KR20190031140A - Spiral maximize water pipe water conte generating set - Google Patents

Abstract

The present invention relates to a hydroelectric power generation device of a spiral maximization flow path structure. The hydroelectric power generation device comprises: a first housing (11); a second housing (12); a third housing (13); a fourth housing (14); a cylindrical rotary body (30); a spiral flow path plate (32); a driven gear (70); and a driving gear (80). The present invention has an effect of advantageously creating energy.

Description

[0001] SPIRAL MAXIMIZE WATER PIPE WATER CONTE GENERATING SET [0002]

More particularly, the present invention relates to a hydropower generation device having a spiral-type maximization channel structure, and more particularly, to a hydropower generation device having a spiral-type maximization channel structure, And a plurality of circular nozzle second nozzle holes, that is, a first and a second nozzle are arranged in a cylindrical shape having a spiral flow path plate extending in a horizontal direction immediately below the drop by the flow of water, A total of the energy of the maximizing device that is integrally rotated and unidirectionally rotated in one direction and a plurality of teeth of a plurality of driving gears on the outer side and a tooth of the driven gear having a plurality of teeth around the circumference of the maximizing device The total mechanical energy transferred to the cylindrical rotating body is obtained by multiplying the momentum (the amount of mass multiplied by the rotational speed) of each portion of the rotating body by the distance from the rotational axis The part is referred to as angular momentum., It is of about hydropower device for generating energy in accordance with the device.

Conventional spinning gravity aberration is contained in a part of a bucket and falls freely by gravity, so that a small flow rate is contained in a position where maximization is performed. The action point and the Francis reaction wave aberration are generated by the water flowing in the circumference of the rotor blade, It is difficult to obtain small energy by converting the position energy of water into kinetic energy by using the passage as a spill tragic conversation action point or the like.

Korean Patent Laid-Open No. 10-1112479 (Jan. 30, 2012) Korean Patent Laid-Open Publication No. 10-1320601 (Oct. 15, 2013)

The present invention has been made in order to solve the problems of the related art, and more particularly, it is an object of the present invention to provide a water hydraulic apparatus, A plurality of circular nozzle second nozzle holes having a spiral flow path plate extending in the horizontal direction immediately below the drop by the flow of the first and second nozzles as water flows, Of the driven gear having a plurality of circumferences of the circumference of the maximizing device of the maximizing device and a plurality of teeth of the plurality of driving gears on the outer side thereof: total energy of the maximizing device (Total amount of mechanical energy transferred to the cylindrical rotating body multiplied by the momentum (the mass multiplied by the rotational speed) of each part of the rotating body of the object and the distance from the rotational axis This part is referred to as the angular momentum. The purpose of the present invention is to provide a hydropower generating apparatus that generates energy according to the apparatus of the present invention.

In order to achieve the above object, the present invention is directed to a hydropower generator having a spiral-type maximized flow path structure. The hydropower generator includes a circular water inlet, a nozzle plate, a first nozzle, A second housing housing a spiral flow path plate and a driven gear; a third housing housing a plurality of drive gears; a fourth housing housing the generator; And an aberration lower rotational axis projecting from a lower end face of the aberration central axis, wherein the aberration main body has a central aberration axis at the center of the body and is protruded from an upper face of the aberration central axis, And an outer cylinder which surrounds the inner cylinder at a predetermined interval so as to pass through the aberration body, an aberration inlet is provided on the upper surface of the space between the inner passage and the outer cylinder of the aberration body, And the aberration discharge port is provided on the lower end surface of the space. The aberration upper rotation shaft is rotatably supported by the aberration upper shaft bearing, the aberration lower rotation shaft is coupled to the generator upper rotation shaft and rotatably supported by the aberration lower shaft bearing. And the rotary shaft of the lower portion of the generator is rotatable by installing the generator shaft bearing at the inner center portion of the fourth housing A cylindrical rotating body supported by a cylindrical rotating body and having a circular water inlet is provided at the uppermost center of the upper portion of the cylindrical rotating body. The outer end of the first housing: cylindrical rotor, which is constructed up to the upper portion of the fixed nozzle plate, accommodates a second nozzle hole gradually narrowed from the fixed nozzle plate to a plurality of circular nozzle holes at regular intervals, And an inner end of the cylindrical rotary body is coupled with the outer cylinder so as to form a helical shape while greatly enclosing the inner cylinder in the space between the inner and outer cylinders of the cylindrical rotary body. The inner end of the cylindrical rotary body is helically inclined from the upper end to the lower end A spiral flow path plate having a plurality of 'a' in the middle part of the circumference of the aberration body of the cylindrical rotating body The driving gear of the third housing is provided with a plurality of driving gears having a constant number of teeth, And the driven gear and the driving gear are configured to be engaged with the teeth of the driven gear of the second housing and the teeth of the plurality of drive gears integrally with each other and to be rotated in one direction; Water from the first and second nozzles flows into the water flow from the second and third nozzles to the circular water inlet at the center of the uppermost portion of the first housing and drops from the space portion in the second housing into the water flow through the airstream inlet of the spiral flow path plate The first and second housings accommodating the configuration to flow to the lower ground through a wide water outlet directly below the discharge to the falling action aberration outlet in a number of flows and energy to be applied to the cylindrical rotary body by the water of the upper surface, Is converted into the total mechanical energy transferred to the cylindrical rotating body and coupled with the lower rotating shaft of the aberration and the generator rotor to cause the momentum (amount multiplied by the mass and the rotating speed) of each portion of the rotating body The part that is multiplied by the distance from the rotation axis is called angular momentum. The principle of the application is characterized by conversion to electrical energy according to the application maximization device.

