KR960039558A - Wave power generation method and device - Google Patents

Abstract

The present invention relates to a wave power generation method and an apparatus thereof, and to install and lift a plurality of barges on a frame installed at a predetermined depth in seawater, and converts the lifting motion of the barges by waves into rotational motion and It operates pressure fluid generating means such as pump, collects the pressure fluid generated from the pressure fluid generating means, operates the turbine, and generates electricity by operating the generator by the turbine. There is no fear of energy depletion or environmental pollution, and power is always available regardless of changes in climatic conditions. The barge automatically maintains the optimum condition to utilize the wave force as power by automatically responding to the direction of the wave, and in case of over-permissible pressure, safety is maintained by maintaining the pressure at the allowable value by the operation of the governor spill valve. .

Description

Wave power generation method and device

As this is a public information case, the full text was not included.

1 is a schematic side view showing the whole of the wave power generating apparatus according to the present invention, FIG. 2 is a schematic plan view showing the frame structure of the present invention, and FIG. 3 is a schematic plan view showing the arrangement of the support members of the pivot support means of the present invention; 4 is a schematic plan view showing a pivot center of the pivot support means of the present invention.

Claims (50)

A step of lifting and lowering a plurality of barges connected to a plurality of strut members installed on a frame installed in sea water by waves; Converting the lifting motion of each barge into a rotational motion; Operating the pressure fluid generating means installed in each bar by the rotational movement; Transferring the pressure fluid generated in the pressure fluid generating means operating step to one main feed pipe; Operating the turbine using the pressure fluid transferred to the main feed pipe; Wave power generation method comprising the step of generating a power by operating a generator linked to the turbine. The method of claim 1, wherein in the process of transferring the pressure fluid generated by the pressure fluid generating means to the main conveying pipe, the primary collection of the pressure fluid discharged from each pressure fluid generating means is connected to a transfer hose and a plurality of transfer hoses; Wave power generation method, characterized in that for transporting through a second collection transfer pipe connected to a plurality of primary collection transfer pipe. The governor spill valve according to claim 1, wherein the governor spill valve automatically opens when the pressure of the pressure fluid reaches a set value or more in the pressure fluid transfer step, and when the pressure of the pressure fluid falls below the set value. Wave power generation method characterized in that the normal transfer is closed by. 4. The wave power generation method according to claim 3, wherein in the pressure fluid conveying step, a pulsation phenomenon of the pressure fluid is alleviated by a surge tank installed in the conveying path. 5. The wave power generation method according to claim 4, wherein the pressure fluid introduced into the surge tank in the pressure fluid transfer step is introduced in a direction in which the vortex is formed in a direction opposite to the vortex direction due to the turning force of the earth. The frame 100 is installed at a certain depth in the sea floor within a predetermined range at sea and has a plurality of pressure fluid generating sectors S2 arranged at regular intervals around the power generating sector S1 and the power generating sector S1, and ; Frame support means (200) for fluidly supporting the frame (100) at sea; A plurality of pivot support means (300) installed at each of the pressure fluid generating sectors (S2) of the frame (100), the upper part of which protrudes onto the sea surface; Lifting support means (400) connected to an upper end of the pivot support means (300); A buoy 500 connected to the distal end of each elevating support means 400 for elevating movement by waves on the sea surface; Rotational force generating means (600) installed in the barge (500) to convert the lifting motion of the barge into rotational force; A pressure fluid generating means 700 installed on an upper surface of each bar line 500; One-way transmission means 800 for transmitting only one-way rotational force of the rotational force generating means 600 to the pressure fluid generating means 700; A pressure fluid conveying means 900 for conveying the pressure fluid discharged from the pressure fluid generating means 700 to the power generation sector S1; A turbine (T) installed in the power generation sector (S1) to generate power for power generation by the pressure fluid transferred from the pressure fluid transfer means (900); Wave power generator characterized in that the generator (G) driven by the turbine (T). 