KR101471398B1 - Rotating device having a semi-cylindrical cover with a rudder - Google Patents

Abstract

The present invention relates to a water power and wind power generating rotary device with a semi-cylindrical cover having a rudder, and more specifically, to a water power and wind power generating rotary device with a semi-cylindrical cover having a rudder, which is a rotary device installed at the sea, river, and the like to transfer rotary energy generated by pressure of flowing water to a generator, wherein a semi-cylindrical cover is disposed at the rotary device to prevent water pressure applied to a rotor from reaching an equilibrium not to stop and make smooth the rotation of the rotor, and a rudder is disposed to deal with a change in water flow and to maintain the rotary direction of the rotor at the same time in order to improve generation efficiency of a water power and wind power generator.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a rotating device having a semi-cylindrical cover with a rudder,

The present invention relates to a water / tidal power generating rotary device having a semi-cylindrical cover with a key, and more particularly, to a rotary device installed in a sea or a river, for transmitting rotational energy generated by the pressure of water flowing to a generator, The rotating device is provided with a semi-cylindrical cover so that the pressure of water applied to the rotor can not be balanced so that the rotation of the rotor is smooth without stopping and the key is provided so as to cope with the change of the water flow And more particularly, to a water / tidal power generating rotary device provided with a semi-cylindrical cover having a key as a device for increasing the power generation efficiency of the hydrostatic power generator by keeping the rotation direction of the rotor unchanged.

Recently, the energy sector is focused on the research and development of devices using clean alternative energy that is not harmful to the environment due to depletion of fossil fuels, necessity of preservation of global environment, reduction of greenhouse gas, alternative energy and so on. have. These clean alternative energy include solar energy, wind energy, algae energy, geothermal energy, and biochemical energy.

There is no doubt that the Earth is made up of 70% of the surface area of water, so that the power generation based on the kinetic energy of the fluid and the kinetic energy of the fluid is a typical means of generating electricity with thermal power generation. There are tidal power generation using hydroelectric power using the potential energy of the water and car using only the tide of the ocean tide.

However, the construction of hydroelectric power plants in the past has various problems such as a long period of construction period, a huge initial installation cost, a change of ecosystem due to extensive submergence after construction, and the occurrence of climate change in the area.

In addition, the tidal power plant can predict the change of the tide when the place to generate power is determined by the method of generating the water using the water level control by blocking the dam of the area where the tide difference only occurs, However, it is devastating the tidal flats and requires a large area, which has a huge impact on the marine environment.

Therefore, if there is a place having a constant flow rate required for power generation such as sea, river, and river without constructing the large-scale hydroelectric power plant or tidal power plant, various researches have been conducted on a device capable of simple installation and power generation .

Korean Patent Registration No. 10-0931499 (2009.12.03) discloses a method of installing a wing at equal intervals so as to be rotated by the aid of water at a central portion of a buoyancy line provided on a water surface, And a power transmission member for transmitting the rotational force of the shaft to a shaft end portion of the shaft so as to be connected to the generator via a power transmitting member, Wherein each of the vanes forming the spindle is installed to be adjustable in angle by an angle adjusting means, and a groove is formed in an upper portion of each of the vanes along a width direction of the vane, A through hole is formed and fixed to both side plates of the spindle through the elongate groove and the through hole with respective fixing pins, An electric power generating device using a tidal force is provided which is provided with a spindle protection cover which selectively receives and protects the spindle portion exposed to the outside of the buoyancy line and the portion of the spindle immersed in water rotated around the axis However, there is a difference between the construction of the present invention as a horizontal axis in which a component called buoyancy line is added and a shaft connected to the generator is horizontally installed in the flow of water.

Korean Patent No. 10-1286742 (Apr. 31, 2013) discloses an impeller for a hydrostatic power generating motor, in which a fluid leaks to the side in the impeller housing to prevent the hydraulic pressure acting on the impeller blade, A hollow tube 4 installed in a part of the fluid flow tube 10 to which the fluid is supplied in order to maximize the number of revolutions of the fluid tube; An impeller housing (8) protruding from a central portion of the hollow tube (4); An impeller (38) rotating inside the impeller housing (8); A housing cover (28); A first bearing cover 34a and a second bearing cover 34b; And a generator connected to the impeller shaft 24 to generate electricity. The apparatus and method of the present invention are different from the present invention in terms of construction cost and repair maintenance cost.

