CN104976019A - Hung lantern type wind power generation device - Google Patents

Abstract

The invention relates to a power generation device, and particularly relates to a Chinese hung lantern type power generation device which can efficiently use natural wind energy and has double efficiencies of generating power and emitting light. The Chinese hung lantern type power generation device consists of a hanging base module, a power module and an electric control module and comprises thirty parts such as a tassel, a hanger, a chassis, a pin roller, a repeated wall sleeve dish, a speed-changing tooth dish, a power fan blade, a tightening sleeve dish, a manual switch, a photo sensor, a reversed cone pulley, a generator, a light electric controller, an annular lamp base and an energy-saving bulb, the defects that a known wind power generator has certain surface area, can not emit light automatically and do not have national features are overcome, the wind power generation device which has the characteristics of all weather operations, all wind direction operation, wide application range and strong national features is formed, the hung lantern type wind power generation device can be widely applicable to enterprises, schools, offices, dwellings, barracks and the like; in addition, the hung lantern type wind power generation device has the advantages of being reliable in operation, quiet in working environment, pollution-free, environmentally friendly and energy-saving, the market space is vast, and the hung lantern type wind power generation device has extremely high economy added value and social use value.

Description

Hanging lamp cage wind electricity generating system

Technical field

The present invention relates to a kind of electricity generating device, especially relate to a kind of can the natural wind energy of efficiency utilization and there is generating, the Chinese style of luminous dual usefulness hangs lantern electricity generating device.

Background technique

Electricity generating device, mainly refers to the machinery that outside energy can be converted into electric energy; Wind electricity generating system, refers to the device that natural wind energy can be converted into electric energy.Current known wind electricity generating system, although have vertical, tower, wheeled, propeller type point, also can produce electric energy, but all have total defect, as certain surface area need be taken, self-luminescence cannot be realized, there is no national characters, wind energy utilization efficiency is low; I once proposed the patent application (patent No.: ZL 201210021755.0) of " a kind of self-induction wind energy lantern " project in 2012, although this patent has possessed the blank of lantern wind energy power, and without the need to taking surface area, but described in this patent, wind energy module cage moment of volume is too short, hanger hanging pillar is relatively thin, pushing generator rotating shaft efficiently can not rotate and safeguard the stable of equipment of itself, generating efficiency is lower, thus be not really the wind energy power of real meaning, thus have influence on application area and the social use value of device described in this patent.

goal of the invention

Object of the present invention, be the defect overcoming current known power generating equipment, design a kind of not only without the need to taking surface area, but also the natural wind energy of efficiency utilization carrying out the device that generates electricity, and make this device of imparting with better usability, higher economic benefit, larger application area and broader development space, promote the upper level of wind electricity generating system of China National characteristic.

Summary of the invention

The principles of science that the present invention realizes object institute foundation has: air negative pressure effect principle, fluid dynamic principles, gear graduation transmission principle, optoelectronic induction principle etc., these principles to the effect that:

1, air negative pressure effect principle: negative pressure, refers to that the atmospheric pressure of a certain region or local is lower than existing atmospheric pressure (being taken as reference zero).When atmosphere negative pressure appears in a certain region, around namely more anticyclonic air flows to this region, is supplemented this region; When the air flowed reaches certain speed, namely form natural wind energy.

2, fluid dynamic principles: when direction of flow object, the active force be subject to as object is greater than the inertia force of object rest, and object is pushed; The active force be subject to as object is less than the inertia force of object rest, and object keeps static; Object is pushed the speed (size of acceleration) of motion state change, and be directly proportional with active force, the quality with object is inversely proportional to, and the direction of acceleration is identical with the direction of active force; Wherein, the moment of object of which movement is longer, and the active force produced is larger.

3, gear graduation transmission principle: utilize engaging each other between two gear tooths, can transmit power and the speed of movable machinery, the gear wherein carrying out transmission of power is called " driving wheel ", be called for short " main wheel ", the gear accepting transmission of power is called " follower ", is called for short " trailing wheel "; Gear transmission has the features such as compact structure, efficiency is high, the life-span is long, and the diameter ratio (or girth ratio) between gear-driven rotating ratio and gear is inversely proportional to, that is: driving wheel diameter is larger, follower diameter is less, then the rotating speed of follower is faster; Otherwise driving wheel diameter is less, follower diameter is larger, then the rotating speed of follower is slower.

4, optoelectronic induction principle: optoelectronic induction, refers to that material is being exposed to the electric current induction situation produced under particular light condition.The effect of optoelectronic induction can be automatically generate electric current, or On current, or cuts off the conducting of electric current.Photoelectric sensor circuit is often comprising light sensor, photoelectric control device and hand switch three parts.

