JP2022173000A - Wind power and tidal current floating type power generator - Google Patents

Abstract

To solve a problem that natural energy is waisted to change an angle of a blade or use a brake for preventing breakage when wind speed is 25 m/s or more, in a conventional wind power generation by a propeller.SOLUTION: Equipment started according to a degree of wind velocity so as to prevent rotations of a horizontal shaft connected to a drive blade from becoming a regulated value or more due to strong wind, and equipment equipped with an adjusted starting plate forward at an upper part of a wind power generating body are provided. The starting plate is provided so as to couple a control generator attached with a clutch A adjacent in a contactable manner to a clutch plate B connected to a peripheral wall side of the horizontal shaft penetrating a center of the inside of the wind power generating body from a rear side to a front outer side. The clutch plate A interlocked by the starting of the starting plate is contacted and coupled with the clutch plate B, thereby braking the rotations of the horizontal shaft. A load of an interposed gear is applied, the rotations of the horizontal shaft are controlled, and power can be additionally obtained.SELECTED DRAWING: Figure 1

Description

The present invention relates to a combined power generation system in which a wind power generator is attached to the top of a box-shaped floating member and a tidal power generator is attached to the bottom of the box-shaped floating member.

In a conventional floating offshore wind power generation system, a floating body is attached to a single mooring body fixed to a fixed body on the seabed, and a generator is rotatably built in the upper part of the tower above the floating body. An offshore wind power generation system that converts energy is arranged, and a mooring stabilizer that receives ocean currents and generates drag is arranged at one location of the mooring body (see Patent Document 1, for example).

Japanese Patent Laid-Open No. 2020-84813

In the conventional floating offshore wind power generation system described above, the floating body attached to one mooring body cannot stay at a fixed position on the sea surface against strong winds that change about 360 degrees on the sea, and the tower However, the configuration of energy loss due to changes in the angle of the mooring body is a problem because it is difficult to obtain stable and efficient power generation.

In addition, large-scale wind power generation systems other than conventional offshore wind power generation systems have a configuration in which the wind direction is detected by a sensor and the blade direction is directed by a yaw drive device. balance load on one side of the mounting part of the , it is not possible to mount the blades away from the tower as this would create more strain. Also, making the blade heavy is a problem in terms of life.

In addition, it is a big problem that expensive large wind turbines are damaged by strong winds. Stopping the rotation of the blades has been done, but this control measure is also a problem because it wastes the energy of strong winds.

The present invention is intended to solve the problems that the conventional configuration had, and has trouble-free correspondence and functionality at each location, and efficiently and stably uses the energy of wind power and tidal currents. The purpose of this system is to take in the energy and convert it into electricity without waste.

In order to achieve the above object, the present invention provides a horizontal shaft protruding rotatably through the center of the inside of the wind turbine generator to the rear or front, and the horizontal shaft inside the wind power generator is mounted on the horizontal shaft. , a generator connected to the transmission gear is arranged on one side of the peripheral wall of the horizontal shaft, and a clutch plate B connected to the transmission gear is provided on the other side of the peripheral wall of the horizontal shaft A starting plate adjusted to start at the degree of wind speed is attached to the upper part of the wind power generator, an adjustment spring linked to the starting plate and a control generator are connected, and the control generator A clutch plate A is attached to the shaft, and the clutch plate A interlocked with the activating plate is arranged adjacent to the provided clutch plate B so as to be contactable, and the actuating plates are connected to each other. The armed starting plate is provided and mounted on top of the wind power generator.

In addition, the function of the second problem-solving means is that, in order to cope with the strongest wind force, the starter plate and the starter plate A are arranged side by side on the upper part of the wind power generator, and the starter plate A is attached to the upper part of the arm. The middle of the arm is attached to a shaft member attached to the upper plate of the upper part of the wind power generator so that the upper part and the lower part of the arm move back and forth, and the lower part of the arm is attached to the shaft member. It is attached to a dolly placed inside.

In addition, an adjustment spring connected to a fixed part at the rear of the truck with rollers is connected to the truck, a control generator B is placed on the truck, and a clutch plate C is attached to the shaft of the control generator B. There is a starting plate A that is equipped so that the clutch plate C is interlocked with the start of the starting plate A that is started by adjusting the adjustment spring that connects them.

Also, this clutch plate C is contactably adjacent to the clutch plate D attached to the rear shaft of the generator connected to one side of the peripheral wall of the horizontal shaft arranged in the center inside the wind power generator. Clutch plate C is arranged.

