KR101188712B1 - Device for generation heat using centrifugal hydraulic implosion - Google Patents

Abstract

PURPOSE: A heat generation apparatus using centrifugal implosion for home use is provided with a compact structure with an enough length of a waveguide. CONSTITUTION: A heat generation apparatus using centrifugal implosion for home use comprises a housing(10), a driving unit(20), and an implosion induction unit. The housing comprises an inlet port(11) and an eject port(12). A driving shaft(22) of the driving unit is placed in the housing. The implosion induction unit comprises a first drum(31) and a second drum(33). The first drum is separated from the inner surface of the housing, and forms a first waveguide(S1). The second drum is connected to the driving shaft, and placed in the first drum. The second drum is separated from the inner surface of the first drum, and forms a second waveguide(S2) connected to the first waveguide. The first and second drums comprise first and second implosion grooves.

Description

DECICE FOR GENERATION HEAT USING CENTRIFUGAL HYDRAULIC IMPLOSION}

The present invention relates to a centrifugal fluid quenching heat generating apparatus for home use, and more particularly, a drive means having an inlet port, a housing having a discharge port, a drive shaft arranged in the housing, and connected to the drive shaft, and having a first immersion groove. It comprises a first drum, and the induction inducing means connected to the drive shaft, spaced apart from the inner peripheral surface of the housing to form a waveguide, and a second drum having a second immersion groove formed on the outer peripheral surface.

Accordingly, the present invention induces fluid movement to each waveguide by rotating the drum at high speed, and at this time, by increasing the friction induction effect by the plunging groove of each drum to maximize the efficiency of the device through rapid heating of the fluid In addition, it replaces conventional fossil energy and prevents pollutants from being discharged during operation of the device, thereby preventing environmental pollution. In particular, each drum of the induction means ensures a sufficient length of the waveguide, while being superimposed. It is characterized in that it can be supplied to a small household because it is compactly configured to provide a high-efficiency environment-friendly condensation heat generator.

In general, a boiler burns fuel for a certain time to heat water, and supplies water to a water supply or heating facility through a pipe, where a separate combustion chamber is used as a means for heating water.

In recent years, boilers have been improved in performance and improved in performance. However, boilers have a complicated structure, requiring high technology in construction, maintenance, and maintenance. The burden on fuel supply due to high oil prices is also increasing.

In order to solve such a problem, various types of energy-saving boilers have been disclosed for reducing fuel loss, but the energy-saving boilers heat water by burning fuel such as oil, gas, and coal in the same way as conventional boilers. As a result, energy savings were inevitable.

In addition, the method of heating the water by burning the fuel as described above, there is a problem of environmental pollution by the exhaust gases inevitably generated during the combustion of the fuel,

These pollutants cause global warming and various diseases.

In particular, in recent years, energy consumption resources are exhausted, and the total amount of energy is imported from foreign countries. Due to high oil prices over a long period of time, the need for alternative energy means is increasing. Thus, heating / hot water supply facilities using non-fossil fuels are used. The development of is urgently required.

There is a patent registration No. 10-0991457 (2010.10.27) "centrifugal fluid ignition heat generator" developed by one of the inventors of the present invention,

It can be seen that the invention described in the detailed description of the present invention can significantly increase the heating efficiency of the fluid compared to the above-mentioned patent.

The present invention has been made to solve the above problems,

Each drum of the coke inducing means rotates at high speed to induce fluid movement to each waveguide, and at this time, the friction induction effect is increased by the cog groove of each drum to maximize the efficiency of the device through rapid heating of the fluid,

In addition to replacing the conventional fossil energy, it is one object that the pollution is not emitted during operation of the device to prevent environmental pollution.

In particular, the present invention, while each drum of the induction means is sufficient to secure the length of the waveguide, it is compactly configured in a nested form can be introduced into a small household can provide a high efficiency of the heat generation device of the high efficiencies, so that the customer satisfaction It is another purpose to be able to increase.

In addition, the present invention is further provided with an extension member for increasing the length of the second waveguide to double the friction induction tool to double the friction induction effect,

In addition, the cross-sectional shape of the extension member to form the upper and lower strait, the through hole formed with a spiral portion on the inner circumferential surface, or the first auxiliary amplification grooves provided by the second waveguide for the purpose of maximizing the friction induction effect is another object do.