According to above-mentioned principle, the technical solution adopted in the present invention is:

(1) product is set to hanging seat, power, automatically controlled three modules, wherein, hanging seat module is the basis of whole product, is that the CAS Institute of Physics that other module depends on exists; Power plant module adopts natural wind resource for comprehensive, simultaneously again as the main body outward appearance of whole product; The mechanical energy that electronic control module is used for power plant module to produce is converted to electric energy, and reintegrates distribution to electric energy, most of power delivery is given extraneous, fraction power storage is got up, and when ambient light is according to time dim, it is luminous that induction activates product; When ambient light illumination is bright, automatically cuts off product luminous power, make product be in power save mode.

(2) in hanging seat module, based on hanger part, then auspicious cloud spike is set above hanger part, tassel network, tassel are set below hanger part, make whole product have a beautiful outward appearance, simultaneously for flow direction and the size of perception natural gas flow.

(3) in hanging seat module hanger part, hanger inside parts structure is designed to three layers of form of going forward one by one, the bottom is for the chassis of the generator and power plant module that carry electronic control module; Middle level is for placing annular lamp holder and the photoelectric control device of electronic control module; Upper strata is used for the bearings parts of nested power plant module, and power plant module main body is not rotated around hanger part axle center smoothness with hindering; As for the hanging column on hanger part upper strata and four-way link, be then that the CAS Institute of Physics that whole product hangs connection extraneous exists.

(4) at the bottom of hanging seat module hanger part, motor base is set, for installing generator; Chassis ring wall is set, for connecting lantern tassel network; Chassis jag is set, for reducing hanger pts wt to greatest extent.

(5) in power plant module, design chassis, roller, multiple wall cover plate, Variable speed fluted disc, power fan blade, tighten 11 kinds of parts such as cover plate, wherein, power fan blade is the body element of power plant module, multiple wall cover plate is that the CAS Institute of Physics of stationary power fan blade lower end exists, and tightening cover plate is that the CAS Institute of Physics of stationary power fan blade upper end exists.

(6), in power plant module, chassis, roller, multiple wall cover plate three parts are cooperatively interacted, to form the tapered roller bearing of complete set.

(7), at the multiple wall cover plate outer wall of power plant module, 40 screws are set, to be connected and fixed the lower end of power fan blade;

(8) in the multiple wall cover plate scala media card of power plant module, six screws are set, to be connected and fixed Variable speed fluted disc, make multiple wall cover plate part become a part in whole product commutation gear.

(9) inside the alligator of power plant module Variable speed fluted disc, be uniformly distributed six through holes around Variable speed fluted disc axle center, be fixed to for the effect by screw in multiple wall cover plate part.

(10) in power plant module power fan blade, except arranging pocket and cut the basic wing of natural wind energy, then at the basic wing arranged outside expansion wing, extend the moment of power fan blade, cut more natural wind energy with pocket, the generating for generator provides enough power.

(11) in electronic control module, based on generator, photoelectric control device is core, supportingly arranges hand switch, light sensor, oppositely zero device such as cone pulley, annular lamp holder, forms generating power transmission, the inducing luminous device of complete set.

(12) be arranged between 16-20 by the alligator quantity of reverse for electronic control module cone pulley, make it to engage with the perfection of power plant module Variable speed fluted disc, form the commutation gear of complete set, the high-efficiency operation for generator provides enough power and rotating speed.

(13) electronic control module energy-saving bulb is peripheral around being arranged on hanger middle level, form annular light, the light that product is sent is bright sparkling and crystal-clear, evenly soft.

(14) electronic control module light sensor is arranged on the backlight place, bottom of hanger part, makes light sensor function not by the impact of product self light, can normally play a role.

(15) in light sensor symmetrical position, a hand switch is set, controls, regulate the light and shade of light to enable product according to user intention neatly.

By the enforcement of above-mentioned a series of technological scheme, the wind electricity generating system that the present invention is formed, compared with current known power generating equipment, can obtain following beneficial effect:

1, energy-conserving and environment-protective--product generation driving force is provided by reproducible natural wind energy completely, and without the need to using outside any fuel, operating cost is cheap, energy-conserving and environment-protective.

2, there is not sunshine duration restriction round the clock in all weather operations--product work, whole day twenty four hours all can generate electricity, and generating efficiency is high.

3, full blast is to running--and product running does not have wind direction lattice to prohibit problem, and from the natural wind-force in any direction, all can be adopted utilization by product, gentle breeze can start, and work wind speed is between 0.5 meter to 8 meters per second per second.

4, reliability is strong--and product structure is simple, and firmly compact between each component, product operates steadily, and protective ability is strong, reliable operation, failure rate is low.

5, applied range--product almost adapts to any building and hangs use, also has automatic illumination effect at night, also can strengthen celebrating atmosphere in red-letter day while generating, be suitable for hotel, office, school, enterprise, local-style dwelling houses, barracks etc. and use needs, applied range.