Korean Patent No. 10-1386067 (Apr. 4, 2014) relates to a water turbine having a semi-cylindrical active wing for hydraulic power generation capable of operating regardless of the direction of a bird, An axle shaft 10; A rotary disk 20 attached to both sides of the airstream shaft 10 and having a plurality of axial grooves 21 at an appropriate interval in a concentric circle; A plurality of vane shafts 30 rotatably supported on the shaft 21 of the both-side rotary disk 20 by a bearing B1; A plurality of aberration wings 40 formed in a semicylindrical shape for rotating the rotary disk 20 by water pressure, each of which has a rotary socket 41 fixed to the wing shafts 30 on both sides by bolts B2; And a plurality of stoppers (50) for preventing rotation of the aberration blades (40), each of which projects radially at an appropriate interval on both outer sides of the airstream shaft (10) There is a problem that the structure is complicated and the installation of the apparatus is restricted, which causes inconvenience, and in particular, the number of revolutions of the blade is lowered according to the flow of the fluid.

Korean Patent No. 10-0931499 (2009.12.03) Korean Registered Patent No. 10-1286742 (July 31, 2013) Korean Patent No. 10-1386067 (Apr. 4, 2014)

The present invention solves the problems of the prior art as described above. In the water / tidal power generation device, the present invention smoothes the rotation of the rotor rotating with hydraulic pressure according to the flow of water without stopping, As a result of studying a method that can be maintained as it is, as described later, it is installed in a rotor connected to a water / tidal power generator, so that the hydraulic pressure applied to the rotor can not be balanced, The rotation of the rotor can be maintained smoothly when the device is provided, and the present invention has been accomplished.

The water / tidal power generation rotary device provided with the semi-cylindrical cover (30) having the key (40) of the present invention includes a shaft (10) installed vertically and transmitting rotational energy of the rotor to the electric generator; A rotor 20 through which the shaft 10 penetrates and is fixedly coupled to a hollow cylindrical cylinder 21 at the center and is rotated by the flow of water; The bearing 10 is rotatably supported by bearings 101 and 102 on the outer side of the rotor 20 so as to be rotatable with respect to the rotor 10, 10) a semicylindrical cover 30 for blocking the hydraulic pressure of water flowing on the other half of the one surface to smooth the rotation of the rotor 10; A key 40 connected to the outside of the end of the semi-cylindrical cover 30 by a key angle adjuster 50 and installed so that the semi-cylindrical cover 30 corresponds to the flow direction of the water; A key angle adjuster 50 for adjusting the horizontal angle between the key 40 and the semi-cylindrical cover 30 as an apparatus for connecting the key 40 and the semi-cylindrical cover 30; And a rotor fixture bearing fixing portion 61 provided with a rotor fixture bearing 100 on a central hollow portion of the rotor fixture bearing 100. The rotor fixture bearing fixation portion 61 is inserted through the hollow portion of the rotor fixture bearing 100 so that the shaft 10 can rotate, (60) fixed to the rotor bracket and supporting the shaft (10); And a rotor base bearing 103 is installed at a central portion of the shaft 10 so that the shaft 10 can rotate so that the lower portion of the shaft 10 is coupled through the hollow portion of the rotor base bearing 103, And a rotor support (70) for stably supporting the cylindrical cover (30), the key (40), and the rotor fixture (60).

A roller 80 is further provided on the lower surface of the semi-cylindrical cover 30. A rail 90 is further provided on the upper surface of the rotor support 70 so that the roller 80 Is rotatable along the rail (90) while bearing the load of the semi-cylindrical cover (30).

The key angle adjuster 50 is of a fastener type in which the angle of the key 40 is fixed in the tightening state and the angle of the key 40 is changed in the unlocked state so that the angle between the key 40 and the semi- Fine adjust the angle.

The rotor 20 has three or more odd numbered blades 22 joined to the hollow cylindrical cylinder 21 to prevent the force of the flow of water from being balanced on one surface of the rotor 20, (20).

The rotor fixture 60 includes a plurality of fixing tables 62 and disperses the hydraulic pressure applied to the semi-cylindrical cover 30 and the rotor 20 on the rotor support 70.

According to the present invention, one surface of the water / tidal rotor is covered with a cover to block a part of the water flow applied to the rotor, so that the rotation of the rotor can be maintained without stopping. The rotation direction of the rotor can be maintained unchanged according to the change of the water flow, and the power generation efficiency of the power generation apparatus can be increased by inducing continuous power generation.

