KR20200022339A - Multiplex spiral maximize water pipe water conte generating set - Google Patents

Abstract

The present invention relates to a hydro-power generation apparatus having a maximized multi-spiral flow path structure, capable of stably performing operations even while rotating at a high speed. According to the present invention, the hydro-power generation apparatus having a maximized multi-spiral flow path structure comprises: a first housing for accommodating a water inlet, a water flow pipe, and a nozzle plate; a second housing for accommodating a cylindrical rotary body, a driven gear, and a water outlet; a third housing for accommodating a power generator; a fourth housing for accommodating a plurality of driving gears; the cylindrical rotary body; and a flow path plate.

Description

HYLTIPLEX SPIRAL MAXIMIZE WATER PIPE WATER CONTE GENERATING SET}

The present invention relates to a multi-helical maximizing flow hydroelectric apparatus, and more particularly, the water flows into the water inlet at the top center of the apparatus, and into a plurality of nozzle holes gradually narrowed down in a vertical space in a narrow space in the circumferential direction. The horizontally elongated cylindrical rotor spirally spans the flow path plate and maximizes the falling energy: multiple 'gears' of the driven gear on the circumference of the cylindrical rotor and a number of 'gears' on the outer circumference of the cylinder. The maximal rotation maximal device, ie the centrifugal force of the circumferential to axial motion: the interaction with the circumferential force of the circumferential drive gear, and the distance between the inertial object and the rotation axis in the stable motion at the high speed rotation. The quantity of the vector expressed as ie, the product of the quantity of motion (mass multiplied by mass and speed) of each part of the rotating body multiplied by the distance from the axis of rotation. Is called the angular momentum of. Each of the muller maximizers relates to a high output power.

Conventional watermill gravity aberrations are contained in a part of the bucket and are freely dropped by gravity and contain a small flow rate at the point of maximum action. Francis recoil aberration is a small suction tube in the center where water flows in from the circumference of the rotor blades. There is a problem in that a small energy is obtained by converting the potential energy of the water without the maximization device into kinetic energy by using the passage as a non-maximizing effect point as the passage.

Republic of Korea Patent Publication No. 10-1112479 (2012.01.30.) Republic of Korea Patent Publication No. 10-1320601 (2013.10.15.)

The present invention has been made to solve the problems of the prior art, the water is introduced into the water inlet in the center of the system in the horizontal direction of the narrow nozzle space gradually narrowed down the vertical space in the increasingly narrow space in the circumferential direction The eccentricity of the extended cylindrical rotor spirally on the flow path plate and the free energy: a number of 'gears' of the driven gear in the circumference of the cylindrical rotor and a number of 'gears' in the circumference of the outer circumference. And maximizing the rotational device, ie the centrifugal force of the circumferential to axial motion: the interaction with the circumferential force of the circumferential drive gear, and multiplying the distance between the inertia object and the rotational axis in the stable motion at high speed rotation. Vector quantity, that is, the momentum of each part of the rotating rotor (mass multiplied by the speed) multiplied by the distance from the axis of rotation. This is called. Its purpose is to provide high output for each of the various maximizing devices.

