CN202900537U - Movable sea wave wind power generation system - Google Patents

Abstract

A movable sea wave wind power generation system is used for achieving high-efficiency power generation in an area with ideal sea wave wind power and transmitting generated electric power to a destination in a lossless mode. The movable sea wave wind power generation system is formed by an electricity generating ship and an electricity transporting ship. Sea wave wind driven generators and a rectifying device are arranged on the electricity generating ship. Electricity storage containers and wind driven generators are arranged on the electricity transporting ship. The sea wave wind driven generators drive hemispherical coils to rotate through wind power impellers. Waves push floaters to drive cylindrical mandrels and a part of spherical magnetic rotors to motion and enable closing coils to cut magnetic lines to generate electric current. The electric current is subjected to rectification and then is outputted to the electricity transporting ship. The electricity transporting ship transports the stored electricity to power consumers nearby. On the way of transportation of the electricity, the wind driven generators can continue charging the electricity storage containers or storage batteries on the electricity transporting ship so as to compensate power loss on the way. The movable sea wave wind power generation system is high in generating efficiency and wide in application range, and solves the problem of power output.

Description

Packaged type wave wind-power generating system

Technical field

Packaged type wave wind-power generating system is exactly ocean and the technical field of wind power generation of utilizing kinetic energy and the wind-power electricity generation on the sea of seawater.

Background technique

The area of the earth 71% is the ocean.On the ocean, the wind resource that enriches that the huge kinetic energy that not only has the motion of seawater to produce accompanies with it with ining addition.

Wind-force title wind speed (meter per second) wave high (rice)

2 grades of light breeze 1.6-3.3 0.2

3 grades of gentle breeze 3.4-5.4 0.6

4 grades and wind 5.5-7.9 1.0

5 grades of strong wind 8.0-10.7 2.0

6 grades of high wind 10.8-13.8 3.0

7 grades of strong wind 13.9-17.1 4.0

There is the shore line about 18000 kilometers in China, about 6500 of large small islands.20～40 kilowatts every meter approximately of coastal sea wave energies, total energy reaches 1.7 hundred million kilowatts.About 7.5 hundred million kilowatts of the marine wind energy content that can develop.The possibility that the wave wind-power electricity generation has huge demand and satisfies the demands in China.

Patent CN101469663 is a kind of fixed Wave power generation device.It does not have to take full advantage of sea wave dynamic energy.

Practical model utility CN2929236 is a kind of flip horizontal wind-driven generator.Its wind-force impeller is when increasing blade, and the impeller support also will increase.Traditional sea wave dynamic energy and sea wind-power electricity generation need fixing electricity generating device and a large amount of submarine cable of coastal waters bank.

Therefore, utilizing the major obstacle of wave and wind-power electricity generation in the ocean, high sea is generating efficiency and the transmission of electricity problem of wave and wind-force.

Summary of the invention

The utility model provides a kind of packaged type wave wind-power generating system, solves high efficiency generating in desirable wave wind area, and the harmless lost territory of electric power that produces is transported to purpose.

This packaged type wave wind-power generating system is comprised of generating ship and the electric ship two-part of fortune.

Some groups of high efficiency wave wind-driven generators and rectifying installation are installed on the generating ship.

The design of wave wind-driven generator.

At boats and ships manipulator is installed.One end of arm links to each other with hull, and the wave wind-driven generator is fixed on the other end of manipulator.Can relative movement between generator and the manipulator to adjust the seat of special-purpose wave wind-driven generator.When generator was worked, manipulator stretched out hull, and generator is placed on suitable work seat.In needs, manipulator can turn round generator is sent back on the hull.

The wave wind-driven generator has mechanical interface to link to each other with manipulator.

Wind-force impeller has the weathercock that links to each other with mechanical interface by the weathercock support, and weathercock support and mechanical interface can relatively move, and adjusts the cam work seat that is fixed on the weathercock axle.Weathercock can rotate relative to the weathercock support.By the size of the blade on the design weathercock axle, make the shaking moment of weathercock be far longer than the effective resistance moment of cam, weathercock just can be controlled the work seat of cam like this.Being fixed with on the blade rotor of bearing pin radially has blade, and blade rotor is fixed on the impeller hack lever of cam mechanism guide rod.Blade rotor can rotate relative to the impeller hack lever.Under the control of cam, blade is in the contrary wind side, and the radially bearing pin on the guide rod of cam mechanism and the blade rotor disengages, and the blade box haul freely swings, and the rotational resistance torque of impeller frame is close to zero.Blade is in side with the wind, and the guide rod of cam mechanism is by blocking the radially bearing pin of blade rotor, and it is fixing that blade is opened, and promotes the input shaft rotation of the speed increaser that links to each other with the impeller hack lever.