In addition, by adjusting the adjustment spring that is connected so as to be activated by strong wind power, the clutch plate C that is interlocked with the activation of the starting plate A that is activated is interlocked, and by contacting and connecting the clutch plate D, the control generator The load that rotates the shaft of B is transmitted from the connected generator to the rotation of the horizontal shaft, and the rotation speed of the horizontal shaft is controlled to suppress, while the power generated by the rotation of the control generator B shaft is obtained. I can.

In addition, in the third problem-solving means, the state of the tidal current power generating body when the direction of the flow at the time of commutation due to the tidal current changes is the vertical tail behind the tidal current power generating body with respect to the direction of flow, and the box-shaped floating By rotating the rotating suspension rod on the lower side of the material, the front of the tidal power generator is positioned in the direction of the flow, enabling normal power generation of the tidal power generator.

As described above, the wind and tidal floating power generator of the present invention combines a wind power generator and a tidal current power generator, so that even when there is no wind, when placed in a tidal current, an ocean current, or a water current, It is always possible to get power.

In addition, by equipping the upper part of the wind power generator with a starter plate and a starter plate A, the rotation speed of the horizontal axis is controlled when the rotation speed of the horizontal axis is too fast, and the rotation is less troublesome. It is possible to respond to the speed of , and it is possible to reduce the waste of wind energy and provide it by converting it to electricity.

In addition, by changing the size of both starter plates and the strength of the springs installed, it is possible to adjust the starter plate, which is activated by the action of the wind force, and the starter plate A, according to the wind speed. .

In front of the wind power generator, there are a first base mounted on a horizontal shaft and rotating in the same direction, and a driving blade having a supporting material attached to the peripheral wall of the second base, which is suitable for rotation in response to the wind. A plurality of driving blades of the first base portion and the driving blades of the second base portion, which are erected in a square shape at an angle, are staggered and mounted side by side on the horizontal axis. With the center of the circle as the fulcrum, increasing the area that receives the wind at positions farther away from the fulcrum has been designed to increase the rotational force of the horizontal axis.

In addition, the front and rear balance is preliminarily adjusted to the third and fourth water tanks behind the inside of the tidal current power generation body, centering on the locking part provided at the center upper part of the front and back of the tidal current power generation body. Water is put in from the water supply port and equipped with balance, and the locking part is connected to the hanging plate from the rotating hanging rod on the lower side of the box-type floating material, and the tidal power generator is placed in the tidal current to ensure stability. power generation is possible.

The parts that can be attached and detached from the floating power generator for wind power and tidal currents are the shaft holes of the bearings that are vertically fixed to the upper plate and disc, and the cylinders that are provided on the lower side of the wind power generator. Insert the lower part of the shaped vertical shaft to make it attachable and detachable, and insert the hole formed with the second base and the first base into the groove of the horizontal shaft protruding forward of the wind turbine generator. In addition, the part that can be attached and removed with screw bolts in the bolt hole formed in the center of the front surface of the first base, and the four steel tower-shaped support base plates are attached to the bolts protruding from the top of the box-shaped floating member. With a part detachably attached with a nut and a hanging plate from a rotating hanger attached to the lower part of the box float, to the locking part of the upper part of the tidal current generator with a bolt and a nut, There are parts that can be attached and detached freely, and by being able to attach and detach the above-mentioned parts freely, it is possible to reduce costs while facilitating construction and replacing damaged parts.

In addition, depending on the condition of the installation site, it is possible to install by removing one side from the box-shaped floating material.

In addition, when the wind power generator is removed from the box-shaped floating material, it is possible to install the removed wind power generator on land and generate electricity.

The side view which shows embodiment of this invention. The front view which shows embodiment of this invention. FIG. 6 is a partial cross-sectional view along the line BB in FIG. 5 showing one side of the inside of the wind power generator; The top view which shows the inside of a wind power generator. FIG. 2 is a partial cross-sectional view along the line AA in FIG. 1 showing the front part of the wind power generator; FIG. 2 is a sectional view along line CC in FIG. 1 showing the cylindrical vertical side; The front view which shows the front surface which receives the wind of a drive blade|wing. FIG. 4 is a rear view showing the rear surface of the driving blade; FIG. 2 is a cross-sectional view taken along line DD in FIG. 1 showing the center of the tidal power generator from the box-shaped floating member; FIG. 2 is a cross-sectional view taken along the line EE in FIG. 1 showing the inside of the tidal power generator; FIG. 6 is a partial cross-sectional view taken along line FF in FIG. 5 showing one side of the inside of the wind power generator; Sectional drawing which shows the V-shaped shape which cut|disconnected the drive blade|wing from the middle.

