TWI790159B - Multi-action ocean wave power generation system - Google Patents

Abstract

A multi-action ocean wave power generation system includes a first generator connected to a two-way drive unit, wherein the two-way drive unit meshes with a rack through an input gear, and is fixed to a gearbox through the rack; a second generator connected to a first bevel gear through a universal rotating member; a floating body which is run through by a hole, wherein the hole has at least one turbine installed therein, and the turbine is axially extended to have a second bevel gear provided thereto. The second bevel gear meshes with the first bevel gear in the gearbox, and the floating body is linked to the rack. The two-way drive unit drives the first generator while sea waves propel the turbine and the universal rotating member drives the second generator. In this way, a multi-action wave power generation technology is integrated to provide a higher efficiency for electricity generation.

Description

Multi-directional driving wave power generation system

The invention relates to a structure of an ocean wave generator, in particular to a multi-directional drive type ocean wave power generation system which integrates multi-directional drive power generation technology to achieve high-efficiency power generation.

According to the current wave power generation technology developed by various countries, a power plant is mainly built on the coast or off the coast, the controller and the generator are installed in the power plant, and a floating body is extended to the sea with a connecting rod. The rise and fall of the floating body driven by the waves swings the connecting rod, thereby transferring the kinetic energy to the generator for power generation. Among them, the floating body can only swing within a specific range limited by the connecting rod mechanism, and the kinetic energy of the waves beyond the range will not be able to It is converted into electric energy, and the descending stroke of the floating body is only the gravity speed of the body, so the power generation is low, not to mention that the waves are also affected by the weather and the ebb and flow, resulting in unstable power generation, which is why the known wave power generation technology The obvious deficiency is low power generation efficiency. If more sets of generator equipment are built, the cost will be greatly increased, and it is not in line with economic benefits. Therefore, wave power generation cannot be widely adopted and promoted. Combining the above shortcomings is what this creation wants Improve technical problems.

In view of this, the present inventor has been engaged in the manufacture, development and design of related products for many years. After careful design and careful evaluation for the above-mentioned goals, he finally obtained a practical invention.

The technical problem to be solved by the present invention is to provide a multi-directional drive type ocean wave power generation system for the above-mentioned deficiencies in the prior art.

A first generator, which is connected with a two-way drive assembly with a rotating shaft, and an input gear is connected with the two-way drive assembly, and the input gear meshes with a rack, and is fixed on a housing with the rack; Two generators, which are connected to a universal rotating element with a central shaft, and a first bevel gear is connected to the universal rotating element, and the first bevel gear is arranged in the housing; and a floating body, in the middle There is a through hole through which at least one fan is installed in the through hole, and a second bevel gear is axially extended on the fan, and the second bevel gear meshes with the first bevel gear in the casing; the floating The body moves the rack with the ups and downs of the waves to form a reciprocating linear displacement, and the first generator is driven by the input gear and the bidirectional drive assembly in sequence, and at the same time, the waves pass through the through hole of the floating body to drive the blade fan, And the second generator is sequentially driven by the second bevel gear, the first bevel gear and the universal rotating element.

Wherein the two-way drive assembly includes a driven shaft coaxial with the rotating shaft of the first generator, and the driven shaft is equipped with a driven gear and a driven pulley, and the driven gear, the driven belt A one-way ratchet is installed between the wheel and the driven shaft, and the two-way drive assembly includes a drive shaft coaxial with the input gear, and the drive shaft is equipped with a drive gear and a drive pulley, and the drive The gear and the driven gear mesh with each other, and a band is sheathed between the driving pulley and the driven pulley.

Wherein the two-way drive assembly includes a secondary shaft coaxial with the rotating shaft of the first generator, and the secondary shaft is equipped with a first runner and a second runner, and the first runner, the second runner A one-way bearing is installed between the wheel and the countershaft. The two-way drive assembly includes a main shaft coaxial with the input gear, and the main shaft is fixedly sleeved with a third runner and idly sleeved with a fourth runner. , and the main shaft and the auxiliary shaft are intersected with each other, and an annular belt is encircled between the first runner, the second runner, the third runner and the fourth runner.