1 is a perspective view illustrating a combined structure of a water-tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.
2 is an exploded perspective view illustrating a combined structure of a water-tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.
FIG. 3 is a plan view of a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.
4 is a side cross-sectional view of a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.
FIG. 5 is a plan view of a rotor, which is a component of the present invention, of a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.
FIG. 6 is a perspective view illustrating a rotor, a semi-cylindrical cover, a key, and a key angle adjuster, which are components of a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.
FIG. 7 is a perspective view of a key as a constituent element of a water / tidal power generating rotary device provided with a keyed semi-cylindrical cover according to the present invention. FIG.
8 is a perspective view of a rotor fixture as a constituent element of a water / tidal power generating rotary device provided with a keyed semi-cylindrical cover according to the present invention.
FIG. 9 is a perspective view of a rotor bracket as a component of the invention in a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.
FIG. 10 is a view illustrating an operation of a rotor according to a change in water flow in the invention of a water / tidal power generating rotary device provided with a semi-cylindrical cover with a key according to a flow of water.
FIG. 11 is a view showing an operation example of a rotor according to a position of a key, which is a component in the invention of a water / tidal power generating rotary device provided with a semi-cylindrical cover with a key.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS First, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The following terms are defined in consideration of the functions of the present invention, and this may vary depending on the intention or custom of the user, the operator, and the like. The definition is based on the " Water-tidal power generation rotary device ", which is incorporated herein by reference in its entirety.

The water / tidal power generation rotary device provided with the semi-cylindrical cover (30) having the key (40) of the present invention includes a shaft (10) installed vertically and transmitting rotational energy of the rotor to the electric generator; A rotor 20 through which the shaft 10 penetrates and is fixedly coupled to a hollow cylindrical cylinder 21 at the center and is rotated by the flow of water; The bearing 10 is rotatably supported by bearings 101 and 102 on the outer side of the rotor 20 so as to be rotatable with respect to the rotor 10, 10) a semicylindrical cover 30 for blocking the hydraulic pressure of water flowing on the other half of the one surface to smooth the rotation of the rotor 10; A key 40 connected to the outside of the end of the semi-cylindrical cover 30 by a key angle adjuster 50 and installed so that the semi-cylindrical cover 30 corresponds to the flow direction of the water; A key angle adjuster 50 for adjusting the horizontal angle between the key 40 and the semi-cylindrical cover 30 as an apparatus for connecting the key 40 and the semi-cylindrical cover 30; And a rotor fixture bearing fixing portion 61 provided with a rotor fixture bearing 100 on a central hollow portion of the rotor fixture bearing 100. The rotor fixture bearing fixation portion 61 is inserted through the hollow portion of the rotor fixture bearing 100 so that the shaft 10 can rotate, (60) fixed to the rotor bracket and supporting the shaft (10); And a rotor base bearing 103 is installed at a central portion of the shaft 10 so that the shaft 10 can rotate so that the lower portion of the shaft 10 is coupled through the hollow portion of the rotor base bearing 103, And a rotor support (70) for stably supporting the cylindrical cover (30), the key (40), and the rotor fixture (60).

A roller 80 is further provided on the lower surface of the semi-cylindrical cover 30. A rail 90 is further provided on the upper surface of the rotor support 70 so that the roller 80 Is rotatable along the rail (90) while bearing the load of the semi-cylindrical cover (30).

A key angle adjuster 50 may be additionally provided between the key 40 and the semi-cylindrical cover 30.

The key angle adjuster 50 is of a fastener type in which the angle of the key 40 is fixed in the tightening state and the angle of the key 40 is changed in the unlocked state so that the angle between the key 40 and the semi- It is preferable that the angle can be finely adjusted.

A semi-cylindrical cover bearing fixing portion 31 positioned at the center of the upper and lower plates of the semi-cylindrical cover 30, a rotor fixture bearing fixing portion 61 located at the center of the rotor fixing frame, Bearings are provided on the rotor base bearing fixing portions 71, respectively.

The rotor 20 has three or more odd numbered blades 22 joined to the hollow cylindrical cylinder 21 to prevent the force of the flow of water from being balanced on one surface of the rotor 20, (20).

The rotor fixture 60 includes a plurality of fixing tables 62 and disperses the hydraulic pressure applied to the semi-cylindrical cover 30 and the rotor 20 on the rotor support 70.

FIG. 1 is a perspective view illustrating a combined structure of a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention. FIG. 2 is a perspective view of a water / FIG. 3 is a plan view of a water / tidal power generating rotary device provided with a keyed semi-cylindrical cover according to the present invention, and FIG. 4 is a plan view of a key- Sectional view of the present invention.

