KR101670805B1 - charging system used static electricity - Google Patents

Abstract

The present invention relates to a charging device using static electricity, capable of charging a battery by collecting and converting static electricity generated by friction between nonconductors. The present invention includes: a static electricity generating unit generating static electricity through friction between the unit and a housing as electrostatic particles are shaken by vibrations of the housing storing the electrostatic particles; a conductive unit made of a conductive material to deliver the static electricity, generated by the static electricity generating unit, to a static electricity collecting unit; the static electricity collecting unit collecting the static electricity of high voltage and low current, delivered through the conductive unit; and a converting unit lowering a voltage and raising a current by converting the high voltage and low current electricity of the static electricity collecting unit.

Description

A charging system using static electricity {charging system used static electricity}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a charging apparatus, and more particularly, to a charging apparatus using static electricity to charge and charge a battery by collecting and converting static electricity generated by friction between nonconductors.

Electrical energy is produced in various ways, and most of it is obtained by using fossil fuels. However, because of the depletion of fossil fuels and environmental pollution caused by the production of electric energy using fossil fuels, A lot of energy production methods are being developed.

Electric power generation methods using natural power include wind power generation using wind power, solar and solar power generation using sunlight, and tidal power generation using tidal power.

[0003] On the other hand, as electric and electronic technologies have developed, portable electric and electronic devices (hereinafter referred to as "mobile devices") including mobile phones have been widely used. Such mobile devices are supplied with power from batteries, If it is used for a predetermined time, there is a disadvantage that the electricity stored is exhausted and the use of the mobile device is restricted.

Therefore, rechargeable rechargeable batteries are used in many mobile devices.

In general, charging means is used for charging the rechargeable battery. The recharging means charges the rechargeable battery by using a commercial power source, and auxiliary recharging devices for charging the rechargeable battery by preliminary means are widely used .

However, the auxiliary charging device also has a limitation in the amount of charge, and a charging device capable of charging the charging battery without using a commercial power source has been developed to overcome such a disadvantage, for example, in Patent Document 1.

Patent Document 1 discloses a solar cell module including a bracket having a through hole at one side thereof, a bracket having a support member rotatably mounted on the bracket, a plurality of solar cell modules provided with parallel solar cells, And a controller which is installed in the solar cell and applies power to the mobile battery.

However, there is a disadvantage in that a power generation or charging device using a solar cell relies on sunlight, which limits power generation and charging.

Another example of the mobile device charging device is a technique using static electricity, for example, Patent Documents 2 and 3.

Patent Document 2 discloses a brushless motor having a converter that converts kinetic energy of a motor into electrostatic energy; A collecting unit for collecting static electricity generated in the converting unit; An adjusting unit adjusting the magnitude of the electrostatic voltage collected by the collecting unit; A battery charged by a voltage regulated by the regulator; And a magnet portion having an N pole and an S pole provided around the converting portion, wherein the converting portion includes a first non-conducting portion coupled to the rotating shaft of the motor wound with the coil and the rotating shaft of the motor, and a second non-conducting portion having a first non- And,

Patent Literature 3 discloses a brushless DC motor comprising a converter for converting kinetic energy of a motor into electrostatic energy; A collecting unit for collecting static electricity generated in the converting unit; An adjusting unit adjusting the magnitude of the electrostatic voltage collected by the collecting unit; And a battery that is charged by a voltage regulated by the regulator.

Such a conventional charging apparatus using static electricity has a disadvantage in that energy is inefficient due to consumption of electricity due to driving of the static electricity generating means with a motor.

Korean Patent No. 10-0742358 Korean Patent No. 10-1312565 Korean Patent No. 10-1401535

The present invention has been developed to solve the problems of the related art as described above, and it is an object of the present invention to provide a charging apparatus using an electrostatic charge, which is simple in construction and easy to manufacture, The purpose.

