CN201288639Y - Automatic deformation brushless non-tooth vertical series connection type large power wind generator set - Google Patents

Abstract

The utility model discloses an automatic deforming brushless toothless vertical series type high power wind power generator set, automatic deforming wind powder receivers with rotately connected two ends are mounted between multiple layers of parallel upper and lower beam ends on the rack, each layer is equipped with at least six sets, multiple layers are mounted, and each set mutually collects wind. Wind receivers between top and bottom layers are serially connected by connecting sleeves, the lower end of the vertical shaft of the lowest wind receiver is equipped with a generator. The wind receiver is equipped with a vertical shaft in axis direction, a fan rotating horizontally is mounted between two ends of the vertical shaft, the periphery of the fan is equipped with synchronously rotating wind rudder rotating disc, a ballast casing and a wind rudder rotately connected with the vertical shaft, and a movable wind collecting plate is mounted between the left of the upper and lower wind rudder rotating disc. When the wind is light, wind commonly held up by the wind collecting plate and the ballast casing acts on the concave surface of the wind collecting plate and the ballast casing, such that the wind receiver can drive the generator to generate electricity normally; and when the wind is strong, the plane of the wind collecting plate is rotated to the same direction as that of the wind, reducing the wind loading area, and stabilizing the rotating speed of the wind receiver. The rectangular steel pipe rack makes it easy to manufacture high unit, the power is higher, and the cost is lower. The arbitrarily rotating hanging bracket on the top of the rack makes it convenient for mounting and maintaining. The wind power generating unit has the advantages of high power, low cost per unit, simple structure and strong anti-storm strength, and is capable of generating electricity normally by light wind or strong wind.

Description

A kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group

Technical field

The utility model relates to a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, is used for wind-power electricity generation.

Background technique

In the present existing technology, adopt the three-vaned wind-driven generator of single impeller mostly.This wind-driven generator is in the fan blade circumference, and the space is big, and wind energy runs off too many, increases fan blade quantity and can produce bigger rotational resistance, and generating efficiency is low; The height that adds the length and the frame of linear leaf, rated wind velocity descends, and the exchange cost is too high; And the higher wind-driven generator of utilization ratio of present wind, generated output is little, complex structure, and rated wind velocity is low, and the unit cost is too high.Particularly above-mentioned wind-driven generator can only be installed a cover in a vertical rod, single-machine capacity is little, mounting unit assembly Ben Taigao.

Summary of the invention

The purpose of this utility model just provides a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, and the breeze wind amount that exists with the solution prior art is very little, and an end is fixed, and rated wind velocity is low, and the exchange cost is too high; And the utilization ratio of wind is high, and generated output is little, and windproof grade is low, especially solves in vertical rod of these wind-driven generators a cover can only be installed, and installation cost is too high, and total output is too little; During storm wind, award the problem that the wind area can not reduce from dynamic deformation.

The technical solution of the utility model is: comprise frame (2), the suspension bracket above the frame top (1) of bilayer or multiple layer and be installed on this frame (2) from the vertical in-line wind power receiver of dynamic deformation brushless gearless (3) and be serially connected in the coupling sleeve (4) between the wind power receiver and be installed in bottom generator (5).

Described frame (2) is bilayer or multiple layer frame, frame is provided with at least 16 root posts (6), this column (6) cross section is the steel pipe of rectangle, each lands frame place's 4 root posts (6) rectangular arrangement and vertically stands on ground, is provided with horizontal crossbeam (7) that multilayer is parallel to each other and center crossbeam (8), horizontal plane hound (11), facade hound (10) longitudinally therebetween.

The two ends that described crossbeam (7) is gone up bottom surface are provided with vertical shaft mounting groove (12) and cartridge housing fixed screw holes (13), the two ends that center crossbeam (8) is gone up bottom surface are provided with center sill vertical shaft mounting groove (14) and center sill cartridge housing fixed screw holes (15), be provided with break fixed screw holes (18) and the crashproof net fixing frame of birds hole (17) in described crossbeam (7) end, bi-side, between this crossbeam (7) middle part and end, be provided with column fixed screw holes (16), be provided with break fixed screw holes (18) and the crashproof net fixing frame of birds hole (17) in described center crossbeam (8) end, bi-side.

Described suspension bracket (1) comprising: 2 parallel suspension bracket base beams (19) vertically are installed on the crossbeam (7) of frame top layer and between the column (6), at suspension bracket base beam (19) middle part 2 manned hanger beams (21) are installed laterally, 2 manned suspension bracket hoisting machines (22) are installed on 2 manned hanger beams (21), rotating disc (24) is installed at the middle part on 2 manned hanger beams (21), welding rotating disc reinforced pole (23) around this rotating disc (24) top and between suspension bracket base beam (19) end, in described rotating disc (24), insert and hang thing suspension bracket running shaft, the thing suspension bracket horizon bar welded post (47) of hanging of hanging thing suspension bracket running shaft upper end is welded in the running shaft welding hole (51) that hangs thing suspension bracket horizon bar (25) centre, at the described middle part of hanging above the thing suspension bracket horizon bar (25) storage battery charging wind-driven generator (33) is installed, install respectively at its two ends and to hang thing hoisting machine pulley (39) and mass hoisting machine pulley (40), between middle part and two end part, install respectively and hang thing hoisting machine (35) and mass hoisting machine (26), hang thing suspension bracket horizon bar direction and regulate motor (30), storage battery group (31), hang the thing hoisting machine and shake control signal receiver (29), the mass hoisting machine shakes control signal receiver (28) and monitor unit digital signal transmitter (27), hangs the installation of thing suspension bracket horizon bar (25) left end at this and hangs thing suspension bracket wind rudder (36); Thing suspension bracket horizon bar brace (32) is hung with the two ends installation of hanging thing suspension bracket horizon bar (25) in top at described storage battery charging wind-driven generator (33), two ends are installed monitor unit (37) and lighting burner (38) respectively below this hangs thing suspension bracket horizon bar (25), hang middle part, thing suspension bracket horizon bar (25) bi-side welding vertical monitor unit horizon bar (34) at this; Monitor unit (37) and lighting burner (38) are installed below described vertical monitor unit horizon bar (34) two ends.

