CN104481808A - Spiral gathering wind power generation apparatus - Google Patents

Abstract

The invention relates to a wind power generation apparatus and in particular relates to a wind-driven generator which is of a spiral gathering structure, and is capable of inductively emitting light for lighting, simple and convenient to mount and powerful in functions. The wind power generation apparatus is composed of power and main control modules, and comprises 29 parts such as a shaft-end nut, a power wheel, a long-axis generator, a terminal box base, a connecting rack, a connecting copper bar, a fixed gasket, a terminal gasket, a binding post, a post screw, a connecting rod, a base, an energy-storage light controller, a wire winding rod, a hooping gasket, a locking binding ring and an inner cone-shaped nut; the defect that the higher the power of the current known power generation apparatus is, the larger the structure of the apparatus is can be avoided, and a clustering wind power generation product which is high in power, environmental friendly and energy-saving, efficient and reliable, simple and convenient to mount, wide in use and superior in properties is formed; besides, the wind power generation apparatus has the advantages of simple implementation and simple manufacturing, and the formed product is beautiful and elegant in structure, firm and durable, and wide in market space, and has extremely high economic added value and social use value.

Description

Spiral centralization type wind electricity generating system

Technical field

The present invention relates to a kind of wind electricity generating system, especially relate to a kind of employing spiral gather structure and can inducing luminously throw light on, simple installation, powerful wind-driven generator.

Background technique

Wind electricity generating system, refer to a kind ofly utilize electromagnetic induction principle to be mechanical energy by wind energy transformation, the physical power equipment that is electric energy by changes mechanical energy again.Current known wind electricity generating system, wind energy adopts device vertical, wheeled, several mode such as fan formula, propeller type substantially, although it can be all mechanical energy by the Conversion of Energy of air movement that these known wind energies adopt device, but because of its structural limitations, still there is many disadvantages, as: although known small-sized wind electricity generating system install convenient, safeguard simple, power is less, cannot be adapted to the needs of fairly large electricity consumption occasion; Although known large-scale wind energy electricity generating device power is comparatively large, huge structure, the work such as transportation, installation, maintenance are quite complicated, thus have influence on the using function of current known wind electricity generating system, application area and social economic value.

Summary of the invention

Object of the present invention, is to overcome the defect that current known wind energy generating plant power is larger, structure is huger, provides a kind of centralization type wind electricity generating system that spirals of uniqueness to the public.This device except can have as known wind-driven generator natural wind energy is converted into mechanical energy, again by changes mechanical energy be electric energy effect except, to spiral centralization type structure, numerous small-sized wind generators is pooled in capable and vigorous vertical rod, form powerful wind energy power field, thus stop the defect that power is larger, equipment is huger, and have simple installation, safeguard effect easily, improve the using function of wind electricity generating system, accommodation and social economic value.

The present invention for the technological scheme realizing object and adopt is:

(1) product is divided into power, the large module of master control two designs, wherein, power plant module is for adopting natural wind energy on a large scale, and is electric energy by wind energy transformation; The electric energy that main control module is used for power plant module to produce converges and exports, and will sub-fraction electric energy conversion be wherein luminous energy, inducing luminous.

(2), in power plant module, select two-way major axis excitation generator as current start source, support the use wind energy for symmetry and adopt device.

(3) the wind energy coordinating major axis generator to use is adopted apparatus design for motive power wheel shape, wherein, use three arc flabellum moving wheels axle center annular arrays, and the blade face between arc flabellum and arc flabellum is seamlessly transitted, the wind energy resistance of last flabellum is turned to the wind energy power of next flabellum.

(4) at arc flabellum two ends, baffle plate being set respectively, for strengthening the function of going for a drive of arc flabellum, improving the wind energy utilization of motive power wheel.

(5) transforming former generator terminal cassette holder, former junction box seat outer wall is drawn high, inner chamber drawing, and oblique its cassette holder mouth is set, for strengthening the join strength between terminal box and generator, evading the intrusion of wind and rain.

(6) in generator terminal cassette holder, design a patch bay, for connecting power lead.

(7) design a cylinder connecting rod, for the connection between generator and main control module.

(8) in connecting rod one termination, one angle cassette holder is set, for the generator terminal cassette holder that is connected; Stop planomural is set in another termination of connecting rod, to stop connecting rod swaying in use, improves the reliability of equipment use.

(9) in main control module, design a line concentration bar cylinder line concentration bar as body element, make this part become other part of same module and depend on and exist with the CAS Institute of Physics be connected.

(10) in line concentration bar lower end, an insertion tube is set, for the product base that is connected.

(11) in position, line concentration bar middle and upper part, spiral around axle center and 40 connecting cylinders are upwards set, connect 40 power plant modules for correspondence.

(12), at line concentration masthead end, a bar mouth screw thread is set, for connecting lamp socket and electro-optical source thereof.

(13) in bar mouth screw thread, a lock pin aperture is set, for the use of stop pin, to guarantee the reliability that product uses.

(14) design an accumulation of energy light-controller, as the parts that main control module converges wire, illumination induction controls electric current.

(15) in accumulation of energy light-controller, a step round platform and 240 wire jacks thereof are set, for the ampere wires that power plant module of plugging into passes over, converge electric current.

(16) at accumulation of energy light-controller step round platform center, a through hole is set, is convenient to plugging into and passing through of various ampere wires.

(17) in accumulation of energy light-controller front end, a boss being set, for installing Direct-shift type bidirectional switch, controlling automatic, manual, stopping three kinds of working staties of accumulation of energy light-controller.

(18), in accumulation of energy light-controller front boss, design transphasor and light modulation cap thereof, for the intensity regulating transphasor to receive ambient light photograph, enable the illumination of accumulation of energy light-controller respond to output current, excite masthead electro-optical source luminous.

(19), around accumulation of energy light-controller central through bore, annular array 4 wiring terminals, for the faradic output of illumination and the output of converging electric current.

(20) coordinating line concentration masthead end bar degree of lip-rounding state, designing a lamp socket, for arranging electro-optical source.

