CN103780034B - Intermediate stator disk type wind-mill generator - Google Patents
Intermediate stator disk type wind-mill generator Download PDFInfo
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- CN103780034B CN103780034B CN201210414493.4A CN201210414493A CN103780034B CN 103780034 B CN103780034 B CN 103780034B CN 201210414493 A CN201210414493 A CN 201210414493A CN 103780034 B CN103780034 B CN 103780034B
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Abstract
Intermediate stator disk type wind-mill generator, disk generator stator hollow shaft sleeve is fixed in hollow shaft, upper rotor part end cap hollow rotor shafts are fixed on bearing outside disk generator stator hollow shaft sleeve, lower rotor part end cap hollow rotor shafts are fixed on bearing outside disk generator stator hollow shaft sleeve, upper rotor part end cap excircle adjacent sets the overhanging connecting plate of annular, lower rotor part end cap excircle adjacent sets the overhanging connecting plate of annular, connector is linked together upper rotor part end cap and lower rotor part end cap by the overhanging connecting plate of adjacent annular, disk generator rotor upper end cover and bottom end cover after combination is around disc type generator unit stator hollow shaft sleeve rotary electrification, the electricity that stator winding coil generates is drawn by lead from hollow shaft endoporus.
Description
Invention field:
The present invention relates to disk type wind-mill generators.
Background technology:
Chinese patent 200820152739.4 provides a kind of outer-rotor disk generator, by front end rotor shaft-cup 5 with after
End rotor shaft-cup 11 and intermediate inner stator 6 form, and front end rotor shaft-cup 5 and rear end rotor shaft-cup 11 are fixed on hollow with bearing
On axis 2, and the hollow shaft 2 that can have mercy on rotates.
Above-mentioned patent is not directed to be fixed in hollow shaft by the use of stator hollow shaft sleeve and stator hollow shaft sleeve is simultaneously as disc type
The interior axle construction of generator amature.It is not directed to rotor endcap hollow rotor shafts and is fixed on disk generator stator hollow shaft with bearing
Cover external structure.It is not directed to the overhanging connecting plate of rotor endcap annular up and down to be connected with connector, the slot knot for connecting fan blade is made
Structure.It is not directed to produce blade structure in upper and lower rotor endcap.It is not directed in hollow turn of stator hollow shaft sleeve and rotor endcap
Sub- between centers sets magnetic bearing structure.
Above-mentioned patent is not directed to be fixed on stator on disk generator with bearing by upper rotor part end cap hollow rotor shafts hollow
Outside axle sleeve, lower rotor part end cap hollow rotor shafts are fixed on bearing under disk generator outside stator hollow shaft sleeve, and upper stator is under
It is center roller between stator, upper stator is fixed on lower stator and center roller in hollow shaft, upper rotor part end cap and intermediate branch
Frame and lower rotor part end cap are had mercy on hollow shaft rotary electrification structure.
Invention content:
The purpose of the present invention is:1st, main shaft of the hollow shaft as vertical axis aerogenerator can connect more stator skies
Spindle sleeve disk type wind-mill generator, more disk type wind-mill generators have same axle center, more stator hollow shaft sleeve disc type wind-force
Generator is connected on the fan blade of vertical axis aerogenerator, and when fan blade rotates, more generators rotate power generation simultaneously, improve and hang down
The generating efficiency of d-axis wind-driven generator.2nd, disk generator stator hollow shaft sleeve is fixed as the inner shaft of disk generator rotor
In hollow shaft, increase the intensity of hollow shaft sleeve, simple in structure, disk generator stator hollow shaft sleeve has aligning concurrently and positioning is double
Recast is used.3rd, upper rotor part, upper stator, center roller, lower stator and lower rotor part are assembled into level Four electrification structure, improve hollow shaft sleeve
The transfer efficiency of disk type wind-mill generator.4th, adjacent disc type generator amature by connector and sealing element by the overhanging connection of annular
Plate connects together, and realizes that adjacent disc type generator amature rotates simultaneously.5th, disk generator rotor endcap is fixed on bearing
Outside disk generator stator hollow shaft sleeve, disk generator rotor endcap connection fan blade, provided with blades moving plate type generator amature end
For lid around disc type generator unit stator hollow shaft sleeve rotary electrification, disk generator rotor, which has, generates electricity and supports fan blade double action.
6th, the electricity that stator winding coil generates is drawn by lead from hollow shaft endoporus, lead good concealment, suitable for coaxial more desk tray formulas
Generator uses simultaneously.7th, fan blade is set in rotor endcap, rotor endcap is made to have wind wheel function and generating function concurrently.8th, in stator
Hollow shaft sleeve and rotor endcap sleeve rotor between centers setting radial constraint magnetic suspension bearing and axial constraint magnetic suspension bearing, are reduced
Vertical axis wind power generation blade system improves the efficiency of vertical axis aerogenerator to the radial pressure and axial compressive force of generator
And service life.
