KR20080026702A - Generafion coupled by wafer ,wind power and magnefic rorce - Google Patents

Abstract

A generator for waterpower, wind power, and magnetic force is provided to rotate a watermill even if the flow direction of seawater is changed, that is, if a tide turns. Three watercourses are formed, and a watermill is mounted on the first floor. A bottom surface is formed on the second floor, and magnets are attached to each runner in windmills. A unit is attached to the outer portion of the magnet to control the operation of the magnet. Wind in a wide space is flowed into a narrow space, so that the wind power is strengthened. The windmills are provided at the first and second layers by stacking the windmills on each other. A water gate is controlled to rotate the watermill in the same direction, and a windmill is rotated in the same direction, so that the water power generated from the first floor and the wind power generated from the second layer are added to a magnetic force to generate a strong rotary force.

Description

Hydro-coupled wind power generation {generafion coupled by wafer, wind power and magnefic rorce}

1 is a position diagram of the aberration and the windmill,

2 is a magnetism floating apparatus device mounted on the aberration and the windmill,

3 is the movement direction of the water when the seawater moves to the high water,

4 is the movement direction of the water when the seawater moves to the low tide

5 is a positional view of the runner and the magnet in the first operation of the windmill

6 is a positional view of the runner and the magnet when the windmill is in the second operation;

7 shows the direction of wind movement when the wind is introduced into the wind path,

8 shows the direction of wind movement when the wind is introduced into

9 is the movement direction of the baran when the wind is introduced into the multi-path,

10 is a position view of a magnetic shield plate covering a magnet

11 is a position view of the magnetic shield plate is separated from the magnet,

(The part of the drawing that has double lines or two or the same sign in one place indicates that the two parts overlap.)

<Description of main parts of drawing>

10, Singer 11, Singer

12, 13 channel, Singer gate

14, Nasuro sluice 15, Multiples sluice

16, spindle 17, disc

18,1F, Water Runners 19,1F, Water Runners

20th and 2nd floor windmill runners 21st and 2nd floor windmill runners

22 Street, Windmill Wall 23, I Windwall

24, the wind wall 25, the wall door

26, my wall door 27, the wall door

28, wind outlet 29, plate magnet

30 magnetic field blocking plate 31, blocking plate adjusting gear (31-1) (31-2) (31-3)

32 medals 33 devices floating magnetic support layer

34, device injury lower magnet 35, device injury upper magnet

36 Internal Wind Directional Door 37 External Wind Directional Door

38, shelf gear 39 chain

The present invention is to develop a method for rotating the aberration in the same direction even if the seawater is hard to change the direction of movement from high tide to low tide,

    Field to develop method to zero load of water wheel and windmill,

    The field of collecting winds moving in a large space into a narrow space, and the field of developing a method of rotating aberrations and windmills in the same direction even if the wind direction is changed.

    The field of developing hydropower, wind power and magnetic force to obtain the powerful aberration and the wind power of the windmill, and to generate a large amount of electricity using this power.

    The present invention is a field for developing a problem of rotating two aberrations in a single waterway and an airway and realizing two generations of power.

    The existing tidal power and wind power generation still have a clear standard, but there are many technical factors that are insufficient to be commercialized. There are no examples of applying wind to tidal currents, and no examples of applying magnetic force to tidal currents. Is not yet an example,

In the present invention, the problem of collecting the seawater and the wind in a large space in a narrow space by a method of obtaining a powerful aberration and the rotational force of the windmill,

    The problem of making rotation of aberration and the windmill flexible, the problem that the rotation of the aberration rotates in the same direction even if the direction of movement of the sea water and the wind is hard to change,

It is intended to solve the problem of obtaining high speed and strong rotational aberration and the rotational power of windmills by rotating two aberrations and combining hydraulic and wind magnetic forces in a single waterway and airway.

1, waterway and floodgate

    The water channel of the present invention adjusts the height and width according to the difference between the position and the amount of water moving, but the height is maintained at the highest water level at high tide, and the inner channel of the waterway 11 located at the center of the channel is perpendicular to at least 50 m. During construction, the position where the Ghanaian aberration will be located is widened to 10 if the front channel 11 is 3 to secure a space for the Ghanaian aberration, and then narrow it back to 3,

    Steps for constructing multiple channels in the right direction with a mantissa in the left direction so that the width and height in the left and right directions are the same as those of the channel 11 and the starting point and the end point coincide.