The input and output shaft of speed increaser is coaxial, is fixed on the hemispherical shell by connecting plate.

The top rotating shaft of the hemisphere coil rotor of wave wind-driven generator is connected with the output shaft of speed increaser by coupling, and the bottom links to each other with round circular orbit.The hemisphere coil is combined into by a plurality of hemisphere wedge surface aluminium sheets and is fixed on the hemispherical shell.There is conductive ring to contact with the conduction brush that stationary housing links to each other in the bottom of hemisphere coil.Hemisphere coil rotor top rotating shaft one end has the fixing Loadings On Hemispherical Shell of fixing sphere magnet to link to each other by bearing and inwall.Fixing Loadings On Hemispherical Shell links to each other with frame.Spherical plain bearing is arranged on the frame.Mounting portion, top sphere Magnmet rotor at the cylinder that has the ventilation circular hole, fixed cylindrical stent and the part spherical shell auxiliary stand that is consolidated with cylindrical stent on the cylinder, the top of cylindrical stent is consolidated with the partial fixing spherical shell plate of mounting portion sphere magnet rotor.Be fixed with cylinder magnet and the cylinder guide rod that has the ventilation circular hole on the fixed plate in the cylinder.At cylinder guide rod two ends rotary upper saw pulley is housed, the semicircular cylinder coil B that has wire rope to connect on the upper saw pulley to slide along the cylinder guide rod and be cemented in semi-cylindrical shaped loop A on the cylindrical shape mandrel by gusset.The cylindrical shape mandrel is connected with the spheroid of spherical plain bearing by lining, and is gapped between it and the fixed cylinder of spheroid.The cylinder formed core the tip of the axis is consolidated with float by flange.Float wants to produce enough large buoyancy to promote floating of float and cylindrical shape mandrel, and the resistance that the shape of float should make it float in seawater is as far as possible little.There is chain lock to link to each other between float and the frame.Prevent from separating between float, cylindrical shape mandrel and the body.Buffer gasket is arranged at the top of float.The bottom of frame is fixed with water bar, and the cylindrical shape windproof baffle of Loadings On Hemispherical Shell is housed on the mechanical interface.The centre of sphere of spherical shell, the centre of sphere of spherical coil, the centre of sphere of spherical spinner, the centre of sphere of spherical plain bearing are the same centre ofs sphere.The kinematic pair at spherical plain bearing place water filling lubricating system, seawater is made oiling agent.The length of the centre of sphere of turning from the float end of cylindrical shape mandrel to sphere will be as far as possible less than the radius of rotor, and like this, the swing linear velocity on rotor upper magnet top will be greater than the swing linear velocity of cylindrical shape mandrel float end.Spherical coil is with sallying, and rotating with the apex rotor sphere around self axis has again relative movement.Can according to the height of wave, determine the length that moves axially length and chain of cylindrical shape mandrel.

According to the physical environment requirement of the hydrology weather in different marine sites, the special-purpose wave wind-driven generator and the boats and ships that manufacture and design respective series form the generating ship system.

Transport some groups of identical capacitors or storage battery, high-power high-efficiency wind-driven generator are housed on the electric ship.Generating ship and transport between the electric ship and be connected with cable.By elastic cable paper, generating ship is transported in the capacitor of the electric ship of fortune or the storage battery through the electric current that the wave wind-driven generator of over commutation produces stores; Simultaneously, transport also capacitor or the charge in batteries on the ship of high-power high-efficiency wind-driven generator on the electric ship.Identical capacitor or identical storage battery are charged simultaneously, in order to can guarantee the state that reaches capacity simultaneously.During discharge, can select as required the mode of emptying electric charge.When the electric power reservoir vessel of the electric ship of fortune reached capacity, the power supply of the generating ship that breaks was transported electric ship and just the electric power that stores is transported near the user who needs electric power.In the way of transportation electric power, wind-driven generator also can continue to capacitor or the charge in batteries transported on the electric ship, with compensation power loss in transit.Generating ship is the more unloaded electric power reservoir vessel charging on the electric ship of other fortune just.