A kind of intermediate stator disk type wind-mill generator proposed by the present invention installs multiple permanent-magnet magnetics on disk generator rotor
Pole, magnetic pole press circumferential arrangement, and north and south magnetic pole is spaced, and magnetic pole is fixed in rotor end cap of power generator disk, disk generator
Stator is dispersed with stator by disk generator stator hollow shaft sleeve, stator core, stator winding composition in stator core wire casing
Winding, stator core are mounted on disk generator stator hollow shaft sleeve excircle, on stator winding and disk generator rotor
Multiple permanent magnetism magnetic pole positions are corresponding, and disk generator stator hollow shaft sleeve is fixed in hollow shaft, and upper rotor part end cap is located at fixed
The upside of sub- hollow shaft sleeve, upper rotor part end cap hollow rotor shafts are fixed on bearing outside disk generator stator hollow shaft sleeve, under
Rotor endcap is located at the downside of stator hollow shaft sleeve, and lower rotor part end cap hollow rotor shafts are fixed on disk generator stator with bearing
Outside hollow shaft sleeve, upper rotor part end cap excircle adjacent sets the overhanging connecting plate of annular, and lower rotor part end cap excircle adjacent sets ring
The overhanging connecting plate of shape, connector are linked together upper rotor part end cap and lower rotor part end cap by the overhanging connecting plate of adjacent annular,
Disk generator rotor upper end cover and bottom end cover after combination is around disc type generator unit stator hollow shaft sleeve rotary electrification, stator winding
The electricity that coil generates is drawn by lead from hollow shaft endoporus.
Another kind intermediate stator disk type wind-mill generator proposed by the present invention installs multiple permanent magnetism on disk generator rotor
Magnetic pole, magnetic pole press circumferential arrangement, and north and south magnetic pole is spaced, and magnetic pole is fixed in generator upper rotor part end cap disk, disc type hair
Multiple permanent magnetism magnetic poles are installed, magnetic pole presses circumferential arrangement, and north and south magnetic pole is spaced, and magnetic pole is fixed on motor center roller stent
The circumferential upper part of generator center roller stent and circumference lower part, disk generator stator is by disk generator stator hollow shaft
Set, stator core, stator winding composition are dispersed with stator winding in stator core wire casing, and stator core is sent out mounted on disc type
On motor stator hollow shaft sleeve excircle, stator winding is corresponding with permanent magnetism magnetic pole positions multiple on disk generator rotor, on
Rotor endcap is located at the upside of upper stator hollow shaft sleeve, and upper rotor part end cap hollow rotor shafts are fixed on bearing on disk generator
Outside stator hollow shaft sleeve, lower rotor part end cap is located at the downside of lower stator hollow shaft sleeve, lower rotor part end cap hollow rotor shafts bearing
It is fixed under disk generator outside stator hollow shaft sleeve, is center roller between upper stator and lower stator, center roller stent is used
Bearing and bearing inner sleeve are fixed on outside hollow shaft, and the overhanging connection of annular is set at upper rotor part end cap and center roller stent excircle
Plate, connector are turned upper rotor part end cap with intermediate by the overhanging connecting plate of upper rotor part annular and the overhanging connecting plate of center roller annular
Submounts link together, and lower rotor part end cap and center roller stent excircle adjacent set the overhanging connecting plate of annular, connector
Lower rotor part end cap and center roller stent are connected with center roller annular overhanging connecting plate by the overhanging connecting plate of lower rotor part annular
Be connected together, disk generator upper rotor part end cap and disk generator center roller stent and disk generator lower rotor part end cap around
Stator hollow shaft sleeve and lower stator hollow shaft sleeve rotary electrification on disk generator, upper stator winding coil generate electric and lower fixed
The electricity that sub- winding coil generates is drawn by lead from hollow shaft endoporus.
To improve the efficiency and service life of vertical axis aerogenerator, disk generator rotor endcap and disk generator
Radial magnetic bearing, disk generator rotor top and bottom setting axial magnetic suspension bearing are set between stator hollow shaft sleeve.
To reduce the cost of vertical axis aerogenerator, disk generator rotor endcap and disk generator stator hollow shaft
Inner room uses mechanical bearing.
The rotor endcap and disk generator center roller stent of disk generator also serve as the yoke of rotor, simplify disc type hair
The structure of motor reduces the manufacturing expense of disk generator.
Dress is fixedly connected with disk in hollow shaft, is fixedly connected with disk for connecting and lifting with rack and be fixedly connected with the multiple disks of disk
Formula generator is connected in hollow shaft.
Fan blade or installation fan blade can be directly produced in the rotor endcap of disk generator, produces the disc type with fan blade
Generator.
Description of the drawings:
With reference to the accompanying drawings and examples, the invention will be further described.
Fig. 1 is the intermediate stator disk type wind-mill generator cross-section structure for having feature of present invention.
Fig. 2 is the intermediate stator disk type wind-mill generator cross-section structure with fan blade for having feature of present invention.
Fig. 3 is bimorph transducer disk type wind-mill generator cross-section structure among the magnetic suspension bearing with feature of present invention.
Fig. 4 is the intermediate bimorph transducer disk type wind-mill generator cross-section structure for having feature of present invention.
Fig. 5 is the magnetic suspension bearing intermediate stator disk type wind-mill generator cross-section structure for having feature of present invention.
Fig. 6 is that the vertical axis double plate wind-driven generator with feature of present invention connects the combination of streamlined vertically-supplying air leaf with strut
Cross-section structure.
Fig. 7 is that the vertical axis double plate wind-driven generator with feature of present invention connects streamline with board-like vertical fan blade with strut
The vertical fan blade compound section structure chart of shape.
Fig. 8 is that the three disk wind-driven generator of vertical axis with feature of present invention connects the combination of streamlined vertically-supplying air leaf with strut
Cross-section structure.
Specific embodiment:
Embodiment 1:
Intermediate stator disk type wind-mill generator cross-section structure is as shown in Figure 1, wherein:1 is hollow shaft, and 2 be disc type power generation
Machine stator hollow shaft sleeve, 3 be disk generator stator support, and 4 be stator core, and 5 be stator winding, and 6 be stator winding lead,
7 be disk generator rotor upper end cover, and 8 be upper rotor part axle sleeve, and 9 be the upper overhanging connecting plate of annular, and 10 be upper permanent magnetism magnetic pole, and 11 are
Disk generator rotor bottom end cover, 12 be lower rotor part axle sleeve, and 13 be the lower overhanging connecting plate of annular, and 14 be lower permanent magnetism magnetic pole, and 15 are
Bearing, 16 be bearing seal cover, and 17 be connection bolt, and 18 be sealing ring, and 19 be blade link slot, and 20 be to be fixedly connected with disk.