    Waterway (11) A waterway (14) is installed at both ends of the waterway at any time, and the waterway (14) is adjusted. The waterway (13) is placed at the entrance of the waterway and the waterway (10) (11). Installing the width and height in the same way as the channel, and installing the sluice gate 15 in the same way as the channel and the width and height at the end of the sea when the tide flows,

    2, foundation

Connecting the top of the three channels (10) (11) (12) to form the floor of the 2nd floor to the maximum width as the condition;

    The place where the central windmill will be located on the upper floor of the second floor is empty and divided into three spaces, starting from the location where the windmill is used as the windmill, and raising the height to the height where the windmill is located, and dividing the angle into three directions by 120 degrees. Fixing the three air paths to the bottom side by blocking it to the end position, connecting to each other also to form the skeleton, and blocking the top to form the upper roof bottom surface, connecting with the bearing and the pin at the outer end position to move up and down Step up to the top to install a large door to widen the flow of the wind to the upper part, and secure the center of the frame of the appetizer firmly seated to go, b, da, forming the air path,

    In the space where the two-story windmill is located, the floor is firmly formed at each position where the height is extended while raising the height of the windmill by 10 m,

    (11) step of fixing the main axis (16) of the aberration at the two points where the two lines divided into three equal parts up and down and the center line divided into two equal parts by the left and right of the place where the floor surface aberration is to be located,

    3, lower aberration

        Insert the medal 31 on the 1st floor Ghana spindle 16 to the Ghana spindle 16 and place the inner casing on the space between the 2nd floor floor and the main shaft 50 cm above the 1st floor. (16) It is fixed to the outside and fixed to the upper spindle of the medal 32, the device to hold the magnet support layer 33 on which the magnets 34 and 35 on the device is fixed, and the main shaft 16 passes therethrough. A magnet 34 having a ball having a width of 30 cm and a height of 40 cm, and one N-pole inserted in an upper direction. (34) The same N poles are placed facing each other, the ball is formed on the two magnets 10cm longer than the diameter of the main shaft 16, the diameter of the garden needle layer 33 is 40cm in the main shaft (16) The magnet into the backing shaft as if it were the first time Dog kkiwoju the steps in the ball charae doeyeo the backing layer 33 is one which is formed in the center,

    The disk 17 is fixed by fixing the disk 17 outside the medal 32 outside the medal 32 and the support layer mounted on the magnet outside the medal 32 and the magnet support layer 32 on the first floor Ghana main shaft 16. ) To float on the floor,

    The space that rotates the outside of the disk 17 on the first floor and has no friction with the disk 17 and the channel 11 in the opposite direction, and maintains a height of 10 cm between the floor and the top of the first floor. Mounting six runners (18) and (19) at a height of

    4, two-story windmill

    Fixing the inner casing to the main shaft 16 by inserting a medal 32 on the main shaft 16 at a 50 cm upper position and a space between the upper bottom surface and the main shaft outside the second floor main shaft 16 of Ghana,

    The top of the lower medallion 32 on the second floor (32) is firmly fixed to the field needle layer 33, 40 cm in width, and a permanent magnet on the center has a space 10 cm longer than the diameter of the main shaft 16 is formed in the center and the width 30cm in height 40cm magnet 34 is inserted into the main shaft so that the north pole is located in the upper direction, and the same magnet is mounted on the main shaft 16 so that the north pole is located in the downward direction. Next, a space 10 cm longer than the diameter of the main shaft 16 on the magnet 35 is formed in the center portion, and a flat needle layer 33 having a width of 40 cm is inserted into the main shaft 16, and the top needle layer is placed on the main shaft 16 again. ), And inserting two magnets (34) and (35) on the needle layer (33) and inserting the needle layer (33) having a space in the center of the diameter 10 cm longer than the diameter of the main shaft (16). N-poles of the same three layers of appetizers face each other While the steps of the device to float all the devices connected to the disc 17,

    (A) The disk 17, which is installed outside the main shaft 16 of the second-floor main shaft 16, and the disc 17 is 11 m in length, and the casing 32 is placed on the outer casing 32 and the magnet 35. Insert the outside of the needle layer (33) to form a bend with the disk (17) installed on the first floor, the portion coming out of the lower layer disk 17 is injected into the groove of the first-layer disk (17), and , The outer layer of the medal 32 and the upper magnet (35) is fixed to the field needle layer (33), so that all the components installed on the disk, the first-layer aberration and the first and second layers of disk (17) to the uneven groove To connect the device while floating,

    Position the runners 20 and 21 facing away from each other on the outside of the second-floor disk 17, and set the heights so that they are 20 cm apart from the bottom and the top of the second floor. Magnetically blocked plate adjustment gears 31-1, 31-2 and 31-3 mounted in opposite runners 20 and 21, with two runners 20 (21) facing each other at a small distance. The position facing the device is formed by forming a groove deeper than the height of the gear,

   The windmill runner 20 or 21 of Ghana forms the body into which the magnet 29 is injected, and the space width is 51 cm and 51 cm, and the width of the space is 11 cm. The device is so that the N pole is located on the left side and the S pole is located on the right side with respect to the upper direction.

