KR20020075696A - generator - Google Patents

Abstract

PURPOSE: A generator is provided to increase the convenience of usage by generating electricity without using an engine that consumes a fuel. CONSTITUTION: A fixing unit(20) is provided within a body(10) and operates with a shifting unit(30) to generate electricity. A gear is coupled to the shifting unit(30). The gear shifts units connected thereto, such as the shifting unit(30). A radiating material(40) is provided on the fixing unit(20) and the shifting unit(30) and generates electrons by impact. An iron core(70) generates magnetic field when magnetic force or electricity is supplied thereto. A coil(80) generates the magnetic field to supply it to the iron core(70) when a magnet(90) moves to and away from the coil(80). A display(100) displays a voltage level of generated electricity and a specification of a battery(400).

Description

Generator {omitted}

The present invention relates to a generator, and more particularly to a power generation device for generating electricity,

At present, there are many kinds of generators that generate power.

However, most of the generators that generate such power take the form of coils, iron cores, and magnets.

In other words, the coil winding installed on the fuel supply engine rotation shaft is fixed to the fixed part of the magnet installation, and the coil is magnetically jumped by N and S with displacement near the coil winding iron core. to be.

The generator based on the fuel supply engine method is troublesome to operate the engine by supplying fuel.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object thereof is to provide a generator that generates electricity without using fuel.

In order to achieve the above object, a generator according to a preferred embodiment of the present invention, the power generation means for charging, using electricity for power generation and power generation by the action of the fixed portion and the displacement portion of the power generator:

Charging means for charging the electricity: And

Means for using and charging based on electricity from the power generating means, and controlling the use and charging means to output the generated and charged electricity.

Generator according to another embodiment of the present invention, the power generation means for using, charging, and controlling the electricity generated by the action of the fixed portion and the displacement unit:

Charging means for charging the electricity:

Electrical output means for outputting the electricity;

Electrical consumption articles using the electricity, object connection means;

Control means for controlling the electricity:

Authentication means for transmitting the action request signal for the control which is the generator action to the wired, wireless communication means, receiving and interpreting the signal transmitted wirelessly from the control;

Means for displaying said use of electricity and battery capacity results: and

On the basis of electricity from the power generation means, the output means connects and consumes electric objects and objects, charges the battery, controls the charging means to receive the charging procedure, and displays the calculated battery details according to the charging result on the display unit. It is provided with the control means to display.

1 is a configuration diagram of a generator according to an embodiment of the present invention,

2 is an external perspective view of a generator according to an embodiment of the present invention;

3 is an external perspective view of a generator installed in a shoe according to an example of the present invention;

4 is a cut and partial internal view of the generator according to the embodiment of the present invention;

(a) the pressure displacement unit 30 displacement shock generation type (puncture release writer principle)

(b) One-side displacement part 30, which is a pressure reciprocating displacement, displacement generation type (coil, iron core, magnet principle)

(C) Pressure displacement unit 30 reciprocating, rotary reciprocating generation type (coil, iron core, magnet principle)

(d) is circular power generation type (coil, iron core, magnet principle) of reciprocating and rotational displacement

(e) is a circular power generation type (coil, iron core, magnet principle) which is the displacement of the pressure displacement unit 30.

(f) is the reciprocating part using the displacement part 30, the circular power generation type using the rotary gear (coil, iron core, magnet principle)

(g) is the gear-mounted circular power generation type (coil, iron core, magnet principle) of the rotational displacement portion 30 using the displacement portion 30 gear

5 is a state diagram equipped with a generator according to an embodiment of the present invention,

(A) Vertical displacement Displacement reciprocating type (coil, iron core, magnet principle)

(B) Horizontal displacement displacement reciprocating type (coil, iron core, magnet principle)

6 is a circular displacement reciprocating type (coil 1 iron core, magnet principle) and an exploded view according to an embodiment of the present invention,

<Explanation of symbols for main parts of drawing>

10: generator body 11: covering 20: fixed portion 30: displacement portion 31; Gear

40: impact electron emission material 41: fixing pin 50-electrode 60: spring 70: iron core

80: coil 90: magnet 100: display unit 200: control signal transceiver

210: authentication signal modulation and demodulation unit 300: control unit 310: selection button 400; Battery 500: wires

600; Electricity consumer 1000; Shoes 1100; Fixing plate 2000; Solar generator

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

1 is a block diagram of a generator according to an embodiment of the present invention, reference numeral 10 denotes a generator body (eg, internally installed and an outer box of a power generation component) and electricity and electron generation (eg, pressure displacement shock generation type). (The puncture emission writer principle), pressure displacement rotation, reciprocating power generation type (coil, iron core, magnet principle), and the use of the influence of electron generation (e.g., electric, electronic use, charging).