The diameter of the inner cylinder of the cylindrical rotary body is preferably 2/4 to 3/4 of the diameter of the outer cylinder of the cylindrical rotary body.

In addition, a plurality of air discharge pipes coupled to the outside of the stationary nozzle plate are formed, an air inlet is provided in an upper space portion of the spiral flow path plate, and an air outlet is provided in an upper outer side of the spiral type flow path plate so that less than 50% .

In addition, the water introduced into the center circular water inlet of the first housing gradually narrows down to a depth of 40 ° to 50 ° downward in the circumferential direction in the same amount of water flow to the stationary nozzle plate: from the top of the nozzle plate to the downward direction, It is preferable to make the hole narrower.

It is preferable that the angle of inclination of the spiral flow path plate is in the range of 50 to 60 degrees on the horizontal plane.

The centrifugal force of the driven gear having a plurality of teeth on the circumference of the inner cylindrical rotor and the centrifugal force of the plurality of driving gears of the third housing and the centrifugal force having a plurality of teeth are integrally engaged with each other, The angular momentum is the momentum of each part of the rotating body of an unidirectional rotating body multiplied by the distance from the axis of rotation (the mass multiplied by the rotational speed). It is desirable to generate energy according to the apparatus of the apparatus.

As described above, according to the hydrodynamic power generating apparatus of the spiral-type maximum flow path structure according to the present invention, the first housing and the uppermost portion of the nozzle plate are arranged at an inclination angle of 45 ° from the lower part of the circular- And a plurality of circular nozzle holes tapering downwardly in a vertical direction, and a helical flow path plate extending horizontally in an upper portion of the second housing directly below the water drop, A driven gear having a plurality of teeth around an outer circumference of the cylindrical rotating body; A centrifugal force of the driven gear and a centrifugal force of the driven gear, and a centrifugal force of the plurality of driving gears, The total mechanical energy transferred from the maximizing device of the above-mentioned cylindrical rotating body, which operates stably even at the time of high-speed rotation, such as the force to hold on the wall or the force to stand on the floor or various forces The angular momentum is the product of the momentum (the product of mass and rotation speed) of each part of the rotating body of the object and the distance from the axis of rotation, which is called the angular momentum.

1 is a front sectional view of a hydropower generation device of a spiral-type maximum flow path structure according to the present invention.
FIG. 2 is a front sectional view showing a state of a fixed part and an important part of a hydraulic system of FIG.
Fig. 3 is a front sectional view showing only a rotating part of the hydraulic system of Fig. 1,
FIG. 4 is a plan view showing a cut-away view of the nozzle plate of FIG. 1 along the first and second nozzles (holes)
FIG. 5 is a front sectional view showing the water inlet, the first and second nozzles, the air discharge pipe in the first housing of FIG. 1,
Fig. 6 is a front sectional view enlargedly showing one of the second nozzle holes of Fig. 5,
7 is a plan view showing the aberration central axis in the second housing 1 and the upper and lower space portions, the cylindrical rotating body, the spiral flow path driven gear, the numerical inlet, the aerator outlet, the water outlet,
Fig. 8 is a plan sectional view showing the driven gear including the driven gear shown in Fig. 1,
Fig. 9 is a plan view showing a cutaway state of the drive gear, driven gear,
Fig. 10 is a front sectional view showing an electric motor and a drive gear of the drive gear 8,

Hereinafter, the present invention will be described in more detail with reference to the accompanying drawings, in which a generator is generally the same as a generator of a general windmill and aberration.