Wherein the first generator is connected with a turbine drive assembly with a rotating shaft, and a pneumatic cylinder is connected with the turbine drive assembly, and a piston is arranged inside the pneumatic cylinder, and the piston passes through the pneumatic cylinder and is fixed on a push rod. On the casing, the turbine drive assembly includes a gas turbine and an air storage tank, the gas turbine is connected to the shaft of the first generator, and the gas storage tank is connected to both ends of the pneumatic cylinder with two one-way valve pipes, so that the The pneumatic cylinder can inject air into the air storage barrel during the reciprocating stroke, and an air supply pipe is communicated between the gas turbine and the air storage barrel, and the compressed air drives the gas turbine to rotate and drive the first generator to generate electricity, wherein, The above-mentioned mechanism can also be changed to inject liquid, and the liquid turbine is driven by the circulating liquid, and the equivalent power generation purpose can also be achieved.

Wherein the floating body is formed with a conical surface concave toward the through hole on the side facing the sea wave, and the conical surface guides the sea wave to flow into the through hole.

Wherein the universal rotating element includes at least one universal joint (Universal Joint) and a spline shaft (Spline Shaft), the universal joint has the functions of transmitting rotational kinetic energy and allowing the universal rotating element to move up and down, and The spline shaft has the functions of transmitting rotational kinetic energy and allowing the universal rotating element to expand and contract.

Wherein the universal rotating element is a constant velocity universal joint (Constant Velocity Joint; CV Joint), which includes an input universal joint, an output universal joint and a drive shaft, and one end of the drive shaft passes through the input universal joint joint, and a displacement head is formed in the input universal joint, the other end of the drive shaft passes through the output universal joint, and a rotating head is formed in the output universal joint, the input universal joint also has the function of transmission The function of rotating kinetic energy and allowing the universal rotating element to stretch back and forth, and the output universal joint has the function of transmitting rotating kinetic energy and allowing the universal rotating element to move up and down.

Wherein the universal rotating element is provided with at least one flexible shaft (Flexible Shaft), one end of the flexible shaft is connected to the second generator, and the other end of the flexible shaft is connected to the first bevel gear, and the flexible shaft has It has the function of transmitting rotational kinetic energy, and also has the function of allowing back and forth expansion and up and down torsion.

Wherein the rotating shaft of the first generator and the central shaft of the second generator are connected with an inertia flywheel.

The main purpose of the present invention is that the floating body moves the rack along with the ups and downs of the sea to form a reciprocating linear displacement, and the first generator is sequentially driven by the input gear and the bidirectional drive assembly, so as to generate an active motor through the floating body. Lifting drives the power generation effect, and at the same time, the sea wave passes through the through hole of the floating body to drive the blade fan, and the second generator is driven by the second bevel gear, the first bevel gear and the universal rotating element in sequence, by Through the floating body, there is a rotary drive power generation effect, so as to integrate the multi-directional drive power generation technology to achieve high-efficiency power generation.

Other objects, advantages and novel features of the invention will be more apparent from the following detailed description and associated drawings.

In order to enable your review committee members to have a further understanding and understanding of the purpose, characteristics and effects of the present invention, please cooperate with (simple description of the drawings) and describe in detail as follows:

First, please view it as shown in Figure 1, a multi-directional drive type wave power generation system, including: a first generator 10, a bidirectional drive assembly 20, a second generator 30, a universal rotating element 40 and a floating Body 50, a first generator 10 is connected with a rotating shaft 101 with a bidirectional drive assembly 20, and an input gear 11 is connected with the bidirectional drive assembly 20, and the input gear 11 meshes with a rack 12, and the rack 12 Fixed on a casing 13, the two-way drive assembly 20 includes a driven shaft 21 coaxial with the shaft 101 of the first generator 10, and the driven shaft 21 is equipped with a driven gear 211 and a driven Belt pulley 212, and a one-way ratchet 213 is all installed between this driven gear 211, this driven pulley 212 and this driven shaft 21, and wherein, two this one-way ratchet 213 all rotate clockwise and are not driven state and rotate counterclockwise to be a driving state, and the two-way drive assembly 20 further includes a driving shaft 22 coaxial with the input gear 11, and the driving shaft 22 is equipped with a driving gear 221 and a driving pulley 222, the driving The gear 221 and the driven gear 211 mesh with each other, and a belt body 223 is sleeved between the driving pulley 222 and the driven pulley 212. A second generator 30 is connected with a central shaft 301 to rotate in one universal direction. element 40, and a first bevel gear 31 is connected by the universal rotating element 40, and the first bevel gear 31 is arranged in the housing 13, a through hole 51 runs through the middle of a floating body 50, and the through hole 51 At least one leaf fan 52 is installed inside, and a second bevel gear 53 is axially extended from the leaf fan 52, and the second bevel gear 53 meshes with the first bevel gear 31 in the housing 13, and the floating body 50 is formed with a conical surface 54 that is concave toward the through hole 51 on the side facing the waves, and the conical surface 54 guides the waves to flow into the through hole 51. Reciprocating linear displacement, and the first generator 10 is driven by the input gear 11 and the bidirectional drive assembly 20 in sequence, thereby generating the effect of lifting and driving power generation through the floating body 50, and at the same time, the waves pass through the floating body 50 The blade fan 52 is driven through the hole 51, and the second generator 30 is driven by the second bevel gear 53, the first bevel gear 31, and the universal rotating element 40 in sequence, thereby generating a positive energy through the floating body 50. Rotary drive power generation effect, in order to integrate multi-directional drive power generation technology to achieve high-efficiency power generation.

Further explaining its operation, as shown in Figure 2, the density of the floating body 50 is lower than that of sea water, which means it can normally float on the sea surface and rise and fall with the waves. When the floating body 50 rises, it will push the shell 13 rises synchronously with the rack 12, and the input gear 11 is driven by the rack 12 to rotate counterclockwise. As shown in FIG. The input gear 11 rotates in the counterclockwise direction. At this time, the driven gear 211 engaged with the driving gear 221 rotates in the clockwise direction, and the driven shaft 21 is not driven due to the idling of the one-way ratchet 213. The driving pulley 222 uses the belt body 223 to drive the driven pulley 212 to rotate counterclockwise, and at the same time allows the one-way ratchet 213 to drive the driven shaft 21 to rotate counterclockwise, thereby transferring the rotational kinetic energy to the first The generator 10 generates electricity, wherein the rotating shaft 101 of the first generator 10 is connected with an inertial flywheel 14, and the inertial rotation of the inertial flywheel 14 forms the stable rotation of the first generator 10, similarly as shown in Figure 4, when When the floating body 50 descends, it will push the casing 13 and the rack 12 to descend synchronously, and the input gear 11 is driven by the rack 12 to rotate clockwise. The wheels 222 are all synchronized with the input gear 11 to rotate clockwise. At this time, the driven gear 211 engaged with the driving gear 221 rotates counterclockwise, so the one-way ratchet 213 can drive the driven shaft 21. In this way, the rotational kinetic energy is transmitted to the first generator 10 to generate electricity, and the driving pulley 222 uses the belt body 223 to drive the driven pulley 212 to rotate clockwise, so that the idling of the one-way ratchet 213 does not occur. Driving the driven shaft 21 , in summary, the floating body 50 can drive the first generator 10 to generate electricity during both the rising process and the falling process, thereby effectively improving its power generation efficiency.