7. The wave power generating apparatus according to claim 6, wherein the frame (100) comprises frame main members (110) arranged in a lattice shape and reinforcing members (120) for reinforcing connecting the frame main members (110). The method of claim 6, wherein the frame support means 200 is composed of a plurality of anchor blocks 210 which are seated on the sea bottom, and the anchor rope 220 connecting the frame 100 and the anchor block 210. A wave power generator, characterized in that. The method according to claim 8, wherein a plurality of branched ropes 221 are connected to the upper end of the anchor rope 220 of the frame support means 200 and each of the branched ropes 221 is fixedly connected to the frame 100. A wave power generator, characterized in that. 9. The wave power generator according to claim 8, wherein tension adjusting means (250) is installed between the bottom of the frame (100) and the top of the branching rope (221). The method of claim 8, wherein the tension control means 250 is connected to the bottom of the frame 100 and the upper end of the branch rope 221, the ring 251, 252, the connecting ring 251, 252 Rollers 253 and 254 mandrel at opposite ends of the rollers and a tightening wire rope 255 wound between the rollers 253 and 254. Wave power generation apparatus characterized in that the tension between the anchor rope 220 and the branch rope (221) by tightening between (254). The apparatus of claim 8, wherein the frame support means (200) includes a plurality of air pockets (230) fixed to the frame (100) and positioned in seawater. According to claim 6, The pivot support means 300 is a support member (310) which is installed perpendicular to each pressure fluid generating sector (S2), and is supported rotatably on each support member 310, if the upper portion Wave power generating device characterized in that consisting of a rotating frame 320 protruding upward. 14. The wave power generation apparatus according to claim 13, wherein the support member (310) is a hollow shaft which is supported by the reinforcement support member (311) on the frame (100). According to claim 13, The pivot frame 320 is a rotary ring member 321, 322 that is rotatably supported on the upper end and the middle of the support member 310, and one side of the upper rotary ring member 321 It is composed of a fixed and extending arm member 323 and the post member 326 fixed to the other side of the upper rotary ring member 321 protruding onto the sea surface to be able to rotate 360 ° around the support member 310 Wave power generation apparatus, characterized in that installed. The tie rod 324 connected between the front end of the arm member 323 and the lower rotary ring member 322 and a tie connected between the tie rod 324 and the arm member 323. Wave power generation apparatus characterized in that the reinforcement by the wire (325). The inclined portion 327 and the inclined portion 327 of the post member 326 are fixed to the upper rotary ring member 321 and inclined upwardly in the opposite direction of the arm member 323. Wave power generation device characterized in that consisting of a vertical portion 328 integrally fixed to the top protruding onto the sea surface. According to claim 6, The lifting support means 400 is a wire rope 410 is fixedly connected to the upper end projecting on the sea surface of the pivot support means 300, and is connected to the tip of the wire rope 410 Wave power generation device, characterized in that consisting of the connecting portion 420 is connected to the line 500 at the tip. 19. The wave power generator according to claim 18, wherein the connection section (420) has a triangular structure that gradually widens toward the front end side to which the bar line (500) is connected. 19. The wave power generator according to claim 18, wherein the connecting portion (420) and the floating line (500) of the elevating support means (400) are hinged to be rotatable in the vertical direction. 21. The wave power generator according to any one of claims 18 to 20, wherein the intermediate portion of the connection section (420) is provided with a vertical bending portion (423). The method of claim 6, wherein the buoy 500 is formed in a substantially rectangular pear shape, the middle portion of the long side of the rear side of the two long sides are hinged to the front end of the lifting support means 400 rotatably up and down Wave power generating device. 23. The wave power generator according to claim 22, wherein the bar line (500) is configured such that its center of gravity is in a position biased from the center portion to the tip side. 23. The wave power generation apparatus according to claim 22, wherein a casing part (520) is installed at an intermediate portion of the bar line (500), the rotation force generating means (600) and the pressure fluid generating means (700). 