Reference numeral 20 is installed inside the generator body, and will be described later by the influence of the displacement unit 30, such as electricity (magnetic force (for example, iron core, coil, etc.), electrons (for example, pressure displacement impact (puncture release material, etc.), iron core , A coil, etc.) (for example, pressure displacement impact generation type (puncture release writer principle), pressure displacement rotation, reciprocation generation type (coil, iron core, magnet principle).

In the embodiment of the present invention, the fixing unit 20 simply generates electricity (magnetic force (eg, iron core, coil, etc.), electromagnetic pressure displacement impact (puncture release material, etc.), iron core, coil, etc.) (eg, pressure displacement). Although only the impact generation type (puncture-emitting writer principle), the pressure displacement rotation, and the reciprocation generation type (coil, iron core, magnet principle) are used, it is possible to generate power by the interaction between the fixed part and the displacement part 30 as necessary. Along with the material, there can be various fixing methods, and the fixing part 20 is an electron-emitting material 40 and an electrode part (+,-) 50, which will be described later, and a simple fixed purpose material. 40), electrode part (+,-) (50), material other than simple fixed material may be used.

Reference numeral 30 denotes a displacement portion that displaces electricity (magnetic force (for example, iron core, coil, etc.), electrons (for example, pressure displacement impact (puncture release material, etc.), iron core, coil, etc.) by mutual influence with the fixing part 20. ) Displacement (eg, pressure displacement impact generation type (puncture release writer principle), pressure displacement rotation, reciprocation generation type (coil, iron core, magnet principle). Electricity (magnetic force (e.g. iron core, coil, etc.), electronic pressure displacement shock (puncture release material, etc.), iron core, coil, etc.) (e.g., pressure displacement shock generation type (punctual emission writer principle), pressure displacement rotation) , But only the reciprocating power generation type (coil, iron core, magnet principle) is used, but if necessary, the displacement portion is fixed, but reversely to displace the displacement portion 30 to the fixing portion 20 to displace the fixing portion 20 It may be used as the part 30, and the fixing part 20 and the displacement part 30 mutually Along with the material to generate power for the purpose, there can be various methods of displacement (for example, reciprocation, rotation, etc.), and the displacement part 30 includes an electron-emitting material 40 and a magnetic field electrode part (+,-) which will be described later. 50), material The above-mentioned electron emitting material 40 and the magnetic field electrode part (+,-) 50 may be the main cause of power generation for materials other than the material.

Reference numeral 31 is a gear connected to the displacement unit 30 to provide a cause of displacement, such as the displacement unit 30 connected to another gear 31, to displace the displacement unit 30.

In the gear 31 installation, the displacement part 30 and the displacement part 30, the displacement part 30, the fixing part 20, the fixing part 20 and the fixing part 20 may be installed. In addition, the gear 31 is installed, but the displacement part 30 and the displacement part 30, the displacement part 30 and the fixing part 20, the fixing part 20 and the fixing part 20 for interaction. Other materials for the displacement of roles (e.g. connection of belts, drums, chains, friction, contact, etc.) may be the cause for interaction

Reference numeral 40 is an emission material (e.g., an electronic lighter) installed in the displacement part 30 and the fixing part 20 to make the electron-emitting material 40 by the impact of pressure. Other causes for the cause of the electron emission (e.g. impact, friction, electricity, electrons, chemistry, temperature, pressure, etc.)

Reference numerals 41, 50, and 60 denote the fixing pin 41, the electrode part 50, the spring 60, and the fixing pin as the displacement part displacement impact electron-emitting material 40 and components in the above example. And, these parts may be installed as parts where the displacement part 30 and the fixing part 20 are constituted.

Reference numeral 70 denotes a material for generating magnetic force in the coil 80 to be described later. The core 80 is wound around the core 80 of the example to generate a magnetic field during magnetic force or electricity supply to generate electricity in the coil. Although the iron core 70 is used as a material for generating the material, a material and a method for generating a magnetic field (eg, contact, proximity, frequency, etc.) may be considered to be safe.

