KR20210120319A - The Boiler system using Electromagnet and Electrolysis - Google Patents

Abstract

The present invention relates to a boiler using electromagnets and electrolysis. More specifically, a normal electrolysis boiler performs electric heating by obtaining a heat source with the resistance heat generated by the flow of a current. However, when the temperature increases, the resistance of water decreases, and thus more current flows. If a lot of current flows, the product is damaged due to an overcurrent, and water pollution is severe due to corrosion of heavy metals. To solve this problem, in the boiler using electromagnets and electrolysis, electromagnets are required to be placed on a negative electrode bar before inserting the negative electrode bar into water (H_2O). The boiler using electromagnets and electrolysis comprises: two sets of electromagnet coils, of which the direction of magnetic field is parallel to the water surface, and iron cores; a T-type socket formed as an insulator which is perpendicular to the direction of magnetic field and allows water (H_2O) to enter in a direction perpendicular to the water surface; a negative electrode bar disposed in a T-type hole formed in the longitudinal center of the T-type socket, under the protection of ceramic; and a toros coil disposed outside the water (boiler tank). Most coils use Teflon wires. The order of the flow of a negative current (electrons) is as follows: (1) electromagnets; (2) toros coil; (3) negative electrode bar under the protection of ceramic; (4) water (H_2O) in the T-type socket formed as an insulation; and (5) a positive electrode bar formed of carbon (graphite). Therefore, a large-capacity electrolysis boiler for generating a lot of heat can be provided.

Description

The Boiler system using Electromagnet and Electrolysis

The present invention relates to a boiler using an electromagnet and electrolysis, and more particularly, the principle of a DC series motor is applied, so that the current does not increase even when the voltage is raised, so that high heat is generated without loss of the product due to overcurrent. It relates to the decomposition boiler.

In general, various methods of heating water have been disclosed. Among them, a conventional method of an electrolysis boiler for heating _{water (H 2 O) uses heating with electrical resistance.}

According to Ohm's law, electrical resistance is a general theory that as the resistance decreases, the current increases. Therefore, when the temperature of the water rises, the resistance decreases and the product that supplies the current is easily damaged. In addition, as the water becomes contaminated with heavy metals, the resistance value is further reduced, making it vulnerable to overcurrent.

The present invention intends to solve

The first task is to propose a large-capacity electrolysis boiler that generates a lot of heat.

The second task is to propose an electrolysis boiler in which the product is stable due to low current even when the temperature of water rises.

The third task is to propose an electrolysis boiler with less heavy metal pollution.

The fourth task is to propose an electrolysis boiler that can be used semi-permanently.

The present invention applies that a phenomenon other than Ohm's law occurs at a constant voltage. In other words, the motor's law, not Ohm's law, is sometimes applied to the rotating eddy current. According to the law of motors, current is inversely proportional to voltage, or there is no significant change.

It is a characteristic of "Boiler using electromagnet and electrolysis" to use this principle of motor law in electrode electrode electrolysis boiler.

To this end, in the "boiler using electromagnet and electrolysis" of the present invention, an electromagnet must be placed on the electrode before putting the negative (-) electrode _{in water (H 2 O).} First, the direction of the magnetic field is parallel to the water surface (parallel) and two sets of iron cores and an electromagnet coil; and a T-type socket with an insulator that is perpendicular to the direction of the magnetic field and allows water (H _{2 O) to enter in the vertical and vertical directions with the water surface;}

A negative electrode under the protection of ceramic using a T-hole in the center of the T-type socket in the longitudinal direction;

Toros coil outside the water (boiler barrel);

Most coils use Teflon wire;

It is a boiler using electromagnet and electrolysis, characterized by this.

"Boiler using electromagnet and electrolysis" according to the present invention

First, a large-capacity electrolysis boiler can be made by generating a lot of heat.

Second, it is possible to make an electrolysis boiler in which the product is stable due to low current.

Third, it is possible to make an electrolysis boiler with less contamination of heavy metals.

Fourth, it is possible to make an electrolysis boiler that can be used semi-permanently.

1 shows the circuit structure of "a boiler using an electromagnet and electrolysis" of the present invention.
Figure 2 is a picture of putting the electrode rods disposed between the electromagnets in a box to achieve "a boiler using an electromagnet and electrolysis" of the present invention.
Figure 3 is a diagram by the formula of "a boiler using an electromagnet and electrolysis" of the present invention.
4 is a series motor rotation principle (Fleming's left hand rule)
5 is a picture of the completed box to achieve "a boiler using an electromagnet and electrolysis" of the present invention.