As shown in Figure 2, an embodiment of the universal rotating element 40, the universal rotating element 40 includes at least one universal joint 41 (Universal Joint) and a spline shaft 42 (Spline Shaft), the universal The joint 41 has the functions of transmitting rotational kinetic energy and allowing the universal rotating element 40 to move up and down, and the spline shaft 42 has the function of transmitting rotational kinetic energy and allowing the universal rotating element 40 to expand and contract. 50 while rising, the sea waves will push upwards and flow through the through hole 51, and its thrust can drive the blade fan 52 to rotate, and the rotation of the blade fan 52 is linked to the second bevel gear 53, and the second bevel gear 53 is driven by the second bevel gear. The bevel gear 53 drives the first bevel gear 31, and the universal joint 41 and the spline shaft 42 are connected between the second generator 30 and the first bevel gear 31, and the universal joint 41 and the spline shaft The key shaft 42 does not affect the dynamic transmission of the first bevel gear 31 to the second generator 30 for power generation, while the universal joint 41 allows the first bevel gear 31 to move up and down, and the spline shaft 42 allows The universal rotating element 40 is stretchable back and forth, so as to integrate the multi-directional power generation function with reciprocal movement and rotation. Wherein, the central shaft 301 of the second generator 30 is connected with an inertial flywheel 34, and the inertial rotation of the inertial flywheel 34 forms the stable rotation of the second generator 30. Further, the floating body 50 is supported by the rack 12 When the floating body 50 rises to the maximum height, the waves will not be able to further push up the floating body 50. At this time, the rising potential energy of the waves will increase the water pressure and flow velocity of the seawater flowing through the through hole 51, so that The speed increase of the blade fan 52 can effectively utilize the wave potential energy exceeding the maximum rise height of the floating body 50, so as to further improve its power generation efficiency. The conical surface 54 is recessed, and the conical surface 54 is beneficial to guide sea waves to flow into the through hole 51, so that the sea waves can concentrate on the blade fan 52, thereby improving its power generation efficiency.

Another embodiment of the two-way drive assembly 20 is shown in Figures 5, 6 and 7. The two-way drive assembly 20 includes a secondary shaft 23 coaxial with the shaft 101 of the first generator 10, and the The secondary shaft 23 is equipped with a first runner 231 and a second runner 232, and a one-way bearing 233 is installed between the first runner 231, the second runner 232 and the secondary shaft 23, wherein , the two one-way bearings 233 are in the undriven state of clockwise rotation and in the driving state of counterclockwise rotation. The two-way drive assembly 20 includes a main shaft 24 coaxial with the input gear 11, and the main shaft 24 is fixedly sleeved with a A fourth runner 242 is sheathed with the third runner 241 in idle motion, and the main shaft 24 and the auxiliary shaft 23 are intersecting each other, and the first runner 231, the second runner 232, and the third runner 241 and the fourth runner 242 are encircled with an annular belt 25. In actual operation, when the rack 12 drives the input gear 11 to rotate clockwise, the main shaft 24 and the third runner 241 will synchronize the input gear 11 to form a clockwise rotation, and the fourth runner 242 is not driven by the main shaft 24, and the third runner 241 drives the annular belt 25, so that the annular belt 25 simultaneously Rotate the first runner 231, the second runner 232 and the fourth runner 242, wherein the second runner 232 rotates clockwise, this state will not be able to drive the one-way bearing 233 and the countershaft 23. In addition, the first runner 231 rotates counterclockwise, and can drive the auxiliary shaft 23 with the one-way bearing 233, thereby driving the first generator 10 to generate electricity. On the contrary, the first runner 231 rotating counterclockwise The three rotating wheels 241 drive the first rotating wheel 231 to rotate clockwise and the second rotating wheel 232 to rotate counterclockwise, the first rotating wheel 231 cannot drive the secondary shaft 23, and the second rotating wheel 232 is The shaft 23 drives the first generator 10 to generate electricity, so that it can effectively generate electricity when the waves rise and fall, so as to increase its power generation.