Described manned hanger beams (21) upper and lower surface is provided with manned suspension bracket hoisting machine fixed screw holes (42), rotating disc fixed screw holes (43) and suspension bracket base beam fixed screw holes (41).

Be provided with rotating disc base (46) in described rotating disc (24) bottom, top is provided with rotating disc cartridge housing (45), and the top is provided with rotating disc gear (44).

Be provided with and hang thing suspension bracket horizon bar welded post (47) in the described thing suspension bracket running shaft upper end of hanging, the middle part is provided with hangs thing suspension bracket horizon bar filler ring (48), and the middle and lower part is provided with upper bearing (metal) axle (49), and the bottom is provided with lower bearing axle (50).

Be provided with running shaft welding hole (51) at the described middle part of hanging above the thing suspension bracket horizon bar (25), be respectively equipped with at its two ends and hang thing hoisting machine pulley (59), mass hoisting machine pulley (63), monitor unit fixed hole (57) and lighting burner fixed hole (58); Being respectively equipped with and hanging thing hoisting machine fixed hole (60), mass hoisting machine fixed hole (62), storage battery group fixed hole (52), hang the thing hoisting machine between middle part and two end part shakes control signal receiver fixed hole ((54), mass hoisting machine shake control signal receiver fixed hole (55), monitor unit digital signal transmitter fixed hole (56), hang thing suspension bracket horizon bar direction regulates motor fixed hole (53) and hang thing suspension bracket horizon bar direction adjusting motor deceleration gear axis hole (61); Be provided with and hang thing steel cable perforation (64) and mass steel cable bore a hole (65) at the described two ends of hanging below the thing suspension bracket horizon bar (25).

Described wind power receiver (3) from dynamic deformation brushless gearless ballast bell-type comprising: be provided with vertical shaft bearings shell (67) at vertical shaft (66) two ends that are rotationally connected with described frame, between vertical shaft bearings shell (67), be provided with two wind rudder rolling discs (69) that are rotationally connected with described vertical shaft (66), between this wind rudder rolling disc (69), be provided with the fan blade (72) that rotates synchronously with described vertical shaft (66), between the outer circumferential face of described two wind rudder rolling discs (69) right side, be provided with the ballast cover (68) of fixedlying connected with wind rudder rolling disc (69), be provided with wind rudder (74) at this ballast cover (68) rear side, between described two wind rudder rolling discs (69) left side, be provided with the wind gathering plate (71) that is rotationally connected with wind rudder rolling disc (69), between wind rudder rolling disc (69) and wind gathering plate (71), be provided with wind gathering plate torsion spring (70), be provided with braking plate (73) in the bottom of the vertical shaft (66) of described bottom.

Be provided with wind gathering plate axis hole (75) in the left side of described wind rudder rolling disc (69), around this wind rudder rolling disc (69), be provided with ballast cover retaining ring (77), be provided with ballast cover fixed screw holes (79) at this ballast cover retaining ring (77) right side outer circumferential face, be provided with bearing hole (78) at the center of described wind rudder rolling disc (69), between this center and ballast cover retaining ring (77), be provided with ballast cover stent (76).

Rear side at described this ballast cover (68) is provided with wind-tunnel (80).

Center at described fan blade (72) two ends is provided with vanes fixed cylinder stent (82), between this vanes fixed cylinder stent (82), be provided with and the synchronous rotating blades stationary cylinder (84) of vanes fixed cylinder stent (82), be provided with blade (83) in the periphery of this vanes fixed cylinder (84), be provided with the peripheral retainer ring (81) of blade in the periphery of this blade (83).

Be provided with vertical shaft fixed hole (86) at the center of described vanes fixed cylinder stent (82), be arranged with vanes fixed cylinder retaining ring (85) outside, outer circumferential face at this vanes fixed cylinder retaining ring (85) is provided with vanes fixed cylinder screw hole (88), is provided with vanes fixed cylinder fixing frame (87) between this vanes fixed cylinder retaining ring (85) and described vertical shaft fixed hole (86).

Be provided with vertical shaft bearings axle (91), wind rudder rolling disc bearing shaft (92), the solid cylinder frame retaining screw silk bud (93) of blade, the solid cylinder frame tip groove (94) of blade at the two ends of described vertical shaft (66), be provided with horizontal connecting screw hole (89) and vertical connecting screw hole (90) in described vertical shaft bearings axle (91) section, be provided with braking plate tip groove (95) and braking plate retaining screw silk bud (96) in the lower end of described vertical shaft (66).