1 is a front sectional view of a hydropower generator of a spiral-type maximum flow path structure according to the present invention. The first housing, the second housing 12, the third housing 13, the fourth housing 14, the cylindrical rotating body 30, the aberration body 31, the spiral flow path plate 32, And includes the outer cylinder 34, the nozzle plate 40, the first nozzle 41, the second nozzle 42, the hole air outlet 60, the driven gear 70, the drive gear 80, .

The water inlet 20 and the nozzle plate 40, the first nozzle 41 and the second nozzle 42 are installed and accommodated in the inner center of the first housing 11 and the inside of the second housing 12 A plurality of driving gears 80 are installed in the third housing 13 and a plurality of driving gears 80 are installed in the fourth housing (not shown) 14, the generator 90 is installed and accommodated.

A circular water inlet 20 is formed at the upper center of the first housing 11 and the water inlet 20 is inclined from the lower end of the water inlet 20 to the circumference by 40 ° to 50 °, A first nozzle 41 which flows under the control of the pipe in a state in which the pipe is filled with water up to the upper surface of the plate 40 is provided with a plurality of regularly spaced intervals from the upper portion in the fixed nozzle plate 40 The second nozzle (42) of the second nozzle (42) is moved from the space (84) to the upper part of the second housing (12) immediately below where the second nozzle (42) The cylindrical rotating body 30 including the helical flow path plate 32 in the form of a number of flows has a shape extending in the horizontal direction as a whole. A large water outlet 21 is formed immediately below the lower space 84 in the lower portion of the cylindrical rotating body and a generator rotor 92 in the fourth housing 14 is located at an inner lower portion of the water outlet, Generator stator 91 is accommodated. A driven gear 70 having a plurality of teeth is provided at an outer periphery of the aberration body 31 and the outer periphery of the circular cylindrical rotating body 30. The third housing 13 is provided on the upper and lower surfaces of the penetrating portion 71 of the outer side second housing 12 of the driving gear and a plurality of drive gears The driving gears 80 of the plurality of driving gears 80 are arranged at regular intervals and the driving gears 80 of the plurality of driving gears 80 are arranged at regular intervals. So that it can be rotated.

The cylindrical rotary body 30 includes an aberration upper rotation axis 37a and a lower rotation axis 330. [ An upper rotation shaft 37a protrudes from an upper end surface of the cylindrical rotation body 30 and a lower rotation shaft 37b protrudes from a lower end surface of the cylindrical rotation body 30. The airstream upper rotation shaft 37a, A by the installation of an aberration shaft bearing 38 of an aberration upper rotation shaft 37, a coupled with a pedestal and a support 100 in the nozzle plate 40 of the aberration lower rotation axis 37b And the upper shaft of the generator is connected to the lower end of the second housing 12 by the pedestal and the support 100 and the aberration shaft bearing 38 is installed on the aberration lower rotation shaft 37b, And the generator lower rotary shaft 95 is rotatably supported at the lower center portion of the fourth housing 13 by the generator shaft bearing 96 mounted on the lower rotary shaft 95 of the generator to form the cylindrical rotary body 30 and the generator 90 are operated.

The body of the cylindrical rotary body 30 is composed of two cylinders of an inner cylinder 33 and an outer cylinder 34. The outer cylinder 34 is spaced apart from the inner cylinder 33 by a predetermined distance and surrounds the inner cylinder 33 . The diameter of the outer cylinder (34) is configured to be at least two times the diameter of the inner cylinder (33). The aberration body 21 is provided at its upper end with an inflow port 35 communicating with the space between the inner cylinder 33 and the outer cylinder 34. The lower end surface of the aberration body 21 is provided with an air gap between the inner cylinder 33 and the outer cylinder 34 And an outlet port 36 communicating with the space is formed.