Another embodiment of the universal rotating element 40 is shown in Figure 8 and Figure 9, the universal rotating element 40 is a constant velocity joint (Constant Velocity Joint; CV Joint), which includes an input universal joint Joint 43, an output universal joint 44 and a drive shaft 45, one end of the drive shaft 45 penetrates the input universal joint 43, and a displacement head 451 is formed in the input universal joint 43, the other end of the drive shaft 45 Penetrate the output universal joint 44, and form a rotary head 452 in the output universal joint 44, the displacement head 451 can be displaced back and forth along the input universal joint 43, and the rotary head 452 can move along the output The universal joint 44 rotates, that is, the input universal joint 43 has the function of transmitting rotational kinetic energy and allowing the universal rotating element 40 to expand and contract, and the output universal joint 44 has both the function of transmitting rotational kinetic energy and allowing the universal joint to expand and contract. The function of moving up and down to the rotating element 40 is used to integrate the multi-directional power generation function with reciprocal movement and rotation.

Another embodiment of the universal rotating element 40 is shown in FIG. 10. The universal rotating element 40 is provided with at least one flexible shaft 46 (Flexible Shaft), and one end of the flexible shaft 46 is connected to the second generator 30, and the other end of the flexible shaft 46 is connected to the first bevel gear 31, accordingly, when the first bevel gear 31 is driven to rotate, the flexible shaft 46 will be able to rotate synchronously to drive the second generator 30, that is The flexible shaft 46 has the function of transmitting rotational kinetic energy, and the flexible shaft 46 also has the function of allowing fore-and-aft stretching and up-and-down twisting, thereby integrating the multi-directional power generation function of reciprocal displacement and rotation.

Another embodiment of this creation, again please look at as shown in Figure 11, this first generator 10 is connected with a turbine drive assembly 60 with a rotating shaft 101, and is connected with a pneumatic cylinder 61 by this turbine drive assembly 60, and this A piston 62 is arranged inside the pneumatic cylinder 61, and the piston 62 passes through the pneumatic cylinder 61 and is fixed on a housing 13 with a push rod 621. The turbine drive assembly 60 includes an air turbine 63 and an air storage barrel 64. The gas turbine 63 is connected to the rotating shaft 101 of the first generator 10, the air tank 64 is connected to both ends of the air cylinder 61 with two one-way valve pipes 641, and the push rod 621 is driven to move backward through the floating body 50, and the air pressure The piston 62 in the cylinder 61 pushes the air to flow only one way into the air storage barrel 64, that is, the pneumatic cylinder 61 can inject air into the air storage barrel 64 during the reciprocating stroke, and the gas turbine 63 and the air storage barrel 64 communicate with an air delivery pipe 65, and a switch 651 can be installed on the air delivery pipe 65, and the switch 651 can control the maximum flow flowing into the gas turbine 63 and close the air delivery pipe 65, wherein the floating body 50 Along with the ups and downs of the sea, the piston 62 is linked to form a reciprocating linear displacement. When the piston 62 moves up or down, the air can be squeezed to flow through the one-way valve tube 641, so that the compressed air is stored in the air storage barrel 64, and Drive the gas turbine 63 with a controllable air flow, that is, use compressed air to drive the gas turbine 63 to rotate and drive the first generator 10 to generate electricity, so as to achieve the purpose of effectively generating electricity when the floating body 50 rises or falls, wherein , the first generator 10 can also be replaced by a linear generator, allowing the push rod 621 to directly reciprocate drive the first generator 10 to generate electricity in a reciprocating linear motion, which is an equivalent application of the present invention that can achieve multi-directional drive power generation . Furthermore, the above-mentioned mechanism can be changed to inject liquid in the same way, and the liquid turbine is driven by the circulating liquid, and the equivalent power generation purpose can also be achieved.

To sum up, the present invention has indeed achieved a breakthrough structural design, has improved invention content, and at the same time can achieve industrial applicability and progress, and the present invention has not been seen in any publications, and it is also novel. In line with the provisions of the relevant laws and regulations of the Patent Law, I filed an application for a patent for invention according to the law, and I sincerely request the examination committee of the Jun Bureau to grant a legal patent right. I sincerely pray for it.

Only the above is only a preferred embodiment of the present invention, and should not be used to limit the scope of the present invention; that is, all equivalent changes and modifications made according to the patent scope of the present invention should still belong to the present invention within the scope of the patent.