The beneficial effects of the utility model are: frame above-below direction on the ground can be assembled the multilayer wind power receiver, every layer at least 6 cover, installation cost is low, between the adjacent wind power receiver of every cover and the wind gathering plate on the wind power receiver have wind gathering effect each other, the ballast cover has been tackled the wind of backward-acting, make the clockwise quickening of wind power receiver, little wind also can normal power generation, and every cover wind power receiver is that two ends are rotationally connected up and down, and multilayer is installed, frame is average force up and down, and unit safety is reliable; When storm wind was arranged, the plane at the wind gathering plate place on the wind power receiver was rotated into to parallel with wind direction, has reduced to award the wind area, has improved generator set wind resistance grade; Large-area wind rudder is positioned at the rear side of wind power receiver, under the wind action, all has the concave surface of a half vane to meet aweather in any direction, makes fan blade produce clockwise active force all the time, has improved the generating efficiency height; The wind power receiver of a plurality of series connection of Vertical direction drives the generator of the bottom jointly, make the unit generated energy bigger, can reduce to award the wind area automatically when being a kind of storm wind, the little wind of strong wind can both normal power generation, simple in structure, installation cost is low, easy construction from the vertical in-line high-power wind-driven generator group of dynamic deformation brushless gearless.

Wind gathering plate and ballast cover have the wind of increasing pressurization when gentle breeze, improve rotating speed, the wind gathering plate can reduce to award the wind area automatically when storm wind, improve the wind resistance grade, every layer of energy Anduo County cover wind power receiver on frame, multilayer can be installed, with the wind power generating set that has the wind power receiver of wind gathering effect each other between one deck and the upper and lower layers.

Frame of wind-driven generator group has adopted several rectangular steel pipes to assemble with screw and the welding mixed construction, its four or a plurality of pivot distance that lands are big, can water reinforced concrete in the rectangle column steel pipe, frame can be done very highly, the uprising wind moment of frame is big, frame is firm, and is safe and reliable, and processing and installation cost are very low.

The crashproof net fixing frame of birds fixed hole can be installed on the horizontally extending birds in oriented left and right side crashproof net fixing frame stringer and crossbeam on the frame, around being convenient to concentrate on it crashproof net of birds being installed, is a kind of environment protection type wind power generating set that environment is not had influence.

There is manned suspension bracket on the wind power generating set top and hangs the thing suspension bracket, and this hanger structure is simple, makes unit convenient for installation and maintenance.

Description of drawings

Fig. 1 is the utility model embodiment's a package assembly schematic representation;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the plan view of Fig. 1;

Fig. 4 is the worm's eye view of Fig. 1;

Fig. 5 is the plan view of the utility model frame;

Fig. 6 is the right elevation of Fig. 5;

Fig. 7 is the plan view of Fig. 5;

Fig. 8 is the plan view of the utility model crossbeam;

Fig. 9 is the plan view of Fig. 8;

Figure 10 is the left view of Fig. 8;

Figure 11 is the plan view of the utility model center stringer;

Figure 12 is the plan view of Figure 11;

Figure 13 is the left view of Figure 11;

Figure 14 is the plan view of the utility model suspension bracket;

Figure 15 is the right elevation of Figure 14;

Figure 16 is the plan view of Figure 14;

Figure 17 is the worm's eye view of Figure 14;

Figure 18 is the plan view of the manned hanger beams of the utility model;

Figure 19 is the left view of Figure 18;

Figure 20 is the plan view of Figure 18;

Figure 21 is the plan view of Figure 22;

Figure 22 is the plan view of the utility model rotating disc;

Figure 23 is the worm's eye view of Figure 22;

Figure 24 is the sectional drawing of Figure 21 A-A;

Figure 25 is the plan view of Figure 27;

Figure 26 is the worm's eye view of Figure 27;

Figure 27 is the plan view that the utility model hangs thing suspension bracket running shaft;

Figure 28 is the plan view that the utility model hangs thing suspension bracket horizon bar;

Figure 29 is the plan view of Figure 28;

Figure 30 is the worm's eye view of Figure 28;

Figure 31 is the left view of Figure 28;

Figure 32 is the plan view of the utility model wind power receiver;

Figure 33 is the left view of Figure 32;

Figure 34 is the plan view of Figure 32;

Figure 35 is the right elevation of Figure 32;

Figure 36 is the plan view of Figure 37;

Figure 37 is the plan view of the utility model wind rudder rolling disc;

Figure 38 is the right elevation of Figure 37;

Figure 39 is the worm's eye view of Figure 37;

Figure 40 is the plan view of the utility model ballast cover and the combination of wind rudder;

Figure 41 is the left view of Figure 40;

Figure 42 is the plan view of Figure 40;

Figure 43 is the right elevation of Figure 40;

Figure 44 is the plan view of Figure 45;

Figure 45 is the plan view of the utility model fan blade;

Figure 46 is the plan view of Figure 47;

Figure 47 is the plan view of the peripheral retainer ring of the utility model blade;

Figure 48 is the plan view of Figure 50;

Figure 49 is the left view of Figure 50;

Figure 50 is the plan view of the utility model blade;

Figure 51 is the rear view of Figure 50;

Figure 52 is the right elevation of Figure 50;

Figure 53 is the plan view of the utility model vanes fixed cylinder;

Figure 54 is the plan view of Figure 53;

Figure 55 is the plan view of Figure 56;

Figure 56 is the plan view of the utility model vanes fixed cylinder stent;