The beneficial effect of packaged type wave wind-power generating system is:

1. applied range.Packaged type wave wind-power generating system has not only been realized the littoral generating in coastal waters, also the generating of ocean, high sea is become possibility.Can provide electric power for the people of various countries.Can be land, coastal waters, isolated island, Hai Jiao, marine, the marine resources development such as desalination of sea water and set up marine factory provides free of contamination convenience sufficient electric power.

2. generating efficiency is high.

Special-purpose wave wind-driven generator has utilized kinetic energy and the marine wind-force of seawater fully, makes it to be converted into efficiently electric energy.In addition, generating ship can be according to the hydrologic regime of ocean, and weather condition is adjusted the seat of generating ship and the operating attitude of wave wind-driven generator in time, makes the wave wind-driven generator can maximally utilise seawater kinetic energy and wind-power electricity generation.

3. can according to different marine sites, select the special-purpose wave wind-driven generator of respective series and boats and ships to form system.Kinetic energy and the wind-force of seawater are fully utilized.

4. input cost is low, and repayment is high.Compare with fixed power generation with sea water system, input cost is very low, and equipment is simple, easily construction.

5. it is few to be interfered.Can avoid because of weather the interference of the abominable factor such as Marine Storm Genesis.Can guarantee work in continuous 24 hours.

6. solved electric power output problem.When the electric shipping of fortune is sent electric power, can not produce power loss.

Description of drawings

Fig. 1 is wave wind-driven generator structure schematic representation.

Fig. 2 is that packaged type wave wind-power generating system forms schematic representation.

Fig. 3 is the working state schematic representation of wind-force impeller mechanism.

Fig. 4 is the blade schematic representation of weathercock.

In the drawings: 1. cable, 2. generating ship, 3. rectifying installation, 4. wave wind-driven generator, 5. cable on the generating ship, 6. transport electric ship, 7. capacitor or storage battery, 8. high-power high-efficiency wind-driven generator, 9. high-power high-efficiency wind-driven generator and the electric ship cable of the fortune cable that links to each other, 10. transport the electric ship cable cable that links to each other with capacitor or storage battery, 11. manipulator, 12. manipulator interface, 13. the manipulator interface of wave wind-driven generator, 14. weathercock support, 15. the top rotating shaft of hemisphere coil rotor, 16. speed increaser and the connecting plate that is fixed on hemispherical shell, 17. coupling, 18. speed increaser, 19. the input shaft of speed increaser, 20. cam, 21. weathercock axle, 22. weathercock rotary pair, 23. weathercock blade, 24. cam guide rod, 25. impeller blade, 26. cam guide bar supports, 27. bearing pins, 28. impeller hack lever, 29. blade rotor, 30. hemispherical shells of fixing, 31. are fixed on the magnet of hemispherical shell inwall, 32. hemisphere rotating coil rotor, 33. the spherical calotte Magnmet rotor, 34. are cemented in the cylindrical body on the cylinder, the housing of 35. standing part spherical shell rotor magnets, 36. part spherical shell auxiliary stand, 37. be cemented in the cylindrical body on the part spherical shell auxiliary stand, the 38. generators cylinder that keeps out the wind, 39. frames, 40. annulus brush, 41, generator machinery interface base plate, the round ring guide of 42. hemisphere rotating coil rotors, 43. cylindrical shape mandrel, 44. the cylinder magnet, 45. connect the wire rope of semicircular cylinder loop A and semi-cylindrical shaped coil B, 46. chain locks, 47. lining, 48. the spherical rotor of spherical plain bearing, 49. semi-cylindrical shaped coil B, the flange of 50. fixed cylinder formed core shaft ends and float, 51. float, 52. upper saw pulley, 53, the wire rope of connection semicircular cylinder loop A and semi-cylindrical shaped coil B, 54. be cemented in the gusset on the cylindrical shape mandrel, 55. the dunnage of semi-cylindrical shaped loop A, 56. sphere bearing shells, 57. spherical plain bearing seats, 58. semi-cylindrical shaped loop A, 59. the fixed plate in the upper saw pulley, 60. cylinders, 61. cylinder guide rods, 62. the cylinder fixed with the spheroid of spherical plain bearing, 63. be installed in the top section sphere Magnmet rotor of cylinder, 64. buffer gaskets, 65. water bars.