The present invention will be described in detail with reference to the accompanying drawings as follows.

에 의해 와전류는 다른 회전을 하게 된다. 그리고 회전 방향을 자세히 보면 소켓(10)의 길이 방향의 중앙에 구멍을 통해 에 음이온을 발생시키는 데 이때 와전류 형태를 갖는다. 소켓(10)을 따라 상과 하로 나누어 흐르는데 이때 전자석(8.9) 자기장과 수직이 되므로 회전을 하게 된다. 도 4. 플래밍의 왼손 법칙에 의해 회전을 하는데 회전하는 방향에 반대로 역기전력이 내부기전력으로 발생하여 입력전력을 줄여주어 전류는 증가 하지 않는다. 그러나 전압에 자승에 비례하여 회전속도는 증가한다. 속도의 운동 마찰열에 의해 다량의 많은 열이 발생하여 보일러를 운영한다.2 is. Insulated pipe connection socket having a certain length having a cylindrical shape having a T-type shape, the top and bottom of the open socket (10); A negative electrode rod 12 in a T-shaped hole in the center in the longitudinal direction is placed under the protection of the ceramic 11; The inner side of the socket 10 and the vertical electric field in the longitudinal direction of the cylinder negative electrode rod (12); It is divided into upper and lower parts based on the center. And two sets of electromagnets (8.9) made of a coil with a transformer iron core inserted so that a magnetic field is generated parallel to the water surface; And put the electromagnet and the pipe as a whole in the box (15); Figure 5. is sealed so that water and wires are insulated and put in water. Figure 1. Inputs commercial power 220 [V] 60 [Hz] (1) and adjusts the voltage by an inverter or slide (2). The regulated voltage is boosted to over 2000[V] by the transformer (3). Use several diodes (4) to make direct current 2000[V]. First, an electric current enters the box in the water to magnetize the electromagnet (8.9). After leaving the next box and passing through the toros coil 14, the eddy current becomes 2000[V]. When these eddy currents enter the negative electrode box surrounded by the electromagnet, water (H ₂ O) is electrolyzed _{at the negative electrode, and hydrogen (H 2} ) rises to the water surface as bubbles, and ^{the eddy current of anions (OH -} ) is generated by the electromagnet (8.9 ) is affected by the magnetic field. Fig. 3. Magnetic field

This causes the eddy current to rotate differently. And if you look closely at the direction of rotation, negative ions are generated in through a hole in the center of the lengthwise direction of the socket 10, and at this time, it has an eddy current form. It flows along the socket 10 into upper and lower parts, and at this time, the electromagnet 8.9 is perpendicular to the magnetic field, so it rotates. Fig. 4. In rotation according to Fleming's left hand rule, a counter electromotive force is generated as an internal electromotive force opposite to the direction of rotation, so that the input power is reduced and the current does not increase. However, the rotation speed increases in proportion to the square of the voltage. A large amount of heat is generated by kinetic frictional heat of speed to operate the boiler.

The current does not increase to prevent overheating of the product's electric wire, and the rotational speed of the negative ion, which is an eddy current, becomes the unconstrained rotational speed (refer to the theory of the series winding motor in Fig. 4.) and generates a lot of heat. It is a boiler that heats the water in the boiler barrel (7) with two heat. The characteristic of this boiler is that the toroidal coil 14 has a large number of toroidal coils and poleoidal coils wound therein to create an eddy current.

As described above, when a current flows in a general coil, a magnetic field is generated in the iron core disposed at the center of the coil. Thus, when these electromagnets (8.9) are placed around the socket, a magnetic field is generated perpendicular to the length direction of the socket (10). When the box in which the socket 10 is placed is placed in water, electricity flows through the water, so electricity flows through the socket 10 , and an electric field enters the bottom and top of the socket 10 . The eddy current of negative ions emitted from the negative electrode is perpendicular to the direction of the electromagnet magnetic field and the electrolysis electric field caused by the movement of water in the socket and rotates in the horizontal magnetic field generated by the electromagnet. Since there is no negative ion, the mass is small, so it rotates without restraint.

If you explain this content in detail with a formula while looking at FIG. 3.

라고 하고 토로이달자계를

할 때At this time, the current going to the toroidal

and the toroidal magnetic field

when doing

The formula is formed as below. The expression is written as a scalar product.