Figure 57 is the plan view of Figure 58;

Figure 58 is the plan view of the utility model vertical shaft;

Figure 59 is the worm's eye view of Figure 58;

Figure 60 is the right elevation of Figure 58;

Figure 61 is the plan view of Figure 62;

Figure 62 is the plan view of the utility model coupling sleeve;

Figure 63 is the right elevation of Figure 62;

Embodiment

Referring to Fig. 1～Fig. 4, the utility model embodiment comprise bilayer or multilayer frame 2, at interval be installed in this frame wind power receiver 3 on two interlayers 2 about from dynamic deformation brushless gearless formula, be installed in these frame 2 orlop wind power receiver vertical shaft lower ends generator 5, be installed in this suspension bracket 1 above frame 2 top layers, be serially connected in about between the wind power receiver and the coupling sleeve 4 between orlop wind power receiver and the generator 5 (referring to Fig. 1～Fig. 3).

Described wind power receiver 3 is rotatably connected on the two ends of the two-layer crossbeam 7 of parallel the same side up and down of described frame 2 and the two ends of two-layer up and down center stringer 8 by cartridge housing 66, every layer of installation at least 6 cover, each frame above-below direction is installed multilayer, and the upper strata of same Vertical direction is connected with wind power receiver 3 usefulness coupling sleeves 4 between the lower floor (referring to Fig. 1～Fig. 4).

Described frame 2 adopts the multilayer frame, this frame is provided with 16 root posts 6, these column 6 cross sections are the steel pipe of rectangle, each lands frame place's 4 root posts 6 rectangular arrangements and vertically stands on ground, at the sustained height of this 4 root post 6 crossbeam 7 is installed laterally, at center mounting center longeron 8 with two crossbeams 7 of one deck, oblique horizontal plane hound 11 and facade hound 10 are installed (referring to Fig. 5～Fig. 7) therebetween.

The two ends of bottom surface are provided with vertical shaft mounting groove 12 and cartridge housing fixed screw holes 13 on the described crossbeam 7, the two ends of bottom surface are provided with center sill vertical shaft mounting groove 14 and center sill cartridge housing fixed screw holes 15 on the center crossbeam 8, be provided with break fixed screw holes 18 and the crashproof net fixing frame of birds hole 17 in end, described crossbeam 7 bi-side, between middle part, this crossbeam 7 bi-side and end, be provided with column fixed screw holes 16, be provided with break fixed screw holes 18 and the crashproof net fixing frame of birds hole 17 in end, crossbeam 8 bi-side, described center (referring to Fig. 8～Figure 13).

Described suspension bracket 1 comprises: 2 parallel suspension bracket base beams 19 vertically are installed on the crossbeam 7 of frame 2 top layers and between the column 6,2 manned hanger beams 21 laterally are installed at suspension bracket base beam 19 middle parts, 2 manned suspension bracket hoisting machines 22 are installed on 2 manned hanger beams 21, rotating disc 24 is installed at the middle part on 2 manned hanger beams 21, welding rotating disc reinforced pole 23 around these rotating disc 24 tops and between suspension bracket base beam 19 ends, in described rotating disc 24, insert and hang thing suspension bracket running shaft, the thing suspension bracket horizon bar welded post 47 of hanging of hanging thing suspension bracket running shaft upper end is welded in the running shaft welding hole 51 that hangs thing suspension bracket horizon bar 25 centres, at the described middle part of hanging above the thing suspension bracket horizon bar 25 storage battery charging wind-driven generator 33 is installed, install respectively at its two ends and to hang thing hoisting machine pulley 39 and mass hoisting machine pulley 40, between middle part and two end part, install respectively and hang thing hoisting machine 35 and mass hoisting machine 26, hang thing suspension bracket horizon bar direction and regulate motor 30, storage battery group 31, hang the thing hoisting machine and shake control signal receiver 29, the mass hoisting machine shakes control signal receiver 28 and monitor unit digital signal transmitter 27, hangs the installation of thing suspension bracket horizon bar 25 left ends at this and hangs thing suspension bracket wind rudder 36; Thing suspension bracket horizon bar brace 32 is hung with the two ends installation of hanging thing suspension bracket horizon bar 25 in top at described storage battery charging wind-driven generator 33, two ends are installed monitor unit 37 and lighting burner 38 respectively below this hangs thing suspension bracket horizon bar 25, hang the vertical monitor unit horizon bar 34 of middle part, thing suspension bracket horizon bar 25 bi-side welding at this; Monitor unit 37 and lighting burner 38 are installed (referring to Figure 14～Figure 17) below described vertical monitor unit horizon bar 34 two ends.

Described manned hanger beams 21 upper and lower surfaces are provided with manned suspension bracket hoisting machine fixed screw holes 42, rotating disc fixed screw holes 43 and suspension bracket base beam fixed screw holes 41 (referring to Figure 18～Figure 20).

Be provided with rotating disc base 46 in described rotating disc 24 bottoms, top is provided with rotating disc cartridge housing 45, and the top is provided with rotating disc gear 44 (referring to Figure 21～Figure 24).

Hang thing suspension bracket running shaft upper end and be provided with and hang thing suspension bracket horizon bar welded post 47, the middle part is provided with hangs thing suspension bracket horizon bar filler ring 48, and the middle and lower part is provided with upper bearing (metal) axle 49, and the bottom is provided with lower bearing axle 50 (referring to Figure 25～Figure 27).

