KR20110032118A - Electric boiler for making heat by dissoving motion of water molecule - Google Patents

Abstract

PURPOSE: An electric boiler for making heat using the dcomposition motion of water molecules is provided to improve environment-friendly properties by heating fluid using centrifugal force and frictional heat. CONSTITUTION: An electric boiler(10) for making heat using the dcomposition motion of water molecules comprises a case(1), a rotary shaft(2), a disck assembly, and a drive motor(6). A fluid inlet(11) and a fluid outlet(12) are formed on both surfaces of the case. The case has a heating space. The rotary shaft penetrates through the center of the heating space in a longitudinal direction of the case. The disk assembly is composed of fixed disk plates(4), first rotary disk plates(3), and second rotary disk plates(5). The fixed disk plates are fixed to the inner surface of the case. The first rotary disk plates are separated from the fixed disk plates to be rotated with the rotary shaft. The second rotary disk plates are separated from the first rotary disk plates to be rotated with the rotary shaft. The motor shaft of the drive motor is coupled to a connection shaft(201) in order to rapidly rotate the first and second rotary disk plates.

Description

Electric boiler for making heat by dissoving motion of water molecule

The present invention relates to an electric boiler for producing fluid frictional heat by water molecular decomposition motion, and more particularly to an electric boiler for producing fluid frictional heat with water molecular decomposition motion to improve the environmental friendliness and efficiency in heating liquid fluid such as water. will be.

In general, a boiler refers to a device that burns fuel such as diesel and coal to generate thermal energy and heats a fluid directly or indirectly with the thermal energy.

In addition, the conventional fluid heating device for supplying hot water for heating, there are a number of boilers, for example, there is an oil boiler to obtain thermal energy by burning light oil and an electric boiler used to convert the electrical energy into thermal energy. . In addition, gas boilers using gas, coal boilers using coal, charcoal boilers using wood and the like are widely used.

However, these conventional boiler devices are expensive due to the large consumption of energy sources such as electricity, diesel, gas, and the like, when heating water is required for agricultural or industrial use such as greenhouses and plastic houses. It is uneconomical due to the large size of the device, and in the case of a boiler using diesel or gas, there is a problem of deteriorating the environment because a lot of pollutants are discharged in the combustion process.

In addition, the conventional boiler consumes a large amount of energy, such as electricity, diesel, and gas, and thus, has a problem in that thermal efficiency is significantly lower than energy.

In order to solve the above problems, the present invention is a water molecule that improves environmental friendliness and efficiency by heating with centrifugal force, vortex and frictional heat according to the high-speed rotation of the liquid fluid It is an object to provide an electric boiler which produces fluid frictional heat in a decomposition motion.

In order to solve the above problems, the present invention is a fluid inlet and the fluid outlet is formed on both sides and a cylindrical heating space formed therein; A rotating shaft penetrating to be disposed on a center line of the heating space in a longitudinal direction of the case and integrally rotating with a connection shaft extending outwardly; Each end of the rotating shaft is provided to be disposed in the heating space, the liquid fluid supplied from the fluid inlet is heated by compression and friction by high-speed rotation in the heating space to discharge through the fluid outlet, of the case A fixed disk fixed to an inner surface, a first rotating disk spaced apart so as to rotate at a high speed with the rotating shaft inside the fixed disk, and a second spaced apart so as to rotate at a high speed with the rotating shaft inside the first rotating disk. A disc assembly consisting of a rotating disc; And a driving motor having a motor shaft coupled to the connecting shaft such that the first rotating disk and the second rotating disk rotate at a high speed.

Here, a hollow is formed in the central portion of the fixed disk through which the rotating shaft penetrates, and a plurality of projections are formed radially on a surface in contact with the heating space, and a plurality of radially on one surface of the first rotating disk that faces the fixed disk. It is preferable that the protrusions are formed, and the other side is formed with a plurality of radial vortex parts, a plurality of through holes are formed at the edges, the vortex parts are formed at both sides of the second rotating disc, and the through holes are formed at the edge parts. . In addition, the bearing is provided in each of the hollow formed in the case for supporting the rotating shaft, it is preferable that the oil seal is provided in the hollow. Further, the connection shaft is preferably detachably coupled to the motor shaft of the drive motor. In addition, it is preferable that a space portion at a predetermined interval is provided between the disc assemblies.

Through the above solution, the present invention provides the following effects.

First, the present invention heats the liquid fluid by compression and friction by rotating the first rotating disc and the second rotating disc of the disc assembly disposed at both sides with a space in the center of the liquid fluid filled in the heating space. It is environmentally friendly and can significantly improve thermal efficiency against energy consumption.