According to an aspect of the present invention, there is provided an apparatus for charging and discharging electricity using static electricity, the apparatus comprising: an electrostatic particle in the form of granules placed inside a housing, A static electricity generating means for generating static electricity by friction with the inner wall of the housing; Conductive means for transferring the static electricity generated by the static electricity generating means to the static electricity collecting means; Electrostatic collecting means for collecting static electricity transmitted through the conductive means; And converting means for converting the static electricity of the static electricity collecting means into a battery charging voltage.

The housing is divided into a plurality of compartments, and electrostatic particles of different sizes are mixed in the compartments.

The conductive means comprises a collecting terminal provided inside the housing for collecting static electricity generated by friction between the walls of the housing and the electrostatic particles and a conductive line for transferring the static electricity collected at the collecting terminal to the electrostatic collecting means .

The outside of the housing is attached with a solar cell and is input as conversion means.

The charging device includes a power connection socket formed in one housing and formed with a battery mounting groove through which a battery is detached from the housing, an external power source for supplying commercial power to the battery, And a charging socket for directly charging the battery pack.

The charging device using static electricity according to the present invention charges electrostatic particles in the form of granules into the inside of a sieve body to cause small electrostatic particles to move even in small fluctuations and friction with the housing to generate static electricity, .

In addition, friction occurs between the electrostatic particles. Such friction generates static electricity, thereby increasing the efficiency of generating static electricity, thereby improving the power generation efficiency.

In addition, a solar cell may be provided outside the housing to charge the battery using solar light in addition to static electricity.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a configuration diagram of a charging apparatus using static electricity according to the present invention. FIG.
2 is a perspective view of an example of a charging apparatus using static electricity according to the present invention.
3 is a perspective view of an example of a charging apparatus using static electricity according to the present invention.
FIG. 4 is a perspective view showing a state in which a part of a static electricity generating means constituting a charging apparatus using static electricity according to the present invention is cut. FIG.

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

It is to be understood that the embodiments of the present invention are not limited to the embodiments but are to be understood to include all modifications, equivalents, and alternatives falling within the scope and spirit of the present invention.

The present invention can reduce power generation efficiency by increasing static electricity by friction between insulators, even when the insulator is small in the form of granules.

The charging device using the static electricity according to the present invention comprises a static electricity generating means 10 for generating static electricity, a conductive means 20 for transmitting the generated static electricity, an electrostatic trapping means 30 for collecting the delivered static electricity, (40).

Static electricity is the opposite of general electricity in which electric charge flows. It refers to electric power in which the charge is stopped and the distribution of electric charge does not change with time. The main cause of the static electricity is the friction heat, which causes the electrons to move toward the higher electron affinity and to be charged. It is easy to lose electrons in order of fur leather> glass> mica> pongee> pumpkin> rubber> plastic.

The static electricity generating means 10 functions to generate static electricity by friction between two objects. The static electricity particles 12 in the form of granules are stored in the housing 11, and the static particles are shaken by the swinging of the housing Friction with the housing occurs, and static electricity is generated by this friction.

As shown in Fig. 1, the housing 11 can be divided into a plurality of compartments, and each compartment is filled with an electrostatic particle 12 in an appropriate amount.

By dividing the housing 11 into a plurality of compartments, it is possible to increase the amount of static electricity generated by widening the contact area of the housing with the electrostatic particles.

The electrostatic particles 12 function to generate static electricity by rubbing against the housing and can not limit the size of the granules. However, if the size of the granules is too small or too large, the frictional force with the housing may be lowered. And it is possible to increase the mobility by inserting a small amount of the ball 13 having a relatively large diameter.

The electrostatic particles 12 are formed by glass or the like which is liable to lose electrons in the charging heat, and the housing 11 is a plastic type which is easy to obtain electrons, preferably PET resin or vinyl resin.

The inner wall of the housing can be formed into a comb shape or a mesh shape so that friction with the electrostatic particles can occur.

The conductive means 20 is a metal which is made of a metal having a high electrical conductivity by delivering the static electricity generated by the static electricity generating means 10 to the static electricity collecting means 30 and is used for collecting static electricity A terminal 21 and a conductive line 22 for transmitting the static electricity accumulated to the static electricity collecting means 30.