    Ghana windmill runner 20, 21 two vertically across the magnet is installed in the same size of the magnet 29,

    The magnetic shield plate (30) made of special steel (silicon steel or soft iron) that can block the operation of the magnet 29 by covering the magnetic field outside the magnet 28 installed in the windmill runner 20 on the second floor. ) To block the magnetic field action by covering the magnet 29 installed in the runner 17, and then move the liner to the outside of the left and right sides of the blocking plate 30 in a manner that the action of the magnet 29 is made. The center of the (30) is formed in the upper direction 5cm longer than the height of the blocking plate 30 and the liner on the runner (20) (21) face the magnet in the upper center portion so that the S pole is located in the opposite direction to the wind inflow and Forming a groove into which the liner is injected in the direction of the liner runner 50 cm longer than the length, and injecting the liner into the groove;

    The magnetic shield plate 30 is installed on the second floor or the magnet 29 mounted on the windmill runner 21 so as to cover the S pole.

    It is a device that operates the magnetic field blocking plate 30 installed in the second-floor Ghana windmill, and pushes the gear gear 38 installed on the runner 20, 21 surface while the windmill runners 20, 21 are in close proximity. One of the gears 31-1 formed in the main surface is fixed to the opposite position where the magnetic field blocking plate 30 is located at the upper part of the liner in a position where the magnetic field blocking plate 30 is separated from the magnet 29, and the magnetic field blocking plate 30 is directed downward. ) The gear 31-3 is fixed at intervals longer than 40cm longer than the length, and the two gears 31-1 and 31-3 are wound around and connected to each other. After the N pole is located on the outside of the device and then connected to the shaft and the second gear (31-2) to fix the device so as to be connected to the shelf gear 38,

      When the Ghana runner is pushed by the wind and pushes the shelf gear 38 close, the gears 31-1, 31-2, 31-3 and the chain 39 connected to it rotate and the magnets and magnetic fields connected to the liner. Pushing the blocking plate 30 upwards to separate the magnetic field blocking plate 30 connected to the liner from the magnet 29, but the gap between the windmill runner (20, 21), the shelf gear (38) And runners 20 and 21 are separated and the magnetic block plate 30 and the chain gear 39 and the chain 39 connected to the magnetic block plate 30 are lowered into place under the load of the magnetic block plate 30. 31-1) (31-2) (31-3) is in place and the magnetic shield plate 93 is arranged to cover the magnetic field of the magnet 29 again,

     Windmills outside the windmills installed on the second floor are equipped with wind tunnel wall adjustment doors 25 (26) (27) of 10m width for each 10m outward position of the walls 22, 23 and 24. In order to block the movement of the wind by blocking the wind path back at 10m outside from the inner end of the wall mall 22, 23, and 24 in order to adjust the direction of wind movement outside the windmill while moving the Install one wind direction adjustment door (36) and wind the wind direction control door (37) to adjust the direction of wind movement at any time while the three wind paths elliptical to the 10m outside position to prevent wind from one of the three wind paths at any time. Device to adjust the direction of movement of,

In order to construct windmills on the 2nd floor as large windmills, they are continuously connected to the 2nd, 3rd, and 4th floors to ensure safety in the event of a typhoon or earthquake.

    Other devices can be connected to the outer wall with a singer and the outer wall to connect the breakwater to increase the moving energy of the seawater, or to form gears or wheels on the top of the windmill and to rotate in the vertical direction by installing a conversion gear. I change the direction to turn the rotation direction of the windmill horizontally, and realize power generation by connecting rotation power with a generator or V-belt.

    5, development process

    In the present invention, when the movement of sea water is a high tide, the water gate 14 of the water channel 11 is opened and the water gates 13 and 15 of the water channel are blocked, so that the sea water moves only in the water channel 11. When the tide is made at low tide, the water gate (14) of the waterway is blocked and the waterway waterway (13) (15) is blocked, and the sea water flows into the waterway (10) and the waterway (10) and the waterway (11) Turn the water gate 11 to the right with a mantissa installed on the boundary wall to push the aberration, and then turn the water gate 15 to the left by turning the water gate 15 on the boundary wall of the aqueduct 11 and the waterway 13 (12) will flow into the sea,