Multiple upper permanent magnetism magnetic poles 10 are installed, upper permanent magnetism magnetic pole 10 is circumferentially by south on disk generator rotor upper end cover 7
North magnetic pole is spaced, and disk generator stator is by disk generator stator hollow shaft sleeve 2, disk generator stator support 3, fixed
Sub- iron core 4 and stator winding 5 form, and stator winding 5 is dispersed in 4 wire casing of stator core, and stator core 4 is sent out mounted on disc type
On 3 excircle of motor stator bracket, stator winding 5 is corresponding with 10 position of permanent magnetism magnetic pole on disk generator rotor, disc type hair
Multiple lower permanent magnetism magnetic poles 14 are installed, lower permanent magnetism magnetic pole 14 circumferentially presses the alternate row of north and south magnetic pole on rotor bottom end cover 11
Row, stator winding 5 is corresponding with 14 position of permanent magnetism magnetic pole under disk generator rotor, and disk generator stator hollow shaft sleeve 2 is solid
It is scheduled in hollow shaft 1, disk generator upper rotor part end cap 7 is located at the upside of stator hollow shaft sleeve 2, disk generator rotor upper end
It covers the bearing 15 of rotor axle sleeve 8 to be fixed on outside disk generator stator hollow shaft sleeve 2, it is hollow that lower rotor part end cap 11 is located at stator
The downside of axle sleeve 2, disk generator bottom end cover lower rotor part axle sleeve 12 are fixed on disk generator stator hollow shaft sleeve 2 with bearing 15
Outside, 7 excircle adjacent of upper rotor part end cap sets the overhanging connecting plate 9 of annular, and 11 excircle adjacent of lower rotor part end cap is set outside annular
Connecting plate 13 is stretched, connection bolt 17 links together the adjacent upper overhanging connecting plate 9 of annular and the overhanging connecting plate 13 of lower annular, close
Seal ring 18 is by the gap sealing between upper rotor part end cap 7 and lower rotor part end cap 11, and blade link slot 19 for connecting blade, send out by disc type
Motor upper rotor part end cap 7 and disk generator lower rotor part end cap 11 are around 2 rotary electrification of disc type generator unit stator hollow shaft sleeve, stator
The electricity that 5 coil of winding generates is drawn by lead 6 from 1 endoporus of hollow shaft.Disk 20 is fixedly connected with to be fixed in hollow shaft 1, it is fixed
Terminal pad 20 is used to connect with rack or multiple disk type wind-mill generators are linked together by being fixedly connected with disk 20, is assembled into disk
Formula wind power generating set.
Embodiment 2:
Intermediate stator disk type wind-mill generator cross-section structure with fan blade is as shown in Figure 1, wherein:21 be hollow shaft,
22 be disk generator stator hollow shaft sleeve, and 23 be disk generator stator support, and 24 be stator core, and 25 be stator winding,
26 be stator winding lead, and 27 be disk generator rotor upper end cover, and 28 be upper end cover fan blade, and 29 be upper rotor part axle sleeve, and 30 are
The upper overhanging connecting plate of annular, 31 be upper permanent magnetism magnetic pole, and 32 be disk generator rotor bottom end cover, and 33 be bottom end cover fan blade, and 34 are
Lower rotor part axle sleeve, 35 be the lower overhanging connecting plate of annular, and 36 be lower permanent magnetism magnetic pole, and 37 be bearing, and 38 be bearing seal cover, and 39 be to connect
Connecting bolt, 40 be sealing ring, and 41 be blade link slot, and 42 be to be fixedly connected with disk.
Upper end cover fan blade 28 on disk generator rotor upper end cover 27 is set, is installed on disk generator rotor upper end cover 27
Multiple upper permanent magnetism magnetic poles 31, upper permanent magnetism magnetic pole 31 is circumferentially spaced by north and south magnetic pole, and disk generator stator is by disc type
Generator unit stator hollow shaft sleeve 22, disk generator stator support 23, stator core 24 and stator winding 25 form, in stator iron
Stator winding 25 is dispersed in 24 wire casing of the heart, stator core 24 is mounted on 23 excircle of disk generator stator support, stator
Winding 25 is corresponding with 31 position of permanent magnetism magnetic pole on disk generator rotor, and lower end is set on disk generator rotor bottom end cover 32
Lid fan blade 33 installs multiple lower permanent magnetism magnetic poles 36 on disk generator rotor bottom end cover 32, and lower permanent magnetism magnetic pole 36 is circumferentially pressed
North and south magnetic pole is spaced, and stator winding 25 is corresponding with 36 position of permanent magnetism magnetic pole under disk generator rotor, disk generator
Stator hollow shaft sleeve 22 is fixed in hollow shaft 21, and disk generator upper rotor part end cap 27 is located at the upper of stator hollow shaft sleeve 22
Side, disk generator rotor upper end cover upper rotor part axle sleeve 29 are fixed on bearing 37 outside disk generator stator hollow shaft sleeve 22,
Lower rotor part end cap 32 is located at the downside of stator hollow shaft sleeve 22, and disk generator bottom end cover lower rotor part axle sleeve 34 is fixed with bearing 37
Outside disk generator stator hollow shaft sleeve 22,27 excircle adjacent of upper rotor part end cap sets the overhanging connecting plate 30 of annular, lower turn
Sub- 32 excircle adjacent of end cap sets the overhanging connecting plate 35 of annular, and connection bolt 39 is by the adjacent upper overhanging connecting plate 30 of annular under
The overhanging connecting plate 35 of annular links together, sealing ring 40 by the gap sealing between upper rotor part end cap 27 and lower rotor part end cap 32,
Blade link slot 41 is for connecting blade, disk generator upper rotor part end cap 27 with upper end cover fan blade 28 and with bottom end cover
The disk generator lower rotor part end cap 32 of fan blade 33 is around 22 rotary electrification of disc type generator unit stator hollow shaft sleeve, 25 line of stator winding
The electricity that circle generates is drawn by lead 26 from 21 endoporus of hollow shaft.It is fixedly connected with disk 42 to be fixed in hollow shaft 21, be fixedly connected
Disk 42 is used to connect with rack or multiple disk type wind-mill generators are linked together by being fixedly connected with disk 42, is assembled into disc type wind
Power generator group.
