating shaft 20. It is directed to the positive charge conductor 80 located next to the whole (50). That is, referring to FIGS. 2 and 3, when the rotating shaft 20 is rotated in the clockwise direction in the drawing, the positive charge charged body 40 is rubbed with the negative charge charged device 50 and charged with positive charge ( The positive charge of 40) is induced by the positive charge conductor 80 'located next to the negative charge charger 50, and the positive charge charger 40 is rubbed with the negative charge charger 50' and charged with positive charge. The positive charge of (40) is induced to the positive charge conductor 80 located next to the negative charge whole body 50 ', and the positive charge whole body 40 is rubbed with the negative charge whole body 50' 'and is positively charged. The positive charge of the charge 40 is induced to the positive charge conductor 80 '' located next to the negative charge 50w.

In the present embodiment, each of the negative charge charged body 50 and the positive charge inductor 80 is provided with three, and disposed to face each other along the inner circumference of the case 10 at equal intervals.

The positive charge conductor 80 and the negative charge conductor 50 are fixed to the case 10 through the insulators 85 and 55, respectively. The insulator 55 is disposed between the negative charge charger 50 and the case 10 to insulate the negative charge of the negative charge charger 50 charged with negative charges from being transferred to the case 10, and the insulator 85 is insulated from each other. It is disposed between the positive charge conductor 80 and the case 10, and insulates the positive charge of the positive charge conductor 80 that is positively charged so as not to move to the case 10.

Meanwhile, a positive wire 90 and a negative wire 95 are disposed on the lower cover 16 of the case 10. Positive wire 90 and negative wire 95 are disposed in case 10 via connectors 92 and 97, respectively. Here, it is natural that the connectors 92 and 97 should be sealed in the case 10 so that moisture and dust do not enter the case 10 like the sealing member 60.

One end of the positive wire 90 is connected to the plurality of positive charge conductors 80, and one end of the negative wire 95 is connected to the plurality of negative charge conductors 50. Here, the other end of the positive wire 90 and the other end of the negative wire 95 may be connected to a device requiring electricity, or may be connected to a capacitor.

Referring to the operation of the power generation apparatus according to an embodiment of the present invention configured as described above are as follows.

First, when the rotary blade 30 is rotated by the wind, the rotating shaft 20 is rotated, and accordingly the positive charge charging unit 40 and the negative charge charging unit 50 are rubbed with each other, the positive charge charging unit 40 is positively charged The negative charge charged whole 50 is charged to the negative charge. Here, when the rotary blade 30 is rotated at a high speed, compared to when rotated at a low speed, the positive charge charged whole 40 is further charged to the positive charge and the negative charge charged whole 50 is further charged to the negative charge, the positive charge charged whole (40) Since the negative charge charged whole 50 is clearly distinguished by different polarities, the positive charge charged whole 40 and the negative charge charged whole 50 are attracted to each other. Thus, the thin, long, and flexible positively charged battery 40 formed as the thread is more strongly in contact with the negative charge charger 50 when the rotary blade 30 is rotated at a higher speed than when rotated at a low speed.

The positive charge of the positively charged whole body 40 charged with the positive charge is guided to the positive charge conductor 80 and transferred to the positive wire 90, and the negative charge of the negatively charged whole body 50 is transferred to the negative electric wire 95. It can be used as power consumption directly in the equipment required or stored as a capacitor.

A plurality of power generation apparatuses according to an embodiment of the present invention can be installed and used as a power generation facility, and can also be installed in a vehicle to generate power by using a rotary blade rotating when the vehicle is being driven, and in particular, for agriculture that requires low power. It can also be installed in a green house.

In the above description, the positive charging unit 40 is disposed on the rotating shaft 20, and the negative charging unit 50 in contact with the positive charging unit 40 is disposed in the case 10, but the rotating shaft 20 is disposed on the rotating shaft 20. The negative charge charger 50 is disposed, and the positive charge charger 40 may be disposed in the case 10 in contact with the negative charge charger 50. That is, the positive charge inductor 80 may receive negative charge from the negative charge charged whole body 50 disposed on the rotating shaft 20 to be charged with negative charge.

In the power generation apparatus according to the present invention, the case 10 in which the positively charged charged body 40 and the negatively charged charged battery 50 are disposed is sealed through the sealing member 60, and moisture and dust from the outside are stored in the case. (10) Since it does not flow into, power generation performance is improved.

Those skilled in the art will appreciate that the present invention can be embodied in other specific forms without changing the technical spirit or essential features of the present invention. Therefore, it should be understood that the embodiments described above are exemplary in all respects and not restrictive. The scope of the present invention is indicated by the scope of the following claims rather than the detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalent concept are included in the scope of the present invention. Should be interpreted.

10: case 20: rotating shaft
30: rotor blade 40: the whole positive charge
50: negative charge total 55,85: insulator
60: sealing member 70: bearing
80: positive charge conductor 90: positive wire
95: negative wire

Claims (7)

case;
A rotating shaft rotatably installed in the case;
Rotating means connected to the rotating shaft to rotate the rotating shaft;
A first charger connected to the rotating shaft and charged with a positive charge or a negative charge;
And a second charger installed inside the case to be in contact with the first charger and charged with a charge having a polarity opposite to that of the charge charged with the first charger. The method according to claim 1,
And a charge inductor installed inside the case to induce charge of the first electric charge. The method according to claim 1,
Further comprising a positive wire and a negative wire disposed in the case,
The charge conductor is provided with a plurality, connected to any one of the positive and negative wires,
The second charger is provided with a plurality, the power generation device connected to the other of the positive and negative wires. The method according to claim 1,
And an insulator for fixing the charge conductor and the second charger to the case. The method according to claim 3,
The electric charge conductor and the second charger are alternately arranged along the inner circumference of the case. The method according to claim 1,
And the first charger is formed to be flexible and is in contact with the charge conductor and the second charger. The method according to claim 1,
And a bearing disposed in the case to rotatably support the rotating shaft.

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