Embodiment

In Fig. 1, at generating ship 2 manipulator 11 is installed.The mechanical interface 13 of wave wind-driven generator links to each other with manipulator interface 12.Can relative movement between wave wind-driven generator 4 and the manipulator 11 to adjust the seat of wave wind-driven generator 4.When 4 work of wave wind-driven generator, manipulator 11 stretches out the hull of generating ship 2, and wave wind-driven generator 4 is placed on suitable work seat.In needs, manipulator 11 can turn round, and wave wind-driven generator 4 is sent back on the hull of generating ship 2.

Weathercock support 14 links to each other with the mechanical interface 13 of wave wind-driven generator and can relatively move, and adjusts the work seat that is fixed on the cam 20 on the weathercock axle 21.Weathercock blade 23 can drive the cam 20 that is cemented on the weathercock axle 21 by weathercock rotary pair 22 and rotate and rest on the wind position under the promotion of wind-force.

Such as Fig. 4, by the size of design weathercock blade 23, make cam 20 work moments out and away in its resisting moment.So just can control the work seat of cam 20.

Such as Fig. 3, cam guide rod 24 is fixed on the impeller hack lever 28 by cam guide bar support 26, and cam guide rod 24 can move relative to impeller hack lever 28.Impeller blade 25 is fixed on the blade rotor 29, and radially bearing pin 27 is arranged on the blade rotor 29, and blade rotor 29 is connected on the impeller hack lever 28, can rotate with respect to impeller hack lever 28.Under the control of cam 20, impeller blade 25 is in the contrary wind side, and the radially bearing pin 27 on cam guide rod 24 and the blade rotor 29 disengages, and impeller blade 25 box hauls freely swing, and the rotational resistance torque of impeller hack lever 28 is close to zero.Impeller blade 25 is in side with the wind, the radial peg 27 of cam guide rod 24 by blocking blade rotor 29, and it is fixing that impeller blade 25 is opened, and promotes input shaft 19 rotations of the speed increaser 18 that links to each other with impeller hack lever 28.The input and output shaft of speed increaser 18 is coaxial.Be fixed on the fixing hemispherical shell 30 by speed increaser and the connecting plate 16 that is fixed on hemispherical shell.The output shaft of speed increaser 18 is connected with the top rotating shaft 15 of the hemisphere coil rotor 32 of wave wind-driven generator 4 by coupling 17, and the hemisphere coil rotor 32 of drive and wave wind-driven generator 4 is with respect to the magnet 31 that is fixed on the hemispherical shell inwall and spherical calotte Magnmet rotor 33 rotates and cutting magnetic line makes hemisphere rotating coil rotor 32 generation currents.The annulus brush 40 that links to each other with stationary housing in the bottom of hemisphere coil rotor 32 contacts, and the electric current that produces is drawn.Link to each other with the round ring guide 42 of hemisphere rotating coil rotor on being fixed on frame 39 in the bottom of hemisphere coil rotor 32.The top rotating shaft 15 of hemisphere coil rotor 32 links to each other with the Loadings On Hemispherical Shell 30 of fixing by bearing.Fixing Loadings On Hemispherical Shell 30 links to each other with frame 39.Frame 39 links to each other with generator machinery interface base plate 41, and generator machinery interface base plate 41 links to each other with the manipulator interface 13 of wave wind-driven generator.Generator for the protection of the Loadings On Hemispherical Shell cylinder 38 that keeps out the wind is housed on the generator machinery interface base plate 41.The bottom of frame 39 is fixed with water bar 65.Spherical plain bearing seat 57 is arranged on the frame 39, sphere bearing shell 56 is fixed on the spherical plain bearing seat 57, the spherical rotor 48 of the spherical plain bearing that contacts with sphere bearing shell 56 links to each other with cylindrical shape mandrel 43 by lining 47, is Spielpassung between cylindrical shape mandrel 43 and the lining 47.With the fixed cylinder 62 of the spheroid of spherical plain bearing the cylindrical body 34 on the cylinder of being cemented in housing 35 concrete mutuallies of standing part spherical shell rotor magnet is being arranged, by being cemented in housing 35 concrete mutuallies of cylindrical body 37 and standing part spherical shell rotor magnet on the part spherical shell auxiliary stand.Part spherical shell auxiliary stand 36 and cylindrical body 34 concrete mutuallies that