Embodiment 3:
Bimorph transducer disk type wind-mill generator cross-section structure is as shown in figure 3, wherein among magnetic suspension bearing:43 be hollow
Axis, 44 be disk generator stator hollow shaft sleeve, and 45 be disk generator stator support, and 46 be stator core, 47 be stator around
Group, 48 be stator winding lead, and 49 be disk generator rotor upper end cover, and 50 be upper rotor part axle sleeve, and 51 be the upper overhanging company of annular
Fishplate bar, 52 be upper permanent magnetism magnetic pole, and 53 be disk generator rotor bottom end cover, and 54 be lower rotor part axle sleeve, and 55 be the lower overhanging company of annular
Fishplate bar, 56 be lower permanent magnetism magnetic pole, and 57 be magnetic suspension journal bearing, and 58 be magnetic-suspension axial bearing, and 59 be upper magnetic-suspension axial axis
Hold sealing cover, 60 be lower magnetic-suspension axial bearing supporting ring, and 61 be connection bolt, and 62 be sealing ring, and 63 be blade link slot, 64
It is to be fixedly connected with disk.Multiple upper permanent magnetism magnetic poles 52 are installed, upper permanent magnetism magnetic pole 52 is in circumference on disk generator rotor upper end cover 49
Upper spaced by north and south magnetic pole, disk generator stator is by disk generator stator hollow shaft sleeve 44, disk generator stator
Stent 45, stator core 46 and stator winding 47 form, and stator winding 47, stator core are dispersed in 46 wire casing of stator core
46 are mounted on 45 excircle of disk generator stator support, stator winding 47 and permanent magnetism magnetic pole 52 on disk generator rotor
It puts corresponding, multiple lower permanent magnetism magnetic poles 56 is installed, lower permanent magnetism magnetic pole 56 is circumferentially pressed on disk generator rotor bottom end cover 53
North and south magnetic pole is spaced, and stator winding 47 is corresponding with 56 position of permanent magnetism magnetic pole under disk generator rotor, disk generator
Stator hollow shaft sleeve 44 is fixed in hollow shaft 43, and disk generator upper rotor part end cap 49 is located at the upper of stator hollow shaft sleeve 44
Side, it is hollow that disk generator rotor upper end cover upper rotor part axle sleeve 50 with magnetic suspension journal bearing 57 is fixed on disk generator stator
Outside axle sleeve 44, magnetic-suspension axial bearing 58 is fixed between magnetic-suspension axial bearing seal cover 59 and upper rotor part axle sleeve 50, lower rotor part
End cap 53 is located at the downside of stator hollow shaft sleeve 44, the magnetic suspension journal bearing 57 of disk generator bottom end cover lower rotor part axle sleeve 54
It is fixed on outside disk generator stator hollow shaft sleeve 44, magnetic-suspension axial bearing 58 is fixed on lower magnetic-suspension axial bearing supporting ring
Between 60 and lower rotor part axle sleeve 54,49 excircle adjacent of upper rotor part end cap sets the overhanging connecting plate 51 of annular, outside lower rotor part end cap 53
Circumference adjacent sets the overhanging connecting plate 55 of annular, connects bolt 61 by the adjacent upper overhanging connecting plate 51 of annular and the lower overhanging company of annular
Fishplate bar 55 links together, and sealing ring 62 is by the gap sealing between upper rotor part end cap 49 and lower rotor part end cap 53, blade link slot
63 for connecting blade, and disk generator upper rotor part end cap 49 and disk generator lower rotor part end cap 53 are around disc type generator unit stator
44 rotary electrification of hollow shaft sleeve, the electricity that 47 coil of stator winding generates are drawn by lead 48 from 43 endoporus of hollow shaft.It is fixed to connect
It connects disk 64 to be fixed in hollow shaft 43, is fixedly connected with disk 64 for being connect with rack or multiple disk type wind-mill generators pass through fixation
Terminal pad 64 links together, and is assembled into magnetic suspension bearing disk type wind-mill generator group.
It is an advantage of the invention that:Radial constraint magnetic suspension bearing and axial constraint magnetcisuspension are set on vertical axis aerogenerator
Floating axle is held, and reduces radial pressure and axial compressive force of the vertical axis wind power generation blade system to generator, improves vertical-shaft wind
The efficiency and service life of generator.