It is preferable that the collecting terminal 21 is installed at a position where it is possible to collect as much static electricity as possible.

The static electricity collecting means 30 collects static electricity of high voltage and low current transmitted through the conductive means and uses static electricity generated by the friction between the housing 11 and the electrostatic particles 12 for battery charging In order to minimize the static electricity discharged to the surroundings.

Static electricity occurs irregularly from several mV to tens of thousands of volts depending on the charging area and the degree of friction, and the electric current is very small compared to the lightning, so it is not fatal to the human body, but it can be generally felt to be 2.5 kV to 4 kV or more.

The excessive peak voltage can destroy the capacitor or the charger, so that the voltage to be applied to the static electricity collecting means needs to be limited. In the present invention, a peak voltage is limited to several volts by using a limiter in which PIN diodes are arranged in parallel.

The static electricity collected by the static electricity collecting means 30 is static electricity having a high voltage but a low current amount. And the converting means 40 for converting the electricity into electricity suitable for charging the battery 100. [

The converting means 40 has a function of converting a high-voltage low-current static electricity to lower a voltage and increasing a current, and a function of converting a static electricity into a direct current or an alternating current so as to charge the battery.

In addition, the electrostatic generating means 10 according to the present invention is preferably provided so that noise preventing means having fine pores can be moved in each compartment so that noise generated during the movement of the electrostatic particles can be absorbed .

As shown in FIGS. 2 and 3, the charging apparatus of the present invention can be installed inside the housing 60, and a battery mounting groove 60g in which a battery is detached is formed at one side of the housing. So that the battery 100 can be detached.

It is preferable that a rechargeable battery is also provided in the housing 60 so that the battery installed in the battery mounting groove 60g can be charged and stored after fully charged.

The housing 60 may further include a power connection socket 60e to which an external power source for supplying commercial power to the battery is connected and a charging socket 60c to which external electrical equipment is directly connected and charged. The charging apparatus of the present invention is portable and includes the power connection socket 60e to charge the battery using commercial power when the commercial power can be supplied. And the charging socket is provided to directly charge the battery of the electric furnace of the electric furnace stored in the battery.

In addition, the outside of the charging apparatus of the present invention can be used for supplementary charging by forming the solar cell 50.

As shown in FIG. 3, the solar cell 50 is attached to the outside of the housing. The solar cell 50 is provided with a switching means so as to be switched in parallel with the static electricity generating means. The switching means is connected to the converting means 40, So that electricity can be obtained through the solar cell.

10: static electricity generating means
11: housing 12: electrostatic particle
20: conductive means
21: collecting terminal 22: conducting wire
30: Electrostatic collection means 40: Conversion means
50: solar cell 60: housing
60g: Battery mounting hole 60e: Power connection socket
60c: Charging socket
100: Battery

Claims (5)

A portable charger for generating and charging electricity using static electricity,
Electrostatically generating means for putting granular electrostatic particles in the inside of the housing to generate static electricity due to friction between the electrostatic particles and the inner wall of the housing due to shaking of the housing;
Conductive means for transferring the static electricity generated by the static electricity generating means to the static electricity collecting means;
Electrostatic collecting means for collecting static electricity transmitted through the conductive means;
And converting means for converting the static electricity of the static electricity collecting means into a battery charging voltage,
Wherein the housing is divided into a plurality of compartments, electrostatic particles of different sizes are mixed in each compartment,
Wherein the conductive means comprises a collecting terminal provided inside the housing for collecting static electricity generated by friction between the walls of the housing and the electrostatic particles and a conductive line for transferring the static electricity collected at the collecting terminal to the electrostatic collecting means,
The outside of the housing is attached to the solar cell and is input to the converting means,
The portable charger includes: a power connection socket formed in a housing and having a battery mounting groove formed at one side of the housing to detach the battery, an external power source for supplying commercial power to the battery, There is provided a charging socket in which devices are directly connected to perform charging,
And a limiter in which a PIN diode is arranged in parallel in a lead-in terminal of the electrostatic charge collecting means is used. delete delete delete delete

Images