are cemented on the cylinder.Dismountable top section sphere Magnmet rotor 63 of cylinder that is installed in has formed spherical calotte Magnmet rotor 33 jointly with spherical calotte magnet on the housing 35 that is fixed on standing part spherical shell rotor magnet by in assembling the time at the top of the fixed cylinder 62 of the spheroid of spherical plain bearing.Have the ventilation circular hole on the top with the fixed cylinder 62 of the spheroid of spherical plain bearing, be consolidated with the fixed plate 60 in dismountable cylinder at the top with the fixed cylinder 62 of the spheroid of spherical plain bearing.Fixed plate 60 in cylinder is consolidated with the cylinder guide rod 61 that two ends are separately installed with upper saw pulley 52 and upper saw pulley 59, and the cylinder magnet 44 of ventilation circular hole is arranged at the top.By be cemented in gusset 54 on the cylindrical shape mandrel be connected with the semi-cylindrical shaped loop A dunnage 55 be cemented on the cylindrical shape mandrel 43 semi-cylindrical shaped loop A 58 with along cylinder guide rod 61 in axial sliding semi-cylindrical shaped coil B49 be connected through the semicircular cylinder loop A is connected wire rope 45 and is connected upper saw pulley 52 connection semicircular cylinder loop A and semi-cylindrical shaped coil B with semi-cylindrical shaped coil B the wire rope 53 that is connected of walking around upper saw pulley 59 respectively.Cylindrical shape mandrel 43 links to each other with float 51 by the flange 50 of fixed cylinder formed core shaft end and float; There is chain lock 46 to link to each other between float 51 and the frame 39, prevents from separating between float 51, cylindrical shape mandrel 43 and the wave wind-driven generator 4.Buffer gasket 64 is arranged at the top of float 51.Under the promotion of seawater, the spherical rotor 48 that the terminal cylindrical shape mandrel 43 that is consolidated with float 51 by flange 50 can promote spherical plain bearing drives spherical calotte Magnmet rotors 33 and produces relative movement and cutting magnetic lines with hemisphere rotating coil rotor 32, makes hemisphere rotating coil rotor 32 generation currents; Simultaneously be fixed on the fixed cylinder 62 of the spheroid of spherical plain bearing in cylinder magnet 44 produce axial relative movement, make the semi-cylindrical shaped loop A 58 pulling wire rope 45,53 that are installed in the cylindrical shape mandrel 43 drive semi-cylindrical shaped coil B49 along 61 to-and-fro motion of cylinder guide rod.Like this, thus semi-cylindrical shaped loop A 58 and semi-cylindrical shaped coil B49 replace the radial magnetic force line generation current in the cutting cylinder magnet 44.The electric current that produces by elastic cable paper through drawing the wave wind-driven generator with the fixed cylinder 62 of the spheroid of spherical plain bearing and the vent of cylinder magnet 44.Fixing hemispherical shell 30 is fixed on the magnet 31 of hemispherical shell inwall, hemisphere rotating coil rotor 32, and spherical calotte Magnmet rotor 33, the spherical rotor 48 of spherical plain bearing is the same centre of sphere.

In Fig. 2, generating ship 2 will be fixed on wave wind-driven generator 4 on the hull of generating ship 2 in advancing at a high speed, can be used as wind-driven generator and use.The electric current that wave wind-driven generator 4 on the generating ship 2 produces is delivered to rectifying installation 3 rectifications through elastic cable paper 5, links to each other cable 10 with capacitor or storage battery to the electric capacity on the electric ship 6 of fortune or storage battery 7 chargings by cable 1 and the electric ship cable of fortune.The high-power high-efficiency wind-driven generator 8 of transporting on the electric ship 6 also links to each other cable 9 to capacitor or storage battery 7 chargings by the high-power high-efficiency wind-driven generator simultaneously with the electric ship cable of fortune, when the electric power reservoir vessel of the electric ship 6 of fortune reaches capacity, near the user that need electric power of electric the ship 6 just electric power that stores being transported to transported in the break power supply of generating ship 2.In the way of transportation electric power, high-power high-efficiency wind-driven generator 8 also can continue to capacitor or storage battery 7 chargings of transporting on the electric ship 6, with compensation power loss in transit.