    In the present invention, the wind passage is divided into four directions in three directions, the north-west to west-western direction as the wind path, the north-east to the south-south direction as the wind path, and the three south-western directions to the west-west direction in all the wind paths. When the wind flows in the direction of the wind path, the wind direction adjustment inner door 36 is adjusted to the wind path, and the external door 37 is adjusted to be located in the air path, and the wall doors are all bounded. If you open the wall door (25) of the wall, the wind will push the windmill and turn left at the door installed on the boundary wall and move to the wind direction, and when the wind flows in the direction of the wind path, the wall door installed on the boundary wall (26) open and the rest of the wall doors (25) (27) close and block, the wind control inner door (36) is located on the wind path, the wind control outer door (37) is located on the wind path When turned on, the wind flows into the wind path, turns right into the wind path, then pushes the windmill and moves to the wind path. When the wind flow is changed to the wind path, the wall door (25) is installed on the boundary wall. Open the door, block the remaining wall doors (26) and (27), adjust the direction of wind movement, and place the internal adjustment door (36) in the air path, and adjust the external adjustment door (37) so that it is in the air path. In the present invention, by turning the wall door 25, which is installed on the boundary wall, is pushed while turning the windmill to the right, and then rotates to the left to the wind path in the present invention, when the sea water is at high tide or at low tide, the first-floor aberration is the same by the adjustment of the water gate. Direction, and even if the direction of the wind is hard to flow in any direction, the two-story windmill is adjusted by the adjustment of the wall door 38 and the wind direction adjustment doors 36 and 37. It is rotated in the direction,

    In order to generate power in the present invention, the wind direction adjusting doors 36, 37 and the air passage wall doors 25, 26, and 27 are adjusted according to the direction of the water gate and the wind, and the two-story wind drive moves the interior wall to the outside. If you extend the width of the entrance of the air path, and raise the door installed in the upper end of the wind tunnel outside the wall, and expand the inflow range of the wind in the direction of the wall, the wind flowing into the second-floor wind path is 10 The first gear wheel and the second windmill start to rotate, and each runner approaches, while the gear block and the gear gear 38 move the magnetic shield plate 30, whether or not installed outside the magnet 28. (31-1) (31-2) (31-3) and the chain (39) rotates, the magnetic shield plate 30 is separated from the magnet 29 of the magnet 29 mounted to the Ghana windmill runner As the same N pole pushes each other, the aberration and the windmill When the rotational force is accelerated and the runner is spaced more than 50cm apart, the magnetic field blocking plate 30 is returned to its original position under the load of the magnetic field blocking plate 30 and the liner, and the poles of the magnets installed in the runner are located facing each other after the windmills. When the S-poles face each other and the runner and the runner are close to each other by 2 cm, the magnetic shield plate 30 is a shelf gear 38 installed in a magnet and the gears 31-1 and 31-2 connected thereto. (31-3) and the action of the magnet installed in the chain 39 is actuated from the magnet, while the S pole of the two magnets mounted on the Ghana windmill runner 20, 21 push each other aberration By increasing the rotational force of the windmill, the hydraulic power and the wind magnetic force of the present invention are combined to rotate the disk 17 connected to the aberration and the windmill with a strong rotational force, and the rotational power is rotated through the converter gear installed at the top. By converting in rotation in a horizontal rotation through to the generator to thereby produce electricity

The present invention has the effect of realizing the development of a large capacity by collecting the wind and sea water in a large space in a narrow space by rotating the aberration and the windmill with powerful energy,

    The present invention is a state-of-the-art device that realizes power generation by combining hydro wind magnetic force, provides a lot of output in a small installation device and has the effect of improving the national competitiveness by preoccupying the leading position in this field.

    The present invention has the effect of providing a large number of jobs when construction and operation,

    The present invention has the effect of providing a large amount of electricity at the lowest cost because it uses the power and wind power provided by nature to operate once and use a permanent magnet to operate, once construction,

    The present invention is simple in structure, excellent in effect, and can be installed large and large in the size of the wind turbine, which serves as large energy, stabilizes the national energy supply structure, and suppresses oil imports in the era of high oil prices.

Claims (3)

In the present invention, constructing three lines of waterways and installing aberrations on the first floor, Forming a bottom surface on the second floor and attaching a magnet to each runner and adjusting the magnetic field outside the magnet to stop and restore the magnet. By creating three wind paths on the 2nd floor, the wind turbines move the wind in a large space into a narrow space, and the wind power is strong, the wind speed is fast, and the wind direction is adjusted to move the wind to rotate the windmill. Steps, In the present invention, the step of continuing to extend the windmill to the first floor and the second floor 10m height device to enable the construction in a very large, After the above step, the water wheel is rotated in the same direction at the time of high tide or low tide by the adjustment of the floodgate, and the wind drive wall device collects the wind of the wide space into the narrow space, increases the wind power by more than 10 times, and adjusts the wind direction adjustment door to fix the wall. The windmill rotates in the same direction and combines the hydraulic power of the first floor with the wind power of the second floor and the magnetic force installed in the runner to connect the power output to the power generator. In claim 1, the first floor and the second floor of the hydraulic power and the device to act on the magnetic force and the wind power magnetic force combined with the device and method to obtain a rotational force. The method of fixing the wind path and rotating the windmill with the device for adjusting the direction in claim 1 and the method of constructing a very large windmill by continuously connecting the windmill and the windmill in 10m steps even though the windmill is separated by layers. It is a magnet device that floats windmills on each floor and floor.

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