The shaft 10 is vertically inserted into and coupled with the rotor support bearing 103 coupled to the rotor support bearing fixing portion 71 located at the center portion of the upper plate of the rotor support 70, Cylindrical bearings 101 and 102 and a rotor fixture 60 which are fixedly coupled through cylindrical cylinders 21 and coupled to semi-cylindrical cover bearing fixing portions 31 located at the center of the upper and lower plates of the semi-cylindrical cover 30, And is rotatably coupled through a rotor fixture bearing (100) provided on a fixed portion (61) of a rotor fixture (61).

The shaft 10 is connected to a rotor of a generator on a water surface and serves to transmit the rotational energy of the rotor 20 rotating under the water flow to the generator, .

The shaft 10 is engaged with the bearings 101 and 102 coupled to the semi-cylindrical cover bearing fixing portion 31 positioned at the center of the lower plate on the semi-cylindrical cover 30 to serve as a rotating shaft of the semi-cylindrical cover.

The shaft 10 is coupled to a rotor fixture bearing 100 coupled to a rotatable fixture bearing fixture 61 located at the center of the rotor fixture 60 to prevent the shape of the rotor fixture 60 from being deformed .

The rotor 20 is fixedly coupled to the hollow cylindrical cylinder 21 through a shaft 10 and a part of the outer cylinder 20 is covered with a semi-cylindrical cover 30 to receive hydraulic pressure due to the flow of water.

Cylindrical cover bearing fixing portion 31 is provided at the center of the upper plate and the lower plate of the semi-cylindrical cover 30 and a semi-cylindrical cover-upper bearing 101 and a semi-cylindrical lower cover bearing 102 are fixedly coupled to each other so that the hollow portions of the two bearings 101, 102 are rotatably coupled through the shaft and the key 40 is coupled to the outside of the end portion.

The key 40 may be provided at the end of the semi-cylindrical cover 30 and may further include a key angle adjuster 50 between the semi-cylindrical cover 30 and the key 40, have.

The rotor fixture 60 includes a rotor fixture bearing fixing portion 61 at a center portion thereof and is fixedly coupled to the rotor fixture bearing 100. The bearing inner hollow portion and the shaft 10 are engaged with each other The outer fixing table 62 is fixedly coupled to the rotor base 70.

The rotor base 70 is provided with a rotor base bearing fixing portion 71 in which a rotor base bearing 103 is installed at the center of the rotor base 70. A lower portion of the shaft is rotatably mounted on the rotor base bearing 103 And supports the lower end of the shaft 10 and stably supports the rotor 20.

FIG. 5 is a plan view of a rotor, which is a component of the present invention, of a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.

Referring to FIG. 5, the rotor 20 has three or more odd numbered vanes 22 fixedly connected to the hollow cylindrical cylinder 21.

The hollow cylindrical column 21 of the rotor 20 is fixedly coupled to the shaft 10 through the shaft 10 and is rotated by hydraulic pressure according to the flow of water to transmit the rotational energy to the generator through the shaft 10.

The operation of the rotor 20 is a method in which the blade 22 exposed to the flowing direction of water is rotated under water pressure and the shaft 10 thus fixed is rotated.

Here, the rotating method of the rotor 20 according to the present invention is an effect of maintaining the rotation of the rotor even if the flow direction of the water / algae flow is not constant.

FIG. 6 is a perspective view illustrating a rotor, a semi-cylindrical cover, a key, and a key angle adjuster, which are components of a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.

Referring to FIGS. 4 and 6, the semi-cylindrical cover 30 includes a semi-cylindrical cover bearing fixing portion 31 at the center of the upper and lower plates.

A key (40) engages with the semi-cylindrical cover (30) on the outer side of the end of the semi-cylindrical cover (30) so that the semi-cylindrical cover (30) can rotate corresponding to the direction of flow of the water.

A semi-cylindrical cover-top bearing 101 and a semi-cylindrical cover-down bearing 102 are fixedly coupled to a semi-cylindrical cover-bearing fixing portion 31 located at the center of the upper and lower plates of the semi-cylindrical cover 30, The shaft 10 is coupled to the hollow portion of the bearings 101 and 102 so that hydraulic pressure due to the flow of water does not act on one surface of the rotor and also protects the rotor.

Such a coupling method rotates the shaft 10 along the water flow direction to block a part of the hydraulic pressure applied to the rotor 20 to prevent the balance of the force formed on one surface of the rotor, Can be prevented from being stopped, thereby enhancing the power generation efficiency.