In order to achieve the above object, the present invention relates to a multi-helical maximal hydroelectric power generation apparatus according to the present invention, comprising: a first housing for accommodating a water inlet, a flow tube, and a nozzle plate: a cylindrical rotor and a driven gear And a second housing housing the water outlet port; a third housing housing the generator: a fourth housing housing the plurality of drive gears: a cylindrical rotating body extending in a horizontal direction, the upper rotating shaft protruding from the upper surface of the body; Cylindrical rotor, comprising a lower rotating shaft protruding on the lower surface of the body, the cylindrical rotor comprises an inner cylinder, the inner cylinder, the outer cylinder surrounding the inner cylinder at regular intervals, the inner cylinder of the body The space between the outer cylinder is provided with the inlet of the plurality of spiral flow path plate, the lower surface of the space between the inner cylinder and the outer cylinder of the body is provided with an outlet Total time that the cylindrical axis is rotatably supported by the upper shaft bearing, a lower rotary shaft is rotatably supported by the installation of the shaft bearing between the coupling housing and the second and third generators upper rotary shaft, configured to run a generator; A first housing accommodating the water inlet, a second housing accommodating the cylindrical rotor and having a water outlet at a lower end thereof, an outer end of which is coupled to an outer cylinder of the cylindrical rotor and an inner end of the cylindrical rotor; Coupled with the inner cylinder is installed to form a plurality of spirals while wrapping the inner cylinder in the space between the inner cylinder and the outer cylinder of the cylindrical rotating body, the inside of the cylindrical rotating body to form a spiral inclined; Coupled to the outer circumferential circumference of the outer cylinder of the body of the cylindrical rotating body is provided with a plurality of 'gear' driven gear, the outer circumferential circumference of the driven gear has a plurality of drive gears, the fourth housing for receiving the body A plurality of 'gear' drive gears are configured to be rotatable by mounting on upper and lower shaft bearings, respectively, in a water inlet at the top center of the first housing and in a flow tube of a narrower space in the circumferential direction. It is formed integrally with the drop downward positive nozzle plate has a form in which the nozzle hole becomes narrower gradually from the top to the bottom. In addition, a plurality of air discharge pipes are formed outside the plurality of nozzle holes in the fixed nozzle plate, and the air discharge pipes extend upwardly to have a circular pipe shape, and the water flowing into the water inlet flows only through the flow pipes and the nozzle holes. The fallback device includes a fixed nozzle plate that allows the flow into the uncontrolled flow of the tube to the multiple spiral flow path plate of the body of the cylindrical rotor, through the outlet final outlet from the outlet of the body of the cylindrical rotor. It is characterized in that the configuration.

Moreover, it is preferable that the diameter of the inner cylinder of a cylindrical rotating body is 2/4-3/4 of the diameter of the outer cylinder of a cylindrical rotating body.

In addition, it is preferable that a plurality of air discharge pipe holes are formed near the outer side of the fixed nozzle plate so that air can escape upward from the air pipe holes.

In addition, the inclination angle of the flow path plate is preferably 40 to 50 ° with respect to the horizontal plane.

In addition, the centrifugal force of the main axis of the driven gear center having a plurality of teeth on the outer circumference of the outer surface of the cylindrical rotor: a plurality of drive gears having a plurality of teeth on the outer side and the centripetal force of the upper and lower shaft bearings It is desirable to have a configuration that allows safe operation even at high speeds of interaction.

In addition, the inclination angle of the water flow pipe gradually narrowing from the lower end of the water inlet to the end of the nozzle plate and toward the circumferential direction is preferably 40 to 50 ° with respect to the horizontal plane.

As described above, according to the present invention, the water flows into the water inlet at the top center of the system, and as the circumferential direction gradually drops to the inclined space of 40 to 50 ° in a narrow space, it drops down to the plurality of nozzle holes gradually narrowed down vertically. After the fall, there is a drop in the maximizing device on the cylindrical rotating body, ie, the spiral flow path, which extends horizontally in the flow in the number of ways: a large number of 'gear' of the driven gear on the circumference of the cylindrical rotor and a large number of driving gears on the outer circumference of the cylinder. A tooth with a 'tooth' of teeth and a back-to-back rotational maximizing device, ie circumferential to axial motion center shaft centrifugal force: circumferential drive gear centripetal force and interaction force force Unstable force, presence Stable operation even at high speed rotation Vector amount expressed as the product of the distance between the inertia object and the rotation axis in the rotational motion to be. The angular momentum of the part of the rotating body multiplied by the distance from the axis of rotation (mass multiplied by mass and speed) is called. The high output power of various types of maximizing device makes it an advantage in generating energy.