The wall surface of the outer cylinder 34 of the outer second housing 12 where the driven gear 70 having a plurality of teeth is provided at the center portion of the outer circumference of the outer circumference of the outer cylinder 34 of the cylindrical rotating body 30 A plurality of driving gears 80 having a plurality of teeth in the third housing 13 are provided at regular intervals on the upper surface of the penetrating portion 71, A driving gear shaft 83 is provided on each of the upper and lower rotating shafts 82a and 82b and a driving gear motor 81 is provided on the upper portion of the driving gear upper rotating shaft 82a It is installed to operate.

A plurality of gears of the plurality of driven gears and a plurality of gears of the plurality of driving gears are integrally formed around an outer circumference of the cylindrical rotating body and integrally rotated to unidirectionally rotate, The centrifugal force of the center shaft 37 and the driven gear 70 and the centrifugal force of the plurality of driving gears 80, that is, the interaction force of the circumferential to the axial movement force, The total mechanical energy of the cylindrical rotating body multiplied by the momentum (amount multiplied by the mass and the rotational speed) of each part of the rotating body of the object multiplied by the distance from the rotational axis, It is called angular momentum. Principle It is the constitution which is converted into electric energy depending on the application device.

7, 8 and 9, the aberration body 31 and the helical flow path plate 32 are provided at the centers of the aberration central axis 37 and the upper and lower space portions 84 in the second housing, 35 and a water outlet 36 and a water outlet 21 below the circumference of the second housing 12. [ An upper rotating shaft 32a having an aberration body 31 extending in the horizontal direction of the cylindrical rotating body and having an aberration central axis 37 at the center of the body and protruding from the upper face of the aberration central axis 37; And an aberration lower rotational axis 37b protruding from the lower end face of the aberration central axis 37. The inner barrel 33 surrounds the inner barrel 33 at a constant distance from the inner barrel 33 of the aberration body 31 An aberration inlet 35 is provided on the upper surface of the space between the inner cylinder 33 and the outer cylinder 34 of the aberration body 31 and the inner cylinder 33 of the aberration body 31 The aberration upper rotation shaft 37a is rotatably supported by the aberration shaft bearing 38 and the aberration lower rotation shaft 37b is rotatably supported by the aberration shaft bearing 38. [ And is rotatably supported by an aberration shaft bearing 39, and includes aberration lower rotation axis 72b, a generator upper rotation axis 94, The electric upper rotating shaft 95 is rotatably supported by the aberration lower shaft bearing 39 and the generator lower rotating shaft 72b is connected to the generator (not shown) by the generator shaft bearing 96 at the center of the lower end of the fourth housing 14. [ 90 are operated.

In the first housing 11, the irrigation water flow refers to a waterway in which the liquid in the irrigation canal does not come into contact with the air, that is, there is no free water surface. In the second housing (12), the recirculating flow is a free surface in which the fluid is in contact with the atmosphere due to gravity from a high to low flow with a water surface Which is dependent on the state flow type.

The operation of the present invention configured as described above will be described as follows.

The water of the upper reservoir, or the water naturally flowing upstream from the upper reservoir flows through the circular water inlet 20 at the central portion of the upper part of the system). At this time, the first lower streak 41 forming the water inlet 20 has a smaller depth as it goes down the circumferential direction, and flows into the water flowing into the same amount of water at an angle of 40 ° to 50 ° to the circumferential direction, And a plurality of holes of the circular second nozzle 41 are vertically downwardly formed from the upper end surface of the fixed nozzle plate 40 at a short distance Flow to the operation water flow Drops at a high flow velocity into the space portion (84) of the second housing at a high flow velocity The flow velocity of the inertia force and the water flow flowing in contact with the surface of the water surface is further accelerated by the gravity, The path plate 32 is inclined horizontally to a large extent, and the cylindrical rotating body 30 is rotated by a strong reaction against the drop action.

A plurality of air discharge pipes 60 are provided above the inflow port 35 of the cylindrical rotating body 30 so that the air of the gases in the water dropped through the holes of the second nozzle 42, When the plate falls strong. An air inlet 61 in the space 84; An air discharge port 60 is provided on the outer side of the stationary nozzle plate and an air discharge port 62 is provided on the outer side of the upper portion of the fixed nozzle plate so that the water is not scattered by the bubbles but is densified as much as possible, So that the force of collision with the flow path plate 32 is increased.

