KR20130031105A - Power generating and measuring dust apparatus using ground and charged particle in air - Google Patents

Abstract

PURPOSE: An electric power generation and dust measurement device is provided to generate electric power without being supplied of fuel by using electric energy generated by potential difference between electrode contacted with a charged particle and a ground unit. CONSTITUTION: A charged particle collection unit(100) collects a charged particle in dust of air. An electrode unit(200) is connected to the charged particle collection unit and contacts with the collected charged particle. A ground unit is connected to the electrode unit through a conductive wire, uses an earth ground having an unlimited electron absorption capability, and generates electric energy generated by sending charged particles to the ground surface. A electric power collection unit(400) is installed between the electrode unit and the ground unit, stores electric energy generated through the ground unit and measures the amount of charged particles. [Reference numerals] (200) Electrode unit; (400) Electric power collection unit

Description

Power generation and dust measurement device using charged particles in the air and ground {POWER GENERATING AND MEASURING DUST APPARATUS USING GROUND AND CHARGED PARTICLE IN AIR}

The present invention relates to a power production apparatus using charged particles in the air and ground, and more particularly, to store the electrical energy generated by the electrical potential difference between the electrode portion in contact with the charged particles in the air and the ground portion. The present invention relates to a technique for measuring the amount of dust produced by the electric power.

Since the Industrial Revolution, rapid industrialization based on the burning of fossil fuels has led to widespread temperatures, sea level rises, rapid climate fluctuations, tsunamis, heavy rains and droughts, and many studies have been conducted to suppress greenhouse gases by fossil fuels. .

In addition, fossil fuels present a variety of dust particles in factories and vehicles. Among them, carbon polymers and heavy metals can reduce work efficiency, weaken fatigue and immunity, as well as lethal inflammation and cancer, such as bronchial and lung. Can be.

In recent years, research and development has been made in relation to the present invention, and a number of other publications have been disclosed, including the Republic of Korea Patent Publication (10-2009-0128539 indoor unit of the air conditioner).

The prior art document includes an indoor heat exchanger (37), an indoor fan (39) for sucking air from the inside of the casing (34), and an air filter (40) provided on the suction side of the indoor fan (39). In the indoor unit of the air conditioner, the dust removing means 50 for removing the dust trapped by the air filter 40, and the dust removed by the dust removing means 50 of the indoor fan 39 And dust conveying means 70 for conveying to a predetermined position by the discharged air.

Prior art as described above can remove the dust through the configuration of the air filter and dust removing means, indoor fan and dust conveying means.

However, in the case of the prior document, the opposite carbon is discharged to drive the indoor unit of the air conditioner, and separate power is consumed and cannot be installed in a moving vehicle, an airplane, and a train, and there is a problem of limited dust collection only indoors.

Therefore, there is an urgent need for a technology for effectively quantifying dust and dust generated inside a vehicle or a factory without carbon emissions.

An object of the present invention is to solve the above problems, the charge particle collecting unit collects dust containing the charged particles, the object is to detect and remove the amount of fine dust in the air.

An object of the present invention is to produce electric power without supplying fuel by storing electrical energy generated by the electrical potential difference between the electrode portion and the ground portion in contact with charged particles in the air.

In order to achieve the above technical problem, the present invention provides a power generation and dust measurement apparatus using charged particles in the air and ground, the charged particle collecting unit for collecting the charged particles in the air dust; An electrode unit connected to or coupled to the charged particle collecting unit to contact the charged particles collected through the charged particle collecting unit; A grounding part connected to the electrode part and a conductive wire, using a grounding electrode having an infinite electron absorption capability, and producing an electrical energy generated by sending charged particles to the ground; A power collection unit installed between the electrode unit and the ground unit to store electrical energy produced through the ground unit and to measure the amount of charged particles; It includes.

In addition, the power collector directly connects a single circuit between the electrode and the ground, or connects an indirect circuit using an electrostatic induction derived from the flow of charge between the electrode and the ground. It involves producing power in proportion to the quantity.

In addition, the power collector directly connects a single circuit between the electrode and the ground, or connects an indirect circuit using an electrostatic induction derived from the flow of charge between the electrode and the ground. Detecting a current and voltage increasing in proportion to the amount, and measuring the amount of charged particles including dust, suspended microorganisms and metal pieces.

In addition, the power collector includes storing the power produced in proportion to the charged particle amount through a storage device including a direct current circuit and a capacitor to drive a low power product.

