KR20180106584A - Tidal power generation equipment of possible lift blades - Google Patents

Abstract

The present invention relates to a tidal power generation apparatus capable of lifting a blade. According to the present invention, a support frame unit is formed on the upper surface of a floating body, a rotational case is installed between rotational supports of the support frame unit, and a tubular case coupled to an extended tubular body is fixed to the rotational case. A power transfer shaft is installed inside the tubular case and a driving shaft rotated by the blade is installed inside the extended tubular body, such that the blade of a power transfer unit is rotated by a predetermined angle by the rotational case to be lifted on a water surface. Accordingly, a rudder controls the direction of the blade while being rotated corresponding to the flowing direction of water, such that the blade is continuously rotated by the flow rate of the water and rotational force of the blade is transferred to a generator through the driving shaft and the power transfer shaft to operate the generator. In particular, when foreign matters stack on the blade submerged in the water, or, damage or breakage occurs in the same, the rotational case is rotated by a manual rotation device to lift the blade on the water surface, such that it is not required to make a worker dive in the water, and the worker replaces or repairs the blade lifted on the upper surface of the floating body, thereby work is quickly performed.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tidal power generation equipment,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a tidal power generator, and more particularly, to a tidal generator capable of lifting a power transmitting portion formed with a blade by rotating a rotating case with a manual rotating device.

Generally, the tidal power is generated by tidal tidal flats with a seawall and a generator installed. When the seawater comes in, it opens the gates and fills the seawalls with water. When the tidal gates are closed, Released at once.

At this time, the water is discharged at a time, and the turbine of the generator is rotated to generate electric power.

2. Description of the Related Art Recently, a float is fixed on a water surface of a sea, a float to be submerged in water is installed in the float, and the rotation power of the blade is transmitted to the generator by rotating the blade by the flow rate of water. It adopts the structure to return.

Patent Document 1 discloses a conventional floating combined-cycle power generator. Referring to this, a tidal power generator is provided in a lower portion of the body portion, and a tidal power generator is provided between the body portion and the tidal power generator, And a tactile responsive steering portion for fixing the portion.

At this time, the tidal power generating portion forms a tapered importing portion at the front end, forms a water outlet at the other end corresponding to the importing portion, and has a power generating impeller between the importing portion and the water outlet.

Here, the tidal guidance unit is rotated at a predetermined angle so as to correspond to the flow direction of the water to allow water to flow into the importing section of the tidal power generation section. At this time, the water flowing into the importing section is discharged to the water discharge port via the power generation impeller, The impeller for power generation is continuously operated by the flow rate of the water to perform the power generation operation.

However, in the above-described Patent Document 1, the tidal power generation portion can not be lifted, and there is a great difficulty in maintaining and repairing the tidal power generation portion. Particularly, when impurities are caught in the power generation impeller or damage or breakage occurs, It is necessary to carry out the process of removing impurities and replacing the impeller for power generation. Accordingly, there is a problem that the reliability of the product deteriorates because the operator who has to work for a long time in the water undergoes the abnormal symptoms such as the sickness.

KR 10-2012-0000325 A

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide a vacuum cleaner in which a support frame part is formed on the upper surface of a floating body, a rotary case is provided between the rotary support parts of the support frame part, A power transmission shaft is provided inside the tubular case, a drive shaft rotatably operated by a blade is provided inside the tubular body, and a generator is provided at the upper end of the tubular case, The present invention provides a tidal power generator capable of lifting a blade lifted by a predetermined angle by a rotating case rotated by a manual rotating device to lift the blade.