6, there are national characters--product, based on large red lantern, sets up the gadgets such as auspicious cloud, tassel network, tassel, handsome in appearance generous, is rich in China National characteristic.

In addition, product of the present invention in addition simple to operate, working environment is quiet, noiseless, the environmental protection advantage such as pollution-free, the market space is wide, has high Economic Value Added and social use value.

Below, in conjunction with an embodiment and accompanying drawing thereof, 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 hanging seat module part exemplary plot.

Fig. 3 is one embodiment of the invention hanger design of part partial cutaway exemplary plot.

Fig. 4 is one embodiment of the invention power plant module part exemplary plot.

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

Fig. 6 is the multiple wall cover plate design of part partial cutaway exemplary plot of one embodiment of the invention.

Fig. 7 is one embodiment of the invention Variable speed fluted disc design of part exemplary plot.

Fig. 8 is one embodiment of the invention power winged petiole design of part exemplary plot.

Fig. 9 is one embodiment of the invention electronic control module part exemplary plot.

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

Figure 11 is one embodiment of the invention Product Assembly exemplary plot.

Figure 12 is one embodiment of the invention molding product outward appearance exemplary plot.

Embodiment

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

In Fig. 1, embodiment's product is by hanging seat, power, automatically controlled three modules composition, each module is made up of several different part again separately, wherein: hanging seat module is by tassel, tether, tassel network, hanger, auspicious cloud sheets five kinds of part compositions, power plant module is by chassis, roller, lower tight screw, lower tight packing ring, multiple wall cover plate, Variable speed fluted disc, in tight screw, power fan blade, tighten cover plate, tighten screw, ball bearing 11 kinds of part compositions, electronic control module is by hand switch, light sensor, reverse cone pulley, pivot pin, generator, dynamoelectric machine grommet, motor screw, switch wire, light sensation wire, photoelectric control device, electricity output line, annular lamp holder, energy-saving bulb, power lead 14 kinds of part compositions.

In embodiment, often kind of part all has forms different separately, and the form of each part belonging to hanging seat module as shown in Figure 2.

In Fig. 2, according to the tactic part of label successively: tassel part (1), tether part (2), tassel network part (3), hanger part (4), auspicious cloud sheets part (5), the quantity of often kind of part is 1 separately.

In hanging seat module, what structure characteristic was unique is hanger part (4), and this design of part as shown in Figure 3.

In Fig. 3, hanger part (4) structure comprises motor base (6), tassel link (7), chassis (8), chassis ring wall (9), chassis spike (10), chassis jag (11), base screw (12), chassis hanging column (13), mid-game (14), mid-game mesopore (15), mid-game hanging column (16), upper dish (17), upper disk ring wall (18), upper dish mesopore (19), upper dish hanging column (20), four-way link (21) 16 constituent elements, wherein, the quantity of chassis jag (11) is 14, base screw (12), chassis hanging column (13), mid-game hanging column (16), the quantity of upper dish hanging column (20) is 4 separately, the quantity of other constituent element is 1 separately, in hanger part (4) finished product, tassel link (7) is positioned at motor base (6) bottom surface center position, and motor base (6) is positioned at chassis (8) end face center position, and chassis jag (11) is around chassis (8) center annular array, chassis ring wall (9) one end and chassis (8) edge conjunction, the other end is connected with chassis spike (10) base, chassis hanging column (13) one end is connected with chassis (8) end face, and the other end is connected with mid-game (14) bottom edge, and 4 chassis hanging columns (13) are around mid-game mesopore (15) shaft axis annular array, mid-game hanging column (16) one end is connected with mid-game (14) end face, and the other end is connected with upper dish (17) bottom edge, and 4 mid-game hanging columns (16) are around mid-game mesopore (15) shaft axis annular array, upper dish hanging column (20) one end is connected with upper dish (17) end face by upper disk ring wall (18), and the other end is connected with four-way link (21) bottom, and all upper dish hanging columns (20) are around upper dish mesopore (19) shaft axis annular array.

In implementation process, hanger part (4) uses any one material in Alloy Constructional Steel, aluminum alloy, engineering plastics to manufacture; Manufacturing in hanger part (4) finished product formed, the ratio between chassis spike (10) circumscribed circle diameter value and whole hanger part (4) maximum height value, between 1:2.4 to 1:3.0.

Each part form belonging to power plant module as shown in Figure 4.

In Fig. 4, according to the tactic part of label successively: chassis part (22), roller part (23), lower tight screw element (24), lower tight gasket features (25), multiple wall cover plate part (26), Variable speed fluted disc part (27), in tight screw element (28), power fan blade part (29), tighten cover plate part (30), tighten screw element (31), ball bearing part (32), wherein, lower tight screw element (24), the quantity of lower tight gasket features (25) is 40 separately, roller part (23), power fan blade part (29), the quantity tightening screw element (31) is 20 separately, in the quantity of tight screw element (28) be 6, the quantity of other part is 1 separately.