Embodiments of the present invention will be described below with reference to FIGS. 1 to 12. FIG.

1 and 2, a plurality of ropes 33 connected to fixing members 34 fixed to the seabed 2 are attached around the box-shaped floating member 31 floating on the sea surface, and fixed to the sea surface. A box-shaped floating member 31 is provided as shown.

In the upper part of the box-shaped floating member 31, the pylon-shaped 26 is assembled with four pillars 26a and braces 26b. A column base plate 26c is attached by a bolt 9 and a nut 9a passed through an upper surface plate 32 and a column base plate 26c from a hole 9b, and a steel tower 26 is erected on the sea X.

Also, an upper plate 27, a cylinder 29 and a disk 30 are stacked and fixedly attached to the upper part of the steel tower 26.

Two bearings 4, into which the cylindrical vertical shaft 23 is inserted, are vertically and fixedly attached to the center of the upper surface of the stacked upper plate 27 and the disk 30.

Moreover, the upper part of the cylindrical vertical shaft 23 is fixed to the lower part of the box 1a, which is a part of the wind power generator 1, and the lower part is vertically lowered.

In addition, as shown in FIG. 6, a wire 22a for electric power to be generated is connected to a through hole inside the cylindrical vertical shaft 23, and the end of the wire 22a protrudes from the lower tip of the cylindrical vertical shaft 23 and rotates. A cylindrical vertical shaft 23 is provided to which a connector type 24 is attached.

In addition, around the cylindrical vertical shaft 23 vertically attached to the lower side of the box 1a, a plurality of caster-shaped upper parts 25 are placed on the upper surface of the disk 30 arranged below the box 1a. It is fixedly attached to the underside of the

Also, the lower end of the cylindrical vertical shaft 23 is inserted into the shaft holes 4a of the two bearings 4 vertically attached to the disk 30 and the upper plate 27, and the rotating connector type 24 portion penetrates from the lower surface of the upper plate 27. At the position where the upper part of the cylindrical vertical shaft 23 is thickened so as to stop, the stop position and the plurality of caster-shaped shafts 25 on the lower surface of the other box 1a are aligned with the upper surface of the disk 30. By coming into contact with and being stopped together, the wind power generator 1 is supported by casters 25 so as to be rotatable around a cylindrical vertical shaft 23 .

In addition, a transmission board 28 having a contact plate 28a and a power transmission wiring 28b attached to the contact board 24a of the rotating connector type 24 is provided on the lower surface of the upper plate 27 while bringing the contact plate 28a into contact with the contact board 28a. I'm here.

In addition, by providing this rotating connector type 24, the rotation of the wind power generator 1 causes the generated wiring 22a to be transmitted to the fixed power transmission wiring 28b without hindrance.

In addition, a vertical tail 2 with a cylindrical shape 2a attached to the rear end including the upper part or the lower part of the box body 1a is extended, and a lightning rod 2b is attached to the upper end of the cylindrical shape 2a.

A horizontal shaft 3 extends parallel to the bottom surface from the rear to the front of the box 1a and has a bearing 4 and a shaft seal ring 4b. 3 are rotatable.

A bolt hole 9b for attaching a screw bolt 9 is formed at the center of the tip of the horizontal shaft 3 so that the second base portion 6 and the first base portion 5 can be attached and removed from the horizontal shaft 3 projecting outward. On the protruding portion of the horizontal shaft 3, parallel grooves 3a are formed at two positions on the peripheral wall that bisects the circle of the horizontal shaft 3.

Further, the center of the circle of the cylindrical second base portion 6 which is first attached to the horizontal shaft 3 formed with the groove is extended from the rear 6b to the front 6a through a hole aligned with the horizontal shaft 3, and a concave portion 3a is formed inside the hole. A protruding portion 6c is formed in accordance with the vertical axis, and the peripheral wall of the second base portion 6 is inserted from the tip of the horizontal shaft 3 and attached from the rear 6b of the second base portion 6. Within 20 to 30 degrees, the width of the drive blade 7 at a position away from the second base portion 6 is increased, and the drive blade 7 attached with the support member 8 from the rear surface 7b of the drive blade 7 to the second base portion 6 is directed. A plurality of second roots 6 erected in a shape are inserted and attached to the horizontal shaft 3 from the rear 6b.