Although the semi-cylindrical cover 30 is made as a hollow semicircular cylinder as described above, it is only one example, and it is not limited to the case where the rotor 20 is provided with a sufficient flow of water It can be used as a variety of geometric shapes which are structures that prevent the equilibrium of force due to water flow.

For example, the semi-cylindrical cover 30 may be used as a hollow column having a half-water-droplet shape in which a portion where the key is engaged is wide and an upper and a lower plate is narrowed to the opposite side in order to minimize water resistance.

Also, the shape of the horizontal plane forming the structure of the semi-cylindrical cover 30 does not necessarily have to have a circular arc shape of 180 degrees, but may have a circular arc shape of 180 degrees or less on an angle of 160 degrees.

FIG. 7 is a perspective view of a key as a constituent element of a water / tidal power generating rotary device provided with a keyed semi-cylindrical cover according to the present invention. FIG.

Referring to FIG. 7, the key 40 has a horizontally-sectioned isosceles triangle and a base-pointed upward point.

The key 40 is installed outside the end of the semi-cylindrical cover 30 to rotate the semi-cylindrical cover according to the flow of water.

It is preferable that the key 40 has a structure that enables the semi-cylindrical cover to rotate corresponding to the direction in which water flows.

When the key 40 and the semi-cylindrical cover 30 are coupled to each other, a key angle adjuster 50 may be additionally provided.

The key angle adjuster 50 is inserted into the engaging portion of the key 40 and the semi-cylindrical cover 30 to adjust the key 40 to an angle at which the pressure of the water can be maximized, So that the angle of the key 40 can be easily readjusted.

The key angle adjuster 50 can be any fastening type as long as it can be loosened and tightened.

The key angle adjuster 50 fixes the angle of the key 40 in the tightening state and the angle of the key 40 in the unlocked state so that the angle of the key 40 can be finely adjusted.

8 is a perspective view of a rotor fixture as a constituent element of a water / tidal power generating rotary device provided with a keyed semi-cylindrical cover according to the present invention.

8, the rotor fixture 60 is provided with a rotor fixture bearing fixing portion 61 at a central portion thereof, and a plurality of fixture blades 62 are installed outside the circumference of the fixture bearing fixation portion 61 .

The rotor fixture bearing fixing portion 61 of the rotor fixture 60 is coupled to the center of the rotor fixture bearing 100 in which the rotor fixture bearing 100 is fixedly coupled and coupled with the shaft 10 The shaft 10, the rotor 20, the semi-cylindrical cover 30, and the like, which are fixedly coupled to the fixed base 62 and the rotor base 70 by being fixedly coupled to the rotor base, are deformed by water pressure or other pressure It plays a role of minimizing.

The rotor fixture 60 preferably supports the shaft 10 so that the shaft can maintain its verticalness under high water pressure.

FIG. 9 is a perspective view of a rotor bracket as a component of the invention in a water / tidal power generating rotary device having a keyed semi-cylindrical cover according to the present invention.

Referring to FIG. 9, it is preferable that the rotor support 70 is formed in a cylindrical shape with a rotor support bearing fixing portion 71 at the center of the upper plate.

The rotor base 70 has a high density and is not limited to a material having such properties that it is dissolved in water or does not rust, but it is most preferable to use a concrete material.

The rotor base 70 is fixedly coupled to the rotor base bearing fixing portion 71 located at the center of the upper plate and the shaft 10 is inserted into the inner circle of the rotor base bearing 103 So as to maintain the vertical position of the shaft 10 and to be fixedly coupled with the rotor fixture 60 so as to minimize the malfunction caused by the algae.

Further, the rotor base 70 is coupled through the shaft 10 and the rotor pedestal bearing 103, so that the shaft load can be supported and rotated easily.

It is preferable that a rail 90 is additionally provided on the upper plate of the rotor support 70 and a roller 80 is further provided on the lower surface of the semi-cylindrical cover 30. [

The rails 90 and the roller 80 have a function of dispersing the weight of the shaft 10 and the semi-cylindrical cover 30 to prevent deformation of the outer shape that may occur when operating for a long period of time.

FIG. 10 is a view illustrating an operation of a rotor according to a change in water flow in the invention of a water / tidal power generating rotary device provided with a semi-cylindrical cover with a key according to a flow of water.

The overall operation of the present invention will now be described in detail with reference to FIG.