By the enforcement of above-mentioned a series of technological scheme, product of the present invention, except having the advantage identical with known wind-driven generator, can also obtain following beneficial effect:

(1) powerful--product is formed by 40 wind-driven generators cluster that spirals, and generating efficiency is equivalent to 40 times of single generator efficiency, powerful.

(2) environmental protection and energy saving--product directly use clean, can automatically more by natural wind masterpiece be power source, without the need to any external power, fuel support during operation, noiseless, pollution-free, environmental protection, sanitary and energy-saving, sustainable development has a high potential.

(3) high efficient and reliable--product gentle breeze can start, strong wind endure, and wind speed accommodation is from 0.4 meter to 20 meters per second per second, and wind energy utilization reaches more than 75%, operates steadily, high efficient and reliable.

(4) simple installation--product is only made up of power, the large module of master control two, and power plant module is divided into 40 little modules, structure is simple, volume is capable and vigorous, surface area is taken hardly during use, without the need to wind direction controlling mechanism, without the need to tall and big support or steel tower, transportation, installation, maintenance are all very convenient, simple and direct.

(5) of many uses--product uses does not exist wind direction lattice taboo problem, the all admissible utilization of natural wind-force from any direction, strong adaptability, and integrate pocket cut-off wind energy, troop generating, inductive lightning, all occasions needing wind-power electricity generation can be adapted to use, purposes is wide, wide adaptability.

In addition, the present invention also has and implements simple, manufactures easy advantage, to form product structure elegant in appearance, solid durable, the market space is wide, has high Economic Value Added and social use value.

Below, in conjunction with an embodiment and accompanying drawing, the invention will be further described.

Accompanying drawing explanation

Fig. 1 is one embodiment of the invention product Organizational Structure exemplary plot.

Fig. 2 is one embodiment of the invention power plant module part form exemplary plot.

Fig. 3 is one embodiment of the invention motive power wheel design of part partial cutaway exemplary plot.

Fig. 4 is design of part exemplary plot at the bottom of one embodiment of the invention connecting box.

Fig. 5 is one embodiment of the invention patch bay design of part partial cutaway exemplary plot.

Fig. 6 is one embodiment of the invention connecting rod design of part partial cutaway exemplary plot.

Fig. 7 is one embodiment of the invention main control module part form exemplary plot.

Fig. 8 is one embodiment of the invention accumulation of energy light-controller design of part exemplary plot.

Fig. 9 is one embodiment of the invention line concentration bar design of part partial cutaway exemplary plot.

Figure 10 is one embodiment of the invention inner cone nut design of part partial cutaway exemplary plot.

Figure 11 is one embodiment of the invention lamp socket design of part partial cutaway exemplary plot.

Figure 12 is one embodiment of the invention power plant module assembling exemplary plot.

Figure 13 is one embodiment of the invention main control module assembling exemplary plot.

Figure 14 assembles exemplary plot between one embodiment of the invention module.

Figure 15 is one embodiment of the invention molding product outward appearance exemplary plot.

Embodiment

The present invention, as the technology fabrication scheme of a product, by the combination of respective organization structure, can make scheme specifically be implemented.One embodiment of the invention product Organizational Structure as shown in Figure 1.

In Fig. 1, product is by power, master control two kinds of module compositions, wherein, power plant module is by axle end caps, resilience washer, motive power wheel, major axis generator, junction box seat, cassette holder screw, patch bay, coil holder screw, connect copper bar, retaining washer, set screw, terminal packing ring, wiring terminal, terminal screw, connecting rod screw, connecting rod, power lead 17 kinds of part compositions, main control module is by base, accumulation of energy light-controller, line concentration bar, tightening nut, hoop pressure pad circle, snap close bundle circle, inner cone nut, lamp socket, lamp socket stop pin, electro-optical source, lighting lead, power supply output line 12 kinds of part compositions.

In embodiment, often kind of part all has the form of its uniqueness, and part form belonging to power plant module as shown in Figure 2.

In Fig. 2, according to the tactic constituent element of label successively: axle end caps part (1), resilience washer part (2), motive power wheel part (3), major axis generator part (4), junction box seat part (5), cassette holder screw element (6), patch bay part (7), coil holder screw element (8), connect copper bar part (9), retaining washer part (10), set screw part (11), terminal gasket features (12), wiring terminal part (13), terminal screw element (14), connecting rod screw part (15), connecting rod part (16), power lead part (17), wherein, terminal gasket features (12), wiring terminal part (13), the quantity of terminal screw element (14) is 9 separately, cassette holder screw element (6), coil holder screw element (8), the quantity of connecting rod screw part (15) is 4 separately, connects copper bar part (9), retaining washer part (10), set screw part (11), the quantity of power lead part (17) is 3 separately, axle end caps part (1), resilience washer part (2), the quantity of motive power wheel part (3) is 2 separately, and the quantity of other part is 1 separately.

In power plant module, comparatively special dynamic of structure takes turns part (3), junction box seat part (5), patch bay part (7) and connecting rod part (16).Motive power wheel part (3) structure as shown in Figure 3.

In Fig. 3, motive power wheel part (3) structure comprises end face baffle plate (18), end face counterbore part (19), six rib through-hole parts (20), buffering through-hole parts (21), arc flabellum part (22), go for a drive surface parts (23), sliding wind surface parts (24), lee face part (25) eight constituent elements, wherein, buffering through hole (21), arc flabellum (22), to go for a drive face (23), sliding wind face (24), the quantity of lee face (25) is 3 separately, end face baffle plate (18), the quantity of end face counterbore (19) is 2 separately, the quantity of six rib through holes (20) is 1, in motive power wheel part (3) finished product, end face baffle plate (18) is positioned at the axial two ends of part, and six rib through holes (20) are positioned at the shaft core position of part, and six rib through hole (20) two ends are connected with end face counterbore (19), arc flabellum (22) is around six rib through hole (20) axle center annular arrays, and each arc flabellum (22) comprises the face of going for a drive (23), lee face (24) two constituent elements, smooth connection between last arc flabellum (22) and a rear arc flabellum (22), defines the sliding wind face (25) between arc flabellum (22), buffering through hole (21) is positioned at the blank position between two sliding wind faces (25) and six rib through holes (20).