25. The wave power generator according to claim 24, wherein the casing portion (520) is installed at a position biased from the center portion of the bar line (500) toward the tip side. The rotating force generating means (600) is a rotating drum (610) rotatably installed in the casing (520) of the bar (500), and the winding start end is fixed to the rotating drum (610) Driven wire rope 620, the end of which is wound and fixed to a portion of the pivot support means 300, and a rotating elastic member for supporting the rotation drum 610 to resilient rotation in the direction of winding the wire rope 620 Wave generation device, characterized in that consisting of (630). The rotating drum 610 is attached to both sides of the cylindrical portion 611 and the cylindrical portion 611 is wound around the driving wire rope 620 is fixed to the casing portion 520 Wave power generation device, characterized in that consisting of a disc portion 612 rotatably supported on a fixed shaft (614). 28. The method of claim 26 or 27, wherein the rotating elastic member 630 is an inner end is fixed to the fixed shaft 614 and the outer end is a spiral spring characterized in that the spiral spring is fixed to the inner peripheral surface of the cylindrical portion 611 Device. 28. The method of claim 27, wherein one side of the cylindrical portion 611 of the rotary drum 610 is formed with a normal groove 641, the groove 641 is connected to the winding start end of the drive wire rope 620 In the state where the driving wire rope 620 is completely released from the rotating drum 610 by inserting the safety pin 642, the driving wire rope 620 is removed from the rotating drum 610 while the safety pin 642 is pulled out of the groove 641. Wave power generation apparatus characterized in that it is to be separated. According to claim 6, The one-way transmission means 800 is a driving shaft 810 extending in the axial direction from one side of the rotational force generating means 600, and the drive connected to the transmission shaft 810 by a one-way clutch 820 Wave power generation device comprising a sprocket 830, a chain 850 spanning between the driven sprocket 840 fixed to the shaft of the pressure fluid generating means 700 and both sprockets (830, 840) . 31. The wave power generating device of claim 30, wherein the one-way clutch 830 is a one-way clutch bearing. According to claim 6, The pressure fluid conveying means 900 is connected to the discharge port of the pressure fluid generating means 700 and the pressure fluid transfer hose 910 connected to the upper end of the support member 310, and the support The sector-specific transport pipe 920 connected to the lower end of the member 310, the main transport pipe is installed perpendicular to the power generation sector (S1) and connected between the sector-specific transport pipe 920 and the turbine (T) ( 950, characterized in that the wave power generating device. 33. The wave power generation apparatus according to claim 32, wherein the pressure fluid transfer hose (910) and the upper end of the support member (310) are rotatably connected to each other to maintain airtightness. 33. The wave power generator according to claim 32, wherein the pressure fluid transfer hose (910) is installed so as not to flow by being bound to the lifting support means (400) and the pivot support means (300). 33. The method according to claim 32, wherein the several sectoral transport pipes 920 are connected to the primary transport pipe 930, and the primary transport pipes 930 are connected to the main transport pipe 950. The secondary power take-off tube (940), and the secondary power take-off tube (940) characterized in that the connection to the main transfer pipe (950) characterized in that the wave power generating device. 36. The method of claim 35, wherein the diameters of the transfer pipes 920, 930, 940, 950 are sector-specific transfer pipes 920, primary collection transport pipe 930, secondary collection transport pipe 940, Wave power generation apparatus characterized in that gradually set in order of the main feed pipe (950). 37. The method according to any one of claims 32 to 36, wherein the sector-specific transport pipe 920, the primary collection transport pipe 930, and the secondary collection transport pipe 940 are configured to prevent backflow of pressure fluid. Wave generation apparatus characterized in that the check valve (CV1) (CV2) (CV3) is installed. 33. The wave power generator according to claim 32, wherein a surge tank (960) is provided in the middle of the pipeline forming the pressure fluid conveying means (900) to mitigate pulsation of the pressure fluid. 