Second, the present invention can increase the compression efficiency of the liquid fluid by centrifugal force, vortex force, etc. by the protrusions, vortex parts and through holes formed in the disc assemblies provided at both ends of the rotating shaft can be generated smoothly and repeatedly friction heat have.

Third, the electric boiler which produces fluid frictional heat by the decomposition of water molecules using the rotation of the fluid itself is indirect heating of the fluid by conventional fuel and electricity. Thermal efficiency is superior to energy consumption, which can reduce energy costs.

Hereinafter, with reference to the accompanying drawings will be described in detail an electric boiler for producing a fluid friction heat by the water molecular decomposition movement according to an embodiment of the present invention.

1 is a cross-sectional view showing an electric boiler making a fluid frictional heat in the water molecular decomposition motion according to an embodiment of the present invention, Figure 2 is an electric boiler making a fluid frictional heat in the water molecular decomposition motion according to an embodiment of the present invention. It is a perspective view which shows the main part.

As shown in Figure 1 and 2, the electric boiler to generate heat by the water molecule decomposition motion according to an embodiment of the present invention is the case (1), the rotating shaft (2), the disc assembly (3, 4, 5) and drive It comprises a motor (6).

In detail, the case 1 is preferably made of a cylindrical shape, the fluid inlet 11 and the fluid outlet 12 are formed on both sides and a cylindrical heating space is formed therein.

Here, the case 1 is preferably made of a material such as a metal that can withstand high-speed rotation, it is preferable that the case is made of a sealed structure so that the liquid fluid supplied to the inside does not leak. In addition, the fluid inlet 11 and the fluid outlet 12 is used in the piping for the inflow and outflow of the liquid fluid for heating when the rotary heating device of the present invention is used in the heating system. The case 1 and the drive motor 6 are fixed to the upper portion of the pedestal (8).

On the other hand, there is provided a rotating shaft (2) is drawn in the longitudinal direction of the case 1 to be disposed on the center line of the heating space, the rotating shaft (2) is integrally fast together with the connecting shaft 201 extending to the outside It is provided rotatably.

Here, the connecting shaft 201 is preferably detachably coupled to the motor shaft 202 of the drive motor (6). That is, the electric boiler for producing fluid friction heat by the water molecule decomposition motion of the present invention is the drive motor in the structure that the end of the connecting shaft 202 is coupled to and separated from the end of the motor shaft 202 for manufacturability and transportability. It is preferable to be made separable from (6). To this end, the connecting shaft 201 and the motor shaft 202 is connected to the interconnect clutch (7).

In addition, the portion where the rotating shaft 2 penetrates the case 1 is preferably sealed so that the liquid fluid does not leak, and this sealing should not be hindered by the rotation of the rotating shaft 2. To this end, it is preferable that a bearing (not shown) is provided in each of the hollows formed in the case 1 supporting the rotating shaft 2 to reduce the frictional force when the rotating shaft 2 rotates. In addition, it is preferable that an oil seal (not shown) is provided between the hollow and the rotating shaft 2 to prevent leakage or leakage of fluid stored in the heating space of the case 1 in the hollow. Since the configuration of the bearing and the oil seal can be easily implemented by well known techniques, detailed descriptions are omitted.

Meanwhile, disc assemblies are provided at both ends of the rotary shaft 2 so as to be disposed in the heating space. The disc assembly compresses and frictions the liquid fluid supplied from the fluid inlet 11 by high-speed rotation in the heating space. And a hollow to be fixed to the inner surface of the case 1 so as to be discharged through the fluid outlet 12 so that the rotating shaft 2 penetrates in a central portion thereof and to be in contact with the heating space. In order to generate more frictional heat by increasing the compression efficiency during the rotation of (3) A fixed disk 4 radially formed with a plurality of protrusions 402 and spaced inside the fixed disk 4 and provided to rotate at high speed with the rotation shaft 2 so as to face the fixed disk 4. In order to increase the compression efficiency during rotation of the first rotating disc 3 on one side, a plurality of projections 302 are radially formed to generate more frictional heat, and the compression efficiency during the rotation of the first rotating disc 3 on the other side is increased. In order to generate more frictional heat, a plurality of radial vortex parts 303 are formed, and a plurality of through holes 301 are formed in the edge portion, and the first rotation disc 3 The vortex part 503 is formed to be spaced inward and rotated at high speed together with the rotating shaft 2 to generate more frictional heat by increasing compression efficiency when the second rotating disc 5 is rotated on both sides. The through hole 501 is formed in The second consists of a rotary disk (5).

Here, it is preferable that a space portion of a predetermined interval is provided between the disc assemblies. The space portion refers to a central region of the heating space in which the heating space, which is an internal space of the case 1, is partitioned by the disc assembly. Therefore, as the vortices generated from the through-holes 301 and 501 of the rotating discs 3 and 5 are rotated, frictional forces are amplified to heat the liquid fluid more quickly and efficiently.