In embodiment, motive power wheel part (3) uses any one material in engineering plastics, stainless steel, carbon steel, aluminum alloy four kinds of materials to manufacture; Manufacturing in motive power wheel part (3) finished product formed, end face baffle plate (18) outermost point form ratio between diameter of a circle value and whole part maximum height value, between 1:1.9 to 1:2.2; End face counterbore (19) diameter value and end face baffle plate (18) outermost point form ratio between circular diameter value, between 1:11 to 1:14; Ratio between end face counterbore (19) depth value and whole part maximum height value, between 1:29 to 1:32.

Junction box seat part (5) structure as shown in Figure 4.

In Fig. 4, junction box seat part (5) structure comprises cassette holder outer wall (26), inclined-plane flange () 27, flange screw (28), flange top surface (29), cassette holder inner chamber (30), cassette holder mesopore (31), box angle screw (32), box angle through hole (33) eight constituent elements, wherein, the quantity at flange screw (28), box angle screw (32), box angle through hole (33) is 4 separately, and the quantity of other constituent element is 1 separately; In junction box seat part (5) finished product, flange screw (28) is distributed in the corner of inclined-plane flange (29), and flange screw (28) shaft axis is mutually vertical with cassette holder inner chamber (30) bottom surface; Box angle screw (32), box angle through hole (33) are distributed in cassette holder inner chamber (30) corner, bottom surface, form internal and external layer position corresponding relation between box angle screw (32) and box angle through hole (33); Cassette holder mesopore (31) is positioned at cassette holder inner chamber (30) bottom surface center position, and the angle between flange top surface (27) and cassette holder inner chamber (30) bottom surface is between 20 ° to 40 °.

In embodiment, junction box seat part (5) uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy three kinds of materials to manufacture; Manufacturing in junction box seat part (5) finished product formed, the ratio between whole part maximum length value and Extreme breadth value, between 1:0.9 to 1:1.1; Ratio between maximum height value and maximum length value, between 1:2.1 to 1:2.3; Ratio between cassette holder mesopore (31) diameter value and whole part maximum length value, between 1:5.1 to 1:5.4.

Patch bay part (7) structure as shown in Figure 5.

In Fig. 5, patch bay part (7) structure comprises arch hole (35) at the bottom of coil holder matrix (34), frame, frame angle counter sink (36), top of support (37), copper bar groove (38), fixing threaded hole (39), terminal screw (40) seven constituent elements, wherein, the quantity of terminal screw (40) is 9, the quantity at frame angle counter sink (36) is 4, the quantity of copper bar groove (38), fixing threaded hole (39) is 3 separately, and the quantity of other constituent element is 1 separately; In patch bay part (7) finished product, frame angle counter sink (36) is distributed in coil holder matrix (34) corner, and frame angle counter sink (36) shaft axis is mutually vertical with top of support (37); Arch hole (35) at the bottom of frame are arranged on coil holder matrix (34) bottom, and arch hole (35) shaft axis at the bottom of frame and top of support (37) vertical center line are parallel to each other; Copper bar groove (38) is in top of support (37) parallel arranged, and each copper bar groove (38) bottom surface arranges a fixing threaded hole (39) and three terminal screws (40).

In embodiment, patch bay part (7) uses the manufacture of any one material in bakelite, Thermoset engineering plastics two kinds of materials; Manufacturing in patch bay part (7) finished product formed, the ratio between whole part maximum length value and Extreme breadth value, between 1:0.9 to 1:1.1; Ratio between maximum height value and maximum length value, between 1:2.8 to 1:3.1; Arch hole (35) diameter value at the bottom of frame and the ratio between whole part Extreme breadth value, between 1:2.4 to 1:2.6; Ratio between copper bar groove (38) width value and whole part maximum length value, between 1:4.9 to 1:5.1, the ratio between copper bar groove (38) depth value and whole part maximum height value, between 1:7.8 to 1:8.0.

Connecting rod part (16) structure as shown in Figure 6.

In Fig. 6, connecting rod part (16) structure comprises angle flange (41), flange hole (42), pole socket inner chamber (43), connecting rod bores (44), connects rod tube (45), pipe end planomural (46), connects pole socket (47) seven constituent elements; Wherein, the quantity of pipe end planomural (46) is 6, and the quantity of flange hole (42) is 4, and the quantity of other constituent element is 1 separately; In connecting rod part (16) finished product, angle flange (41), connection pole socket (47), connection rod tube (45), pipe end planomural (46) then connect successively from front, and pipe end planomural (46) is around connection rod tube (45) axle center annular array; Flange hole (42) is distributed in angle flange (41) corner, and the angle between angle flange (41) end face and pole socket inner chamber (43) bottom surface is between 20 ° to 40 °.

In embodiment, connecting rod part (16) uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy, engineering plastics four kinds of materials to manufacture; Manufacturing in connecting rod part (16) finished product formed, the ratio between whole part Extreme breadth value and maximum length value, between 1:18 to 1:23; Connect the ratio between rod tube (45) external diameter value and whole part Extreme breadth value, between 1:1.7 to 1:2.0; Connect the ratio between pole socket (47) height value and whole part maximum length value, between 1:66 to 1:72.

Part form belonging to main control module as shown in Figure 7.

In Fig. 7, according to the tactic part of label successively: base part (48), accumulation of energy light-controller part (49), line concentration bar part (50), tightening nut part (51), hoop pressure gasket features (52), snap close bundle circle part (53), inner cone nut part (54), lamp socket part (55), lamp socket stop pin part (56), electro-optical source part (57), lighting lead part (58), power supply output line part (59), wherein, tightening nut part (51), hoop pressure gasket features (52), snap close bundle circle part (53), the quantity of inner cone nut part (54) is 40 separately, the quantity of power supply output line part (59) is 4, the quantity of lighting lead part (58) is 2, the quantity of other part is 1 separately.