Reference numeral 80 is a coil for generating a magnetic force on the iron core 70 is wound around the iron core 70 of the example to displace the magnet 90 to be described later to run the magnetic force of the iron core to generate electricity in the coil 80, It is a coil that generates magnetic force in the iron core 70 when electricity is supplied to the coil 80. The coil 80 and the magnet 90 (for example, winding, contacting, proximity, etc.) of the iron core and the magnetic field generated by electricity are generated. Any material that generates a magnetic field may be used.

Reference numeral 90 denotes a magnet for generating electricity in the coil 80 wound on the iron core 70.

When the magnet 90 crosses the n and s poles to the iron core 70 to generate electricity in the coil 80 wound on the iron core 70, a magnetic force is generated in the iron core 70. Winding generates electricity in the coil 80. The magnet 90 may cross the iron core 70 with n, s poles and s, n poles.

Reference numeral 100 denotes a component of the control unit 300 of the generated electricity, the generated electrons, and the battery 400 linked to the generated electricity and the generated electrons, which are described below. (E.g., capacity, progress, bolt, etc.) and the display unit 100, but the display unit 100, but the display of the above, the generator and the battery 400 and the electric consumer 600, which will be described later may be displayed. Do

Reference numerals 200 and 300 are control functions associated with the control unit 300 which will be described later. The control unit linked control signal transceiver and a signal modulation / demodulator used when controlling by wireless communication are connected to the control unit 300. 200 transmits and receives wireless communication and its associated signal modulation and demodulation unit 210.

Reference numeral 300 denotes a control unit for controlling.

The control unit 300 is connected to the wireless communication of the matters (for example, charging progress stop, output progress stop) of the battery 400 and the display unit 100 (eg, capacity, progress, volt (v), etc.) and the wireless communication The control signal transmission and reception unit 200 and the signal modulation and demodulation unit 210 are controlled, and if necessary, a transformer is installed to change the input electricity of the generator, and the input electricity of the control unit linked transformer is multistage (1, 10, 50, 100, 1000,10000V-etc.) To control the displacement input and use the transformer's output electricity to supply the battery to charge

Reference numeral 400 is a battery that charges to use electricity.

Charging the electricity and electrons generated by the displacement of the displacement unit 30 and the fixing unit 20 of the electric charge and electricity of the generator using the electric furnace by the controller 300 and, if necessary, It uses electricity in connection with the control unit, and the charging material may include all existing materials (eg, cadmium, ions, mercury, condenser, etc.).

Reference numeral 500 denotes a wire 500 of an electrical supply.

Reference numeral 600 denotes an electricity consumer using electricity and charged electricity consumption.

The electricity consumer using the electricity, the charged electricity is used in connection with the output of the battery of the power generation wire 500, the control unit 300 of the generator in connection with electricity.

Next, the operation of the generator according to the embodiment of the present invention configured as described above is as follows.

First, set proportional to existing generator (ie existing state) and explain.

The coil 80 is wound around the iron core 70 to generate n and s pole magnetic fields on the iron core 70 when the magnet is displaced in close proximity. Electricity is generated in the coil. do

In the generator body 10, the coil 80 of the electric power source 500 connected to the generator body 10 is provided with the fixing part 20 of the iron core 70 and the displacement part 30 and the spring 60 in which the magnet 90 is installed. When displacing the displacement portion 30 in which the magnet 90 is installed, the coil 80 wound around the fixing portion 20 acts as a magnetic force, and the displacement portion 30 is a recovery position by the spring 60. It flows electricity to the coil 80 by the continuous action of this, the electricity flows to the wire 500 connected to the coil 80, the electric consumer 600 of the wire 500 connection, electricity to the control control battery Charge the battery and use the battery's charged electricity as an electricity consumer (600).