1 is a front sectional view of a hydroelectric generator of a multi-helical maximization flow path structure according to the present invention.
Figure 2 is a front sectional view showing the nozzle, aberration, driven gear drive gear, the generator position of Figure 1;
Figure 3 is a front cross-sectional view showing a plurality of nozzle inlet is large and the outlet of Figure 1 small;
4 is a plan sectional view showing a state of cutting a plurality of nozzle holes of FIG.
Figure 5 is a front sectional view showing the entry / exit of the aberration cylindrical rotor of Figure 1,
FIG. 6 is a cross-sectional plan view of a plurality of spiral inlets and outlets of FIG. 5;
7 is a sectional front view showing a number of driven gears on the outside of the aberration;
8 is an enlarged cross-sectional view of one drive gear among the plurality of drive gears of FIG.
9 is an enlarged front sectional view of one of the plurality of air fins of FIG. 1;
FIG. 10 is a cross-sectional plan view illustrating a plurality of driving gears and driven gears of FIG. 8;
11 is a plan sectional view showing the generator stator and the rotor of FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings an embodiment of the hydro-cylindrical cylindrical rotor 20 device of the multi-type maximized flow path structure.

The present invention is the first housing 10, the second housing 11, the third housing 12, the fourth housing 13, the water guide tube 16, the cylindrical rotor 20, the cylindrical rotor body 20a ), A plurality of spiral flow path plate 23, the central shaft 25, generator 30, generator body 31, generator stator 22, generator rotor 33, generator, central axis 35, nozzle Plate 40, nozzle sphere 41, driven gear 50, body 51, drive gear 60, drive gear body 61, drive gear electric motor 62 drive gear central axis 65, air The pin 70, the air discharge pipe 71 and the air inlet 72 and the like.

The water inlet 14, the water flow tube 16, and the nozzle plate 40 are installed inside the first housing 10, and a plurality of spirals of the cylindrical rotating body 20 are installed inside the second housing 11. The flow path plate 23, the driven gear 50, and the water outlet 15 are installed, and the generator 30 is accommodated inside the third housing 12, and a plurality of the inside of the fourth housing 13 is provided. The drive gear 60 is installed, the second housing 11 is installed at the upper end of the cylindrical rotating body 20, the third housing 12 is installed at the lower end of the cylindrical rotating body 20, the fourth housing 13 ) Is provided with a plurality of drive gears coupled to the outer side of the cylindrical rotor. The cylindrical rotor 20 as a whole has a form in which a plurality of spiral flow path plates 23 extend in the horizontal direction. The uppermost central portion of the first housing 10 is provided with a circular water input port 14 so that water can be inputted from the outside, and water is discharged to the outside of most of the vertical surface of the lower space around the circumference of the second housing 11. The water outlet 25 is provided to be.

The cylindrical rotor 20 includes a body 21, an upper rotary shaft 26 and a lower rotary shaft 26.

An upper rotating shaft 26 protrudes from an upper surface of the cylindrical rotating body 20, an upper rotating shaft 26 protrudes from a lower surface of the cylindrical rotating body 20, and the upper rotating shaft 26 is a nozzle plate 50. In the center coupled to the inner side of the inner) is rotatably supported by the installation on the cylindrical rotor upper shaft bearing 27, the lower rotary shaft 26 is coupled to the generator upper rotary shaft 36, the second, third housing 12 It is rotatably supported by the cylindrical rotor lower shaft bearing 27 provided between.

The upper surface of the cylindrical rotor 20 is fixed nozzle plate in the form of a narrower space as the flow pipe 26 is circumferentially downward from the lower portion of the circular water inlet 14 in the uppermost center of the first housing ( It is preferable that the flow pipe 26 made up to 40 makes the inclination 45 degrees.

The fixed nozzle plate 40 directly above the top surface of the cylindrical rotor 20 has an edge coupled to the lower outer surface of the first housing 11 so as to be fixed just above the cylindrical rotor 20. The fixed nozzle plate 20 has a plurality of circular shaped nozzles in the vicinity of the circumference close to the circumference such that there is an inlet 24a of the cylindrical rotor 20 directly below, as shown in FIG. 41) A hole is formed. The hole of the nozzle 41 is formed integrally with the fixed nozzle plate 23 so that the hole of the nozzle 41 becomes narrower from the top to the bottom. In addition, a plurality of air discharge pipes 71 are formed in a portion of the fixed nozzle plate 40 adjacent to the hole of the nozzle 41 outside the hole of the nozzle 41, and the air discharge pipes 71 extend upward to form a circular pipe. Has