Home centrifugal fluid quenching heat generating apparatus according to the present invention comprises a housing having an inlet and an outlet; Drive means having a drive shaft arranged in the housing; The first waveguide is spaced apart from the inner circumferential surface of the housing, the first drum having a first immersion groove, connected to the drive shaft, and received and coupled to the first drum are spaced apart from the inner circumferential surface of the first drum. And a second guiding means forming a second waveguide connected to the first waveguide and having a second drum having a second immersion groove.

The first drum according to the present invention is characterized in that it is provided in close contact with the inner circumferential surface, the third drum having a third immersion groove.

An extension member connected to the housing according to the present invention and arranged on the second waveguide is further provided.

The extending member according to the present invention is provided with a water supply hole, the water supply hole is characterized in that the cross-sectional shape is made up of the upper and lower narrow (上 (下 廣) shape.

The inner circumferential surface of the water passage is characterized in that the spiral portion is further provided.

The water passage of the extension member according to the present invention is characterized in that the cross-sectional shape is made up of the upper and lower straits (上 廣 下 狹) shape.

The extension member according to the invention is characterized in that the first auxiliary amplification groove is further provided.

An inner circumferential surface of the housing according to the present invention is further provided with a second auxiliary hum groove.

The housing according to the present invention is characterized in that the waveguide rod is formed on the inner circumferential surface and arranged in a position corresponding to the first lumped groove of the first drum to form a lumped space.

In the home centrifugal fluid coagulation heat generator according to the present invention, each drum of the coagulation induction means rotates at high speed to induce fluid movement to each waveguide, and at this time, the friction induction effect is increased by the coagulation groove of each drum to rapidly heat the fluid. Maximize the efficiency of the device through

In addition to replacing the conventional fossil energy, pollutants are not emitted during operation of the device to prevent environmental pollution.

In particular, the present invention, while each drum of the induction means is sufficient to secure the length of the waveguide, it is compactly configured in a nested form can be introduced into a small household can provide a high efficiency of the heat generation device of the high efficiencies, so that the customer satisfaction It can be increased.

In addition, the present invention is further provided with an extension member for increasing the length of the second waveguide to double the friction induction tool to double the friction induction effect,

In addition, the cross-sectional shape of the extension member forms a light-lower narrowing shape, and a through hole having a spiral portion on the inner circumferential surface or the first auxiliary amplification grooves are provided to maximize the friction induction effect in the second waveguide.

1 is a perspective view showing a home centrifugal fluid immersion heat generating apparatus according to the present invention,
2 and 3 is a cross-sectional view showing a domestic ignition heat generating apparatus according to the present invention,
4 and 5 are cross-sectional views showing further modified examples of the domestic heat generation apparatus according to the present invention.

Hereinafter, a home centrifugal fluid quenching heat generating device according to the present invention will be described with reference to the accompanying drawings.

The ignition heat generating apparatus according to the present invention uses a collision, splitting, implosion, and cavitation of fluid molecules.

Collision and splitting of fluid molecules refers to intermolecular collisions and the resulting splitting phenomenon.

In other words, such a collision or fragmentation is induced by cavitation and coagulation.

First, cavitation, or cavitation, refers to a phenomenon in which when a liquid is flowing, the pressure at a point drops below the vapor pressure of the liquid temperature at that time to separate air and water vapor in the liquid to generate bubbles, and to form a cavity.

Such cavitation occurs at places where there is a sudden change in the passage of the fluid.

Next, the condensation phenomenon of a fluid molecule means one of the natural phenomena occurring in a fluid such as Brown gas.

Brown gas is present in a mixed gas state in which hydrogen and oxygen are exactly mixed in a chemical equivalence ratio of 2: 1 in the same ratio as the water composition ratio. When Brown gas in such a mixed gas state is combusted, it exhibits different combustion characteristics from hydrogen. This is called the implosion phenomenon.

1 to 3, the home centrifugal fluid ignition heat generating apparatus according to the present invention is

A housing 10 having an inlet port 11 and an outlet port 12; Drive means (20) having drive shafts (22) arranged in said housing (10); The first waveguide S1 is spaced apart from the inner circumferential surface of the housing 10, and is connected to the first drum 31 having the first immersion groove 31a and the drive shaft 22, and the first drum. It is received and coupled to (31), spaced apart from the inner circumferential surface of the first drum 31 to form a second waveguide (S2) connected to the first waveguide (S1), the second epoch groove 33a is provided It comprises a; inducing means 30 composed of a second drum (33).