In main control module, what structure comparison was special has accumulation of energy light-controller part (49), line concentration bar part (50), inner cone nut part (54) and lamp socket part (55), and accumulation of energy light-controller part (49) as shown in Figure 8.

In Fig. 8, accumulation of energy light-controller part (49) structure comprises front boss (60), boss handgrip groove (61), transphasor (62), light modulation cap (63), boss end face (64), switch deep gouge (65), switch shifting block (66), rear platform (67), step round platform (68), outer rank (69), scala media (70), interior rank (71), wire jack (72), wiring terminal (73), central through bore (74), Cock screw (75) 16 constituent elements, wherein, the quantity of wire jack (72) is 120, the quantity of Cock screw (75) is 60, the quantity of boss handgrip groove (61) is 5, the quantity of wiring terminal (73) is 4, the quantity of other constituent element is 1 separately, in accumulation of energy light-controller part (49) finished product, front boss (60) and rear platform (67) compact siro spinning technology, both sides flush, boss handgrip groove (61) is in front boss (60) front surface parallel arranged, and light modulation cap (63) is positioned at front boss center handgrip groove (61) recess, and light modulation cap (63) inner chamber arranges transphasor (62), step round platform (68) is positioned at rear platform (67) end face, central through bore (74) is positioned at step round platform (68) center, outer rank (69), scala media (70), interior rank (71) are at step round platform (68) end face from outside to inside, by high and low successively around central through bore (74) axle center circular row, each terrace all arranges 40 wire jacks (72), wiring terminal (73) is around central through bore (74) shaft axis annular array around central through bore (74), and wiring terminal (73) shaft axis and central through bore (74) shaft axis are parallel to each other.

In embodiment, the front boss (60) in accumulation of energy light-controller part (49), rear platform (67), step round platform (68), all use the engineering plastics manufacture of identical insulation; Manufacturing in accumulation of energy light-controller part (49) finished product formed, the ratio between whole part Extreme breadth value and maximum length value, between 1:1.3 to 1:1.6; Ratio between maximum height value and maximum length value, between 1:2.3 to 1:2.5; Ratio between rear platform (67) height value and front boss (49) height value, between 1:1.5 to 1:1.7; Ratio between step round platform (68) height value and rear platform (67) height value, between 1:2.9 to 1:3.1; Ratio between step round platform (68) maximum outside diameter value and rear platform (67) width value is 1:1.

Line concentration bar part (50) structure as shown in Figure 9.

In Fig. 9, line concentration bar part (50) structure comprises lower end insertion tube (76), main cylinder (77), connecting cylinder (78), nozzle screw thread (79), inner chamber ring wall (80), stop planomural (81), limited ring (82), back cavity (83), top screw thread (84), lock pin aperture (85), 11, masthead face (86) constituent element, wherein, the quantity of stop planomural (81) is 240, the quantity of connecting cylinder (78), nozzle screw thread (79), inner chamber ring wall (80), limited ring (82), back cavity (83) is 40 separately, and the quantity of other constituent element is 1, in line concentration bar part (50) finished product, lower end insertion tube (76), main cylinder (77), top screw thread (84) is contacted connection from bottom to top successively, lock pin aperture (85) axially runs through top screw thread (84), connecting cylinder (78) spirals from bottom to top in position, main cylinder (77) appearance middle and upper part equiblibrium mass distribution, each connecting cylinder (78) includes six stop planomurals (81) and a nozzle screw thread (79), an inner chamber ring wall (80), a limited ring (82), a back cavity (83), connecting cylinder (78) shaft axis is mutually vertical with main cylinder (77) shaft axis, nozzle screw thread (79) is positioned at connecting cylinder (78) outer end position, inner chamber ring wall (80), limited ring (82), back cavity (83) from outer to inner connect successively at connecting cylinder (78) inner chamber, and stop planomural (81) is inner around connecting cylinder (78) shaft axis annular array at inner chamber ring wall (80).

In embodiment, line concentration bar part (50) uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy, engineering plastics four kinds of materials to manufacture; Manufacturing in line concentration bar part (50) finished product formed, the ratio between whole part maximum outside diameter value and maximum height value, between 1:10 to 1:10; Ratio between lower end insertion tube (76) external diameter value and main cylinder (77) external diameter value, between 1:1.05 to 1:1.20; Ratio between lower end insertion tube (76) length value and main cylinder (77) length value, between 1:11 to 1:14; Connecting cylinder (78) external diameter value and and main cylinder (77) external diameter value between ratio, between 1:6.5 to 1:6.8; Ratio between connecting cylinder (78) length value and main cylinder (77) length value, between 1:200 to 1:210.

Inner cone nut part (54) structure as shown in Figure 10.

In Figure 10, inner cone nut part (54) structure comprises external annulus (87), external drum wall (88), external annulus (89), ear end face (90), internal thread (91), internal ring wall (92), internal cone wall (93), nut mouth (94), front-end face (95) nine constituent elements, wherein, the quantity of outer planomural (87) is 6, and the quantity of other constituent element is 1 separately; In inner cone nut part (54) finished product, external drum wall (88), external annulus (89) are then arranged in series from front in part appearance, and internal thread (91), internal ring wall (92), internal cone wall (93), nut mouth (94) are arranged in series from rear and front successively at inner cavity of component; Outer planomural (87) is positioned at the axial centre position of external drum wall (88) appearance, and around external drum wall (88) axle center annular array.

In embodiment, inner cone nut part (54) uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy, engineering plastics four kinds of materials to manufacture; Manufacturing in inner cone nut part (54) finished product formed, the ratio between whole part maximum length value and maximum outside diameter value, between 1:1.9 to 1:2.1; Ratio between nut mouth (94) diameter value and whole part maximum outside diameter value, between 1:1.4 to 1:1.5; Ratio between external drum wall (88) width value and whole part maximum length value, between 1:1.2 to 1:1.4; Internal cone wall (93) taper value is between 40 ° to 50 °.