[this invention] 10: First Generator 101: Shaft 11: Input gear 12: Rack 13: Housing 14, 34: Inertia flywheel 20: Two-way drive components 21: driven shaft 211: driven gear 212: driven pulley 213: one-way ratchet 22: Driving shaft 221: Driving gear 222: Driving pulley 223: belt body 23: secondary shaft 231: The first wheel 232: second wheel 233: one-way bearing 24: Spindle 241: The third runner 242: The fourth wheel 25: ring belt body 30: Second Generator 301: central axis 31: First bevel gear 40: Universal rotating element 41: universal joint 42: spline shaft 43: Input gimbal 44:Output universal joint 45: drive shaft 451: displacement head 452: Rotating head 46: Flexible shaft 50: floating body 51: Through hole 52:leaf fan 53: Second bevel gear 54: conical surface 60: Turbine drive assembly 61: Pneumatic cylinder 62: Piston 621: putter 63: gas turbine 64:Air tank 641: one-way valve tube 65: air supply pipe 651: switch

Fig. 1 is a schematic diagram of the structure of the present invention. Fig. 2 is a schematic diagram of the operation of the present invention. Fig. 3 is a schematic diagram (1) of the operation of the bidirectional drive assembly of the present invention. Fig. 4 is a schematic diagram (2) of the operation of the bidirectional drive assembly of the present invention. Fig. 5 is a schematic diagram of another embodiment of the bidirectional drive assembly of the present invention. Fig. 6 is a schematic diagram (1) of the operation of another embodiment of the bidirectional drive assembly of the present invention. Fig. 7 is a schematic diagram (2) of the operation of another embodiment of the bidirectional drive assembly of the present invention. Fig. 8 is a schematic diagram of another embodiment of the universal rotating element of the present invention. Fig. 9 is a schematic diagram of the operation of another embodiment of the universal rotating element of the present invention. Fig. 10 is a schematic diagram of another embodiment of the universal rotating element of the present invention. Fig. 11 is a schematic structural diagram of another embodiment of the present invention.

10: First Generator

101: Shaft

11: Input gear

12: Rack

13: Housing

14, 34: Inertia flywheel

20: Two-way drive components

21: driven shaft

211: driven gear

212: driven pulley

22: Driving shaft

221: Driving gear

222: Driving pulley

223: belt body

30: Second Generator

301: central axis

31: First bevel gear

40: Universal rotating element

41: universal joint

42: spline shaft

50: floating body

51: Through hole

52:leaf fan

53: Second bevel gear

54: conical surface

Claims (10)