When the water flows into the space between the outer cylinder 34 and the inner cylinder 33 of the cylindrical rotary body 30, the inclination angle of the inlet of the helical flow path plate 32 is small, that is, And is coupled to the aberration lower rotational shaft 37b and the generator upper rotational shaft 994 so that the aberration of the aberration shaft bearing 38 can be suppressed, And the generator shaft bearing 96 to be converted into electrical energy from the rotating generator stator 91. [

The water flows to the spiral flow path plate 42 through the discharge port 36 of the falling cylindrical rotary body 30 and the water outlet 21 of the second housing 12 to the lower reservoir or downstream.

The water flowing above the spiral flow path plate 32 of the cylindrical rotating body 30 flows into the spiral flow path plate 32 in less than 50% and flows into the spiral flow path plate 32 as the free space of the water flow of the spiral flow path plate 32, So that there is no obstacle in the spiral flow path plate 32. Since the inertia force due to the dropping force of the flow in the flow path after the flow out at a high flow rate in the hole of the second row 42, When the inclination angle is a small inclination of 50 to 60 degrees, the cylindrical rotation body 30 is rotated by the reaction against the drop action straight up to the vertical downward direction. The water drops downward vertically from the inflow point of the spiral flow path plate 32 to the outflow point so that the dropping force of water between the outer cylinder 34 and the inner cylinder 33 of the cylindrical rotary body 30 is transmitted to the generator rotor shaft 93).

To confirm the effect of the present invention on the above, the body of the prior art document 10-1320601 has a horizontally extended configuration and a horizontally extended configuration of the present invention, . Or No. 10- 1112479 discloses that the cross sectional area along the diameter is larger than that of the conventional wind wing with the largest number of light fiber wings and the front-rear- The value possessed is proportional to the proportion of the tragedy of the conversation acceptance that the rest of the wing does not work and is all abandoned. See reference advantages.

First Embodiment: When the rotating body rotates, it confirms that 100% of its own creative energy having the largest operating power of the circumferential end is present.

Example 2: Even if the diameter increases, the speed remains unchanged. Example: Existing windmill diameter 50m at 1800 RPM, the wing tip at 360 times speed operation has the largest power in the opposite direction, the wing width is the smallest, the ratio of the square of the value of natural wind is small, and the tragic conversation is accepted. The creation of rotational energy without RPM is very small and the mechanical friction loss of the RPM increase is very small and the presence of the creative energy of the diameter size of angular momentum is guaranteed.

Third Embodiment Fig. The angular momentum is not only physics (engineering) but also various applications that are useful for describing various natural phenomena. The angular momentum is calculated by multiplying the momentum (amount multiplied by the mass and the rotational speed) of each part of the rotating body of the rotating body and the distance from the rotational axis That part is called angular momentum. Of the present invention.

Fourth Embodiment: If the famous Archimedes has a sufficiently long pole and a pedestal to support the earth, the earth can be heard. ' The present invention relates to a centrifugal force of a driven gear 70 and a centrifugal force of a plurality of central axes 82 of a plurality of driving gears 80, Combination of force The force of standing on the wall, the force that stays on the floor, and the forces that are unthinkable.

Fifth, Embodiment: Confirmation of the principle of the present invention in the formula of the comparison between the linear motion and the angular motion

In the osteotomic table-line motion, the angular momentum between the linear motions is compared with each other and the angular momentum is compared with each other, and the linear momentum is different from the linear momentum and the angular momentum. What it means: Line momentum is the integral of the force with respect to time. The angular momentum is the integral of the torque with respect to time.

It is preferable that the diameter of the inner cylinder 33 of the cylindrical rotary body 30 is 2/4 to 3/4 of the diameter of the outer cylinder 34 of the cylindrical rotary body 30.

A plurality of air discharge pipes 60 are formed in the fixed nozzle plate 40 and a remaining space is formed in the spiral flow path plate 32 by about 60% It is preferable that the water is prevented from being scattered by the bubbles to increase the density as much as possible so that the water does not fall and the collision force with the flow path plate 32 is not dispersed to the maximum.

The water introduced into the central circular water inlet 20 of the first housing 11 is gradually reduced in depth so that the inclination angle of the first nozzle 41 gradually becomes equal to 40 ° to 50 ° in the horizontal direction, ), And then the holes of the short circular second nozzle (42) are gradually narrowed from the upper portion of the nozzle plate (40) to the lower portion of the nozzle plate (40) in a downward direction. So that the colliding force is increased while flowing into the spiral flow path plate 32 from the portion 84 to the flow path.