Therefore, the present invention provides centrifugal force by the protrusions 302 and 402, the vortex parts 303 and 503, and the through holes 301 and 501 formed on the surfaces of the rotating shaft 2 opposite to the disc assemblies, respectively. Since the compression efficiency of the liquid fluid can be increased by the eddy current, friction heat can be generated more smoothly. Through this, it is possible to significantly improve the environmental friendliness and efficiency in heating the liquid fluid.

On the other hand, a drive motor 6 is provided with a motor shaft 202 coupled to the connecting shaft 201 so that the rotating disk 3 is rotated at high speed.

For example, the motor shaft 202 has a diameter of 370 mm and a temperature of 65 degrees Celsius in consideration of the fact that the temperature of the hot water that can be used for heating the liquid fluid heated in the heating space of 500 mm in length is at least 60 degrees or more It is preferably driven at 2950 rpm to 3200 rpm to heat to 95 degrees. To this end, the drive motor 6 is preferably connected to the transformer for high-speed rotation so that power is smoothly supplied. In addition, when the velocity of the liquid fluid passing through the fluid inlet 11 and the fluid outlet 12 is equally set to 1, the fluid inlet 11, the heating space, and the fluid outlet 12 are respectively set. The speed ratio of the liquid fluid passing through is 1: 0.14: 1, and at the same time, the speed ratio to the rotation speed of the rotating shaft is preferably set to 1: 565. That is, it can be carried out with an electric boiler that generates fluid frictional heat through the water molecule decomposition movement substantially available through these conditions.

Hereinafter, with reference to the accompanying drawings will be described the operation and operation effects of the electric boiler to create a fluid friction heat by water molecular decomposition movement according to an embodiment of the present invention.

First, a liquid such as water is filled in the case 1, i.e., in the heating space.

Then, the power is connected to the drive motor 6 and the motor shaft 202 is rotated in order to operate the electric boiler that generates the fluid frictional heat by the water molecule decomposition motion of the present invention. At this time, the connecting shaft 201 integrally connected to the motor shaft 202 is rotated and the rotating shaft 2 is integrally rotated with the connecting shaft 201 is rotated. In addition, when the rotary shaft 2 is rotated, the two first rotary disk 3 and the second rotary disk 5 coupled to the rotary shaft 2 are rotated together.

In this case, the fixed disk 4 and the first rotating disk 3 are arranged to face each other side by side on the same axis so that the first rotating disk 3 and the fixed disk 4 are opposed to each other when the first rotating disk 3 rotates. Heat generated by the compression and friction of the liquid fluid is generated at high compression efficiency by the protrusions 302 and 402 facing each other. The liquid fluid inside the case 1, which contains heat generated by compression and friction, is moved to a space that is a space between the disc assemblies, whereby the first rotating disc 3 and the second rotating disc 5 are rotated. The centrifugal force and the vortex force formed by the formed vortex parts 303 and 503 and the through holes 301 and 501 facilitate the compression and friction of the liquid fluid and move to the fluid outlet port 12. The fluid outlet port 12 The liquid fluid further heated by repeated compression and friction by the fixed disc 4 and the first rotating disc 3 provided on the fluid outlet 12 side before being discharged through the fluid outlet 12 is discharged to the outside through the fluid outlet 12. Discharged.

On the other hand, Figure 3 is an exemplary view in which an electric boiler is used to create a fluid frictional heat in the water molecular decomposition movement according to an embodiment of the present invention.

As shown in Figure 3, the electric boiler to create the fluid friction heat by the water molecule decomposition motion of the present invention can be used as a boiler for heating is connected to the heating water tank 20 for temporarily storing hot water for heating.

That is, the fluid inlet 11 and the fluid outlet are connected to the heating water tank 20 and the pipe 30 by a pipe 50 and supply water to the electric boiler 10 by the pump 50 to the control valve 40. By controlling the amount of inflow and outflow of the liquid fluid and by controlling the heating amount by controlling the drive motor (6) with a separate controller 60 it can provide a heating system that is environmentally friendly and heat efficient compared to energy consumption.

Therefore, by setting the rotation of the electric boiler to create a fluid friction heat in the water molecule decomposition motion according to the present invention can be supplied hot water in the substantially 90 ℃ ~ 95 ℃ range can be used sufficiently for heating .

On the other hand, Figure 4 is another exemplary diagram in which an electric boiler is used to create a fluid frictional heat in the water molecule decomposition motion according to an embodiment of the present invention.

As shown in Figure 4, the electric boiler to create a fluid friction heat by the water molecule decomposition motion of the present invention is connected to the hot water tank 150 for storing hot water for water supply such as heating and bathroom through the mixing tank 120 It can be used as a boiler for heating and water supply. That is, the water inside the hot water tank 150 is used as hot water supply, and the water inside the coil-shaped pipe inside the hot water tank 150 is indirectly heated to circulate in a heating heater, a radiator, and the like.