1 to 5, the housing 10 according to the present invention is

It has a cylindrical shape, has an inner chamber 13, and is provided with mounting brackets 14 for fixing the ignition heat generating apparatus to an installation place in front and rear.

Each mounting bracket 14 of the housing 10 is formed with an inlet 11 and an outlet 12,

The inlet 11 is formed through the curved shape from the lower surface of the rear mounting bracket 14B to the inner lower portion,

The discharge port 12 is formed through the upper surface of the front mounting bracket 14A in a curved shape to the upper surface.

And the inlet 11 is connected to the pump (P) for supplying a fluid through a pipe to supply the fluid at a constant pressure,

The discharge port 12 is connected to the storage tank (not shown) for storing and / or supply the hot water discharged through the pipe.

In this case, the discharge port 12 is preferably arranged in the upper position than the inlet (11),

This is because the fluid flowing through the inlet 11 is usually cold water that is not heated, the inlet 11 is formed to communicate with the lower chamber of the housing,

The fluid heated by the induction chamber 30 in the inner chamber 13 of the housing 10 is a high temperature water, so that a synergistic action occurs in the upper chamber 13 of the housing 10 due to the specific gravity difference. ) Is preferably located at the top.

In addition, the front mounting bracket (14A) is a through hole (14a) is formed in the center portion is driven through the drive shaft 22 of the drive means 20,

The rear mounting bracket 14B is provided with a mounting groove 14b in a center portion thereof, and the rear end of the driving shaft 22 is inserted therein.

In addition, the housing 10 is provided with a container 1 is connected to the rear mounting bracket (14B),

The pump 1 and the drive motor 21 of the drive means 20 are built in the container 1 so as to reduce the volume of the ignition heat generating device and to make it compact, and also to improve the appearance and appearance of the pump. B. It is desirable to prevent inconvenience in the home use by blocking the noise generated from the driving motor.

1 to 5, the drive means 20 according to the present invention is

A drive motor 21 embedded in the container 1 and a drive shaft 22 connected to the drive motor 21 to cross the inner chamber of the housing 10.

The rotational speed of the drive motor 21 is about 2,000 to 10,000 rpm to rotate each drum connected to the drive shaft 22 at high speed to maximize the heating factors of the fluid, such as centrifugal force, shear force, response, flash, cavitation, etc. It is desirable to.

In addition, both ends of the drive shaft 22 are inserted into the through hole 14a of the front mounting bracket 14A and inserted into the mounting groove 14b of the rear mounting bracket 14B.

The drive shaft 22 is inserted into the through hole 14a and the mounting groove 14b and is provided with a shaft support 24.

In addition, a bearing 25 is provided in the through hole 14a and the mounting groove 14b outside of each of the shaft support parts 24 to insert the driving shaft 22 into the rotation support.

The driving shaft 22 is exposed to the outside of the through hole 14a and is connected to the joint 23 provided in the shaft of the driving motor 21 so that the rotational force of the driving motor 21 is transmitted to the driving shaft 22.

As shown in Figures 1 to 5, the inducing means 30 according to the present invention

The fluid flowing into the inner chamber 13 from the inlet 11 of the housing 10 is configured to rapidly heat the fluid with frictional heat generated by the respective drums rotating at high speed to generate hot water.

The inducing means 30 is composed of first and second drums 31 and 33,

First, the first drum 31 has a cylindrical shape and has a first accommodating part 31b, and an outer circumferential surface thereof is spaced apart from an inner circumferential surface of the housing 10 to form a first waveguide S1.

At the rear, a first insertion hole 31c through which the drive shaft 22 is coupled is provided.

Next, the second drum 33 is accommodated in the first accommodating portion 31b of the first drum 31, and the outer circumferential surface thereof is spaced apart from the inner circumferential surface of the first drum 31 so that the first waveguide S1 may be formed. ) To form a second waveguide (S2),

A second insertion hole 33b is formed at the center of the second drum 33 so that the driving shaft 22 penetrates and is coupled thereto.

In addition, a rear part of the first drum 31 and a rear part of the second drum 33 are provided with a coupling part 37 formed to correspond to each other, and the bolt B is fastened to the coupling part 37 to form the first part. The first and second drums 31 and 33 are fixedly coupled.