Lamp socket part (55) structure as shown in figure 11.

In Figure 11, lamp socket part (55) structure comprises shell mesopore (96), shell (97), shell internal thread (98), inner pallet (99), positive pole terminal (100), pallet screw (101), lock pin aperture (102), lamp cover (103), negative pole terminal (104), positive pole top flat (105) ten constituent elements, wherein, the quantity of pallet screw (101) is 3, the quantity of positive pole terminal (100), negative pole terminal (104) is 2 separately, and the quantity of other constituent element is 1 separately; In lamp socket part (55) finished product, positive pole top flat (105) is placed in the center position of inner pallet (99) inner chamber end face by the tightening of positive pole terminal (100), lamp cover (103) negative pole terminal (104) tightening lower suspension positive pole top flat (105) top, be not in contact with each other between lamp cover (103) and positive pole top flat (105); Inner pallet (99) is hung upside down in shell (97) inner chamber bottom surface by the tightening of pallet screw (101), and shell (97) shaft axis, lamp cover (103) shaft axis, inner pallet (99) shaft axis overlap.

In embodiment, lamp socket part (55) shell (97) uses any one material in carbon steel, stainless steel, aluminum alloy, engineering plastics four kinds of materials to manufacture, and inner pallet (99) uses any one material in the bakelite of insulation, engineering plastics two kinds of materials to manufacture; Manufacturing in lamp socket part (55) finished product formed, the ratio between whole part maximum height value and maximum outside diameter value, between 1:4.7 to 1:5.0; Ratio between inner pallet (99) external diameter value and shell (97) external diameter value, between 1:1.2 to 1:1.4; Ratio between inner pallet (99) height value and shell (97) tonal value, between 1:1.7 to 1:2.0.

In implementation process, when part each needed for product all manufactured complete after, namely can in units of module, part is carried out assembling and coordinate, form molding product.Assembly of the parts relation belonging to power plant module as shown in figure 12.

In Figure 12, the motive power wheel part (3) of power plant module, under the cooperation of axle end caps part (1), resilience washer part (2), symmetry is fixed on major axis generator part (4) two ends of rotor, and two motive power wheel parts (3) turn to identical; Patch bay part (7), under the tightening of coil holder screw element (8), is fixed on junction box seat part (5) inner chamber bottom surface, then passes through the tightening of cassette holder screw element (6), and junction box seat part (5) is connected with major axis generator part (4); Connect copper bar part (9) under the cooperation tightening of retaining washer part (10), set screw part (11), be fixed in patch bay part (7) copper bar groove; Connecting rod part (16), under connecting rod screw part (15) tightening, connects by angle flange is corresponding with junction box seat part (5) inclined-plane flange, and connection rod tube (45) shaft axis and junction box seat part (5) shaft axis overlap; One end of power lead part (17) is under the cooperation tightening of terminal gasket features (12), wiring terminal part (13), terminal screw element (14), with be connected copper bar part (9) and be connected, the other end, by connecting rod part (16) connecting rod bores, is connected with main control module.

Assembly of the parts relation belonging to main control module as shown in figure 13.

In Figure 13, the accumulation of energy light-controller part (49) of main control module, embed in base part (48) inner chamber, accumulation of energy light-controller part (49) central through bore shaft axis and base part (48) shaft axis overlap; It is inner that line concentration bar part (50) lower end insertion tube gos deep into base part (48), and top screw thread is connected with lamp socket part (55); Snap close bundle circle part (53), hoop pressure gasket features (52) is wrapped up in inner cone nut part (54), screw in line concentration bar part (50) nozzle screw thread, snap close bundle circle part (53) end faces are contacted with inner cone nut part (54) internal cone wall, binds round and press gasket features (52) end faces to contact with line concentration bar part (50) connecting cylinder nozzle end face; Lamp socket part (55) is connected electro-optical source part (57), its shell internal thread is screwed in the screw thread of line concentration bar part (50) top, and by lamp socket stop pin part (56) to the embedding of lamp socket part (55) lock pin aperture, the orientation between lamp socket part (55) and line concentration bar part (50) is remained unchanged; Lighting lead part (58) one end connects lamp socket part (55), and the other end connects accumulation of energy light-controller part (49), makes mutual conductance current between connection electro-optical source part (57) and accumulation of energy light-controller part (49).

Assembly relation between power plant module and main control module as shown in figure 14.

In Figure 14, the quantity of power plant module is 40, and the quantity of main control module is 1, and each power plant module is corresponding with a connecting cylinder in main control module line concentration bar part (50) to be assembled; Wherein, power plant module connecting rod part (16) arranges one end of pipe end planomural, under the cooperation tightening of main control module tightening nut part (51), hoop pressure gasket features (52), snap close bundle circle part (53), inner cone nut part (54), firmly be deep in the corresponding inner chamber ring wall of line concentration bar part (50), connecting rod part (16) pipe end planomural and line concentration bar part (50) stop planomural close contact; One end of power plant module power lead part (17), after successively by connecting rod part (16) connecting rod bores, line concentration bar part (50) back cavity, be inserted in accumulation of energy light-controller part (49) wire jack again, form the triple functions that the wide colleeting comb of accumulation of energy light-controller part (), output current and accumulation of energy are inducing luminous.

To be combined closely the molding product formed by power plant module and main control module, be mainly used in round-the-clock wind energy power of trooping.The service condition of product as shown in figure 15.