Embodiment 4:
Intermediate bimorph transducer disk type wind-mill generator cross-section structure is as shown in figure 4, wherein:65 be hollow shaft, and 66 be disc type
Stator hollow shaft sleeve on generator, 67 be stator support on disk generator, and 68 be upper stator core, and 69 be upper stator winding,
70 be upper stator winding lead, and 71 be disk generator rotor upper end cover, and 72 be upper rotor part axle sleeve, and 73 be the upper overhanging connection of annular
Plate, 74 be upper permanent magnetism magnetic pole, and 75 be center roller axle sleeve, and 76 be center roller stent, and 77 be permanent magnetism magnetic pole on center roller, 78
It is permanent magnetism magnetic pole under center roller, 79 be the overhanging connecting plate of annular on center roller, and 80 be the overhanging connection of annular under center roller
Plate, 81 be center roller bearing inner sleeve, and 82 be center roller bearing, and 83 be stator hollow shaft sleeve under disk generator, and 84 be disk
Stator support under formula generator, 85 be lower stator core, and 86 be lower stator winding, and 87 be lower stator winding lead, and 88 disc types are sent out
Rotor bottom end cover, 89 be lower rotor part axle sleeve, and 90 be the lower overhanging connecting plate of annular, and 91 be lower permanent magnetism magnetic pole, and 92 be bearing, 93
It is bearing seal cover, 94 be connection bolt, and 95 be sealing ring, and 96 be blade link slot, and 97 be to be fixedly connected with disk.
Multiple upper permanent magnetism magnetic poles 74 are installed, upper permanent magnetism magnetic pole 74 is circumferentially by south on disk generator rotor upper end cover 71
North magnetic pole is spaced, and stator is by stator on stator hollow shaft sleeve 66 on disk generator, disk generator on disk generator
Stent 67, upper stator core 68 and upper stator winding 69 form, and stator winding 69 is dispersed in upper 68 wire casing of stator core,
Upper stator core 68 is mounted on disk generator on 67 excircle of stator support, upper stator winding 69 and disk generator rotor
Upper 74 position of permanent magnetism magnetic pole is corresponding, and center roller axle sleeve 75 is fixed with center roller bearing 80 and center roller bearing inner sleeve 81
In hollow shaft 65, permanent magnetism magnetic pole 77 on multiple center rollers, upper stator winding are installed on 76 top circumference of center roller stent
69 is corresponding with 77 position of permanent magnetism magnetic pole on multiple center rollers, and multiple centres are installed in 76 lower circumference of center roller stent and are turned
The lower permanent magnetism magnetic pole 78 of son, lower stator winding 86 is corresponding with 78 position of permanent magnetism magnetic pole under multiple center rollers, and connection bolt 94 will
Overhanging connecting plate 79 links together on the overhanging connecting plate 73 of adjacent upper annular and center roller, and sealing ring 95 is by upper rotor part end cap
Gap sealing between 71 and center roller stent 76, connection bolt 94 will be under the overhanging connecting plate 90 of adjacent lower annular and center rollers
Overhanging connecting plate 80 links together, and sealing ring 95 is by the gap sealing between lower rotor part end cap 88 and center roller stent 76, leaf
Piece link slot 96 is used to connect blade, disk generator upper rotor part end cap 71 and center roller stent 76 and lower turn of disk generator
Sub- end cap 88 stator hollow shaft sleeve 66 and center roller bearing inner sleeve 81 and lower stator hollow shaft sleeve 83 on disk generator revolve
Forwarding electricity, the electricity that upper 69 coil of stator winding generates are drawn by lead 70 from 65 endoporus of hollow shaft, lower 86 coil of stator winding
The electricity of generation is drawn by lead 87 from 65 endoporus of hollow shaft, is fixedly connected with disk 97 and is fixed in hollow shaft 65, is fixedly connected with disk
97, for being connect with rack or multiple disk type wind-mill generators link together by being fixedly connected with disk 97, are assembled into disc type wind-force
Generating set.
Embodiment 5:
Bimorph transducer disk type wind-mill generator cross-section structure is as shown in figure 5, wherein among magnetic suspension bearing:98 be hollow
Axis, 99 be disk generator stator hollow shaft sleeve, and 100 be disk generator stator support, and 101 be stator core, and 102 be stator
Winding, 103 be stator winding lead, and 104 be disk generator rotor upper end cover, and 105 be upper rotor part axle sleeve, and 106 be upper annular
Overhanging connecting plate, 107 be upper permanent magnetism magnetic pole, and 108 be center roller axle sleeve, and 109 be center roller stent, and 110 be center roller
Upper permanent magnetism magnetic pole, 111 be permanent magnetism magnetic pole under center roller, and 112 be the overhanging connecting plate of annular on center roller, and 113 be intermediate turn
The overhanging connecting plate of the lower annular of son, 114 be center roller bearing inner sleeve, and 115 be center roller bearing, and 116 be under disk generator
Stator hollow shaft sleeve, 117 be stator support under disk generator, and 118 be lower stator core, and 119 be lower stator winding, and 120 are
Lower stator winding lead, 121 be disk generator rotor bottom end cover, and 122 be upper rotor part axle sleeve, and 123 be the lower overhanging connection of annular
Plate, 124 be lower permanent magnetism magnetic pole, and 125 be magnetic suspension journal bearing, and 126 be magnetic-suspension axial bearing, and 127 be upper magnetic-suspension axial
Bearing seal cover, 128 be lower magnetic-suspension axial bearing supporting ring, and 129 be connection bolt, and 130 be sealing ring, and 131 be that blade connects
Access slot, 132 be to be fixedly connected with disk.
