KR20070044622A - Thermal energy generator using frictional heat - Google Patents

Abstract

The present invention relates to a device for supplying a heat source or steam used in a heating device, such as a boiler, in the construction of a heat energy generating device for heating water or generating water vapor contained in the interior space of the water container 10, An energy generator in which at least one disk 32 is sequentially disposed on the rotating shaft 31 while being connected to and rotated through the power generator 20 rotating by external power to the water container 10. 30 is embedded, characterized in that to accelerate the water molecule movement through frictional heat generated in the rotation process of the energy generator 30 to generate thermal energy, the water contained in the water container is a high-speed rotation process of the disk By using the heat of friction generated in the heating or generating steam, it is possible to generate thermal energy even in the state of eliminating the use of fossil fuel. This allows you to minimize doemeun well as contribute to environmental problems.

Thermal energy generator, water container, power generator, energy generator, disc

Description

Thermal energy generator using frictional heat {A Genesis Equipment of Thermal Energy from Friction Heat}

1 is an overall view showing a heat energy generating apparatus according to the present invention,

Figure 2 is a perspective view showing a power generator of the thermal energy generating device according to the present invention,

3 is a partially enlarged view showing a power generator according to the present invention.

Explanation of symbols on the main parts of the drawings

1: heat energy generating device 10: water container

11: inlet 12: outlet

20: power generating body 21: rotating shaft

30: energy generator 31: rotation axis

32: disk 32a, 32b: horizontal hole, vertical hole

33: fixed frame 34: cylinder

The present invention relates to a device for supplying a heat source or steam used in a heating device such as a boiler, in particular using friction heat to generate heat energy by accelerating the water molecule movement through the friction heat generated during the high-speed rotation of the disk It relates to a heat energy generating device.

In general, a boiler is a heating device used for heating or supplying hot water in a home or a building. The boiler heats water above a certain temperature, and then supplies the water to each place through a supply pipe and uses the radiant heat to heat the work. After finishing, the structure is returned to the circulation pump.

However, since the boiler is a method of providing a heat source by the combustion chamber heated by fossil fuel or electricity by oil, gas, coal, etc. up to now, the economic burden in the high oil prices era as well as causing environmental problems.

Moreover, due to the development of technology, boilers are only researched and developed in order to improve the performance of the circulating pump or preserve heat loss, and do not change the perception such as minimizing the use of fossil fuel or excluding the circulating pump. It is not.

Thus, the present invention was devised to solve the problems as described above, by using friction heat to generate heat energy by accelerating the water molecule movement through the frictional heat generated during the high-speed rotation process of the disk by external power The purpose is to provide a thermal energy generating device.

The present invention for achieving the above object, in the construction of a heat energy generator for heating water or generating water vapor contained in the inner space of the water container, the water container is connected to the power generator via a medium to rotate While at least one disk is disposed on the rotation axis sequentially arranged in the energy generator, it characterized in that to generate thermal energy by accelerating the water molecule movement through the frictional heat generated during the rotation of the energy generator.

Hereinafter, an embodiment according to the present invention will be described.

1 to 3 is an overall view of the thermal energy generating device according to the present invention and a perspective view of the power generator and a partial enlarged view of the power generator, heating the water contained in the inner space of the water container 10 or generates steam In constructing a thermal energy generating device, at least one disk on the rotating shaft 31 is rotated while being connected to the water container 10 by the power generator 20 that rotates by external power ( An energy generator 30 in which 32 is sequentially disposed is embedded, thereby accelerating water molecule movement through frictional heat generated during the rotation of the energy generator 30 to generate thermal energy.

First, the thermal energy generating device 1 is for heating or water vaporizing water using frictional heat, and includes a water container 10 for accommodating water, and an energy configured inside the water container 10. It is composed of a generator 30 and a power generator 20 connected to the energy generator 30 to generate a rotational power.

And, the water container 10 is a cylinder for receiving water supplied from a water supply line (not shown), it is preferable to form the inner space as cylindrical as possible, the inlet for receiving water in one side ( 11) is formed, the outlet 12 for supplying heated water or steam to the place of use is formed on the other side.

Of course, the water container 10 has been described as limited to the inlet 11 and the outlet 12 are formed on both sides thereof, but can be formed by changing the position of the inlet 11 and outlet 12 in addition to It may be formed on one side of all, in particular, the number is preferably formed in each one as possible.

In addition, the power generator 20 is configured to provide a rotational force to the energy generator 30 described later, which is configured on the side of the water container 10, and rotates the energy generator 30 such as a motor. If the means can be included in the technical category of the present application, in particular, one side of the rotating shaft 21 is configured.

And, the energy generator 30 is connected to the power generator 20 and rotates at the same time, and is mounted to the side of the power generator 20 and the cylinder 34 and fixed through the fixing frame 33. It consists of the rotating shaft 31 attached to the internal space of this cylinder 34, and the several disk 32 attached sequentially to this rotating shaft 31. As shown in FIG.

Of course, the disk 32 is composed of a disk-shaped fixing portion 32c fixed on the rotating shaft 31 and a ring-shaped outer portion 32d integrally formed on the circumferential surface of the fixing portion 32c. In particular, it is preferable to maximize the rotational inertia by forming the thickness of the outer portion 32d relatively thicker than the fixing portion 32c.