In Figure 15, product in use, when natural air stream flows through power plant module, natural wind energy is converted into and samely turns to the mechanical energy pivoted by the motive power wheel part (3) being placed in major axis generator part (4) two ends, and changes mechanical energy is electric energy again by major axis generator part (4); Accumulation of energy light-controller part (49) in main control module, to trooping, the numerous electric currents produced collect rectification process, outwards exported by most of electric current, stored by sub-fraction electric current by power supply output line part (59); When transphasor (62) perception extraneous light is dimmed, the power supply of automatic activation accumulation of energy light-controller part (49) storage inside, makes the electro-optical source part (57) being placed in lamp socket part (55) end face luminous; When transphasor perception extraneous light brightens, automatically cut off again the power supply leading to electro-optical source part (57), electro-optical source is extinguished; In addition, product also can manually mode of operation, forces the power supply switched on or off towards electro-optical source part (57), makes product illumination meet user intention, thus forms that whole product is round-the-clock, green non-pollution, the practical application effect of powerful generating of trooping.

In actual development process, the material, shape, specification etc. of each part of product, all can according to the needs of function flexible, thus formed multiple embodiments, open product in different poses and with different expressions.

Claims (10)

1. spiral a centralization type wind electricity generating system, is made up of, it is characterized in that power, master control two kinds of modules:

(1) described power plant module, by axle end caps, resilience washer, motive power wheel, major axis generator, junction box seat, cassette holder screw, patch bay, coil holder screw, connect copper bar, retaining washer, set screw, terminal packing ring, wiring terminal, terminal screw, connecting rod screw, connecting rod, power lead 17 kinds of part compositions, wherein, terminal gasket features, wiring terminal part, the quantity of terminal screw element is 9 separately, cassette holder screw element, coil holder screw element, the quantity of connecting rod screw part is 4 separately, connect copper bar part, retaining washer part, set screw part, the quantity of power lead part is 3 separately, axle end caps part, resilience washer part, the quantity of motive power wheel part is 2 separately, the quantity of other part is 1 separately,

(2) the motive power wheel part in described power plant module, its structure comprises end face baffle plate, end face counterbore, six rib through holes, buffering through hole, arc flabellum, face of going for a drive, sliding wind face, lee face eight constituent elements, wherein, the quantity of buffering through hole, arc flabellum, face of going for a drive, sliding wind face, lee face is 3 separately, the quantity of end face baffle plate, end face counterbore is the quantity of 2, six rib through holes is separately 1; In motive power wheel finished part, end face baffle plate is positioned at the axial two ends of part, and six rib through holes are positioned at the shaft core position of part, and six rib through hole two ends are connected with end face counterbore; Arc flabellum is around six rib through hole axle center annular arrays, and each arc flabellum comprises the face of going for a drive, lee face two constituent elements; Smooth connection between last arc flabellum and a rear arc flabellum, defines the sliding wind face between arc flabellum; The blank position of buffering through hole between two sliding wind faces and six rib through holes;

(3) the junction box seat part in described power plant module, its structure comprises cassette holder outer wall, inclined-plane flange, flange screw, flange top surface, cassette holder inner chamber, cassette holder mesopore, box angle screw, box angle through hole eight constituent elements, wherein, the quantity of flange screw, box angle screw, box angle through hole is 4 separately, and the quantity of other constituent element is 1 separately; In junction box seat finished part, flanged nut pore size distribution is in the corner of inclined-plane flange, and flange screw shaft axis is mutually vertical with cassette holder inner chamber bottom surface; Box angle screw, box angle through hole are distributed in the corner of cassette holder inner chamber bottom surface, form internal and external layer position corresponding relation between box angle screw and box angle through hole; Cassette holder mesopore is positioned at cassette holder inner chamber bottom surface center position, and the angle between flange top surface and cassette holder inner chamber bottom surface is between 20 ° to 40 °;

(4) the patch bay part in described power plant module, its structure comprises arch hole at the bottom of coil holder matrix, frame, frame angle counter sink, top of support, copper bar groove, fixing threaded hole, terminal screw seven constituent elements, wherein, the quantity of terminal screw is 9, the quantity of frame angle counter sink is 4, the quantity of copper bar groove, fixing threaded hole is 3 separately, and the quantity of other constituent element is 1 separately; In patch bay finished part, frame angle counter sink is distributed in coil holder matrix corner, and frame angle counter sink shaft axis is mutually vertical with top of support; At the bottom of frame, arch hole is arranged on coil holder base bottom, and arch hole shaft axis at the bottom of frame and top of support vertical center line are parallel to each other; Copper bar groove is in top of support parallel arranged, and each copper bar groove bottom arranges a fixing threaded hole and three terminal screws;

(5) the connecting rod part in described power plant module, its structure comprises angle flange, flange hole, pole socket inner chamber, connecting rod bores, connection rod tube, pipe end planomural, connects pole socket seven constituent elements; Wherein, the quantity of pipe end planomural is 6, and the quantity of flange hole is 4, and the quantity of other constituent element is 1 separately; In connecting rod finished part, angle flange, connection pole socket, connection rod tube, pipe end planomural then connect successively from front, and pipe end planomural is around connecting rod tubular axis heart annular array; Flange hole is distributed in angle flange corner, and the angle between angle flange top surface and pole socket inner chamber bottom surface is between 20 ° to 40 °;

(6) described main control module, be made up of base, accumulation of energy light-controller, line concentration bar, tightening nut, hoop pressure pad circle, snap close bundle circle, inner cone nut, lamp socket, lamp socket stop pin, electro-optical source, lighting lead, power supply output line 12 kinds of parts, wherein, the quantity of tightening nut part, hoop pressure gasket features, snap close bundle circle part, inner cone nut part is 40 separately, the quantity of power supply output line part is 4, the quantity of lighting lead part is 2, and the quantity of other part is 1 separately;