In addition, the charged particle collecting part includes providing an inlet of the charged particle collecting part in the direction of air flow so that the charged particles are concentrated to concentrate the electrode particles.

In addition, the electrode unit may include one configured in the form of a mesh to increase the contact area with the charged particles collected through the charged particle collecting unit.

In addition, the electrode unit includes a material capable of transferring electrons including carbon and conductive fibers including polypinol-based material to remove dust from indoor furniture and a vehicle.

In addition, the electrode unit includes a removable or replaceable to enable reuse after cleaning the surface.

In addition, the grounding part may include providing electrical energy generated by electric force induced by direct or indirect interaction between charged particles generated from an electrical potential difference between the electrode part in contact with the charged particle to the power collecting part. .

According to the present invention as described above, the charged particle collecting unit collects dust containing the charged particles, there is an effect of removing the fine dust in the air.

In addition, according to the present invention, by detecting or storing the electrical energy generated by the electrical potential difference between the electrode portion and the ground portion in contact with the charged particles in the air to produce power, thereby producing power without supply of fuel and It has the effect of storing and measuring the amount of dust.

1 is an overall configuration diagram of a power production and dust measurement apparatus using the charged particles and ground in the air according to the present invention.
Figure 2 is an embodiment showing the difference in the electrical potential according to the charged particles in the power production and dust measurement device using the ground and charged particles in the air according to the present invention.
Figure 3 is an embodiment showing the difference in electrical potential according to the charged particles in the air production and dust measurement device using the ground and charged particles in the air according to the present invention.
Figure 4 is an embodiment showing the difference in the electrical potential according to the charged particles in the air production and dust measurement device using the ground and charged particles in the air according to the present invention.

Specific features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings. Prior to this, terms and words used in the present specification and claims are to be interpreted in accordance with the technical idea of the present invention based on the principle that the inventor can properly define the concept of the term in order to explain his invention in the best way. It should be interpreted in terms of meaning and concept. In addition, when it is determined that the detailed description of the known function and its configuration related to the present invention may unnecessarily obscure the subject matter of the present invention, it should be noted that the detailed description is omitted.

Hereinafter, the electric power production and dust measurement apparatus using charged particles and ground in the air according to the present invention will be described in detail with reference to the accompanying drawings. 1 is an overall configuration diagram of a power production and dust measurement apparatus using charged particles and ground in the air according to the present invention.

As shown in Figure 1, using a grounding ground having an infinite electron absorption capacity, and collects the current generated between the electrode and the contact with the charged particles in the air to produce electric power and charged particles in the air Electric power production and dust detection apparatus using the charged particles and ground in the air to measure the amount comprises a charged particle collecting unit 100, the electrode unit 200, the grounding unit 300 and the power collecting unit 400 do.

First, the charged particle collecting unit 100 collects charged particles having an electrically positive or negative charge among the dust generated on the outside of the running vehicle, the dust constantly generated by the cleaner, the dust generated in the ventilation facility inside the building. .

The charged particle collecting unit 100 is installed so as to correspond to the direction of the wind to increase the collection amount of the charged particles, the diameter of the suction port of the charged particle collecting unit 100 is provided to be smaller toward the inside, the flow of charged particles It is comprised so that it may concentrate on this electrode part 200.

The charged particle collecting unit 100 may be installed in a fixed building exterior blowing facility and furniture inside the building, as well as in the air inlet and outlet of the moving vehicle, airplane and train.

In addition, the electrode unit 200 is connected to or coupled with the charged particle collecting unit 100 so as to be in contact with the charged particles collected through the charged particle collecting unit 100, and the potential difference between the electric device and the ground is' 0. It is connected to the ground portion 300 and the conductive wire to maintain the '.

The electrode unit 200 may be in the form of any one of fine pores, meshes, fabrics or fibers in order to increase the contact area with charged particles present in the dust and to react effectively. It is composed of a material capable of transferring electrons containing carbon and a conductive fiber including a polypinol-based material.

In addition, the electrode unit 200 is detachable and replaceable, and can be reused after washing the surface.

In addition, the ground unit 300 is connected to the electrode unit 200 and the conductive wires and the charge generated from the electrical potential difference between the electrode unit 200 in contact with the charged particles introduced through the charged particle collecting unit 100 The electrical energy generated by the electric force that directly or indirectly interacts with the particles is applied to the power collector 400.