Also, the first base portion 5 attached after the second base portion 6 attached to the horizontal shaft 3 has a hole through which it can be inserted into the horizontal shaft 3, leaving the front side from the rear 5e to the front 5d of the center of the circle, and the opening of the hole. The position formed on the protrusion of the convex shape 6c aligned with the groove of the concave shape 3a inside is located between the plurality of driving blades 7 of the second base portion 6 attached to the horizontal shaft 3, and the first base portion A convex shape 5F is formed inside the hole at the position where the driving blade 5a of 5 is positioned, and the horizontal shaft 3 is inserted from the rear of the first base portion 5 and is inserted into the horizontal shaft 3 from the front side of the front 5d. A bolt 9 can be attached and removed by passing it through the screw bolt hole at the tip of the inner horizontal shaft 3.

Also, the plurality of drive blades 7 of the second base portion 6 and the plurality of drive blades 5a of the first base portion 5 are alternately directed forward on the horizontal shaft 3, and arranged side by side so that they can be attached and detached. It has been.

Also, a generator 12 connected to the shaft of a small transmission gear 10b meshing with a transmission gear 10 attached to one side of the peripheral wall of a horizontal shaft 3 rotatably arranged from the rear to the front center of the inside of the box 1a. And, on the rear shaft of the generator 12, a clutch plate D, 12a is attached.

Further, as shown in FIG. 11, the arm 18a, which is attached to the upper part of the arm 18a with the starting plate A, 18 which is started by the wind speed, is attached to the upper part of the arm 18a facing forward. The upper and lower parts of 18a are mounted to move back and forth, and the lower part of arm 18a is located inside, mounted behind a carriage 21 with rollers 21a underneath, fixed part 20a behind carriage 21 The adjustment spring 20 is connected to the rear part of the truck 21, the control generator B, 19 is placed on the truck 21, the clutch plate C, 19b is attached to the shaft of the control generator B, 19, and each A clutch plate C, 19b is interlocked with the activation of the connecting and equipped starting plate A, 18, and the provided clutch plate D, the starting plate A in which the clutch plates C, 19b are arranged so as to be contactable adjacent to the provided clutch plate D, 12a, 18 is provided on the upper part of the box body 1a by adjusting the adjustment spring 20.

Also, as shown in FIG. 3, clutch plates B and 11 are attached to the shaft of a small transmission gear 10c that meshes with the transmission gear 10 on the other side from the peripheral wall of the internal horizontal shaft 3. As shown in FIG.

In addition, on the upper part of the box 1a, a rope 14 connected to a start plate 13 that is started by wind power is placed inside through a pulley 14a attached to the upper plate 1b. The adjustment spring 17 attached to the fixed portion 17a behind the truck 16 is connected to the rear portion of the truck 16, and the clutch plate A15b is attached to the shaft 15a of the control generator on the truck 16 to The clutch plates A, 15b are arranged contactably adjacent to the clutch plate B11, and the auxiliary actuation plate 13 equipped by adjusting the adjustment spring 17 is placed forward on the upper part of the box 1a. It is provided.

In addition, in order to correspond to the desired wind speed, the adjustment spring 17 provided and the size of the starting plate 13 and the starting plates A and 18 are adjusted in advance, and arranged side by side on the upper part of the box 1a. is needed.

Moreover, the configuration described above is a configuration in which the steel tower 26 and the wind power generator 1 are provided above the box-shaped floating member 31 .

A holding member 35 is attached to the lower surface of the box-shaped floating member 31. A hole is provided in the center of the holding member 35 through the bottom plate. A bar 36 has waterproof means of the bearing 4 and the seal ring 4c in the space between the inside of the hole, and is vertically lowered from the holding member 35 to form a bifurcated cut from the middle to the lower tip. A rotatable suspension rod 36 is rotatably provided with a bolt hole 9b crossing the .

In addition, a hanging plate 37 having the same thickness is provided in the bifurcated notch of the rotating hanging rod 36, and the upper portion thereof is inserted to form a bolt hole 9b that matches the bifurcated bolt hole 9b. The lower part of the suspension plate 37 is provided with a bolt hole 9b that matches the bolt hole 9b of the locking part 40 attached to the upper part of the tidal current power generation body 38 arranged below. .

In addition, the upper part of the hanging plate 37 is attached to the bifurcated notch of the rotary hanging rod 36 with the insertion bolt 9 and the nut 9a, and the lower part of the hanging plate 37 is aligned with the bolt hole 9b of the locking part 40, and the bolt 9 and the nut are attached. By attaching it with 9a, the tidal current power generation body 38 is connected to the lower part of the box-shaped floating member 31 so as to be rotatable around the rotating suspension rod 36.