Multiple upper permanent magnetism magnetic poles 107 are installed, upper permanent magnetism magnetic pole 107 is circumferentially on disk generator rotor upper end cover 104
Spaced by north and south magnetic pole, disk generator stator is by disk generator stator hollow shaft sleeve 99, disk generator stator branch
Frame 100, stator core 101 and stator winding 102 form, and stator winding 102, stator are dispersed in 101 wire casing of stator core
Iron core 101 is mounted on disk generator on 100 excircle of stator support, on upper stator winding 102 and disk generator rotor
107 position of permanent magnetism magnetic pole is corresponding, and the center roller bearing 115 of center roller axle sleeve 108 and center roller bearing inner sleeve 114 are solid
It is scheduled in hollow shaft 98, permanent magnetism magnetic pole 110 on multiple center rollers, upper stator is installed on 109 top circumference of center roller stent
Winding 102 is corresponding with 111 position of permanent magnetism magnetic pole on multiple center rollers, is installed in 109 lower circumference of center roller stent more
Permanent magnetism magnetic pole 111 under a center roller, lower stator winding 119 is corresponding with 111 position of permanent magnetism magnetic pole under multiple center rollers, even
Connecting bolt 129 links together overhanging connecting plate 112 on the overhanging connecting plate 106 of adjacent upper annular and center roller, sealing ring
130 by the gap sealing between upper rotor part end cap 104 and center roller stent 109, and connection bolt 129 is by the adjacent lower overhanging company of annular
Overhanging connecting plate 113 links together under fishplate bar 123 and center roller, and sealing ring 130 is by lower rotor part end cap 121 and center roller
Gap sealing between stent 109 installs multiple lower permanent magnetism magnetic poles 124, lower permanent magnetism magnetic pole on disk generator rotor bottom end cover 121
124 is circumferentially spaced by north and south magnetic pole, lower stator winding 119 and 124 position of permanent magnetism magnetic pole under disk generator rotor
Corresponding, stator hollow shaft sleeve 116 is fixed in hollow shaft 98 under disk generator, disk generator upper rotor part end cap 104
In the upside of upper stator hollow shaft sleeve 99, the magnetic suspension journal bearing 125 of disk generator rotor upper end cover upper rotor part axle sleeve 105
It is fixed on outside disk generator stator hollow shaft sleeve 99, magnetic-suspension axial bearing 126 is fixed on magnetic-suspension axial bearing seal cover
Between 127 and upper rotor part axle sleeve 105, lower rotor part end cap 121 is located at the downside of lower stator hollow shaft sleeve 116, disk generator lower end
The magnetic suspension journal bearing 1125 of lid lower rotor part axle sleeve 122 is fixed under disk generator outside stator hollow shaft sleeve 116, magnetic suspension
Cod 126 is fixed between lower magnetic-suspension axial bearing supporting ring 128 and lower rotor part axle sleeve 122, and blade link slot 131 is used for
Connect blade, disk generator upper rotor part end cap 104 and center roller stent 109 and disk generator lower rotor part end cap 121 around
116 rotary electrification of stator hollow shaft sleeve, upper stator winding 102 under stator hollow shaft sleeve 99 and disk generator on disk generator
The electricity that coil generates is drawn by lead 103 from 98 endoporus of hollow shaft, and the electricity that lower 119 coil of stator winding generates passes through lead
120 draw from 98 endoporus of hollow shaft, are fixedly connected with disk 132 and are fixed in hollow shaft 98, are fixedly connected with disk 132 for connecting with rack
It connects or multiple disk type wind-mill generators is linked together by being fixedly connected with disk 132, be assembled into magnetic suspension shaft supporting disc type wind-force hair
Motor group.
Embodiment 6:
Vertical axis double plate wind-driven generator streamlined vertically-supplying air leaf compound section structure chart is connected with strut as shown in fig. 6,
Wherein:133 be hollow shaft, and 134 be upper intermediate stator disk generator, and 135 be blade link slot, and 136 be lower intermediate stator
Disk generator, 137 be lower blade link slot, and 138 be upper fan blade connecting rod, and 139 be lower fan blade connecting rod, and 140 be that streamlined is vertical
Fan blade, 141 be to be fixedly connected with disk, and 142 be connection bolt.
Upper intermediate stator disk generator 134 is mounted on 133 top of hollow shaft, and lower intermediate stator disk generator 136 is pacified
Mounted in 133 lower part of hollow shaft, upper fan blade connecting rod 138 is injected in blade link slot 135, connects bolt 142 by upper fan blade connecting rod
138 are fixed in blade link slot 135, and lower fan blade connecting rod 139 is injected in lower blade link slot 137, and connection bolt 142 is by under
Fan blade connecting rod 139 is fixed in lower blade link slot 137, and upper fan blade connecting rod 138 and lower 139 end of fan blade connecting rod are hung down with streamlined
Straight fan blade 140 is fixed together.Wind blows the vertical fan blade 140 of streamlined, passes through upper fan blade connecting rod 138 and lower fan blade connecting rod 139
Intermediate stator disk generator 134 and lower 136 rotary electrification of intermediate stator disk generator in drive.
Upper intermediate stator disk generator 134 and lower intermediate stator disk generator 136 in the present embodiment can be selected
Embodiment 1 or the intermediate stator disk generator of embodiment 2 or embodiment 3 or any structure in embodiment 4 or embodiment 5,
Different embodiment intermediate stator disk generators can also be combined.
Embodiment 7:
Vertical axis double plate wind-driven generator connects streamlined vertically-supplying air leaf compound section knot with board-like vertical fan blade with strut
Composition is as shown in fig. 7, wherein:143 be hollow shaft, and 144 be upper intermediate stator disk generator, and 145 be blade link slot,
146 be lower intermediate stator disk generator, and 147 be lower blade link slot, and 148 be upper fan blade connecting rod, and 149 be lower fan blade connecting rod,
150 be the vertical fan blade of streamlined, and 151 be board-like vertical fan blade, and 152 be to be fixedly connected with disk, and 153 be connection bolt.