는 자화 전류(와전류)로 폴로이달 방향이다.At this time

is the magnetizing current (eddy current) in the poloidal direction.

는 토로스

로 자화가 됐다. 이러한 전자석 자기장이 또다시 회전을 발생시킨다. 물속에는 전기장 방향이 전자석 자기장에 수직이기 때문이다.Eddy currents of ions in water

is toros

became magnetized with This electromagnet magnetic field again causes rotation. This is because the direction of the electric field in water is perpendicular to the magnetic field of the electromagnet.

을 만나게 된다.

는

와

두 개 이상으로 존재하고 두 개의 힘이 존재하게 된다.An electromagnet magnetic field which is magnetized due to the electric field given to the water moving in these sockets and then is redirected by 90° to the direction of travel (13).

will meet

Is

Wow

There are more than two and there are two forces.

식과

food and drink

Fleming's left hand rule is the equation for motors. At this time, when rotating, the velocity has an almost unconstrained circulation velocity. This is because the voltage is high and the mass of the ion is close to zero. Thus, another rotating magnetic field of the ion eddy current is generated.

의 속도가 무 구속 순환 속도(RUNWAY SPEED)라서To form these magnetic fields

Because the speed of is RUNWAY SPEED

의 크기가 대단히 커진다. 그리하여 음이온들 간에 자석의 서로 다른 극이 끌어당기는 힘. N극과 S극이 좁은 갭(틈) 사이에 마주보고 있을때 단위 면적당 의 힘의 크기는 다음 식에 의해 나타내어진다.

size becomes very large. Thus, the force of attraction of the different poles of the magnet between the negative ions. When the N and S poles face each other between the narrow gap (gap), the magnitude of the force per unit area is expressed by the following equation.

Here, F _M : the force of the magnet to attract between the anions, the magnetic attraction force [N/m ² ],

: 와전류 음이온 이 토로스 자계

와 결합해서 발생시키는 무 구속 순환속도에 의한 자속밀도

: Eddy current negative ion, this toros magnetic field

Magnetic flux density by unconstrained circulation speed generated by combining with

: 이웃 와전류 음이온 들 의 토로스 자계

와 결합해서 발생시키는 무 구속 순환속도에 의한 자속밀도 의 이온들의 합

자계의 세기[A/m].

: Toros magnetic field of neighboring eddy current negative ions

Sum of ions of magnetic flux density by unconstrained circulation speed generated by combining with

Magnetic field strength [A/m].

The larger the mass, the greater the friction.

Friction between negative ions increases with electricity, and the temperature of the magnetized fluid rises instantaneously. So it gets a lot of heat.

에 의해 방향이 바뀌어 역기전력이 발생한다.As well as. At this time

The direction is changed and a back electromotive force is generated.

As a result, the input current is reduced. The positive electrode 6 is made of graphite to prevent contamination of heavy metals, and the ground 5 is safe from electric shock because the water is safely positioned at the potential in the positive electrode 6 .

1: Power cord
2: Inverter (frequency converter) or slide
3: Transformer (220[V]/6000[V]) 3KW
4: Multiple diodes (britz circuit)
5: Ground
6: Graphite (carbon) anode
7: Boiler barrel
8: electromagnet
9: Electromagnet
A: Start
Z: end
10: Insulated pipe connection socket T-type
11: Ceramic tube
12: negative electrode rod
13: direction of movement of water
14: toros coil
15: Box with negative electrode and electromagnet

Claims (2)

Before placing the negative (-) electrode in water (H ₂ O), an electromagnet must be placed on the electrode. First, the direction of the magnetic field is parallel to the water surface (parallel) and two sets of iron cores and an electromagnet coil;
and a T-type socket made of an insulator that allows _{water (H 2} O) to enter in the vertical direction and vertical to the magnetic field direction of the electromagnet and vertical to the water surface;
A negative electrode under the protection of ceramic using a T-hole in the center of the T-type socket in the longitudinal direction;
Toros coil outside the water (boiler barrel);
It is a boiler using an electromagnet and electrolysis, characterized in that it is configured. The order of flow of negative current (electrons) is 1) electromagnet, 2) toros coil, 3) negative electrode under the protection of ceramic, 4) water (H ₂ O) in T-type socket made of insulator, 5) A positive (+) electrode made of carbon (graphite). It is a boiler using an electromagnet and electrolysis, characterized by

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