Be provided with running shaft welding hole 51 at the described middle part of hanging above the thing suspension bracket horizon bar 25, be respectively equipped with at its two ends and hang thing hoisting machine pulley 59, mass hoisting machine pulley 63, monitor unit fixed hole 57 and lighting burner fixed hole 58; Being respectively equipped with and hanging thing hoisting machine fixed hole 60, mass hoisting machine fixed hole 62, storage battery group fixed hole 52, hang the thing hoisting machine between middle part and two end part shakes control signal receiver fixed hole 54, mass hoisting machine and shakes control signal receiver fixed hole 55, monitor unit digital signal transmitter fixed hole 56, hangs thing suspension bracket horizon bar direction and regulate motor fixed hole 53 and hang thing suspension bracket horizon bar direction and regulate motor deceleration gear axis hole 61; Be provided with and hang the perforation 64 of thing steel cable and mass steel cable perforation 65 at the described two ends of hanging below the thing suspension bracket horizon bar 25 (referring to Figure 28～Figure 31).

Described wind power receiver 3 from dynamic deformation brushless gearless ballast bell-type comprises: be provided with vertical shaft bearings shell 67 at vertical shaft 66 two ends that are rotationally connected with described frame, between described vertical shaft 66 two ends vertical shaft bearings shells 67, be provided with two wind rudder rolling discs 69 that are rotationally connected with described vertical shaft 66, between these two wind rudder rolling discs 69, be provided with the fan blade 72 that rotates synchronously with described vertical shaft 66, between described two wind rudder rolling disc 69 right side outer circumferential faces, be provided with the ballast cover 68 of fixedlying connected with wind rudder rolling disc 69, be provided with wind rudder 74 at these ballast cover 68 rear sides, between these two wind rudder rolling disc 69 left sides, be provided with the wind gathering plate 71 that is rotationally connected with wind rudder rolling disc 69, between described wind rudder rolling disc 69 and wind gathering plate 71, be provided with wind gathering plate torsion spring 70, be provided with braking plate 73 in the bottom of the vertical shaft 66 of described bottom (referring to Figure 32～Figure 35).

Be provided with wind gathering plate axis hole 75 in the left side of described wind rudder rolling disc 69, around this wind rudder rolling disc 69, be provided with ballast cover retaining ring 77, be provided with ballast cover fixed screw holes 79 at these ballast cover retaining ring 77 right side outer circumferential faces, center at described wind rudder rolling disc 69 is provided with bearing hole 78, is provided with ballast cover stent 76 (referring to Figure 36～Figure 39) between this center and ballast cover retaining ring 77.

Be provided with wind-tunnel 80 (referring to Figure 40～Figure 43) at the rear side of described this ballast cover 68.

Center at described fan blade 72 two ends is provided with vanes fixed cylinder stent 82, between this vanes fixed cylinder stent 82, be provided with and vanes fixed cylinder stent 82 synchronous rotating blades stationary cylinders 84, at the peripheral solder blade 83 of this vanes fixed cylinder 84, be provided with the peripheral retainer ring 81 of blade in the periphery of this blade 83 (referring to Figure 44～Figure 52).

Be provided with vertical shaft fixed hole 86 at the center of described vanes fixed cylinder stent 82, be arranged with vanes fixed cylinder retaining ring 85 outside, outer circumferential face at this vanes fixed cylinder retaining ring 85 is provided with vanes fixed cylinder screw hole 88, is provided with vanes fixed cylinder fixing frame 87 (referring to Figure 53～Figure 56) between this vanes fixed cylinder retaining ring 85 and described vertical shaft fixed hole 86.

Be provided with vertical shaft bearings axle 91, wind rudder rolling disc bearing shaft 92, the solid cylinder frame retaining screw silk bud 93 of blade, the solid cylinder frame tip groove 94 of blade at the two ends of described vertical shaft 66, be provided with horizontal connecting screw hole 89 and vertical connecting screw hole 90 on 91 sections on described vertical shaft bearings axle, be provided with braking plate tip groove 95 and braking plate retaining screw silk bud 96 in the lower end of described vertical shaft 66 (referring to Figure 57～Figure 59).

Working principle of the present utility model is:

Frame 2 adopts the multilayer frame, each lands frame the steel pipe post 6 rectangular arrangements that 4 cross sections in place are square or rectangle and vertically stands on ground, crossbeam 7 laterally is installed on the Vertical direction equal height, at center mounting center longeron 8, oblique horizontal plane hound 11, facade hound 10 are installed therebetween with two crossbeams 7 of one deck; The two ends of bottom surface are provided with vertical shaft mounting groove 12 and cartridge housing fixed screw holes 13 on crossbeam 7, the two ends of bottom surface are provided with center sill vertical shaft mounting groove 14 and center sill cartridge housing fixed screw holes 15 on the center crossbeam 8, the upper and lower end of the vertical shaft 66 on the wind power receiver 3 can be moved in vertical shaft mounting groove 14, be convenient to substantially horizontal and move wind power receiver 3; Be provided with break fixed screw holes 18 and the crashproof net fixing frame of birds hole 17 in end, described crossbeam 7 bi-side, between these crossbeam 7 middle parts and end, be provided with column fixed screw holes 16, be provided with break fixed screw holes 18 and the crashproof net fixing frame of birds hole 17 in end, crossbeam 8 bi-side, described center.