Upper intermediate stator disk generator 144 is mounted on 143 top of hollow shaft, and lower intermediate stator disk generator 146 is pacified
Mounted in 143 lower part of hollow shaft, upper fan blade connecting rod 148 is injected in blade link slot 145, connects bolt 153 by upper fan blade connecting rod
148 are fixed in blade link slot 145, and lower fan blade connecting rod 149 is injected in lower blade link slot 147, and connection bolt 153 is by under
Fan blade connecting rod 149 is fixed in lower blade link slot 147, and upper fan blade connecting rod 148 and lower 149 end of fan blade connecting rod are hung down with streamlined
Straight fan blade 150 is fixed together, board-like vertical fan blade 151 be mounted on upper 144 rotor case of intermediate stator disk generator and
On lower 146 rotor case of intermediate stator disk generator.Wind blows the vertical fan blade 140 of streamlined and board-like vertical fan blade 151, leads to
It crosses fan blade connecting rod 148 and lower fan blade connecting rod 149 and board-like vertical fan blade 151 drives upper 144 He of intermediate stator disk generator
Lower 146 rotary electrification of intermediate stator disk generator.
Upper intermediate stator disk generator 144 and lower intermediate stator disk generator 146 in the present embodiment can be selected
Embodiment 1 or the intermediate stator disk generator of embodiment 2 or embodiment 3 or any structure in embodiment 4 or embodiment 5,
Different embodiment intermediate stator disk generators can also be combined.
Embodiment 8:
Three disk wind-driven generator of vertical axis streamlined vertically-supplying air leaf compound section structure chart is connected with strut as shown in figure 8,
Wherein:154 be hollow shaft, and 155 be upper intermediate stator disk generator, and 156 be blade link slot, and 157 be middle intermediate stator
Disk generator, 158 be middle blade link slot, and 159 be lower intermediate stator disk generator, and 160 be lower blade link slot,
161 be upper fan blade connecting rod, and 162 be middle fan blade connecting rod, and 163 be lower fan blade connecting rod, and 164 be the vertical fan blade of streamlined, and 165 be fixed
Terminal pad, 166 be connection bolt.
Upper intermediate stator disk generator 155 is mounted on 154 top of hollow shaft, and middle intermediate stator disk generator 157 is pacified
Mounted in 154 middle part of hollow shaft, lower intermediate stator disk generator 159 is mounted on 154 lower part of hollow shaft, and upper fan blade connecting rod 161 is inserted
Into in blade link slot 156, upper fan blade connecting rod 161 is fixed in blade link slot 156 by connection bolt 166, middle fan blade
During connecting rod 162 injects in blade link slot 158, middle fan blade connecting rod 162 is fixed on middle blade link slot 158 by connection bolt 166
Interior, lower fan blade connecting rod 163 is injected in lower blade link slot 160, and lower fan blade connecting rod 163 is fixed on lower blade by connection bolt 166
In link slot 160, upper fan blade connecting rod 161 and middle fan blade connecting rod 162 and lower 163 end of fan blade connecting rod fan blade vertical with streamlined
164 are fixed together.Wind blows the vertical fan blade 164 of streamlined, passes through upper fan blade connecting rod 161 and middle fan blade connecting rod 162 and leeward
Leaf connecting rod 163 drives upper intermediate stator disk generator 155 and middle intermediate stator disk generator 157 and lower intermediate stator disc type
159 rotary electrification of generator.
Upper intermediate stator disk generator 155 and middle intermediate stator disk generator 157 and lower centre in the present embodiment
Stator disc type generator 159 can be selected any in embodiment 1 or embodiment 2 or embodiment 3 or embodiment 4 or embodiment 5
Different embodiment intermediate stator disk generators can also be combined by the intermediate stator disk generator of structure.
Claims (9)
1. intermediate stator disk type wind-mill generator, multiple permanent magnetism magnetic poles are installed on disk generator rotor, magnetic pole presses circumferential arrangement,
North and south magnetic pole is spaced, and magnetic pole is fixed in rotor end cap of power generator disk, and disk generator stator is determined by disk generator
Sub- hollow shaft sleeve, stator core, stator winding composition are dispersed with stator winding, stator core installation in stator core wire casing
On disk generator stator hollow shaft sleeve excircle, stator winding and multiple permanent magnetism magnetic pole positions phase on disk generator rotor
It is corresponding, it is characterized in that:Disk generator stator hollow shaft sleeve is fixed in hollow shaft, and upper rotor part end cap is located at stator hollow shaft sleeve
Upside, upper rotor part end cap hollow rotor shafts are fixed on bearing outside disk generator stator hollow shaft sleeve, lower rotor part end cap position
In the downside of stator hollow shaft sleeve, lower rotor part end cap hollow rotor shafts are fixed on disk generator stator hollow shaft sleeve with bearing
Outside, upper rotor part end cap excircle adjacent sets the overhanging connecting plate of annular, and lower rotor part end cap excircle adjacent sets the overhanging company of annular
Fishplate bar, connector is linked together upper rotor part end cap and lower rotor part end cap by the overhanging connecting plate of adjacent annular, after combination
Around disc type generator unit stator hollow shaft sleeve rotary electrification, stator winding coil generates for disk generator rotor upper end cover and bottom end cover
Electricity by lead from hollow shaft endoporus draw.