(7) the accumulation of energy light-controller part in described main control module, its structure comprises front boss, boss handgrip groove, transphasor, light modulation cap, boss end face, switch deep gouge, switch shifting block, rear platform, step round platform, outer rank, scala media, interior rank, wire jack, wiring terminal, central through bore, Cock screw 16 constituent elements, wherein, the quantity of wire jack is 120, the quantity of Cock screw is 60, the quantity of boss handgrip groove is 5, the quantity of wiring terminal is 4, and the quantity of other constituent element is 1 separately; In accumulation of energy light-controller finished part, front boss and rear platform compact siro spinning technology, both sides flush; Boss handgrip groove is in front boss front surface parallel arranged, and light modulation cap is positioned at front boss center handgrip groove recess, and light modulation cap inner chamber arranges transphasor; Step round platform is positioned at rear platform end face, and central through bore is positioned at step round platform center, and outer rank, scala media, interior rank are at step round platform end face from outside to inside, by high and low successively around central through bore axle center circular row, each terrace all arranges 40 wire jacks; Wiring terminal is around central through bore shaft axis annular array around central through bore, and wiring terminal shaft axis and central through bore shaft axis are parallel to each other;

(8) the line concentration bar part in described main control module, its structure comprises lower end insertion tube, main cylinder, connecting cylinder, nozzle screw thread, inner chamber ring wall, stop planomural, limited ring, back cavity, top screw thread, lock pin aperture, 11, masthead face constituent element, wherein, the quantity of stop planomural is 240, the quantity of connecting cylinder, nozzle screw thread, inner chamber ring wall, limited ring, back cavity is 40 separately, and the quantity of other constituent element is 1; In line concentration bar finished part, lower end insertion tube, main cylinder, top screw thread are contacted connection from bottom to top successively, lock pin aperture axially runs through top screw thread, connecting cylinder spirals from bottom to top in position, main cylinder appearance middle and upper part equiblibrium mass distribution, each connecting cylinder includes six stop planomurals and a nozzle screw thread, an inner chamber ring wall, limited ring, a back cavity, and connecting cylinder shaft axis is mutually vertical with main cylinder shaft axis; Nozzle screw thread is positioned at connecting cylinder outer end position, and inner chamber ring wall, limited ring, back cavity from outer to inner connect successively at connecting cylinder inner chamber, and stop planomural is inner around connecting cylinder shaft axis annular array at inner chamber ring wall;

(9) the inner cone nut part in described main control module, its structure comprises external annulus, external drum wall, external annulus, ear end face, internal thread, internal ring wall, internal cone wall, nut mouth, front-end face nine constituent elements, wherein, the quantity of outer planomural is 6, and the quantity of other constituent element is 1 separately; In inner cone nut finished part, external drum wall, external annulus are then arranged in series from front in part appearance, and internal thread, internal ring wall, internal cone wall, nut mouth are arranged in series from rear and front successively at inner cavity of component; Outer planomural is positioned at the axial centre position of external drum wall appearance, and around external drum wall axle center annular array;

(10) the lamp socket part in described main control module, its structure comprises shell mesopore, shell, shell internal thread, inner pallet, positive pole terminal, pallet screw, lock pin aperture, lamp cover, negative pole terminal, positive pole top flat ten constituent elements, wherein, the quantity of pallet screw is 3, the quantity of positive pole terminal, negative pole terminal is 2 separately, and the quantity of other constituent element is 1 separately; In lamp socket finished part, positive pole top flat is placed in the center position of inner pallet inner chamber end face by the tightening of positive pole terminal, and lamp is enclosed within the tightening lower suspension of negative pole terminal above positive pole top flat, is not in contact with each other between lamp cover and positive pole top flat; Inner pallet hangs upside down bottom surface, chamber in the enclosure by the tightening of pallet screw, and shell shaft axis, lamp cover shaft axis, inner pallet shaft axis overlap;

(11) in molding product, the motive power wheel part of described power plant module, under the cooperation of axle end caps part, resilience washer part, symmetry is fixed on the two ends of rotor of major axis generator part, and two motive power wheel parts turn to identical; Described patch bay part, under the tightening of coil holder screw element, is fixed on the cassette holder inner chamber bottom surface of junction box seat part, then passes through the tightening of cassette holder screw element, and junction box seat part is connected with major axis generator part; Described connection copper bar part, under the cooperation tightening of retaining washer part, set screw part, is fixed in patch bay part copper bar groove; Described connecting rod part, under the tightening of connecting rod screw part, connect by angle flange is corresponding with junction box seat component with inclined plane flange, connecting rod tube axis line and junction box seat part shaft axis overlap; Described power lead part, one end, under the cooperation tightening of terminal gasket features, wiring terminal part, terminal screw element, and is connected copper bar part and is connected, and the other end, by connecting rod part connecting rod bores, is connected with main control module;

(12) in molding product, the accumulation of energy light-controller part of described main control module, embed in base part inner chamber, accumulation of energy light-controller Central of the parts through hole shaft axis and base part shaft axis overlap; Described line concentration bar part, its lower end insertion tube gos deep into base part inside, and its top screw thread is connected with lamp socket part; Described inner cone nut part, inside wrap up in snap close bundle circle part, hoop pressure gasket features, screw in line concentration bar part nozzle screw thread, snap close bundle circle part end face is contacted with inner cone nut part internal cone wall, binds round and press gasket features end face to contact with line concentration bar part connecting cylinder nozzle end face; Described lamp socket part, be connected electro-optical source part, its shell internal thread is screwed in the screw thread of line concentration bar part top, and by lamp socket stop pin part to the embedding of lamp socket part lock pin aperture, the orientation between lamp socket part and line concentration bar part is remained unchanged; Described lighting lead part, one end connects lamp socket part, and the other end connects accumulation of energy light-controller part, makes mutual conductance current between electro-optical source part and accumulation of energy light-controller part;

(13) in molding product, the quantity of described power plant module is 40, and the quantity of described main control module is 1, and each power plant module is corresponding with a connecting cylinder in main control module line concentration bar part to be assembled; Wherein, power plant module connecting rod part arranges one end of pipe end planomural, under the cooperation tightening of main control module tightening nut part, hoop pressure gasket features, snap close bundle circle part, inner cone nut part, firmly be deep in the corresponding inner chamber ring wall of line concentration bar part, connecting rod part pipe end planomural and line concentration bar part stop planomural close contact; One end of power plant module power lead part, after successively by connecting rod part connecting rod bores, line concentration bar part back cavity, be inserted in accumulation of energy light-controller part wire jack again, form the triple functions that the wide colleeting comb of accumulation of energy light-controller part, output current and accumulation of energy are inducing luminous.

2. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: the motive power wheel part in described power plant module, uses any one material in engineering plastics, stainless steel, carbon steel, aluminum alloy four kinds of materials to manufacture; Manufacturing in the motive power wheel finished part formed, end face baffle plate outermost point form ratio between circular diameter value and whole part maximum height value, between 1:1.9 to 1:2.2; End face counter bore hole diameters value and end face baffle plate outermost point form ratio between circular diameter value, between 1:11 to 1:14; Ratio between end face counterbore depth value and whole part maximum height value, between 1:29 to 1:32.

3. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: the junction box seat part in described power plant module, uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy three kinds of materials to manufacture; Manufacturing in the junction box seat finished part formed, the ratio between whole part maximum length value and Extreme breadth value, between 1:0.9 to 1:1.1; Ratio between maximum height value and maximum length value, between 1:2.1 to 1:2.3; Ratio between cassette holder median pore diameter value and whole part maximum length value, between 1:5.1 to 1:5.4.

4. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: the patch bay part in described power plant module, uses the manufacture of any one material in bakelite, Thermoset engineering plastics two kinds of materials; Manufacturing in the patch bay finished part formed, the ratio between whole part maximum length value and Extreme breadth value, between 1:0.9 to 1:1.1; Ratio between maximum height value and maximum length value, between 1:2.8 to 1:3.1; The ratio between bore dia value and whole part Extreme breadth value is encircleed, between 1:2.4 to 1:2.6 at the bottom of frame; Ratio between copper bar groove width angle value and whole part maximum length value, between 1:4.9 to 1:5.1, the ratio between copper bar groove depth angle value and whole part maximum height value, between 1:7.8 to 1:8.0.

5. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: the connecting rod part in described power plant module, uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy, engineering plastics four kinds of materials to manufacture; Manufacturing in the connecting rod finished part formed, the ratio between whole part Extreme breadth value and maximum length value, between 1:18 to 1:23; Connect the ratio between rod tube external diameter value and whole part Extreme breadth value, between 1:1.7 to 1:2.0; Connect the ratio between pole socket height value and whole part maximum length value, between 1:66 to 1:72.

6. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: the accumulation of energy light-controller part in described main control module, and its front boss, rear platform, step round platform all use the engineering plastics manufacture of identical insulation; Manufacturing in the accumulation of energy light-controller finished part formed, the ratio between whole part Extreme breadth value and maximum length value, between 1:1.3 to 1:1.6; Ratio between maximum height value and maximum length value, between 1:2.3 to 1:2.5; Ratio between rear platform height value and front boss height value, between 1:1.5 to 1:1.7; Ratio between step frustum cone height value and rear platform height value, between 1:2.9 to 1:3.1; Ratio between step round platform maximum outside diameter value and rear platform width value is 1:1.

7. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: the line concentration bar part in described main control module, uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy, engineering plastics four kinds of materials to manufacture; Manufacturing in the line concentration bar finished part formed, the ratio between whole part maximum outside diameter value and maximum height value, between 1:10 to 1:10; Ratio between lower end insertion tube external diameter value and main cylinder external diameter value, between 1:1.05 to 1:1.20; Ratio between lower end insertion tube length value and main tube length angle value, between 1:11 to 1:14; Connecting cylinder external diameter value and and main cylinder external diameter value between ratio, between 1:6.5 to 1:6.8; Ratio between connecting cylinder length value and main tube length angle value, between 1:200 to 1:210.

8. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: the inner cone nut part in described main control module, uses any one material in carbon steel, Alloy Constructional Steel, aluminum alloy, engineering plastics four kinds of materials to manufacture; Manufacturing in the inner cone nut finished part formed, the ratio between whole part maximum length value and maximum outside diameter value, between 1:1.9 to 1:2.1; Ratio between nut mouth diameter value and whole part maximum outside diameter value, between 1:1.4 to 1:1.5; Ratio between external drum wall width value and whole part maximum length value, between 1:1.2 to 1:1.4; Internal cone wall taper value is between 40 ° to 50 °.

9. the centralization type wind electricity generating system that spirals according to claim 1, it is characterized in that: the lamp socket part in described main control module, its shell uses any one material in carbon steel, stainless steel, aluminum alloy, engineering plastics four kinds of materials to manufacture, and its inner pallet uses any one material in the bakelite of insulation, engineering plastics two kinds of materials to manufacture; Manufacturing in the lamp socket finished part formed, the ratio between whole part maximum height value and maximum outside diameter value, between 1:4.7 to 1:5.0; Ratio between inner pallet external diameter value and envelope outer diameter value, between 1:1.2 to 1:1.4; Ratio between inner pallet height value and shell tonal value, between 1:1.7 to 1:2.0.

10. the centralization type wind electricity generating system that spirals according to claim 1, is characterized in that: to be combined closely the molding product formed by power plant module and main control module, be mainly used in round-the-clock wind energy power of trooping; In use, when natural air stream flows through power plant module, natural wind energy is converted into and samely turns to the mechanical energy pivoted product by the motive power wheel part being placed in major axis generator part two ends, and changes mechanical energy is electric energy again by major axis generator part; Accumulation of energy light-controller part in main control module, to trooping, the numerous electric currents produced collect rectification process, outwards exported by most of electric current, stored by sub-fraction electric current by power supply output line part; When transphasor perception extraneous light is dimmed, the power supply that automatic activation accumulation of energy light-controller inside parts stores, makes the electro-optical source part being placed in lamp socket part end face luminous; When transphasor perception extraneous light brightens, automatically cut off again the power supply leading to electro-optical source part, electro-optical source is extinguished; In addition, product also can manually mode of operation, forces the power supply switched on or off towards electro-optical source part, makes product illumination meet user intention, thus forms that whole product is round-the-clock, green non-pollution, the practical application effect of powerful generating of trooping.