A multi-directional drive type ocean wave power generation system, comprising: a first generator, which is connected to a bidirectional drive assembly with a rotating shaft, and an input gear is connected to the bidirectional drive assembly, and the input gear meshes with a rack, and the The rack is fixed on a housing; a second generator, which is connected to a universal rotating element with a central shaft, and a first bevel gear is connected to the universal rotating element, and the first bevel gear is arranged on Inside the casing; and a floating body, a through hole runs through the middle, and at least one leaf fan is installed in the through hole, and a second bevel gear is arranged in the axial direction of the leaf fan, and the second bevel gear is placed on the The first bevel gear is meshed in the housing; the buoyant body moves the rack along with the ups and downs of the sea to form a reciprocating linear displacement, and the first generator is driven by the input gear and the bidirectional drive assembly in sequence, while the waves pass through the buoy The blade fan is driven through the through hole of the body, and the second generator is sequentially driven by the second bevel gear, the first bevel gear and the universal rotating element. The multi-directional drive type ocean wave power generation system according to claim 1, wherein the two-way drive assembly includes a driven shaft coaxial with the rotating shaft of the first generator, and the driven shaft is equipped with a driven gear and a driven pulley, and a one-way ratchet is installed between the driven gear, the driven pulley and the driven shaft, and the bidirectional drive assembly includes a drive shaft coaxial with the input gear, and the drive shaft is mounted A driving gear and a driving pulley are provided, and the driving gear and the driven gear are meshed with each other, and a belt body is sheathed between the driving pulley and the driven pulley. The multi-directional drive type ocean wave power generation system according to claim 1, wherein the two-way drive assembly includes a countershaft coaxial with the shaft of the first generator, and the countershaft is equipped with a first rotor and a second rotor wheel, and a one-way bearing is installed between the first runner, the second runner and the countershaft, the two-way drive assembly includes a main shaft coaxial with the input gear, and the main shaft fixed sleeve is provided with a A fourth runner is sleeved between the third runner and the idling, and the main shaft and the auxiliary shaft are intersected with each other, and the first runner, the second runner, the third runner and the fourth runner An annular belt is provided around the intermediate ring. A multi-directional drive type ocean wave power generation system, comprising: a first generator, which is connected to a turbine drive assembly with a rotating shaft, and a pneumatic cylinder is connected to the turbine drive assembly, and a piston is arranged inside the pneumatic cylinder, and the piston Pass through the pneumatic cylinder and fix it on a casing with a push rod; a second generator, which is connected with a universal rotating element with a central shaft, and is connected with a first bevel gear by the universal rotating element, and The first bevel gear is arranged in the casing; and a floating body, a through hole runs through the middle, and at least one leaf fan is installed in the through hole, and a second bevel gear is axially extended on the leaf fan, and The second bevel gear meshes with the first bevel gear in the housing; the floating body moves the piston to form a reciprocating linear displacement with the ups and downs of the waves, and the first generator is driven by the pneumatic cylinder and the turbine drive assembly, and the waves The blade fan is driven through the through hole of the floating body, and the second generator is sequentially driven by the second bevel gear, the first bevel gear and the universal rotating element. The multi-directional drive type ocean wave power generation system as claimed in claim 4, wherein the turbine drive assembly includes a gas turbine and a gas storage tank, the gas turbine is connected to the rotating shaft of the first generator, and the gas storage tank is connected with two one-way valves Pipe connects both ends of the pneumatic cylinder, so that the pneumatic cylinder can inject air into the air storage barrel during the reciprocating stroke, and an air supply pipe is communicated between the air turbine and the air storage barrel, and the compressed air drives the air turbine to rotate Drive the first generator to generate electricity. The multi-directional driving wave power generation system according to claim 1 or claim 4, wherein the buoyant body is formed with a conical surface concave toward the through hole on the side facing the waves, and the conical surface guides the waves to flow into the through hole . The multi-directional driving wave power generation system of claim 1 or claim 4, wherein the universal rotating element includes at least one universal joint (Universal Joint) and a spline shaft (Spline Shaft), and the universal joint has both It has the functions of transmitting rotational kinetic energy and allowing the universal rotating element to move up and down, and the spline shaft has the functions of transmitting rotational kinetic energy and allowing the universal rotating element to expand and contract. Such as the multi-directional driving wave power generation system of claim 1 or claim 4, wherein the universal rotating element is a constant velocity joint (Constant Velocity Joint; CV Joint), which includes an input universal joint, an output universal joint A joint and a drive shaft, one end of the drive shaft penetrates the input universal joint, and a displacement head is formed in the input universal joint, the other end of the drive shaft penetrates the output universal joint, and A rotary head is formed in the joint, the input universal joint has the functions of transmitting rotational kinetic energy and allowing the universal rotating element to stretch back and forth, and the output universal joint has the function of transmitting rotational kinetic energy and allowing the universal rotating element to The function of moving up and down. The multi-directional driving wave power generation system as in claim 1 or claim 4, wherein the universal rotating element is provided with at least one flexible shaft (Flexible Shaft), one end of the flexible shaft is connected to the second generator, and the flexible shaft The other end of the flexible shaft is connected to the first bevel gear, and the flexible shaft has the function of transmitting rotational kinetic energy, and also has the function of allowing back and forth stretching and up and down torsion. The multi-directional driving wave power generation system according to claim 1 or claim 4, wherein both the rotating shaft of the first generator and the central shaft of the second generator are connected to an inertial flywheel.

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