In column 6, be provided with column inner concrete reinforcing bar, increased the fastness of frame, make frame can do very highly,, make generated output power very big by strengthening the specification of column 6, crossbeam 7, center stringer 8 and wind power receiver 3.

2 parallel suspension bracket base beams 19 vertically are installed on frame 1 top layer crossbeam 7 and between the column 6,2 manned hanger beams 21 laterally are installed at suspension bracket base beam 19 middle parts, 2 manned suspension bracket hoisting machines 22 are installed on 2 manned hanger beams 21, can promote or descend by manned suspension bracket hoisting machine 22 and be installed in the Worker carrying basket in unit space, make and install and the maintenance man can arrive the position of unit different heights; Rotating disc 24 is installed at the middle part on 2 manned hanger beams 21, is provided with rotating disc gear 44 on these rotating disc 24 tops, and rotating disc gear 44 is regulated motor 30 to pass through driving gear mutually meshing with the thing suspension bracket horizon bar direction of hanging on hanging thing suspension bracket horizon bar 25; In rotating disc cartridge housing 45 bearings, insert and hang thing suspension bracket running shaft, this hangs thing suspension bracket running shaft top and is welded in the running shaft welding hole 51 that hangs thing suspension bracket horizon bar 25, unlatching is hung thing suspension bracket horizon bar direction and is regulated motor 30, hang thing suspension bracket horizon bar 25 together with the vertical monitor unit horizon bar 34 that is welded on its both sides, hang thing suspension bracket running shaft, to hang thing suspension bracket running shaft is that the axle center rotates, cooperate and hang thing hoisting machine 35, mass hoisting machine 26, hang thing hoisting machine wire rope, mass hoisting machine wire rope, hang thing hoisting machine pulley 39, mass hoisting machine pulley 40 hangs the article that thing suspension bracket horizon bar lifted and just can arrive the needed position of unit; Storage battery charging wind-driven generator 33 is installed at the middle part on hang thing suspension bracket horizon bar 25, and this storage battery charging wind-driven generator 33 provides to be installed in and hangs hanging thing hoisting machine 35, mass hoisting machine 26, hang thing suspension bracket horizon bar direction and regulate motor 30, hang that the thing hoisting machine shakes control signal receiver 29, the mass hoisting machine shakes control signal receiver 28, monitor unit digital signal transmitter 27 and lighting burner 38 needed power supplys above the thing suspension bracket horizon bar 25; That installs on hang thing suspension bracket horizon bar 25 left ends hangs thing suspension bracket wind rudder 36, make storage battery charging plane, wind-driven generator 33 fan blade place vertical with wind direction, has improved the charge generated energy of wind-driven generator 33 of storage battery, has guaranteed the delivery of storage battery group 31.

Be rotatably connected on the parallel up and down two-layer crossbeam 7 on the described frame 2 by cartridge housing 66 and the termination of the center stringer 8 of installing from the wind power receiver 3 of dynamic deformation brushless gearless ballast bell-type at the center of two crossbeams 7, every layer of installation at least 6 cover, each frame above-below direction is installed multilayer.

Described wind power receiver 3 comprises: be provided with vertical shaft bearings shell 67 at vertical shaft 66 two ends that are rotationally connected with described frame 2, between vertical shaft bearings shell 67, be provided with two wind rudder rolling discs 69 that are rotationally connected with described vertical shaft 66, between two wind rudder rolling discs 69, be provided with the fan blade 72 that rotates synchronously with described vertical shaft 66, between described two wind rudder rolling disc 69 right side outer circumferential faces, be provided with the ballast cover 68 of fixedlying connected with wind rudder rolling disc 69, tackled the wind of backward-acting power, at this ballast cover 68 rear sides welding wind rudder 74, guaranteed under the wind action in any direction, there is the blade of half to produce clockwise active force on the wind power receiver, between described two wind rudder rolling disc 69 left sides, be provided with the wind gathering plate 71 that is rotationally connected with wind rudder rolling disc 69, between wind rudder rolling disc 69 and wind gathering plate 71, be provided with wind gathering plate torsion spring 70, when gentle breeze, the wind of the common interception of wind gathering plate and ballast cover acts on the concave surface of blade between wind gathering plate and the ballast cover, make wind power receiver also can drive the generator normal power generation, when storm wind, the wind gathering board plane be rotated into wind direction near one to direction, reduce to award the wind area, stablized the rotating speed of wind power receiver; Bottom at the vertical shaft 66 of described bottom is provided with braking plate 73, opens braking plate 73, and fan blade 72 is stopped operating, and is easy for installation and maintenance.

Be provided with wind gathering plate axis hole 75 in the left side of described wind rudder rolling disc 69, around this wind rudder rolling disc 69, be provided with ballast cover retaining ring 77, be provided with ballast cover fixed screw holes 79 in these ballast cover retaining ring 77 outsides, center at described wind rudder rolling disc 69 is provided with bearing hole 78, is provided with ballast cover stent 76 between this center and ballast cover retaining ring 77.

Rear side at described this ballast cover 68 is provided with wind-tunnel 80.

Center at described fan blade 72 two ends is provided with vanes fixed cylinder stent 82, between this vanes fixed cylinder stent 82, be provided with and vanes fixed cylinder stent 82 synchronous rotating blades stationary cylinders 84, at the peripheral solder blade 83 of this vanes fixed cylinder 84, be provided with the peripheral retainer ring 81 of blade in the periphery of this blade 83.