In addition, the inclined portion 32e for inducing the flow direction of the water to the outside at the contact point between the fixing portion 32c and the outer portion 32d is formed to be inclined at a predetermined angle.

In addition, the disk 32 is formed such that a plurality of horizontal holes 32a and vertical holes 32b for generating a vortex in the outer portion 32d communicate with each other.

Of course, the inclined portion 32e of the disk 32 generates a vortex with the horizontal / vertical holes 32a and 32b as well as inducing the flow of water in the inclined direction.

In addition, the disk 32 is preferably formed on the outer surface of the layer or formed of a material having excellent corrosion resistance to extend the life.

In addition, the inner diameter of the horizontal hole (32a) and the vertical hole (32b) in the disk 32 can be adjusted to an appropriate size according to the volume of the water container 10 or the capacity of the power generator 20, so The description will be omitted.

In addition, the rotating shaft 21 of the power generator 20 and the rotating shaft 31 of the energy generator 30 may be directly connected through a coupling, or indirectly connected through a pulley or a belt. It is not.

In addition, in the construction process of the energy generator 30, it is natural that a plurality of rotating shafts 31 may be configured in parallel to increase efficiency.

Hereinafter, the operation according to the present invention will be described.

First, in the case of heating the water contained in the water container 10 or generating water vapor, once the power generator 20 is operated, the energy generator 30 connected to the power generator 20 through the rotary shaft 31 is formed. ) Rotates.

Then, when the water supplied to the inlet 11 of the water container 10 is filled with the water container, when rotating the disk 32 of the energy generator 30, the components of the disk 32 and As the water rubs, it creates a vortex.

At this time, when the water in the water container (10) causes a vortex, the top layer of the water is braked and the surface of the speed is reduced to generate friction heat.

Subsequently, the water flowing into the water container 10 is scattered in the inclined direction via the inclined portion 32e as well as swirling vigorously while passing through the horizontal hole 32a and passing through the vertical hole 32b. The vortex is accelerated to generate bubbles.

As a result, the surface of the bubbles formed by the horizontal / vertical holes 32a and 32b and the inclined portion 32e rotates at a high speed, so that the water container 10 reacts against the internal pressure of the vapor bubbles and the disk 32. Rotational momentum forces pressure on the water mass and surface tension.

Therefore, the bubbles generated during the rotation of the disk 32 burst continuously in response to the reaction, and eject the impact energy (heat) in the low frequency band (sound) and the thermal infrared band together.

At this time, the size of the bubble produced by the band and the energy density emitted is directly proportional to the linear velocity of the interaction between the surface of the water and the disk friction and inversely proportional to the pressure inside the water, so the size of the bubble should be adjusted.

In particular, in order to obtain the thermal energy concentrated in the thermal infrared band by using the horizontal / vertical holes 32a and 32b and the inclined portion 32e of the disk 32, the size of the spiral water vapor bubbles is 500 to 1500 nanometers and friction is generated. It is desirable to maximize the efficiency of energy.

Therefore, maximizing the frictional heat involves the size, pressure, frictional area, friction time, frictional speed, etc. of the steam bubbles generated in the uppermost layer of water, and the heated water is supplied to the place of use through the outlet 12 through this process. Will be.

At this time, it is obvious that an additional heating device may be added to the energy generating device 1 as an auxiliary device.

On the other hand, when optimizing the generation of frictional heat using the heat energy generating device (1) according to the present invention, it took about 30 minutes to heat 1 ton of water of 20 ℃ to 96 ℃, this experimental result is that Not only does it mean that it can be a new energy source, but it also means that if the generator is properly sized, it can produce small to large thermal energy.

As described above, according to the thermal energy generating apparatus using frictional heat according to the present invention, the water contained in the water container is heated by using frictional heat generated during the high-speed rotation of the disk or by generating steam, thereby eliminating the use of fossil fuel. The thermal energy can be generated even in the state, thereby minimizing the economic burden and contributing to environmental problems.

Claims (3)

In constructing a thermal energy generating device for heating water or generating water vapor contained in the internal space of the water container 10, An energy generator 30 in which at least one disk 32 is sequentially disposed on the rotation shaft 31 while being connected to the water container 10 through a power generator 20 rotating by external power. ) Is built, heat energy generating device using friction heat, characterized in that to generate heat energy by accelerating the water molecule movement through the friction heat generated in the rotation of the energy generator (30). The method of claim 1, wherein the disk 32 of the energy generator 30, A disk-shaped fixing portion 32c fixed on the rotating shaft 31 and a ring-shaped outer portion 32d formed thicker than the fixing portion 32c while being integrally formed on the peripheral surface of the fixing portion 32c. And a plurality of horizontal / vertical holes 32a and 32b which are formed in communication with the outer portion 32d to generate a vortex, and contact points between the fixing portion 32c and the outer portion 32d of water Thermal energy generating device using friction heat, characterized in that consisting of inclined portion (32e) to induce the flow direction inclined. The method of claim 1, wherein the power generator 20, Thermal energy generating device using friction heat, characterized in that the motor.

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