In power plant module, what morphostructure was more special has chassis part (22), multiple wall cover plate part (26), Variable speed fluted disc part (27) and power fan blade part (29).The structure of chassis part (22) as shown in Figure 5.

In Fig. 5, chassis part (22) structure comprises planar base surface (33), flange (34), outer upright wall (35), arc end face (36), tiltedly inwall (37) five constituent elements, and the quantity of each constituent element is 1 separately; In chassis part (22) finished product, flange (34) is positioned at outer upright wall (35) bottom, arc end face (36) is positioned at outer upright wall (35) end face, oblique inwall (37) is positioned at outer upright wall (35) inner side, angle between oblique inwall (37) and outer upright wall (35) is between 8 ° to 10 °, and the angle between outer upright wall (35) and flange (34) bottom surface is 90 °.

In implementation process, chassis part (22) uses alloy structure steel making; Manufacturing in chassis part (22) finished product formed, the ratio between whole part maximum height value and maximum outside diameter value, between 1:5.2 to 1:5.5; Ratio between outer upright wall (35) external diameter value and flange (34) external diameter value, between 1:1.1.05 to 1:1.10; Ratio between flange (34) one-tenth-value thickness 1/10 and whole chassis part (22) maximum height value, between 1:4.4 to 1:4.8.

Multiple wall cover plate part (26) structure as shown in Figure 6.

In Fig. 6, multiple wall cover plate part (26) structure comprises inwall (38), holder prominent (39), inwall inclined-plane (40), outer wall (41), winged petiole screw (42), middle terrace (43), fluted disc screw (44) seven constituent elements, wherein, the quantity of winged petiole screw (42) is 40, the quantity of fluted disc screw (44) is 6, and the quantity of other constituent element is 1 separately; In multiple wall cover plate part (26) finished product, holder prominent (39) is positioned at the lower end of inwall inclined-plane (40), and holder is prominent round and smooth between (39) with inwall inclined-plane (40) to be connected; Winged petiole screw (42) is at outer wall (41) middle part annular array, and winged petiole screw (42) shaft axis is mutually vertical with whole multiple wall cover plate part (26) shaft axis; Fluted disc screw (44) is at middle terrace (43) annular array, and fluted disc screw (44) shaft axis and whole multiple wall cover plate part (26) shaft axis are parallel to each other.

In implementation process, multiple wall cover plate part (26) uses the manufacture of alloy structure Steel material; Manufacturing in multiple wall cover plate part (26) finished product formed, the ratio between whole part maximum height value and maximum diameter value, between 1:3.5 to 1:3.9; Ratio between inwall (38) inner diameter values and outer wall (41) external diameter value, between 1:1.4 to 1:1.8; Ratio between middle terrace (43) height value and whole multiple wall cover plate part (26) maximum height value, between 1:1.2 to 1:1.5.

Variable speed fluted disc part (27) structure as shown in Figure 7.

In Fig. 7, Variable speed fluted disc part (27) structure comprises wheel disc (45), alligator (46), fixed via (47) three constituent elements, and wherein, the quantity of alligator (45) is between 76 to 92, the quantity of fixed via (47) is 6, and the quantity of wheel disc (45) is 1; In Variable speed fluted disc part (27) finished product, alligator (46) is around wheel disc (45) center annular array outside wheel disc (45) end face, and alligator (46) center line intersects with wheel disc (45) shaft axis; Fixed via (47) in wheel disc (45) inside top surface around wheel disc (45) center annular array, fixed via (47) shaft axis and wheel disc (45) axis parallel.

In implementation process, Variable speed fluted disc part (27) uses the manufacture of alloy structure Steel material; Manufacturing in Variable speed fluted disc part (27) finished product formed, the ratio between whole part maximum height value and maximum diameter value, between 1:16 to 1:18; Ratio between wheel disc (45) inner diameter values and wheel disc (45) external diameter value, between 1:1.4 to 1:1.7; Ratio between wheel disc (45) one-tenth-value thickness 1/10 and whole Variable speed fluted disc part (27) maximum height value, between 1:2.6 to 1:3.0.

Power fan blade part (29) structure as shown in Figure 8.

In Fig. 8, power fan blade part (29) structure comprises bottom wall (48), fixing threaded hole (49), top planomural (50), positioning through hole (51), the basic wing (52), the expansion wing (53) six constituent elements, wherein, the quantity of fixing threaded hole (49) is 2, and the quantity of other constituent element is 1 separately; In power fan blade part (29) finished product, bottom wall (48) is positioned at the lower end of the basic wing (52), and top planomural (50) is positioned at the upper end of the basic wing (52), top planomural (50) and the basic wing (52) smooth connection; Fixing threaded hole (49) is positioned at bottom wall (48) middle part, and the expansion wing (53) is positioned at the outside of the basic wing (52), the expansion wing (53) and the basic wing (52) smooth connection.