In order to accomplish the object of the present invention, the tidal generator capable of lifting the blade according to the present invention comprises: a float floating on the water surface by forming an entrance hole on one side; A support frame part protruding from both sides of the float surface to face each other and having a rotation support on one side facing each other; A rotary case rotatably coupled between the rotation support bars in a hollow tube shape having an upper and a lower open; And a tubular case coupled to the lower end of the rotary case so as to be exposed to the upper and lower ends of the rotary case in a hollow tube shape and extending orthogonally to both sides of the tubular case, A rudder installed on the other side of the tubular body opposite to the blade to rotate in a direction corresponding to a flow direction of the water to change the direction of the blades, A power transmission part connected to the blade inside the extension tube to form a drive shaft for transmitting rotational force of the blade to the power transmission shaft; A generator installed at an upper end of the tubular case of the power transmitting portion and generating power by receiving a rotational force of the power transmitting shaft; And a manual rotating device installed on one side of one of the rotation support rods of the support frame part and connected to the rotation case to rotate the rotation case so that the tubular case enters the inflow hole of the float. do.

In the tidal generator capable of lifting the blade according to the present invention, the power transmission unit is characterized in that the extension pipe coupled to the lower end of the pipe case rotates 360 degrees about the pipe case.

In the tidal generator capable of lifting the blade according to the present invention, the rotary case is rotatably operated at an angle of 90 degrees by the manual rotating device.

In the tidal generator capable of lifting the blade according to the present invention, a power transmission gear is formed at an upper end of a power transmission shaft of the power transmission unit, and a rotation transmitting member is engaged with the power transmission gear at a lower portion of the power generator, And a driving gear for transmitting the driving force.

In the tidal power generation apparatus according to the present invention, the power transmission unit may include a bevel gear that meshes with a lower end of the power transmission shaft and one end of the drive shaft, and transmits a rotational force of the drive shaft to the power transmission shaft .

According to the present invention, by adjusting the direction of the blade while rotating the rudder to correspond to the flow direction of the water, the blade is continuously and rotationally operated by the flow rate of water, and the rotational force of the blade is transmitted to the generator through the drive shaft and the power transmission shaft, In particular, in the event that foreign substances are caught in the submerged blade or damage or breakage occurs in the submerged water, the rotating case can be rotated by the manual rotating device, and the blade can be lifted up to the water surface, In addition, the operator has the advantage of improving the reliability of the product by preventing the abnormal physical symptoms such as the sickness, while the worker is swiftly replacing or maintenance of the lifted blade on the float surface.

1 is a schematic front view of a tidal generator capable of lifting a blade according to the present invention;
2 is a schematic plan view of a tidal generator capable of lifting a blade according to the present invention;
3 is a schematic side view showing a state where a blade of a tidal power generator capable of lifting a blade according to the present invention is submerged in water.
FIG. 4 is a schematic side view showing a state in which a blade of a tidal generator capable of lifting a blade according to the present invention is lifted up to the water surface. FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 to 4, the float 100 is floated on the water surface by forming an entrance hole 101 on one side.

The float (100) supports the load of the power transmission part (400) to float the power transmission part (400) on the water surface.

The float 100 is connected and fixed to a wire string (not shown) having its lower edge corner fixed to the bottom of the sea floor, and floated by the wire string at a predetermined position of the water surface.

The support frame part 200 is protruded in a pair so as to face each other on both sides of the upper surface of the float 100 to form a rotation support 201 on one side facing each other.

The rotation support 201 is coupled to both sides of the rotation case 300 to support the rotation of the rotation case 300.

It is preferable that the support frame part 200 is formed as a pair adjacent to each other with reference to the entrance hole 101 of the float 100.

The rotary case 300 is rotatably coupled between the rotary supports 200 in the form of a hollow tube having open top and bottom.

The rotary case 300 may be axially coupled to the rotary support 200.

The rotating case 300 is rotated by the manual rotating device 600 to rotate the power transmitting part 400 at a predetermined angle.