Claims (2)

1. packaged type wave wind-power generating system is characterized in that: this system is connected to form by cable (1) by generating ship (2) and the electric ship of fortune (6); Generating ship (2) be equipped with manipulator (11) on manipulator interface (12) the wave wind-driven generator (4), the rectifying installation (3) that link to each other and is connected wave wind-driven generator (4) and the elastic cable paper (5) of rectifying installation (3); At the electric ship of fortune (6) electric capacity or storage battery (7) and high-power high-efficiency wind-driven generator (8) are housed, high-power high-efficiency wind-driven generator (8) by the high-power high-efficiency wind-driven generator link to each other with the electric ship cable of fortune cable (9) with transport the electric ship cable cable (10) that links to each other with capacitor or storage battery and link to each other with electric capacity or storage battery (7); When charging, the electric current that generating ship (2) produces is given electric capacity or storage battery (7) charging of transporting on the electric ship (6) through cable (1); In the way of transportation electric power, high-power high-efficiency wind-driven generator (8) also can continue to capacitor or storage battery (7) charging of transporting on the electric ship (6), with compensation power loss in transit.

2. a kind of packaged type wave wind-power generating system described in according to claim 1, it is characterized in that: wave wind-driven generator (4) is to consist of in the following manner:

The mechanical interface of wave wind-driven generator (13) links to each other with manipulator interface (12), can relative movement between wave wind-driven generator (4) and the manipulator (11) to adjust the seat of wave wind-driven generator (4); Weathercock support (14) links to each other with the mechanical interface (13) of wave wind-driven generator and can relatively move, and adjusts the work seat that is fixed on the cam (20) on the weathercock axle (21); Weathercock blade (23) can drive the cam (20) be cemented on the weathercock axle (21) by weathercock rotary pair (22) and rotate and rest on the wind position under the promotion of wind-force; Cam guide rod (24) is fixed on the impeller hack lever (28) by cam guide bar support (26), and cam guide rod (24) can move relative to impeller hack lever (28); Impeller blade (25) is fixed on the blade rotor (29), and radially bearing pin (27) is arranged on the blade rotor (29), and blade rotor (29) is connected on the impeller hack lever (28), can rotate with respect to impeller hack lever (28); Under the control of cam (20), impeller blade (25) is in the contrary wind side, radially bearing pin (27) on cam guide rod (24) and the blade rotor (29) disengages, impeller blade (25) box haul freely swings, and the rotational resistance torque of impeller hack lever (28) is close to zero; Impeller blade (25) is in side with the wind, the radial peg (27) of cam guide rod (24) by blocking blade rotor (29), it is fixing that impeller blade (25) is opened, and the input shaft (19) of the speed increaser (18) that promotion links to each other with impeller hack lever (28) rotates; The input and output shaft of speed increaser (18) is coaxial; Be fixed on the fixing hemispherical shell (30) by speed increaser and the connecting plate (16) that is fixed on hemispherical shell; The output shaft of speed increaser (18) is connected with the top rotating shaft (15) of the hemisphere coil rotor (32) of wave wind-driven generator (4) by coupling (17), and the hemisphere coil rotor (32) of drive and wave wind-driven generator (4) is with respect to the magnet that is fixed on the hemispherical shell inwall (31) and spherical calotte Magnmet rotor (33) rotates and cutting magnetic line makes hemisphere rotating coil rotor (32) generation current; The annulus brush (40) that links to each other with stationary housing in the bottom of hemisphere coil rotor (32) contacts, and the electric current that produces is drawn; Link to each other with the round ring guide (42) of hemisphere rotating coil rotor on being fixed on frame (39) in the bottom of hemisphere coil rotor (32); The top rotating shaft (15) of hemisphere coil rotor (32) links to each other with the Loadings On Hemispherical Shell (30) of fixing by bearing; Fixing Loadings On Hemispherical Shell (30) links to each other with frame (39), frame (39) links to each other with generator machinery interface base plate (41), and generator machinery interface base plate (41) links to each other with the manipulator