The centrifugal force of the plurality of teeth of the driven gear 70 of the second housing 12 and the centrifugal force of the teeth of the plurality of driving gears 80 having the plurality of teeth of the third housing 13 It is preferable to have a configuration in which an energy unit is generated in accordance with an apparatus for maximizing the amount of angular momentum that rotates mutually by mutual engagement

The maximizing device of the present invention is designed to be gradually narrowed toward the circumference in the same quantity flow from the bottom of the uppermost central circular water inlet 20 of the first housing 11 and to be inclined at an angle of 40 ° to 50 ° A plurality of circular holes are formed between the upper portion of the nozzle plate 40 and the lower portion of the nozzle plate 40 to flow through the second nozzle 42 having a narrower and narrower distance as it goes down vertically, 84, the inclined angle of the helical flow path plate 32 at the flow velocity accelerated by the inertial force and the gravity of the flow of the return flow is such that the strong impact object spreads at a small inclination of 50 to 60 degrees in the horizontal plane, Air is released to reduce water dispersion and less than 50% of the water in the helical flow path plate is quickly discharged to the aberration outlet 36 and flows to the reservoir through the large water outlet 36 immediately below, Minimization of the obstacles of shape change such as pipe flow to the irrigation water flow and energy flow by the operation of the maximizing device of the fluid flow such as the air discharge to the flow of the water flow are created.

A device for maximizing the first and second nozzles 41 and 42 of the first housing 11 and a device for maximizing the aberration body 31 extending in the horizontal direction in the second housing 12: A plurality of 'teeth' of the driven gear of the second housing 12 and a plurality of teeth of the plurality of driving gears 80 of the third housing 13 are integrally joined to each other around the circumference, The centrifugal force of the aberration center axis or the wave gear as well as the centrifugal force of the aberration center gear and the centripetal force of the plurality of drive gears 80 as well as the generation of energy according to the apparatus are further enhanced by the forces of resting on the wall or the force (The amount of the mechanical energy of the cylindrical rotating body multiplied by the momentum (the mass multiplied by the rotational speed) of each part of the rotating body of the object multiplied by the distance from the rotational axis means that the angular momentum , The principle The present invention is an inventive technology that generates energy with a role of a function that is far from the well-known technology or the critical numerical limitation.

It will be apparent to those skilled in the art that various modifications and variations can be made in the technical scope of the present invention based on the concrete examples described above, It is obvious that the appended claims are intended to fall within the scope of the appended claims.

11: first housing 12: second housing
13: third housing 14: fourth housing
20: water inlet 21: water outlet
30: Cylindrical rotating body 31: aberration body
32: spiral flow path plate 33: inner tube
34: outer tube 35: aberration inlet
36: Outlet outlet 37: Center of aberration axis
37a: aberration upper rotation axis 37b: aberration lower rotation axis
38: aberration upper shaft bearing 39: aberration lower shaft bearing
40: nozzle plate 41: first nozzle
42: second nozzle hole
60: Air discharge pipe 61 Air discharge inlet
62 Air outlet port 70: driven gear
71: penetrating portion 80: driving gear
81: drive gear motor 82: drive gear center shaft
82a: Drive gear up-down rotation shaft 83: Drive gear shaft bearing
84: Upper and lower space portion in the second housing 90:
91: generator stator 92: generator rotor
93 Generator center shaft 94: Generator upper shaft
95: generator lower rotation shaft 96: generator shaft bearing
100: pedestal and support

Claims (6)