The cylindrical rotor 20 and the body 20a are composed of a plurality of spiral flow path plates 23 of the inner cylinder 21a and the outer cylinder 21b. The outer cylinder 21b maintains a constant distance from the inner cylinder 21a and the inner cylinder. It is comprised in the form surrounding 21a. The diameter of the outer cylinder 21b is comprised so that it may become 2 times or more of the diameter of the inner cylinder 21a. The inlet port 24a through which the outer cylinder 21b communicates with the space between the inner cylinders 21a is formed, and the outlet port 24b communicating with the space between the inner cylinder 21a and the outer cylinder 21b is formed at the bottom surface of the body 20a. do. The outer peripheral circumference of the outer cylinder 21b of the cylindrical rotor 20 is provided with a driven gear 50 having a plurality of teeth, and the outer peripheral circumference of the driven gear 50 includes a plurality of teeth. The plurality of drive gears 60 are configured to be rotatable fixed to the respective installation of the shaft bearings 67 and 67 on the lower and upper portions of the fourth housing. In this case, the plurality of teeth and the number of the driven gears 50 are rotatable. Each of the drive gear 60 of the plurality of 'tooth' is meshed with each other to rotate integrally.

A plurality of spiral flow path plates 23 are provided in the space between the outer cylinder 21b and the inner cylinder 21a of the cylindrical rotor 20. The flow path plate 23 has an outer edge coupled with the outer cylinder 21b and an inner edge coupled with the inner cylinder 21a, which is installed in the space between the inner cylinder 21a and the outer cylinder 21b, and has an upper end portion of the cylindrical rotor 20. Spiral inclination while surrounding the inner cylinder (21a) of the body (20a) from the lower end. It has a shape that extends horizontally. At this time, it is preferable that the flow path plate 23 inclines 45 ° with respect to the horizontal plane. When the flow path plate 23 has a large diameter of the cylindrical rotating body 20, it is preferable to provide several flow path plates 23 in proportion to the diameter.

The water of the upper reservoir is allowed to flow through the water inlet 14 of the hydroelectric generator according to the invention. The water introduced through the water inlet 14 is preferably inclined 45 ° to the fixed nozzle plate 40 by the water flow tube 16 having a narrower shape from the bottom in the water inlet 14 toward the circumferential direction. Do. It will flow according to the installation.

The nozzle 41 of the fixed nozzle plate 40 passes through the inlet 24a of the cylindrical rotor 20 and falls into the space between the outer cylinder 22b and the inner cylinder 22a of the cylindrical rotor 20. The fixed nozzle plate 40 is provided with a plurality of air discharge pipes 71 in the outer lining, so that the gases in the water dropped into the fixed nozzle plate 23 suddenly and dropped through the nozzle 41 are introduced into the air discharge pipe. You may exit through 520. The reason why the holes are formed to allow air in the water to fall out is to increase the density of the water by collapsing as much as possible rather than being scattered by the bubbles so that the water falls and collides with the flow path plate 23. to be. In addition, since the water collides with the flow path plate 23 in a state in which water is not controlled by the flow pipe after the drop through the hole of the nozzle 41, the water is spread out in all directions and is dispersed. It is to prevent the water from being excessively spread by collecting by so as not to disperse as much as possible the force generated by the drop of water.

When water flows into the space between the outer cylinder 21b and the inner cylinder 21a of the cylindrical rotor 20, it receives a force in the free fall direction on the flow path plate 23 that forms a 45 ° inclination of the spiral flow path plate 23. And the cylindrical rotating body 20 coupled to it also rotates together. The upper rotary shaft 26 and the lower rotary shaft 26 of the upper end surface of the cylindrical rotor 20 are provided with shaft bearings 27 and 27, respectively, so that the shaft of the generator 30 rotates to generate power.

Water flows out to the flow path plate 23 through the water outlet 15 of the cylindrical cylindrical body 20 and the water outlet 15 of the lower portion of the circumference of the second housing 11.