Through this, the electric boiler to create the fluid friction heat by the water molecular decomposition movement of the present invention is made of a simple configuration as described above, because the compact installation and thermal efficiency is excellent, requiring a large amount of heating water in greenhouses, schools, factories, etc. It can be useful in places.

As described above, the present invention rotates the liquid fluid to heat the liquid fluid itself by compression and friction by centrifugal force and vortex force generated in the liquid fluid. In detail, the present invention is a projection for increasing the compression efficiency of the liquid fluid by rotating the first rotation disk 3 and the second rotation disk disposed on both sides of the liquid fluid filled in the heating space with a free space in the center By the 302 and 402, the vortex parts 303 and 503, and the through holes 301 and 501, compression and friction by centrifugal force and vortex force are repeated to heat the liquid fluid itself by vibration and friction force of the liquid fluid.

Therefore, the electric boiler 10 of the present invention is a disc assembly made of a drive motor 6 and a special disk, the hydrogen generated by splitting the water molecules (H ₂ O) is an energy that rises to the instantaneous explosion force 10000 ℃ when applying a physical force It is an application of the dynamics principle.

Through this, unlike conventional boilers based on fuel such as charcoal, coal, diesel, gas, etc., it is environmentally friendly and thermal efficiency can be significantly improved compared to energy consumption. Accordingly, energy costs can be reduced. In addition, since the device used in the conventional indirect heating method is omitted, it can be configured as a small and simple device. Moreover, maintenance is simple.

Moreover, the heat generation rate is superior to the heating fuel consumption, which is advantageous for heating a large amount of hot water, which is suitable for applying to central heating.

As described above, the present invention is not limited to the above-described embodiments, but may be modified by those skilled in the art without departing from the scope of the claims of the present invention. Such modifications are within the scope of the present invention.

1 is a cross-sectional view showing an electric boiler for producing fluid frictional heat by the water molecule decomposition motion according to an embodiment of the present invention.

Figure 2 is a perspective view showing the disc assembly of the electric boiler to create a fluid friction heat in the water molecule decomposition motion according to an embodiment of the present invention.

3 is an exemplary view in which an electric boiler is used to create a fluid frictional heat by a water molecule decomposition motion according to an embodiment of the present invention.

Figure 4 is another illustration of the use of an electric boiler to create a fluid friction heat in the water molecular decomposition movement according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: electric boiler 1: case

2: rotation shaft 201: connecting shaft

3: first rotating disc 4: fixed disc

5: second rotation disc 301, 501: through hole

6: drive motor 20: tank

30: piping 40: valve

11: fluid inlet 12: fluid outlet

302, 402: protrusion 303, 503: vortex

Claims (5)

A case in which a fluid inlet and a fluid outlet are formed at both sides and a cylindrical heating space is formed therein; A rotating shaft penetrating to be disposed on a center line of the heating space in a longitudinal direction of the case and integrally rotating with a connection shaft extending outwardly; Each end of the rotating shaft is provided to be disposed in the heating space, the liquid fluid supplied from the fluid inlet is heated by compression and friction by high-speed rotation in the heating space to discharge through the fluid outlet, of the case A fixed disk fixed to an inner surface, a first rotating disk spaced apart so as to rotate at a high speed with the rotating shaft inside the fixed disk, and a second spaced apart so as to rotate at a high speed with the rotating shaft inside the first rotating disk. A disc assembly consisting of a rotating disc; And An electric boiler for producing fluid friction heat by the decomposition of the water molecules comprising a drive motor coupled to the motor shaft to the connecting shaft so that the first rotating disk and the second rotating disk to rotate at high speed. The method of claim 1, A hollow through which the rotating shaft penetrates is formed in a central portion of the fixed disk, and a plurality of protrusions are formed radially on a surface in contact with the heating space. And a plurality of radial vortices are formed on the other surface, a plurality of through holes are formed on the edge portion, the vortex portions are formed on both sides of the second rotating disc, and the through holes are formed on the edge portion. An electric boiler that produces fluid frictional heat through molecular decomposition. The method of claim 1, Bearings are provided in each of the hollows formed in the case supporting the rotating shaft, and the oil boiler is provided with the oil seals in the hollows to create a fluid friction heat by the decomposition motion of the water. The method of claim 1, The connecting shaft is an electric boiler for producing fluid friction heat by water molecule decomposition movement, characterized in that detachably coupled to the motor shaft of the drive motor. The method of claim 1, An electric boiler for producing fluid friction heat by the decomposition of the water molecules, characterized in that the space between the disc assemblies are provided with a predetermined interval.

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