Figure 3 is a generator applied to the shoe

In the example of Fig. 4 of the present invention, (A) can be inferred as a reciprocating pressure displacement impact generation type (pronounced releasing writer principle) that is a high voltage electron generation, (b) the coil 80 wound on one side using a reciprocating displacement core A generator and a charging device including a displacement part 30 and a spring 60 provided with a fixed part 20 and a magnet 90 of (70), (c) is a circular coil of reciprocating and rotational reciprocating displacement ( 80) the generator and the charging device in which the fixed part 20 of the iron core 70, the displacement part 30 and the spring 60 with the magnet 90 installed, and (d) reciprocating and rotating displacement are used circularly The coil 80 of the coil can be inferred by locking and releasing the center of the push ball piece up and down, and by pulling the trigger. The fixing part in which the displacement part 30 and the magnet 90 of the iron core 70 are installed. Generators and charging devices in combination with (20) and springs (60), (e) for circular use of displacement (locking and releasing the push-ball center of gravity up and down, toys that rotate by pulling the trigger) The coil 80 of the coil 80 is a generator and charging device in which the displacement part 30 of the iron core 70 and the fixing part 20 and the spring 60 in which the magnet 90 is installed are installed together, (f) Is a reciprocating, rotational gear displacement of the circular use coil 80 is a generator and charging with the displacement portion 30 of the iron core 70, the fixing portion 20 and the spring 60 is installed The device (g) is provided with a magnet (90) and a displacement (30) of the coil (80) wound iron core (70) of the circular use of the gear connection rotational displacement (30) connection of the geared rotational displacement (30). It is a generator and a charging device with a fixed part 20 and a spring 60 in parallel.

Meanwhile, in the embodiment of the present invention, the number of buttons is reduced, but if necessary, the number can be increased, and even if the number of buttons is increased, the type of service is increased, so the operation can be inferred in the above-described configuration. have.

According to the present invention as described above, since the displacement operation is performed power generation, it is less troublesome to use fuel.

Then, it is appropriate to use the electricity to be controlled by charging the electricity generated.

On the other hand, the present invention is not limited only to the above-described embodiment, but may be modified and modified within the scope not departing from the gist of the present invention, such modifications and changes will be to be seen as belonging to the following claims. .

Claims (5)

Power generation means for charging and using electricity for power generation and generation by the action of the stator and the displacement of the power generator; Control means for controlling and charging the electricity; Charging means for charging the electricity: Output means for outputting the electricity; And Use and charge based on the electricity from the power generation means, and control the charging means to output the power generation, charged electricity, if necessary, using and charging the electricity of the solar generator, and control the charging means to generate the power generation, And a means for outputting charged electricity. The method of claim 1, The power generation means is a pressure displacement unit 30 displacement impact power generation (puncture release Rita principle) that is the action of the fixed portion and the displacement portion, pressure displacement unit 30 displacement power generation (coil, iron core, Magnet principle), reciprocating pressure displacement unit 30, rotary reciprocating power generation (coil, iron core, magnet principle), circular power generation (coil, iron core, magnet principle), reciprocating, rotational displacement, circular power generation with pressure displacement unit 30 displacement (Coil, iron core, magnet principle), reciprocating displacement using gear 30, circular power generation using rotary gear (coil, iron core, magnet principle), gear installation circular power generation of displacement displacement part 30 using gear 30 (Coil, iron core, magnet principle), and the generator characterized in that it comprises a means for combining the electricity of the solar generator (2000) as needed. The method of claim 1, The control means is a supply of electricity, such as electricity generated by the power generation unit, solar generator 2000, general electricity, battery, etc. to the battery to be charged by the control of the controller control, the matter of the battery 400 (for example, charging Control of the control signal transmission / reception unit 200 and the signal modulation / demodulation unit 210 when linking the wireless communication with the display of the display unit 100 (eg, capacity, progress, volts, etc.) and the wireless communication. Change the input electricity of the generator at the time of installation, and install the transformer to control the input electricity of the transformer connected to the controller in multiple stages (1, 10, 50, 100, 1000, 10000V-, etc.) to use the output electricity of the transformer. The generator characterized in that it is supplied to the battery and provided with a control means for charging. The method of claim 1, The electricity generated by the power generation means is supplied to the battery to be charged by the control of the controller, the charging and control of the control unit by power interruption to the battery by the control means to charge the electricity and the electricity of the solar generator 2000, if necessary It is used for charging and the charging material is a generator, characterized in that it is provided with a charging means that represents both the existing (for example, Nicard, ions, mercury, condenser, etc.) and the material to be developed. The method of claim 1, When the power generation element in the electricity of the solar generator (2000) which is the power generation means, the generator characterized in that it is provided with a power generation use body and a charging means used for power generation, such as fiberization, fiber yarn, plate, shape, shape.