10, when the direction of the water is from 9 o'clock to 3 o'clock, the flow of water is instantaneously changed from 11 o'clock to 5 o'clock in a state where the rotor 20 is rotating clockwise At this time, the hydraulic pressure due to the water flow acts on the side surface of the key 40 provided on the end surface of the semi-cylindrical cover 30, so that the semi-cylindrical cover 30 connected to the key 40 is moved in the direction of the water The rotation direction of the rotor is maintained as it is in the clockwise direction. All of the other figures sequentially shown by the arrows in FIG. 10 are operated in the above-described operation sequence.

FIG. 11 is a view showing an operation example of a rotor according to a position of a key, which is a component in the invention of a water / tidal power generating rotary device provided with a semi-cylindrical cover with a key.

11, when the water flows in the direction from 3:00 to 9:00, the rotation direction of the rotor 20 is clockwise. However, in the case where the flow direction of the water is the same as that of FIG. 11 (b) If the position is reversed, it can be confirmed that the direction of the rotor 20 is counterclockwise. Thus, the rotational direction of the rotor can be determined according to the installation position of the key.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims. It is therefore to be understood that the embodiments described above are in all respects illustrative and not restrictive.

According to the present invention, one surface of the water / tidal rotor is covered with a cover to block a part of the water flow applied to the rotor, so that the rotation of the rotor can be maintained without stopping. The rotation direction of the rotor can be maintained unchanged according to the change of the water flow, and the power generation efficiency of the power generation apparatus can be increased by inducing continuous power generation.

10: Shaft
20: Rotor
21: hollow cylinder 22: wing
30: semi-cylindrical cover 31: semi-cylindrical cover bearing fixing portion
40: Key
41: top plate of key 42: key angle adjuster
50: Key angle adjuster
60: rotor fixture
61: rotor fixture bearing fixture 62: fixed base
70: rotor base 71: rotor base bearing fixing portion
80: Rollers
90: Rail
100: Rotor-type fixture bearing 101: Semi-cylindrical cover phase bearing
102: semi-cylindrical cover-lower bearing 103: rotor base bearing

Claims (5)

A tidal / tidal power generating rotary device comprising a rotor connected to a water / tidal generator,
A shaft vertically installed to transmit rotational energy of the rotor to the generator;
A rotor through which the shaft penetrates and is fixedly coupled to a hollow cylinder at the center and is rotated by the flow of water;
A semi-cylindrical outer shape is provided with a bearing at the center of the upper and lower ends, the shaft is fixed through and is rotatable by a bearing at the outside of the rotor so as to block hydraulic pressure of water flowing on one half of the rotor, A semi-cylindrical cover for smooth rotation;
A key installed to be connected to the outside of the end of the semi-cylindrical cover by a key angle adjuster and to rotate the semi-cylindrical cover in accordance with a flow direction of water;
A key angle adjuster for adjusting the angle between the key and the semi-cylindrical cover as an apparatus for connecting the key and the semi-cylindrical cover;
A rotor fixture bearing fixture having a rotor fixture bearing mounted thereon, the shaft being rotatably coupled to the rotor fixture bearing 100 through a hollow portion thereof, the shaft being rotatable, the rotor fixture bearing fixture being fixedly coupled to the rotor support, A rotor fixture for supporting the shaft; And
A rotor base bearing is provided at a center portion so that the shaft can rotate, a lower portion of the shaft is coupled through the rotor base bearing hollow portion, and a rotor, a semi-cylindrical cover, ; ≪ / RTI >
A roller is further provided on the bottom surface of the semi-cylindrical cover, and a rail is additionally provided on the top surface of the rotor base. The roller of the bottom surface of the semi-cylindrical cover rotates along the rail to withstand the load of the semi-cylindrical cover, Wherein the cover has a semi-cylindrical cover with a key, which prevents deformation of the outer shape of the rotor and the semi-cylindrical cover. delete The method according to claim 1,
Wherein the key angle adjuster fixes the angle of the key in the fastening state and the angle of the key in the unlocked state to finely adjust the angle between the key and the semi-cylindrical shape, A water and tidal power generator rotating device. The method according to claim 1,
The rotor is formed by coupling three or more odd numbered blades to a hollow cylindrical cylinder, thereby preventing the action of force due to the flow of water acting on one surface of the rotor from being balanced, thereby facilitating rotation of the rotor And a cylindrical semi-cylindrical cover having a key for performing a tilting operation. The method according to claim 1,
Wherein the rotor fixing frame includes a plurality of fixing bars, and the semi-cylindrical cover on the rotor support and the hydraulic pressure applied to the rotor are dispersed. .

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