39. The method of claim 38, wherein the surge tank 960 is fixed to the bottom of the frame 100, the cylindrical portion 961 surrounding the lower end of the main feed pipe 950, and the top of the cylindrical portion 961, Upper and lower spherical plate 962 963 963 constituting a lower surface characterized in that the wave power generating device. 40. The method of claim 35, 38 or 39, wherein the secondary collection transfer pipe 940 is installed through the circumferential wall of the surge tank 960, the main transfer pipe 950 of the surge tank 960 Wave power generation device characterized in that the penetrating the upper surface is installed so that the lower end is located at a height spaced apart from the lower spherical plate (963). 41. The method of claim 40, wherein the inner end of the secondary collecting transport pipe 940 penetrating the circumferential wall of the surge tank 960 and the vortex direction of the pressure fluid in the surge tank 960 generated by the turning force of the earth rotation. Wave power generation device characterized in that the bent portion 942 is formed for introducing the pressure fluid in the opposite direction. 41. The wave power generator according to claim 40, wherein the cylindrical portion (961) of the surge tank (960) is formed as a double tube so that an air pocket (965) filled with compressed air is formed therein. 41. The wave power generator according to claim 40, wherein an air chamber (966) is formed at an upper end of the surge tank (960). 36. The method of claim 32 or 35, wherein the main conveying pipe 950 is the upper end is extended to the upper than the frame 100 is closed, near the upper end is installed a spill valve 970 to act as a governor Wave power generating device. 45. The wave power generator according to claim 44, wherein branch branches (952) are integrally formed at the upper end of the main feed pipe (950) to connect each branch pipe (952) to the turbine (T), respectively. 46. The wave power generator according to claim 45, wherein the branch pipe (952) and the turbine (T) are connected by a spiral pipe (953) whose spiral direction is formed in the same direction as the turning force according to the rotation of the earth. 45. The method of claim 44, wherein the governor spill valve 970 is a spill hole (971) perforated at the branch point of the main feed pipe 950, and a spill way (Spill Way) attached to the outside of the spill hole (971) 972, an opening / closing tube 973 rotatably installed on the outer wall of the main conveying pipe 950 to open and close the spill ware 972, and the opening / closing plate 973 to the outside end of the spillway 972. Wave power generation device, characterized in that consisting of a close contact means (980) in close contact. 48. The wave power generator according to claim 47, wherein the spillway 972 is formed in a reducer shape having a narrower cross-sectional area toward the outside thereof, and a packing 974 in close contact with the opening and closing plate 973 is installed at an outer end thereof. . 48. The method of claim 47, wherein the opening and closing plate (973) is rotatably opened and closed by supporting the upper end of the support shaft 976 to the bracket 975 fixed to the main wall of the main feed pipe (950), The contact means 980 includes a movable pulley 981 installed on both sides of the lower end of the opening and closing plate 973, a fixed pulley 982 installed on both sides of the main wall of the main transport pipe 950, and the fixed pulley 982. A close-up wire rope 983 wound around the movable pulley 981 and the fixed pulley 982 and a direction change pulley 985 (986) for switching the direction of the wire rope 983. And a weight (984) fixed to an end of the wire rope (983) to give a load for pulling the rope (983). 50. The method of claim 49, wherein the movable pulley 981 is mandrel installed on the bottom of the first and second movable pulleys (981a) 981b and the lower end of the opening and closing plate (973) mandrel installed on one side of the lower end of the opening and closing plate (973). The third and fourth movable pulleys 981c and 981d and the fixed pulleys 982 are first and second fixed pulleys 982a and 982b installed on one side of the main wall of the main feed pipe 950, and the main feed pipe 950. 3, 4, 5 fixed pulleys (982c) (982d) (982e) installed in the mandrel on the other side of the main wall, the first end of the wire rope (983) is fixed to the first fixed pulley (982a), the first movable Pulley (981a) → second fixed pulley (982b) → second movable pulley (981b) → third fixed pulley (982c) → third movable pulley (981c) → fourth fixed pulley (982d) → fourth movable pulley ( 981d) → the fifth fixed pulley (982e) in the horizontal direction in the winding direction, through the turning pulleys (985, 986) in the vertical direction to the winding direction fixed fixed weight 984 at its end Wave power generation device characterized in that. ※ Note: The disclosure is based on the initial application.