2. intermediate stator disk type wind-mill generator, multiple permanent magnetism magnetic poles are installed on disk generator rotor, magnetic pole presses circumferential arrangement,
North and south magnetic pole is spaced, and magnetic pole is fixed in generator upper rotor part end cap disk, is pacified on disk generator center roller stent
Multiple permanent magnetism magnetic poles are filled, magnetic pole presses circumferential arrangement, and north and south magnetic pole is spaced, and magnetic pole is fixed on generator center roller stent
Circumferential upper part and circumference lower part, disk generator stator is by disk generator stator hollow shaft sleeve, stator core, stator winding
Composition, is dispersed with stator winding in stator core wire casing, and stator core is mounted on disk generator stator hollow shaft sleeve outer circle
Zhou Shang, stator winding is corresponding with permanent magnetism magnetic pole positions multiple on disk generator rotor, it is characterized in that:Upper rotor part end cap is located at
The upside of upper stator hollow shaft sleeve, upper rotor part end cap hollow rotor shafts are fixed on stator hollow shaft sleeve on disk generator with bearing
Outside, lower rotor part end cap is located at the downside of lower stator hollow shaft sleeve, and lower rotor part end cap hollow rotor shafts are fixed on disc type with bearing and send out
It is center roller under motor outside stator hollow shaft sleeve, between upper stator and lower stator, in center roller stent bearing and bearing
Set is fixed on outside hollow shaft, and the overhanging connecting plate of annular is set at upper rotor part end cap and center roller stent excircle, and connector passes through
Upper rotor part end cap and center roller stent are connected to by the overhanging connecting plate of upper rotor part annular with the overhanging connecting plate of center roller annular
Together, lower rotor part end cap and center roller stent excircle adjacent set the overhanging connecting plate of annular, and connector passes through lower rotor part ring
The overhanging connecting plate of shape links together lower rotor part end cap and center roller stent with the overhanging connecting plate of center roller annular, disc type
Generator upper rotor part end cap and disk generator center roller stent and disk generator lower rotor part end cap are on disk generator
Stator hollow shaft sleeve and lower stator hollow shaft sleeve rotary electrification, the electricity and the production of lower stator winding coil that upper stator winding coil generates
Raw electricity is drawn by lead from hollow shaft endoporus.
3. intermediate stator disk type wind-mill generator as claimed in claim 1 or 2, it is characterized in that:Disk generator rotor endcap with
Radial magnetic bearing, disk generator rotor top and bottom setting axial magnetic are set between disk generator stator hollow shaft sleeve
Suspension bearing.
4. intermediate stator disk type wind-mill generator as claimed in claim 1 or 2, it is characterized in that:The rotor endcap of disk generator
Upper setting fan blade.
5. intermediate stator disk type wind-mill generator as claimed in claim 1 or 2, it is characterized in that:The overhanging connection of rotor endcap annular
Plate end set blade link slot and the overhanging connecting plate end set blade link slot of center roller stent annular.
6. intermediate stator disk type wind-mill generator as claimed in claim 1 or 2, it is characterized in that:The rotor endcap of disk generator
The yoke of rotor is also served as with disk generator center roller stent.
7. intermediate stator disk type wind-mill generator as claimed in claim 1 or 2, it is characterized in that:Dress is fixedly connected with disk in hollow shaft.
8. intermediate stator disk type wind-mill generator as claimed in claim 1 or 2, it is characterized in that:Multigroup centre is installed in hollow shaft
Stator disc type wind-driven generator.
9. intermediate stator disk type wind-mill generator as claimed in claim 1 or 2, it is characterized in that:At the overhanging connecting plate of adjacent annular
Sealing ring is set.
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CN201210414493.4A CN103780034B (en) | 2012-10-26 | 2012-10-26 | Intermediate stator disk type wind-mill generator |
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CN201210414493.4A CN103780034B (en) | 2012-10-26 | 2012-10-26 | Intermediate stator disk type wind-mill generator |
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CN103780034A CN103780034A (en) | 2014-05-07 |
CN103780034B true CN103780034B (en) | 2018-07-10 |
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CN105840430A (en) * | 2016-06-01 | 2016-08-10 | 河南理工大学 | Small vertical shaft magnetic suspension wind driven generator |
CN109378912A (en) * | 2017-06-28 | 2019-02-22 | 天津手拉手新能源科技有限公司 | A kind of spiral shell coil motor |
CN109586498B (en) * | 2018-12-20 | 2024-07-02 | 珠海格力电器股份有限公司 | Motorized spindle and motor |
Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN201426055Y (en) * | 2009-05-26 | 2010-03-17 | 浙江西子富沃德电机有限公司 | Vertical axis disc type iron core-free wind-driven generator |
CN201865852U (en) * | 2010-11-29 | 2011-06-15 | 赵幼仪 | Composite wind power generator |
CN102130551A (en) * | 2010-01-18 | 2011-07-20 | 陈国宝 | Dual-stator magnetic-suspension permanent magnet generator |
CN102158025A (en) * | 2011-04-02 | 2011-08-17 | 赵欣 | Multi-section disc type wind turbine generator |
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FR2790614A3 (en) * | 1999-03-03 | 2000-09-08 | Francois Carre | ELECTRIC CURRENT GENERATOR WITH VARIABLE ROTATION SPEED AND CONSTANT VOLTAGE AND (OR) FREQUENCY |
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2012
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Patent Citations (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN201426055Y (en) * | 2009-05-26 | 2010-03-17 | 浙江西子富沃德电机有限公司 | Vertical axis disc type iron core-free wind-driven generator |
CN102130551A (en) * | 2010-01-18 | 2011-07-20 | 陈国宝 | Dual-stator magnetic-suspension permanent magnet generator |
CN201865852U (en) * | 2010-11-29 | 2011-06-15 | 赵幼仪 | Composite wind power generator |
CN102158025A (en) * | 2011-04-02 | 2011-08-17 | 赵欣 | Multi-section disc type wind turbine generator |
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