In implementation process, power fan blade part (29) uses translucent red engineering plastic materials manufacture; Manufacturing in power fan blade part (29) finished product formed, the ratio between whole part Extreme breadth value and maximum height value, between 1:1.1 to 1:1.3; Ratio between top planomural (50) minimum width value and bottom wall (48) width value, between 1:1.8 to 1:2.1; Ratio between the expansion wing (53) chord length value and the basic wing (52) chord length value, between 1:1.1 to 1:1.3.

Each part form belonging to electronic control module as shown in Figure 9.

In Fig. 9, according to the tactic part of label successively: hand switch part (54), light sensor part (55), reverse cone pulley part (56), pivot pin part (57), generator part (58), dynamoelectric machine grommet part (59), motor screw part (60), switch wire part (61), light sensation wire part (62), photoelectric control device part (63), electricity output line part (64), annular lamp holder part (65), energy-saving bulb part (66), power lead part (67), wherein, the quantity of energy-saving bulb part (66) is 6, dynamoelectric machine grommet part (59), the quantity of motor screw part (60) is 4 separately, the quantity of other part is respectively 1.

In electronic control module, structure comparison uniqueness be reverse cone pulley part (56), this design of part is as shown in Figure 10.

In Figure 10, reverse cone pulley part (56) structure comprises front-end face (68), axis hole (69), shaft extension (70), alligator (71), pin groove (72), ear end face (73) six constituent elements, wherein, the quantity of alligator (71) is between 16 to 20, and the quantity of other constituent element is 1 separately; In reverse cone pulley part (56) finished product, pin groove (72) is arranged on axis hole (69) inwall, and pin groove (72) shaft axis and axis hole (69) shaft axis are parallel to each other; Shaft extension (70) surface is connected with front-end face (68) by chamfering, and shaft extension (70) shaft axis is mutually vertical with front-end face (68).

In implementation process, reverse cone pulley part (56) uses the manufacture of alloy structure Steel material; Manufacturing in the reverse cone pulley finished part formed, elongate axis angle value and the ratio oppositely between cone pulley part maximum length value, between 1:4.5 to 1:4.8; Ratio between reverse cone pulley part maximum length value and alligator maximum outside diameter value, between 1:1.2 to 1:1.5; Ratio between alligator minimum outer diameter value and maximum outside diameter value, between 1:1.1 to 1:1.2.

In embodiment, after part each needed for product has all manufactured or purchased, can module be namely unit, coordinate according to corresponding position relation, form complete molding product.Assembly relation between each part of embodiment's molding product, as shown in figure 11.

In Figure 11, the tassel part (1) of hanging seat module, by the connection of tether part (2), is suspended on the below of hanger part (4) tassel link; Tassel network part (3) is placed in the periphery of hanger part (4) chassis ring wall, and tether part (2) is enclosed in central authorities; Auspicious cloud sheets part (5) is placed in the periphery of the upper disk ring wall of hanger part (4), corresponding with the chassis spike of hanger part (4).

In Figure 11, power fan blade part (29) the top planomural of power plant module, by tightening the tightening of screw element (31), and tightens cover plate part (30) compact siro spinning technology; The bottom wall of power fan blade part (29) by the superposition tightening of lower tight gasket features (25), lower tight screw element (24), with multiple wall cover plate part (26) outer upright wall compact siro spinning technology; The dynamic fan blade part (29) of institute, around multiple wall cover plate part (26) shaft axis annular array, forms a cage body.

In Figure 11, the roller part (23) of power plant module is placed in the centre of chassis part (22) and multiple wall cover plate part (26), around multiple wall cover plate part (26) shaft axis annular array; Multiple wall cover plate part (26), roller part (23), chassis part (22) are worked in coordination, and form complete tapered roller bearing parts.

In Figure 11, the tightening of tight screw element (28) during the Variable speed fluted disc part (27) of power plant module passes through, is fixed in multiple wall cover plate part (26) on terrace, and Variable speed fluted disc part (27) shaft axis overlaps with multiple wall cover plate part (26) shaft axis.

In Figure 11, fastening by pivot pin part (57) of reverse cone pulley part (56), is connected in generator part (58) rotating shaft; Energy-saving bulb part (66) is evenly distributed on annular lamp holder part (65), and around annular lamp holder part (65) shaft axis annular array.

In addition, in the invisible part of Figure 11, the also annexation of the under cover each wire part of electronic control module, wherein, one end of switch wire part (61) is connected with photoelectric control device part (63), and the other end of switch wire part (61) is connected with hand switch part (54); One end of light sensation wire part (62) is connected with photoelectric control device part (63), and the other end of light sensation wire part (62) is connected with light sensor part (55); One end of power lead part (67) is connected with engine part (58), and the other end of power lead part (67) is connected with photoelectric control device part (63); One end of electricity output line part (64) is connected with photoelectric control device part (63), and the other end of electric output line part (64) is connected with extraneous electric consumer.