At this time, the flow of the water flow pipe 16, the flow air narrows gradually from the water inlet 14 toward the circumferential downward 45 ° inclined downward, and then the nozzle hole becomes narrower as the plurality of circular nozzle spheres 41 go vertically downward. After passing through the space, the cylindrical rotator, which extends horizontally in the flow in an uncontrolled number of tubes, falls on a plurality of spirally inclined 45 degree flow path plates 23. At this time, the angular momentum in the rotational movement indicates the momentum of the object. It can be defined as the rotation moment with respect to the center of rotation of the vector quantity, that is, the mass momentum, expressed as the product of the momentum of the object and the distance between the inertia object and the axis of rotation. Moment of inertia in the rotational motion may have a different value depending on the distribution even if the mass of the object is the same. It is called inertia efficiency. That is, the angular momentum of the part which multiplies the momentum (mass multiplied by mass and the speed) of each part of a rotating body, and the distance from a rotating shaft is called. It is a property that describes the persistence or change of rotational motion. For example, when a stone of mass m is suspended at the end of a thread of length l and rotated at a speed of v, the angular momentum of the stone becomes mvl. This is equal to the amount of inertia moment ml ² multiplied by the angular velocity v / l

Also, turning the wheel of a rotary motion car (if the steering wheel is small, it is impossible to change the direction). The angular momentum such as typhoon without axial axis, hurricane black hole, various space swirl and nuclear fusion energy is very useful for describing various natural phenomena. Varies. At this time, the water is the total power effect of the drop force action of the falling water on the plurality of spiral flow path plate 23 between the outer cylinder 21b and the inner cylinder 21a of the cylindrical rotor 20, the rotational force of the generator shaft is the generator central axis 35 Since the helical flow path of the cylindrical rotor spirally spaced apart from the center of rotation of the maximal horizontally extended maximizing device is subjected to a high torque force to obtain a strong rotational force.

In addition, the present invention, as well as the total power effect of the water drop force action of the cylindrical rotor 20, the driven gear 50 having a plurality of 'tooth' coupled to the outer surface of the cylindrical rotor 20 and: driven gear ( 50) The outer surface of the drive gear (62) is initially given a small power to the drive gears (each of the plurality of teeth (60) to engage with each other rotation, that is, centric centrifugal force centrifugal force: circumferential → axial motion drive gear centripetal force and The force of the interaction force, the force held on the wall, the force held on the floor, and various forces, such as the unprecedented force, exist, and the cylindrical rotor 20 is rotatably supported by the upper and lower shaft bearings 67 and 67 to rotate at high speed. Stable motion is also possible, where the momentum of each part of the rotating rotor (mass multiplied by the speed) and the distance from the axis of rotation are the angular momentum of that part, ie between the momentum of the object and the inertial object and the axis of rotation. Multiplied by distance It is a vector quantity expressed as a value.

As described above, the present invention has been described only with respect to specific examples, but it is apparent to those skilled in the art that various changes and modifications can be made within the technical scope of the present invention based on the above specific examples. And modifications belong to the appended claims.

10: first housing 11: second housing
12: third housing 13: fourth housing
14: water inlet 15: water outlet
16: water flow tube 20: cylindrical rotor
20a: cylindrical rotor body 21a: cylindrical rotor inner cylinder
21b: inner cylinder cylinder 23: multiple spiral flow path
24a :: Inlet 24b: Outlet
25: central axis of cylindrical rotor 26, 26: lower axis of rotation on cylindrical rotor
27,27: cylindrical rotor upper and lower shaft bearing
30: generator 31: generator body
32: generator stator 33: generator rotor
35: generator central axis 36, 36: generator upper, lower rotation axis
37 ,: generator lower shaft bearing 40: nozzle plate
41: nozzle hole 50: driven gear
51: driven gear body 60 :: drive gear
61: drive gear body 62: drive gear motor
65: drive gear central axis 66,66: drive gear upper, lower rotation axis
67,67: drive shaft upper and lower shaft bearings
70: air pin 71: air exhaust pipe
73: air inlet

Claims (6)