The rotary case 300 is rotated at an angle of 90 degrees by the manual rotary device 600. [

The power transmission unit 400 includes a tubular case 401 coupled to the rotating case 300 in a hollow tubular shape so as to be exposed through the tubular case 300 and coupled to the lower end of the tubular case 401, A blade 402 is provided on one side of the extension tube 401a in accordance with the flow rate of the water and is provided on the other side of the extension tube 401a opposite to the blade 402 A rudder 403 that rotates and changes the direction of the blade 402 is provided and a power transmitting shaft 404 installed in the tubular case 401 in a vertical direction to rotate in a horizontal direction is formed, A driving shaft 405 connected to the blade 402 and transmitting the rotational force of the blade 402 to the power transmission shaft 404 is formed inside the tube body 401a.

The power transmission unit 400 is operated so that the extension tube 401a coupled to the lower end of the tubular case 401 rotates 360 degrees about the tubular case 401.

The extension tube 401a is freely rotated by the rudder 403 rotated so as to correspond to the flow direction of the water.

The rotational speed of the blade 402 varies with the flow rate of the water.

A power transmitting gear 404a is formed at an upper end of the power transmitting shaft 404 of the power transmitting portion 400. [

The power transmitting gear 404a is engaged with the driving gear 500a of the generator 500 and transmits rotational force to the driving gear 500a.

The bevel gear 406 is engaged with the lower end of the power transmission shaft 404 and one end of the drive shaft 405 to transmit the rotational force of the drive shaft 405 to the power transmission shaft 404.

The generator 500 is installed at the upper end of the tubular case 401 of the power transmission unit 400 and generates power by receiving the rotational force of the power transmission shaft 404.

A generator 500a is provided at a lower portion of the generator 500 with a driving gear 500a engaged with the power transmission gear 404a to transmit the rotational force of the power transmission shaft 404 to the generator 500. [

The manual rotation device 600 is installed on one side of one of the rotation support rods 200 of the support frame part 200 and is connected to the rotation case 300 so that the tubular case 401 is connected to the float The rotary case 300 is rotated so as to enter the entrance hole 101 of the rotary shaft 100.

The manual rotating device 600 is operated by a work force of the operator to rotate the power transmitting part 400 at a predetermined angle.

The tidal generator capable of lifting the blade according to the present invention constructed as described above is used as follows.

First, one end of a wire string (not shown), which is fixed on the bottom surface of the sea floor, is fastened to each corner of the bottom surface of the float 100 to float the float 100 at a prescribed position on the water surface.

The worker climbing on the upper surface of the float 100 rotates the manual rotary device 600 in the forward or reverse direction and rotates the rotary case 300 so that the power transmitted to the rotary case 300 (400) is rotated by the rotary case (300).

At this time, the power transmitting portion 400 is rotated by the manual rotating device 600 and is vertically erected. At the same time, the tubular case 401 enters the inflow hole 101 of the float 100 The blade 402 and the rudder 403 installed at the lower part are submerged in water.

At this time, the blade 402 installed to face the rudder 403 rotates at the same time as the rudder 403 is rotated, so that the rudder 403, which maintains the submerged state in the water, So as to face the flow direction of the water.

The rudder 403 is freely rotated by an extension tube 401a coupled to one side of the extension tube 401a and rotated 360 degrees with respect to the tube case 401.

Thereafter, the blade 402 facing the water flow direction is rotated in the normal direction or the reverse direction by the flow rate of water. At this time, the drive shaft 405 is rotated by the blade 402, Transmits torque.

That is, the rear end of the driving shaft 405 connected to the blade 402 and the bevel gear 406 provided at the lower end of the power transmission shaft 404 are engaged with each other so that the bevel gear 406 is engaged with the driving shaft 405 A rotational force is transmitted to the power transmission shaft 404.

At this time, the power transmitting gear 404a is rotated by the power transmitting shaft 404, and at the same time, the driving gear 500a installed at the lower portion of the generator 500 engaged with the power transmitting gear 404a Receives the rotational force of the power transmission gear 404a, and rotates to generate the generator 500.

On the other hand, when foreign matter is caught in the blade 402 maintained in the submerged state in the water or an abnormality occurs in the blade 402, The rotary case 300 is rotated in the forward or reverse direction to rotate the rotary case 300.