At this time, looking at an embodiment of the difference of the electrical potential, Figure 2 shows the electrical potential difference between the electrode portion 200 and the ground portion 300 when air is provided, Figure 3 is a piece of metal and air The electric potential difference between the electrode part 200 and the ground part 300 when provided together is shown, and FIG. 4 shows the gap between the electrode part 200 and the ground part 300 when the foam polystyrene piece is provided with air. The electric potential difference is shown.

As shown in Figures 2 to 4, there is a difference depending on the type of charged particles in the air, which is represented by the difference in the amount of electrical energy.

In addition, the power collecting unit 400 is installed between the grounding unit 300 and the electrode unit 200 detects and stores the electrical energy caused by the electrical potential difference.

In addition, the power collection unit 400 is generated by a direct method of connecting between the electrode unit 200 and the ground unit 300 in a single circuit or a flow of charge between the electrode unit 200 and the ground unit 300. By using the indirect circuit applying the electrostatic induction, it can generate power proportional to the charged particle quantity and store it in the storage device including the DC circuit and the capacitor to drive low power products with low power consumption without any energy source. have.

In addition, the amount of charged particles including dust, moisture, airborne microorganisms, and metal pieces may be measured by detecting the amount of current and voltage increasing in proportion to the charged particle amount through the power collector 400.

While the present invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be appreciated by those skilled in the art that numerous changes and modifications may be made without departing from the invention. And all such modifications and changes as fall within the scope of the present invention are therefore to be regarded as being within the scope of the present invention.

100: charged particle collecting part 200: electrode part
300: grounding unit 400: power collecting unit

Claims (9)

In the electric power production and dust measurement device using charged particles and ground in the air,
A charged particle collecting unit 100 collecting charged particles in air dust;
An electrode unit 200 connected to or coupled to the charged particle collecting unit 100 to be in contact with the charged particles collected through the charged particle collecting unit 100;
A grounding unit 300 connected to the electrode unit 200 by a conductive line, using a grounding electrode having infinite electron absorption capability, and producing electrical energy generated by sending charged particles to the ground;
A power collecting unit 400 installed between the electrode unit 200 and the ground unit 300 to store electrical energy produced through the ground unit 300 and to measure a charged particle amount; Power production and dust measurement device using a charged particle and ground in the air, characterized in that it comprises a.
The method of claim 1,
The power collecting unit 400,
By connecting a single circuit directly between the electrode portion 200 and the ground portion 300 or the electrostatic induction derived from the flow of charge between the electrode portion 200 and the ground portion 300 Power production and dust measurement device using the charged particles and ground in the air, characterized in that to produce electric power in proportion to the charged particle amount through the method of connecting the used indirect circuit.
The method of claim 1,
The power collecting unit 400,
By connecting a single circuit directly between the electrode portion 200 and the ground portion 300 or the electrostatic induction derived from the flow of charge between the electrode portion 200 and the ground portion 300 By connecting the indirect circuits used to detect the current and voltage which increases in proportion to the charged particle amount, and charged particles in the air, characterized in that for measuring the amount of charged particles including dust, suspended microorganisms and metal pieces Power production and dust measurement device using grounding.
The method of claim 2,
The power collecting unit 400,
An electric power production and dust measurement apparatus using charged particles and ground in the air, wherein the electric power generated in proportion to the charged particle amount is stored through a storage device including a direct current circuit and a capacitor to drive a low power product.
The method of claim 1,
The charged particle collecting unit 100,
Charged particles and ground in the air, characterized in that the inlet of the charged particle collecting unit 100 in the direction of the air flow so as to increase the collection amount of the charged particles to concentrate the electrode portion 200 Power production and dust measurement device used.
The method of claim 1,
The electrode unit 200,
Power generation and dust measurement apparatus using the charged particles and ground in the air, characterized in that configured in the form of a mesh (mesh) to increase the contact area with the charged particles collected through the charged particle collecting unit 100.
The method of claim 1,
The electrode unit 200,
Electricity production and dust using charged particles and air in the air, characterized by removing dust from the interior furniture and the vehicle using a material capable of transferring electrons containing carbon and conductive fibers including polypinol-based materials Measuring device.
The method of claim 1,
The electrode unit 200,
Electric power production and dust measurement device using the charged particles and ground in the air, characterized in that the removable or replaceable to be reused after cleaning the surface.
The method of claim 1,
The ground portion 300,
Electrical energy generated by the electric force induced by directly or indirectly interacting between the particles having a charge generated from the electrical potential difference between the electrode portion 200 in contact with the charged particles to the power collector 400 Power production and dust measurement device using the charged particles and ground in the air, characterized in that provided.

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