The present invention relates to a hydroelectric generator of the multi-helical maximization flow path structure,
First housing 10 for receiving water inlet 14, water flow tube 16, and nozzle plate 40:
Second housing 11 for receiving cylindrical rotor 20, driven gear 40, and water outlet 15:
Third housing 12 housing generator 30:
Fourth housing 13 containing a plurality of drive gears 60:
Cylindrical rotary body 20 extending in the horizontal direction, the upper rotary shaft 26 protruding on the upper surface of the body (0a) and the lower rotary shaft 16 protruding on the lower surface of the body (20a) of the cylindrical rotor (20a) The cylindrical rotor 20 is configured to include an inner cylinder (21a), the inner cylinder (21a), and an outer cylinder (21b) surrounding the inner cylinder (21a) at regular intervals, the body Inlet 24a of the plurality of spiral flow path plate 23 is provided in the space between the inner cylinder 21a and the outer cylinder 21b of the outlet and the outlet 24b is provided on the bottom surface of the space between the inner cylinder and the outer cylinder of the body, The upper rotary shaft is rotatably supported by the installation of the upper shaft bearing 27 coupled to the inner shaft surface of the furnace file board 40, the lower rotary shaft 26 is coupled to the generator upper rotary shaft 36, the second, third housing It is rotatably supported by the installation of the shaft bearing 27 between the (12, 13), and configured to operate the generator It is the total 20 times cylindrical;
A second housing 12 accommodating the water inlet 14 and a second housing 12 accommodating the cylindrical rotor and having a water outlet 15 formed at a lower end thereof:
The outer end is coupled to the outer cylinder of the cylindrical rotor and the inner end is coupled to the inner cylinder of the cylindrical rotor is installed to form a plurality of spirals while wrapping the inner cylinder in the space between the inner and outer cylinder of the cylindrical rotor, A flow path plate 23 forming a spiral inclination in the rotor;
Coupled to the outer circumferential circumference of the outer cylinder (21b) of the body of the cylindrical rotor is provided with a plurality of 'gear' driven gear 50, the outer circumference of the driven gear 50 a plurality of drive gears 60, a plurality of drive gear 60 having a plurality of 'tooth' in the fourth housing 14 for receiving the body 61 is rotated by the respective installation in the upper, lower shaft bearings (67, 67) It is configured to be possible,
The water inlet 14 at the top center of the first housing 11 is formed integrally with the fixed nozzle plate 40 at the lower portion of the water flow pipe 16 in a space gradually narrower toward the circumferential direction, and the nozzle 41. The hole becomes narrower from top to bottom. In addition, a plurality of air discharge pipes 71 are formed in the fixed nozzle plate 40 adjacent to the outside of the holes of the plurality of nozzles 41, and the air discharge pipes 71 extend upward to have a circular pipe shape. The water flowing into the inlet falls into the water flow after passing only through the flow pipe and the nozzle hole. The outlet port 24a of the body of the cylindrical rotor falls on the multiple spiral flow path plate 23 of the body of the cylindrical rotor. Hydroelectric generator of multiple spiral maximized flow path structure configured to discharge through the outflow final water outlet 15 through The method of claim 1,
The diameter of the inner cylinder 21a of the cylindrical rotor 20 is 2/4 to 3/4 of the diameter of the outer cylinder 21b of the cylindrical rotor. The method according to claim 1 or 3,
Hydroelectric power generation apparatus having a multi-spiral flow path, characterized in that the inclination angle of the spiral flow path plate of the cylindrical rotary blade is 40 ~ 50 ° with respect to the horizontal plane, The method according to claim 1 or 2,
Hydroelectric generator having a multi-helical flow path characterized in that a plurality of air discharge pipe 71 holes are formed in the outer side of the fixed nozzle plate and configured to allow air to escape upward from the air pipe hole, The method according to claim 1 or 2,
Hydroelectric generator of the multi-spiral large-diameter flow path structure, characterized in that the inclination angle of the water flow tube 16 is gradually narrowed toward the circumferential direction from the lower center of the lower end of the first housing 11 to 40 ~ 50 ° with respect to the horizontal plane; In claim 1 or 6
Centrifugal force of the axial shaft 25 of the driven gear 50 having a plurality of teeth in the outer circumference of the outer cylinder 21b of the cylindrical rotating body: a plurality of drive gears having a plurality of teeth in the outer side Hydroelectric device of the multi-helical maximization flow path structure characterized in that the 60 is configured to enable safe operation even in high-speed rotation with the centripetal force rotated by the upper and lower shaft bearings (67,67)

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