Also, a vertical tail 39 is erected on the upper part of the rear end of the tidal power generator 38, facing forward in the direction in which the ocean current flows.

Further, as shown in FIG. 10, the inside of the long tubular shape 39a of the tidal current power generation body 38 is divided by a partition wall 41, which is divided into a first space 42, a second space 43, a third water tank 44, and a fourth water tank 45. , separated by

In addition, a gearbox 50 is arranged in the first space 42 inside, a generator 51 and a condenser 52 are arranged in the second space, and a rotary connector 55 is arranged in the bottom. In addition, a water supply cap 44a for supplying water is provided on the outside, a communication hole 44b is provided to communicate with the wall 41 that partitions between the third water tank part 44 and the fourth water tank part 45, and the bottom plate of the fourth water tank part 45 , a drain port 45a for draining water, and a drain cap 45b on the outside thereof.

In addition, before installing the tidal current power generating body 38, water is supplied from the water supply port cap 44a of the third water tank 44, and the third water tank part 44 , and a fourth water tank portion 45 is provided.

Further, in front of the tidal power generator 38, a gearbox 50 disposed inside and a horizontal shaft 46 connected to the shaft of the generator 51 have waterproof means of the bearing 4 and the seal ring 4c in front. A horizontal shaft 46 is rotatably provided, penetrating the outer side of the front and protruding forward.

In addition, the horizontal shaft 46 is provided with two grooves 46a extending in the longitudinal direction from the tip of the horizontal shaft 46 so as to bisect the circle of the horizontal shaft 46. The horizontal shaft 46 is formed with two parallel grooves 46a. A first base portion 47 and a second base portion 48 each having a convex protrusion formed on the inner portion of the hole to be slidably fitted into the concave portion 46a have supporting members 49b on the peripheral walls of the second base portion 48, so that the drive blade 49 is mounted. The configuration in which a plurality of the first base portions 47 and the second base portions 48 that are erected in a radial shape are arranged side by side on the horizontal shaft 46 is arranged on the horizontal shaft 3 protruding forward of the wind turbine generator 1 described above. It is exactly the same as the configuration in which the primary part 5 and the secondary part 6 are arranged side by side.

In addition, the wiring connected to the condenser 52 from the generator 51 inside the tidal current power generating body 38 is connected to a rotating connector-like 55 at the bottom, and a hole 53a reaching the bottom of this rotating connector-like 55 is located under the tidal current power generating body 38. It is provided in the center of the retaining member 53 attached to the side.

Further, the upper end of the cylindrical 54 attached to the inner side of the through hole 53a of the holding member 53 is formed to prevent the bearing 4 and the seal ring 4c between the inner side of the hole 53a and the peripheral wall of the cylindrical 54. A tube 54 is rotatably mounted below the lower end of the holding member 53 by means.

In addition, a contact plate 56 is attached to the end into which the end of the power transmission wiring 56 is inserted from the lower end of the through-hole hollowed out inside the cylindrical shape 54 , and the contact plate 56 is connected to the rotating connector-like 55 on the inner side. The power transmission is tightly fixed by having a waterproofing means such as grease between the peripheral wall of the power transmission wiring 56 and the through-hole of the cylindrical 54 with the contact plate 56 in contact with the board 55a. A wiring 56 is arranged below the tubular shape 54 .

In addition, by providing a rotating connector 55 for the rotating tidal current power generation body 38, the generated power can be generated while the power transmission wiring 56 attached to the rotatable cylindrical shape 54 is fixed. It is transmitted and can be arranged without trouble such as twisting of the power transmission wiring 56 .

In addition, the power transmission wiring 56 and the power transmission wiring 28b from the transmission board 28 are combined into one and connected from the seabed Z to power receiving equipment on land so that the generated power can be transmitted.