Assembly relation between each module in molding product, as shown in Figure 11, Figure 12.

In Figure 11, the chassis part (22) of power plant module, is placed in the chassis face of hanging seat module hanger part (4), and power plant module chassis part (22) shaft axis overlaps with hanging seat module hanger part (4) shaft axis.

In Figure 11, the auspicious cloud spike part (5) of hanging seat module, cover on power plant module and tighten cover plate part (30) top, hanging seat module auspicious cloud spike part (5) shaft axis tightens cover plate part (30) shaft axis with power plant module and overlaps.

In Figure 11, the generator part (58) of electronic control module, by the superposition tightening of same module dynamoelectric machine grommet part (59), motor screw part (60), be fixed on the motor base of hanging seat module hanger part (4), and the reverse cone pulley part (56) of electronic control module and the Variable speed fluted disc part (27) of power plant module are cooperatively interacted, form mechanokinetic commutation gear in product; Wherein, the gear ratio formed is between 1:8 to 1:10, that is: Variable speed fluted disc part (27) often rotates 1 week, and reverse cone pulley part (56) namely rotates 8 weeks to 10 weeks.

In Figure 11, the annular lamp holder part (65) of electronic control module, is placed in the mid-game end face of hanging seat module hanger part (4); The photoelectric control device part (63) of electronic control module, is placed in the central authorities of annular lamp holder part (65), and photoelectric control device part (63) shaft axis overlaps with hanging seat module hanger part (4) shaft axis.

In Figure 12, the hand switch part (54) of electronic control module, light sensor part (55), all be placed in the undersurface of bottom disc of hanging seat module hanger part (4), hand switch part (54) and light sensor part (55) form symmetrical general layout at hanging seat module hanger part (4) undersurface of bottom disc.

By the molding product that hanging seat module, power plant module, electronic control module complement each other to form, its outward appearance as shown in figure 12.

In Figure 12, molding product is self-generating outwardly output current under the effect of natural wind power, and induction ambient light, according to bright-dark degree, realizes lighting function selectively automatically; Product in use, when outside natural gas flow flows through around product, propulsion power module rotates around hanging seat module hanger part (4), produces mechanical energy, the mechanical energy that power plant module produces, by the transmission of commutation gear, forms the power driving generator part (58) to operate; Generator part (58) electric energy produced that operates enters photoelectric control device part (63) by power lead part (67); Outwards exported by the electric current major part after photoelectric control device part (63) rectification process, form the electricity generate function of product; Fraction electric current stores in photoelectric control device part (63), for the luminescence of energy-saving bulb part (66); When light sensor part (55) perception extraneous light is dimmed, the power supply that automatic activation photoelectric control device part (63) stores, makes to be placed in energy-saving bulb part (66) on annular lamp holder part (65) luminous; When light sensor part (55) perception extraneous light brightens, automatically cut off again the power supply leading to energy-saving bulb part (66), make lights; In addition, user also can by the method for the manual switch part of operation (54), force the power supply of connection or force disconnect energy-saving bulb part (66), product is used and meets user intention completely, thus formed product safety efficient, without the need to fuel, without the need to take surface area and can generate electricity, luminous dual using effect.

Product of the present invention, can according to the concrete shape of each part of actual conditions flexible design and different size in implementation process, and by the organic assembling of various dimension part, forms multiple embodiments, open product in different poses and with different expressions.

Claims (9)

1. a hanging lamp cage wind electricity generating system, is made up of hanging seat, power, automatically controlled three modules, it is characterized in that:

(1) described hanging seat module, be made up of tassel, tether, tassel network, hanger, auspicious cloud sheets five kinds of parts, the quantity of often kind of part is 1 separately;

(2) the hanger part in described hanging seat module, its structure comprises motor base, tassel link, chassis, chassis ring wall, chassis spike, chassis jag, base screw, chassis hanging column, mid-game, mid-game mesopore, mid-game hanging column, upper dish, upper disk ring wall, upper dish mesopore, upper dish hanging column, four-way link 16 constituent elements, wherein, the quantity of chassis jag is 14, the quantity of base screw, chassis hanging column, mid-game hanging column, upper dish hanging column is 4 separately, and the quantity of other constituent element is 1 separately; In hanger finished part, tassel link is positioned at motor base bottom surface center position, and motor base is positioned at chassis face center position, and chassis jag is around center chassis annular array; Ring wall one end, chassis is connected with chassis edge, and the other end is connected with spike base, chassis; Hanging column one end, chassis is connected with chassis face, and the other end is connected with mid-game bottom edge, and 4 chassis hanging columns are around mid-game mesopore shaft axis annular array; Mid-game hanging column one end is connected with mid-game end face, the other end with on to try to get to the heart of a matter face edge conjunction, 4 mid-game hanging columns are around mid-game mesopore shaft axis annular array; Upper dish hanging column one end is connected with upper dish end face by upper disk ring wall, and the other end is connected with four-way link bottom, and all upper dish hanging columns are around upper dish mesopore shaft axis annular array;