Be provided with vertical shaft fixed hole 86 at the center of described vanes fixed cylinder stent 82, be arranged with vanes fixed cylinder retaining ring 85 outside, outer circumferential face at this vanes fixed cylinder retaining ring 85 is provided with vanes fixed cylinder screw hole 88, is provided with vanes fixed cylinder fixing frame 87 between this vanes fixed cylinder retaining ring 85 and described vertical shaft fixed hole 86.

Be provided with vertical shaft bearings axle 91, wind rudder rolling disc bearing shaft 92, the solid cylinder frame retaining screw silk bud 93 of blade, the solid cylinder frame tip groove 94 of blade at the two ends of described vertical shaft 66, be provided with horizontal connecting screw hole 89 and vertical connecting screw hole 90 on 91 sections on described vertical shaft bearings axle, be provided with braking plate tip groove 95 and braking plate retaining screw silk bud 96 in the lower end of described vertical shaft 66.

Be connected with coupling sleeve 4 between wind power receiver 3 upper stratas and the lower floor, coupling sleeve 4 is a steel cylindrical tube, laterally be provided with horizontal connecting screw sleeve hole 97 around the pipe, vertically be provided with vertical connecting screw sleeve hole 98 around the pipe, the aperture of this horizontal connecting screw sleeve hole 97 and vertical connecting screw sleeve hole 98 is greater than the aperture in the horizontal connecting screw hole on the vertical shaft 89 and vertical connecting screw hole 90, the internal diameter of described coupling sleeve 4 steel pipes is greater than the external diameter of described vertical shaft 66 with its attachment portion, and the vertical shaft 66 of having avoided the upper and lower layers wind power receiver is not exclusively on same vertical line and the rotational resistance that produces.

Generator 5 is installed under the bottom plane, termination of described undermost crossbeam 7 and center stringer 8.

Coupling sleeve 4 is installed between the 66 adjacent terminations of the vertical shaft on the wind power receiver between upper and lower layers 3.

Between the lower end of the vertical shaft 66 of undermost wind power receiver 3 and generator 5, coupling sleeve 4 is installed.

The elastic cable paper of being drawn by generator 5 stator coils passes Conduits and sends into electric room through underground.

Claims (15)

1. one kind from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: comprise multiple layer frame (2), frame top suspension bracket (1) and be installed in the wind power receiver that is rotationally connected (3) on this frame and be serially connected in the coupling sleeve (4) between the wind power receiver and be serially connected in bottom generator (5) from dynamic deformation brushless gearless formula.

2. according to claim 1 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: described wind power receiver (3) is installed in the two-layer crossbeam (7) up and down of frame (2) the same side and the termination of center stringer (8), every layer of installation at least 6 cover, each frame above-below direction is installed multilayer.

3. according to claim 1 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: described frame (2) is bilayer or multilayer frame, frame is provided with at least 16 root posts (6), this column (6) cross section is the steel pipe of rectangle, each lands frame (2) place's 4 root posts (6) rectangular arrangement and vertically stands on ground, is provided with horizontal crossbeam (7) that multilayer is parallel to each other and center crossbeam (8), horizontal plane hound (11), facade hound (10) longitudinally therebetween.

4. according to claim 3 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: the two ends of going up bottom surface at described crossbeam (7) are provided with vertical shaft mounting groove (12) and cartridge housing fixed screw holes (13), and the two ends that center crossbeam (8) is gone up bottom surface are provided with center sill vertical shaft mounting groove (14) and center sill cartridge housing fixed screw holes (15); Be provided with break fixed screw holes (18) and the crashproof net fixing frame of birds hole (17) in described crossbeam (7) end, bi-side, between middle part and end, be provided with column fixed screw holes (16), be provided with break fixed screw holes (18) and the crashproof net fixing frame of birds hole (17) in described center crossbeam (8) end, bi-side.

5. according to claim 1 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: described suspension bracket (1) comprising: 2 parallel suspension bracket base beams (19) vertically are installed on the crossbeam (7) of frame top layer and between the column (6), at suspension bracket base beam (19) middle part 2 manned hanger beams (21) are installed laterally, 2 manned suspension bracket hoisting machines (22) are installed on 2 manned hanger beams (21), rotating disc (24) is installed at the middle part on 2 manned hanger beams (21), welding rotating disc reinforced pole (23) around this rotating disc (24) top and between suspension bracket base beam (19) end, in this rotating disc (24), insert and hang thing suspension bracket running shaft, the thing suspension bracket horizon bar welded post (47) of hanging of hanging thing suspension bracket running shaft upper end is welded in the running shaft welding hole (51) that hangs thing suspension bracket horizon bar (25) centre, at the described middle part of hanging above the thing suspension bracket horizon bar (25) storage battery charging wind-driven generator (33) is installed, install respectively at its two ends and to hang thing hoisting machine pulley (39) and mass hoisting machine pulley (40), between middle part and two end part, install respectively and hang thing hoisting machine (35) and mass hoisting machine (26), hang thing suspension bracket horizon bar direction and regulate motor (30), storage battery group (31), hang the thing hoisting machine and shake control signal receiver (29), the mass hoisting machine shakes control signal receiver (28) and monitor unit digital signal transmitter (27), hangs the installation of thing suspension bracket horizon bar (25) left end at this and hangs thing suspension bracket wind rudder (36); Thing suspension bracket horizon bar brace (32) is hung with the two ends installation of hanging thing suspension bracket horizon bar (25) in top at described storage battery charging wind-driven generator (33), two ends are installed monitor unit (37) and lighting burner (38) respectively below this hangs thing suspension bracket horizon bar (25), hang middle part, thing suspension bracket horizon bar (25) bi-side welding vertical monitor unit horizon bar (34) at this; Monitor unit (37) and lighting burner (38) are installed below described vertical monitor unit horizon bar (34) two ends.