Reference Signs List 1 Wind power generator 5b Front 1a Box 5c Rear 1b Upper plate 5d Front 2 Vertical tail 5e Rear 2a Cylindrical 5F Convex 2b Lightning rod 6 Second root 3 Horizontal shaft 6a Front 3a Concave 6b Rear 4 Bearing 6c... Convex shape 4a... Shaft hole 7... Drive blade 4b... Shaft seal 7a... Front surface 4c... Seal link 7b... Rear surface 5... First root part 8 Support member 5a Driving blade 8a Rubber packing 9 Bolt 34 Fixing part 9a Nut 35 Holding member 9b Bolt Hole 35a Filling port cap 10 Transmission gear 36 Rotating suspension rod 10a Shaft 37 Hanging plate 10b Small transmission gear 37a Bolt hole 10c Small transmission Gears 38 Tidal power generator 11 Clutch plate B 39 Vertical stabilizer 12 Generator 39 a Cylindrical 12 a Clutch plate D 40 Locking portion 13 ...Starting plate 41...Partition wall 14...Rope 41a...Outer wall 14a...Pulley 42...First space 15...Control generator 43...Second space Part 15a... Shaft of control generator 44... Third water tank part 15b... Clutch plate A 44a... Water inlet cap 16... Carriage 44b... Communication hole 17... Adjustment spring 45. Fourth water tank portion 17a Fixed portion 45a Drain port 18 Starting plate A 45b Drain port cap 18a Arm 46 Horizontal shaft 18b Shaft member 46a Concave shape 19 Control generator B 47 First base 19a Shaft of control generator B 48 Second base 19b Clutch plate C 49 Drive Blade 20... Adjusting spring 49b... Support member 20a... Fixed part 50... Speed increasing gear 21... Carriage 51... Generator 21a... Roller 52... Condenser 22... Condenser 53 Holding member 22a Wiring 53a Hole 23 Cylindrical vertical shaft 54 Cylindrical 24 Rotating connector type 55 Rotating connector 24a Contact plate 55a Contact plate 25 Caster shape 56 Power transmission wiring 26 Steel tower type 56a Contact plate 26a Column 57 Sea surface 26b Brace R・・・Rotation direction 26c・Support column base plate X Upper 27 Upper plate Y Under the sea 28 Transmission board Z Bottom of the sea 28 a Contact plate 28 b Power transmission wiring 29・Cylinder 30... Disk 31... Box-shaped floating member 31a... Post-shaped 31b... Outer plate 32... Top plate 33... Rope-like

Claims (6)

A driving blade is attached to a horizontal shaft that rotatably protrudes through the center of the inside of the wind power generator from the rear to the front outside,
a transmission gear is mounted on the internal horizontal shaft;
a generator connected to the transmission gear is arranged on one side of the peripheral wall of the horizontal shaft;
A clutch plate B connected to the transmission gear is provided on the other side of the peripheral wall of the horizontal shaft,
A starting plate adjusted to start according to the wind speed is attached to the top of the wind power generator,
an adjustment spring interlocked with the starting plate and a control generator are connected,
A clutch plate A is attached to the shaft of the control generator,
The clutch plate A interlocked with the activating plate is arranged adjacent to the provided clutch plate B so as to be contactable,
A floating power generator for wind power and tidal current, characterized in that the starter plates equipped with the starter plates that are linked to the starter plates are provided on the upper part of the wind power generator. A rope connected to the starting plate at the top of the wind power generator is connected to the control generator placed on the truck inside the wind power generator through a pulley attached to the upper plate, and is connected to the fixed part behind the truck. said adjusting spring is connected to said bogie, and said auxiliary starting plate is provided so as to connect and interlock said clutch plate A with the shaft of said control generator. 3. The wind and tidal floating power generator described in . The adjusting spring and the like are adjusted in advance so that the starting plate is started at a wind speed of 20 m/s, and the clutch plate A and the clutch plate B are interlocked so that the rotation of the horizontal shaft does not exceed a specified value. the actuating plate equipped to be controlled and converted to electricity by the addition of rotation of the transmission gear and the shaft of the control generator by a contacting connection at the top of the wind power generator facing forward 3. The floating power generator for wind power and tidal current according to claim 1 or 2, characterized by comprising: A first root portion that can be attached and detached to the portion where the horizontal axis penetrates and protrudes to the outside of the front of the wind power generator; A floating power generator for wind power and tidal current according to any one of claims 1 to 3, wherein a support member is attached to the rear surface of each of the drive blades, which are arranged in a radial shape. . A caster-shaped upper part is fixed to the lower surface of the wind power generator, and a plurality of discs are mounted on the upper surface of the disk fixed to the upper end of the steel tower type below the wind power generator. The wind and tidal floating power generator according to any one of claims 1 to 4. A retainer is attached to the lower side of the box-shaped floating member, and waterproof means of a bearing and a seal ring are provided between the inner side of the through hole in the center of the retainer and the peripheral wall of the rotating suspension rod, 6. The floating power generator for wind power and tidal current according to any one of claims 1 to 5, characterized in that a rotating suspension rod is provided so as to rotatably protrude downward from the holding member.

Images