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a hydropower generation device having a spiral-type maximum flow path structure,
A first housing 11 accommodating a circular water inlet 20, a nozzle plate 40, first, nozzle 41 and second nozzle 42 holes at the highest center of the present invention system:
A second housing (12) accommodating a spiral flow path plate (32) and a driven gear (70)
A third housing (13) accommodating a plurality of drive gears (90):
A fourth housing 14 for receiving the generator 90;
An upper rotating shaft 32a provided with an aberration central axis 37 at the center of the body and protruding from an upper end surface of the aberration central axis 37, And an outer cylinder 34 surrounding the inner cylinder 33 at a constant interval from the inner cylinder 33 of the aberration body 31. The outer cylinder 34 And an aberration inflow opening 35 is provided on the upper surface of the space between the inner cylinder 33 of the aberration body 31 and the outer cylinder 34. The inner cylinder 33 of the aberration body 31, The aberration upper rotation shaft 37a is rotatably supported by the installation of the aberration upper shaft bearing 38 and the aberration lower rotation shaft 37b is supported by the generator 30, And is rotatably supported by an aberrational auxiliary shaft bearing 39 coupled to the upper rotary shaft 94. The lower rotary shaft 95 of the generator, The fourth housing 14, a cylindrical rotary body 30 is rotatably supported by the installation of the generator shaft bearing 96 in the center of the inner side are configured to operate the generator (90) of:
A first row of streaks (41) is formed in the center of the uppermost end of the upper portion of the cylindrical rotary body (30) so as to make the depth gradually narrower from the lower right side where the circular water inlet (20) And a plurality of circular nozzle holes extending from the fixed nozzle plate 40 to the upper surface of the nozzle plate 40. The first nozzle holes 42 are formed in the first nozzle plate 40, The housing (11)
The inner end of the cylindrical rotary body 30 is coupled with the inner cylinder 33 to connect the inner cylinder 33 of the cylindrical rotary body 30 to the outer cylinder 34 A spiral flow path plate 32 provided so as to surround the inner cylinder 33 in a large space and forming a spiral shape and having a spiral inclination from the upper end portion to the lower end portion of the cylindrical rotation body 30;
A driven gear 70 having a plurality of teeth is provided around the middle portion of the aberration body 31 of the cylindrical rotating body 30 and the wall surface of the outer second housing 12 of the driven gear 70 The third housing 13 is provided on the upper and lower end faces of the through-hole penetration portion 71 and the driving gear 80 having the plurality of teeth 80 therein And the third housing 13 and the teeth of the plurality of driving gears 80 are integrally and integrally fixed to each other at a predetermined interval, and at this time, the teeth of the driven gear 70 of the second housing 12 and the teeth of the plurality of driving gears 80, A driven gear 70 and a drive gear 80 configured to be rotated in the direction of rotation;
Water such as upper land is introduced into the circular water inlet 20 at the center of the uppermost portion of the first housing 12 and flows into the space in the second housing 12 through the first and second nozzles 41, The droplet is discharged from the discharge port 35 into the falling aberration inlet port 35 and the spiral flow path plate 32 through the water outlet 21 and flows into the drop-off aeration discharge port 36 through the water outlet 21 The first and second housings (11, 12)
And energy that is input to the driving gear 80 is converted into total mechanical energy that is transmitted to the cylindrical rotary body 30 and is transmitted to the aberration lower rotary shaft 94. [ And the generator rotor 92, and is the angular momentum, which is obtained by multiplying the momentum (amount multiplied by the mass and the rotational speed) of each portion of the rotating body of the synchronously rotating object by the distance from the rotational axis. A spiral-type hydroelectric power plant with a spiral maximization characteristic that is converted into electric energy according to the maximization device The method according to claim 1,
Wherein a diameter of the inner cylinder (33) of the cylindrical rotary body (30) is 2/4 to 3/4 of a diameter of the outer cylinder (34) of the cylindrical rotary body (30) The method according to claim 1 or 3,
A plurality of air discharge pipes 60 coupled to the outside of the fixed nozzle plate 40 are formed and an air inlet 61 is formed in the space portion 84 above the spiral flow path plate 32, And the spiral flow path plate 32 is filled with less than 50% of water, 3. The method according to claim 1 or 2,
The inclined angle of the water introduced into the central circular water inlet 20 of the first housing 11 gradually decreases to a depth below the circumference for the same amount of flow of 40 ° to 50 ° in a horizontal plane to reach the upper end of the fixed nozzle plate 40, The hydrodynamic power generating device of the spiral-type maximum flow path structure, characterized in that the nozzle holes (42) are gradually narrowed from the upper end of the nozzle plate (40) to the vertically downward direction, 3. The method according to claim 1 or 2,
And the inclination angle of the third spiral flow path plate (32) is in the range of 50 ° to 60 ° on the horizontal plane. The method according to claim 1,
The centrifugal force of the driven gear 70 having a plurality of teeth on the circumference of the cylindrical rotating body 30 in the second housing 12 and the centrifugal force of the plurality of driving gears 80 of the third housing 13, The centripetal force with this ':' is the sum of the momentum of each part of the rotating body (amount multiplied by the mass and the rotational speed) multiplied by the distance from the rotational axis, A spiral-type hydraulic system with a channel structure,

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