In particular, first and second damping grooves 31a and 33a are formed on outer circumferential surfaces of the first and second drums 31 and 33, respectively, between the housing 10 and the first drum 31. The cross section of the flowing water passing through each of the waveguides S1 and S2 between the first and second drums 31 and 33 is rapidly changed to induce vortex and turbulence phenomena to increase the cavitation phenomenon and frictional force, thereby enhancing the heating effect of the fluid. It becomes possible.

In this case, it is preferable to form an etch groove in the inner circumferential surface of the first drum,

Since the first and second drums use aluminum or a similar metal material for corrosion resistance and light weight,

In order to mold each drum having a cylindrical shape, a die casting method is usually used.

In this case, since it is difficult to form the indentation groove in the inner peripheral surface of the first drum,

In the present invention, the third drum (35) accommodated in the first receiving portion (31b) of the first drum (31) is introduced,

The third drum 35 may be provided with a third immersion groove 35a to obtain the same effect as forming the immersion groove on the inner circumferential surface of the first drum 31.

That is, the outer peripheral surface of the third drum 35 is in close contact with the inner peripheral surface of the first drum 31,

Its rear side is provided with a coupling portion corresponding to the coupling portion 37 is fastened by being fastened by the first and second drums 31, 33 and the bolt (B),

The third drum 35 is provided with a second receiving portion 35b to accommodate the second drum 33,

In this case, an outer circumferential surface of the second drum 33 and an inner circumferential surface of the third drum 35 are spaced apart from each other to maintain the second waveguide S2.

In this case, the third immersion groove 35a is manufactured in the form of a through hole, but the through hole is in contact with the first drum 31 and the third drum 35 while the outside thereof is formed by the inner circumferential surface of the first drum. By closing it is possible to maintain the groove shape.

Therefore, by the driving means 20, each drum rotates at a high speed, and the fluid passing through each waveguide is heated by frictional heat by the respective indentation grooves, thereby allowing the high temperature fluid to be discharged to the discharge port 12.

That is, the induction inducing means 30 according to the present invention is built in a form in which the second and third drums 33 and 35 are superposed inside the first drum 31, while reducing the volume of the induction heating device, A waveguide (S1) (S2) is formed between each drum to ensure a sufficient length of the flow path can be applied to a small household, it is possible to provide a high-efficiency environment-friendly condensation heat generator.

1 to 5, in order to extend the length of the second waveguide S2 in the present invention.

It is further provided with an extension member 40 connected to the front mounting bracket 14A of the housing 10 and arranged on the second waveguide S2.

The extension member 40 has a cylindrical shape and is arranged between the second drum 33 and the third drum 35,

By extending the second waveguide (S2) it is possible to maximize the heating efficiency by increasing the friction oil tool more than twice.

In addition, as shown in Figure 4 the extension member 40 is formed with a plurality of water holes 41 to further increase the friction induction effect,

The through-hole 41 has a cross-sectional shape of the upper and lower narrow (上 廣 下 狹) shape of the fluid toward the second waveguide located inside the second waveguide (S2) provided on the outside with respect to the extension member 40. To accelerate and eject

The ejection speed makes it possible to further enhance the collision, splitting, compression, and flashing phenomenon of the fluid.

In addition, a spiral portion 41a is provided on the inner circumferential surface of the water passage 41 so that the fluid passing through the water passage 41 by the spiral portion 41a accelerates and ejects while forming a vortex to impinge on, collide, and compress the fluid. It is desirable to further increase the phenomenon such as glare, to double the heating efficiency of the fluid.

Meanwhile, as shown in FIG. 5, an annular waveguide rod 15 is formed on the inner circumferential surface of the housing 10 according to the present invention to enlarge the waveguide S1.

The waveguide rod 15 is provided at a position corresponding to the first immersion groove 31a of the first drum 31 to form the immersion space S3.

Therefore, in the quenching space S3, the collision and splitting of the fluid molecules are accelerated by the cavitation phenomenon and the quenching phenomenon, thereby rapidly increasing the temperature of the fluid, thereby maximizing the heating efficiency of the fluid.

The waveguide rod 15 is formed on the inner circumferential surface of the housing so as to correspond to the number of arrangement of the first immersion grooves so as to correspond to the first immersion grooves 31a of the first drum 31.

Although not shown in the accompanying drawings, it is also possible to form the waveguide rod 15 spirally on the inner peripheral surface of the housing 10 to accelerate the friction of the fluid.