(3) described power plant module, by chassis, roller, lower tight screw, lower tight packing ring, multiple wall cover plate, Variable speed fluted disc, in tight screw, power fan blade, tighten cover plate, tighten screw, ball bearing 11 kinds of parts form, wherein, the quantity of lower tight screw element, lower tight gasket features is 40 separately, roller part, power fan blade part, the quantity tightening screw element are 20 separately, in the quantity of tight screw element be 6, the quantity of other part is 1 separately;

(4) the chassis part in described power plant module, its structure comprises planar base surface, flange, outer upright wall, arc end face, tiltedly inwall five constituent elements, and the quantity of each constituent element is 1 separately; In chassis part finished product, flange is positioned at outer upright wall bottom, and arc end face is positioned at outer upright wall end face, and oblique inwall is positioned at inside outer upright wall, and the angle between oblique inwall and outer upright wall is between 8 ° to 10 °, and the angle between outer upright wall and flange bottom surface is 90 °;

(5) the multiple wall cover plate part in described power plant module, its structure comprises inwall, holder is dashed forward, inwall inclined-plane, outer wall, winged petiole screw, middle terrace, fluted disc screw seven constituent elements, and wherein, the quantity of winged petiole screw is 40, the quantity of fluted disc screw is 6, and the quantity of other constituent element is 1 separately; In multiple wall cover plate finished part, the prominent lower end being positioned at inwall inclined-plane of holder, holder is prominent to be connected with round and smooth between inwall inclined-plane; Winged petiole screw annular array in the middle part of outer wall, winged petiole screw shaft axis is mutually vertical with whole multiple wall cover plate part shaft axis; Fluted disc screw is at middle terrace annular array, and fluted disc screw shaft axis and whole multiple wall cover plate part shaft axis are parallel to each other;

(6) the Variable speed fluted disc part in described power plant module, its structure comprises wheel disc, alligator, fixed via three constituent elements, and wherein, the quantity of alligator is between 76 to 92, and the quantity of fixed via is 6, and the quantity of wheel disc is 1; In Variable speed fluted disc finished part, alligator is around wheel disc center annular array outside wheel disc end face, and alligator center line intersects with wheel disc shaft axis; Fixed via at wheel disc end face around wheel disc center annular array, fixed via shaft axis and wheel disc axis parallel;

(7) the power fan blade part in described power plant module, its structure comprises bottom wall, fixing threaded hole, top planomural, positioning through hole, the basic wing, the expansion wing six constituent elements, and wherein, the quantity of fixing threaded hole is 2, and the quantity of other constituent element is 1 separately; In power fan blade finished part, bottom wall is positioned at the lower end of the basic wing, and top planomural is positioned at the upper end of the basic wing, top planomural and basic wing smooth connection; Fixing threaded hole is positioned in the middle part of the wall of bottom, and the expansion wing is positioned at the outside of the basic wing, the expansion wing and basic wing smooth connection;

(8) described electronic control module, be made up of hand switch, light sensor, oppositely cone pulley, pivot pin, generator, dynamoelectric machine grommet, motor screw, switch wire, light sensation wire, photoelectric control device, electric output line, annular lamp holder, energy-saving bulb, power lead 14 kinds of parts, wherein, the quantity of energy-saving bulb part is 6, the quantity of dynamoelectric machine grommet part, motor screw part is 4 separately, and the quantity of other part is respectively 1;

(9) the reverse cone pulley part in described electronic control module, its structure comprises front-end face, axis hole, shaft extension, alligator, pin groove, ear end face six constituent elements, and wherein, the quantity of alligator is between 16 to 20, and the quantity of other constituent element is 1 separately; In reverse cone pulley finished part, pin groove is arranged on shaft hole inner wall, and pin groove shaft axis and axis hole shaft axis are parallel to each other; Shaft extension surface is connected with front-end face by chamfering, and shaft extension shaft axis and front-end face are mutually vertical;

(10), in molding product hanging seat module, described tassel part, by the connection of tether part, is suspended on the below of hanger part tassel link; Described tassel network part is placed in the periphery of hanger part chassis ring wall, and tether part is enclosed in central authorities; Described auspicious cloud sheets part is placed in the periphery of disk ring wall on hanger part, corresponding with hanger part chassis spike;

(11), in molding product power plant module, the top planomural of described power fan blade part, by tightening the tightening of screw element, and tightens cover plate part compact siro spinning technology; The bottom wall of power fan blade part by the superposition tightening of lower tight gasket features, lower tight screw element, with multiple wall cover plate part outer upright wall compact siro spinning technology; The dynamic fan blade part of institute, around multiple wall cover plate part axle center wire loop array, forms a cage body;