At this time, the tubular case 401 of the power transmission unit 400 is disengaged from the entry hole 101, and the float (not shown) And is lifted up to the water surface parallel to the vehicle 100.

The worker climbing on the float 100 maintains the blade 402 and the rudder 403 in a state where the power transmission unit 400 is lifted above the water surface.

The power transmitting portion 400 having the blade 402 as the rotating case 300 is rotated by rotating the rotating case 300 to the supporting frame portion 200 fixed on the float 100 as described above, The structure for lifting the blade 402 up to the water surface is such that the direction of the blade 402 is adjusted while the rudder 403 is rotated to correspond to the flow direction of the water so that the blade 402 is continuously rotated and operated by the flow rate of water The rotational force of the blade 402 is transmitted to the generator 500 through the drive shaft 405 and the power transmission shaft 404 to drive the generator 500. Particularly when the submerged blade 402 is impregnated with foreign matter The blade 402 can be lifted up to the water surface by rotating the rotary case 300 with the manual rotating device 600 so that the operator does not need to submerge in the water.

The tidal power generator capable of lifting the blade according to the present invention described above is not limited to the above-described embodiment, and can be applied to a tidal power generator having a common knowledge in the field of the present invention without departing from the gist of the present invention There is a technical spirit to the extent that anyone can make various changes.

100: float 101: entry hole
200: Support frame part 201:
300: rotating case 400: power transmitting portion
401: tube case 401a: extension tube
402: blade 403: rudder
404: Power transmission shaft 404a: Power transmission gear
405: drive shaft 406: bevel gear
500: generator 500a: drive gear
600: Manual rotation device

Claims (5)

A float (100) floating on the water surface by forming an entry hole (101) on one side;
A support frame part 200 protruding from both sides of the upper surface of the float 100 so as to face each other and having a rotation support 201 formed on one side facing each other;
A rotary case 300 rotatably coupled between the rotary supports 200 in a hollow tubular shape having upper and lower openings;
And a tubular case 401 coupled to the rotary case 300 in such a manner that the tubular case 401 is exposed to the lower side of the rotary case 300 and coupled to the lower end of the tubular case 401 to extend orthogonally in both directions. The blade 402 is rotated in correspondence to the flow rate of water on one side and rotated on the other side of the extension tube 401a opposite to the blade 402 to correspond to the flow direction of the water, A rudder 403 for changing the direction of the tubular body 401 and a power transmission shaft 404 installed vertically in the tubular case 401 and rotationally operated in the horizontal direction, A power transmission unit 400 connected to the blade 402 to form a drive shaft 405 for transmitting the rotational force of the blade 402 to the power transmission shaft 404;
A generator 500 installed at an upper end of the tubular case 401 of the power transmission unit 400 and generating power by receiving the rotational force of the power transmission shaft 404;
The tubular case 401 is installed on one side of the rotary support 200 of the support frame part 200 and is connected to the rotary case 300 so that the tubular case 401 is inserted into the inflow hole 101) for rotating the rotary case (300);
Wherein the tidal generator is a tidal turbine. The method according to claim 1,
The power transmission unit 400 includes:
Wherein the extension tube (401a) coupled to the lower end of the tubular case (401) is rotated 360 degrees about the tubular case (401). The method according to claim 1,
In the rotary case 300,
Is rotatably operated at an angle of 90 degrees by the manual rotating device (600). The method according to claim 1,
A power transmission gear 404a is formed at an upper end of the power transmission shaft 404 of the power transmission unit 400,
And a drive gear 500a which is engaged with the power transmission gear 404a to transmit the rotational force of the power transmission shaft 404 to the generator 500 is formed in the lower portion of the generator 500. [ Tidal generator. The method according to claim 1,
The power transmission unit 400 includes:
And a bevel gear 406 engaged with the lower end of the power transmission shaft 404 and one end of the drive shaft 405 to transmit the rotational force of the drive shaft 405 to the power transmission shaft 404 A tidal generator capable of lifting the blade.

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