6. according to claim 5 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: described manned hanger beams (21) upper and lower surface is provided with manned suspension bracket hoisting machine fixed screw holes (42), rotating disc fixed screw holes (43) and suspension bracket base beam fixed screw holes (41).

7. according to claim 5 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: be provided with rotating disc base (46) in described rotating disc (24) bottom, top is provided with rotating disc cartridge housing (45), and the top is provided with rotating disc gear (44).

8. according to claim 5 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: the described thing suspension bracket running shaft upper end of hanging is provided with and hangs thing suspension bracket horizon bar welded post (47), the middle part is provided with hangs thing suspension bracket horizon bar filler ring (48), the middle and lower part is provided with upper bearing (metal) axle (49), and the bottom is provided with lower bearing axle (50).

9. according to claim 5 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: be provided with running shaft welding hole (51) at the described middle part of hanging above the thing suspension bracket horizon bar (25), be respectively equipped with at its two ends and hang thing hoisting machine pulley (59), mass hoisting machine pulley (63), monitor unit fixed hole (57) and lighting burner fixed hole (58); Being respectively equipped with and hanging thing hoisting machine fixed hole (60), mass hoisting machine fixed hole (62), storage battery group fixed hole (52), hang the thing hoisting machine between middle part and two end part shakes control signal receiver fixed hole ((54), mass hoisting machine shake control signal receiver fixed hole (55), monitor unit digital signal transmitter fixed hole (56), hang thing suspension bracket horizon bar direction regulates motor fixed hole (53) and hang thing suspension bracket horizon bar direction adjusting motor deceleration gear axis hole (61); Be provided with and hang thing steel cable perforation (64) and mass steel cable bore a hole (65) at the described two ends of hanging below the thing suspension bracket horizon bar (25).

10. according to claim 1 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: described wind power receiver from dynamic deformation (3) comprising: be provided with vertical shaft bearings shell (67) at vertical shaft (66) two ends that are rotationally connected with described frame, be provided with two wind rudder rolling discs (69) that are rotationally connected with described vertical shaft (66) between two vertical shaft bearings shells (67) up and down at described vertical shaft (66) two ends, between these two wind rudder rolling discs (69), be provided with the fan blade (72) that rotates synchronously with described vertical shaft (66), between the outer circumferential face of described two wind rudder rolling discs (69) right side, be provided with the ballast cover (68) of fixedlying connected with wind rudder rolling disc (69), be provided with wind rudder (74) at this ballast cover (68) rear side, between described two wind rudder rolling discs (69) left side, be provided with the wind gathering plate (71) that is rotationally connected with wind rudder rolling disc (69), between wind rudder rolling disc (69) and wind gathering plate (71), be provided with wind gathering plate torsion spring (70), be provided with braking plate (73) in the bottom of the vertical shaft (66) of described bottom.

11. it is according to claim 10 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: be provided with wind gathering plate axis hole (75) in the left side of described wind rudder rolling disc (69), around this wind rudder rolling disc (69), be provided with ballast cover retaining ring (77), be provided with ballast cover fixed screw holes (79) at this ballast cover retaining ring (77) right side outer circumferential face, be provided with bearing hole (78) at the center of described wind rudder rolling disc (69), between this center and ballast cover retaining ring (77), be provided with ballast cover stent (76).

12. according to claim 10 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: the rear side at described this ballast cover (68) is provided with wind-tunnel (80).

13. it is according to claim 10 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: the center at described fan blade (72) two ends is provided with vanes fixed cylinder stent (82), between this vanes fixed cylinder stent (82), be provided with vanes fixed cylinder (84), be provided with blade (83) in the periphery of this vanes fixed cylinder (84), be provided with the peripheral retainer ring (81) of blade in the periphery of this blade (83).

14. it is according to claim 13 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: be provided with vertical shaft fixed hole (86) at the center of described vanes fixed cylinder stent (82), be arranged with vanes fixed cylinder retaining ring (85) outside, outer circumferential face at this vanes fixed cylinder retaining ring (85) is provided with vanes fixed cylinder screw hole (88), is provided with vanes fixed cylinder fixing frame (87) between this vanes fixed cylinder retaining ring (85) and described vertical shaft fixed hole (86).

15. it is according to claim 10 a kind of from the vertical tandem high-power wind-driven generator of dynamic deformation brushless gearless group, it is characterized in that: be provided with vertical shaft bearings axle (91) at the two ends of described vertical shaft (66), wind rudder rolling disc bearing shaft (92), the solid cylinder frame retaining screw silk bud (93) of blade, the solid cylinder frame tip groove (94) of blade, be provided with horizontal connecting screw hole (89) and vertical connecting screw hole (90) in described vertical shaft bearings axle (91) section, be provided with braking plate tip groove (95) and braking plate retaining screw silk bud (96) in the lower end of described vertical shaft (66).

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