interface (13) of wave wind-driven generator; Generator for the protection of the Loadings On Hemispherical Shell cylinder (38) that keeps out the wind is housed on the generator machinery interface base plate (41); The bottom of frame (39) is fixed with water bar (65), spherical plain bearing seat (57) is arranged on the frame (39), sphere bearing shell (56) is fixed on the spherical plain bearing seat (57), the spherical rotor (48) of the spherical plain bearing that contacts with sphere bearing shell (56) links to each other with cylindrical shape mandrel (43) by lining (47), is Spielpassung between cylindrical shape mandrel (43) and the lining (47); At the cylinder fixed with the spheroid of spherical plain bearing (62) the cylindrical body (34) on the cylinder of being cemented in housing (35) concrete mutually of standing part spherical shell rotor magnet is arranged, by being cemented in housing (35) concrete mutually of cylindrical body (37) and standing part spherical shell rotor magnet on the part spherical shell auxiliary stand; Part spherical shell auxiliary stand (36) and cylindrical body (34) concrete mutually that is cemented on the cylinder; Have at the top of the fixed cylinder of the spheroid of spherical plain bearing (62) when assembling dismountable top section sphere Magnmet rotor (63) of cylinder that is installed in jointly formed spherical calotte Magnmet rotor (33) with spherical calotte magnet on the housing (35) that is fixed on standing part spherical shell rotor magnet; Top at the cylinder fixed with the spheroid of spherical plain bearing (62) has the ventilation circular hole, is consolidated with the fixed plate (60) in dismountable cylinder at the top of the cylinder fixed with the spheroid of spherical plain bearing (62); Fixed plate in cylinder (60) is consolidated with two ends and is separately installed with the cylinder guide rod (61) of upper saw pulley (52) and upper saw pulley (59) and the cylinder magnet (44) that the ventilation circular hole is arranged at the top; By being cemented in the gusset on the cylindrical shape mandrel, (54) and the dunnage of semi-cylindrical shaped loop A, (55) be cemented in the cylindrical shape mandrel, (43) the semi-cylindrical shaped loop A on, (58) with along the cylinder guide rod, (61) semi-cylindrical shaped coil B in axial sliding, (49) respectively through walking around upper saw pulley, (59) wire rope of connection semicircular cylinder loop A and semi-cylindrical shaped coil B, (45) and walk around upper saw pulley, (52) wire rope of connection semicircular cylinder loop A and semi-cylindrical shaped coil B, (53) be connected; Cylindrical shape mandrel (43) links to each other with float (51) by the flange (50) of fixed cylinder formed core shaft end and float; There is chain lock (46) to link to each other between float (51) and the frame (39), prevents from separating between float (51), cylindrical shape mandrel (43) and the wave wind-driven generator (4); Buffer gasket (64) is arranged at the top of float (51); Under the promotion of seawater, the spherical rotor (48) that the terminal cylindrical shape mandrel (43) that is consolidated with float (51) by flange (50) can promote spherical plain bearing drives spherical calotte Magnmet rotor (33) and hemisphere rotating coil rotor (32) generation relative movement and cutting magnetic line, makes hemisphere rotating coil rotor (32) generation current; Produce axial relative movement with the cylinder magnet (44) that is fixed in the cylinder fixed with the spheroid of spherical plain bearing (62) simultaneously, make semi-cylindrical shaped loop A (58) the pulling wire rope (45), (53) that are fixed in the cylindrical shape mandrel (43) drive semi-cylindrical shaped coil B (49) along cylinder guide rod (61) to-and-fro motion; Like this, semi-cylindrical shaped loop A (58) and semi-cylindrical shaped coil B (49) replace cutting cylinder magnet (44) thereby interior radial magnetic force line generation current, and the electric current of generation is drawn the wave wind-driven generator by the elastic cable paper process at the vent of the cylinder fixed with the spheroid of spherical plain bearing (62) and cylinder magnet (44); Fixing hemispherical shell (30), be fixed on the magnet (31) of hemispherical shell inwall, hemisphere rotating coil rotor (32), spherical calotte Magnmet rotor (33), the spherical rotor (48) of spherical plain bearing is the same centre of sphere; Generating ship (2) will be fixed on wave wind-driven generator (4) on the hull of generating ship (2) in advancing at a high speed, can be used as wind-driven generator and use.

Images