Therefore, the waveguide rod 15 and the first immersion groove 31a on the first waveguide S1 form not only the swept space S3, but also the waveguide rod 15 is not formed on each of the waveguides S1. In the non-spaced space, the auxiliary swept space S4 is formed by each of the swelling grooves, thereby accelerating the cavitation and the swelling phenomenon.

Furthermore, as shown in FIGS. 4 and 5, the extension member 40 according to the present invention further includes a first auxiliary amplitude groove 43 or a second auxiliary amplitude groove on the inner circumferential surface of the housing 10. 43) is further provided,

This allows the fluid passing through each of the waveguides S1 and S2 to be accelerated by the respective reciprocating grooves and the respective auxiliary reciprocating grooves, thereby increasing the friction induction effect.

For this reason, the first auxiliary amplitude groove 43 is preferably formed in the inner and outer peripheral surfaces of the extension member 40,

If necessary, it may be formed on the outer circumferential surface or the inner circumferential surface of the extension member.

Meanwhile, the first lumped groove may have different depths (see 'B' in FIG. 3) or different cross-sectional shapes (see 'C' in FIG. 3) to increase friction.

This allows the fluid passing through the first waveguide S1 to deepen irregular flow by the respective entangled grooves to induce vortex or turbulent phenomena to further increase the friction induction effect.

In addition, although not shown in the accompanying drawings, the second and third immersion grooves and the first and second auxiliary immersion grooves are formed by varying depths and cross-sectional shapes, as shown in 'B' and 'C' of FIG. It is also possible to further increase the friction induction effect, which is preferable.

In addition, as shown in FIG. 4, the extension member 40 may be provided with the water passage 41 and the first auxiliary response groove 43 at the same time.

In addition, although not shown in the accompanying drawings, it is also possible that each of the water hole and the first auxiliary amplifier groove are provided separately.

In the above description of the present invention, the centrifugal fluid quenching heat generating device according to the present invention has been described with reference to a specific shape and direction, but the present invention can be variously modified and changed by those skilled in the art. It should be construed as being included in the scope of the invention.

P: Pump S1: First Waveguide
S2: second waveguide S3: blast space
S4: auxiliary bombing space
1: container
10 housing 11 inlet
12 discharge port 13: inner chamber
14 mounting bracket 14a through hole
14b: mounting groove 15: waveguide rod
16: second auxiliary exposure groove
20: drive means 21: drive motor
22: drive shaft 23: joint
24: shaft support 25: bearing
30: inducing means 31: first drum
31a: first indentation groove 31b: first receiving portion
31c: first insertion hole 33: second drum
33a: second indentation groove 33b: second insertion hole
35: third drum 35a: third indentation groove
35b: second receiving portion 37: coupling portion
40: extending member 41: water passage
41a: Spiral part 43: 1st auxiliary exposure groove

Claims (8)

A housing having an inlet and an outlet;
Drive means having a drive shaft arranged in the housing;
A first drum spaced apart from an inner circumferential surface of the housing to form a first waveguide, and having a first immersion groove;
A second drum connected to the driving shaft and received and coupled to the first drum, spaced apart from an inner circumferential surface of the first drum to form a second waveguide leading to the first waveguide, and having a second immersion groove; It is made, including;

A third drum is provided in close contact with the inner circumferential surface of the first drum and has a third immersion groove.
A cylindrical extension member connected to the housing and arranged on the second waveguide is further provided to extend the second waveguide to increase the friction tool.
And a waveguide rod formed on the inner circumferential surface of the housing and arranged at a position corresponding to the first lumped groove of the first drum to form a lumped space.
delete delete The method of claim 1,
The extending member is provided with a water supply hole, the water supply hole is a centrifugal fluid condensation heat generating apparatus for the home, characterized in that the cross-sectional shape is formed in the upper and lower narrow (上 廣 下 狹) shape.
The method of claim 4, wherein
A centrifugal fluid condensation heat generator for home, characterized in that a spiral portion is further provided on the inner circumferential surface of the water passage.
The method of claim 1,
The extension member is a domestic centrifugal fluid heat generation apparatus, characterized in that the first auxiliary amplifier groove is further provided.
The method according to any one of claims 1 to 4, wherein
The inner circumferential surface of the housing further comprises a second auxiliary amplifier groove, the home centrifugal fluid immersion heat generating apparatus. delete

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