(12), in molding product power plant module, described roller part is placed in the centre of chassis part and multiple wall cover plate part, around multiple wall cover plate part axle center wire loop array; Described multiple wall cover plate part, roller part, chassis part are worked in coordination, and form complete tapered roller bearing parts;

(13) in molding product power plant module, the tightening of tight screw element during described Variable speed fluted disc part passes through, is fixed in multiple wall cover plate part on terrace, and Variable speed fluted disc part shaft axis overlaps with multiple wall cover plate part shaft axis;

(14), in molding product electronic control module, one end of described switch wire part is connected with photoelectric control device part, and the other end of switch wire part is connected with hand switch part; One end of described light sensation wire part is connected with photoelectric control device part, and the other end of light sensation wire part is connected with light sensor part; One end of described power lead part is connected with engine part, and the other end of power lead part is connected with photoelectric control device part; One end of described electric output line part is connected with photoelectric control device part, and the other end of electric output line part is connected with extraneous electric consumer;

(15), in molding product electronic control module, described reverse cone pulley part is fastening by pivot pin part, is connected in the rotating shaft of generator part; Described energy-saving bulb part is evenly distributed on annular lamp holder part, and around annular lamp holder part axle center wire loop array;

(16) in molding product, the chassis part of described power plant module, is placed in the chassis face of hanging seat module hanger part, and power plant module chassis part shaft axis overlaps with hanging seat module hanger part shaft axis;

(17) in molding product, the auspicious cloud spike part of described hanging seat module, covers on power plant module and tightens above cover plate part, and hanging seat module auspicious cloud spike part shaft axis tightens cover plate part shaft axis with power plant module and overlaps;

(18) in molding product, the generator part of described electronic control module, by the superposition tightening of same module dynamoelectric machine grommet part, motor screw part, be fixed on the motor base of hanging seat module hanger part, and the reverse cone pulley part of electronic control module and the Variable speed fluted disc part of power plant module are cooperatively interacted, form mechanokinetic commutation gear in product;

(19) in molding product, the annular lamp holder part of described electronic control module, is placed in the mid-game end face of hanging seat module hanger part, the photoelectric control device part of electronic control module, be placed in the central authorities of annular lamp holder part, photoelectric control device part shaft axis overlaps with hanging seat module hanger part shaft axis;

(20) in molding product, the hand switch part of described electronic control module, light sensor part, be all placed in the undersurface of bottom disc of hanging seat module hanger part, and hand switch part and light sensor part form symmetrical general layout at hanging seat module hanger part undersurface of bottom disc.

2. hanging lamp cage wind electricity generating system according to claim 1, is characterized in that: the hanger part in described hanging seat module, uses any one material in Alloy Constructional Steel, aluminum alloy, engineering plastics to manufacture; Manufacturing in the hanger finished part formed, the ratio between chassis spike circumscribed circle diameter value and whole hanger part maximum height value, between 1:2.4 to 1:3.0.

3. hanging lamp cage wind electricity generating system according to claim 1, is characterized in that: the chassis part in described power plant module, uses alloy structure steel making; Manufacturing in the chassis part finished product formed, the ratio between whole part maximum height value and maximum outside diameter value, between 1:5.2 to 1:5.5; Ratio between outer upright wall external diameter value and flange outside diameter value, between 1:1.1.05 to 1:1.10; Ratio between thickness of flange value and whole chassis part maximum height value, between 1:4.4 to 1:4.8.

4. hanging lamp cage wind electricity generating system according to claim 1, is characterized in that: the multiple wall cover plate part in described power plant module, uses the manufacture of alloy structure Steel material; Manufacturing in the multiple wall cover plate finished part formed, the ratio between whole part maximum height value and maximum diameter value, between 1:3.5 to 1:3.9; Ratio between inwall inner diameter values and outer wall external diameter value, between 1:1.4 to 1:1.8; Ratio between middle terrace height value and whole multiple wall cover plate part maximum height value, between 1:1.2 to 1:1.5.

5. hanging lamp cage wind electricity generating system according to claim 1, is characterized in that: the Variable speed fluted disc part in described power plant module, uses the manufacture of alloy structure Steel material; Manufacturing in the Variable speed fluted disc finished part formed, the ratio between whole part maximum height value and maximum diameter value, between 1:16 to 1:18; Ratio between wheel disc inner diameter values and wheel disc external diameter value, between 1:1.4 to 1:1.7; Ratio between wheel disc one-tenth-value thickness 1/10 and whole Variable speed fluted disc part maximum height value, between 1:2.6 to 1:3.0.

6. hanging lamp cage wind electricity generating system according to claim 1, is characterized in that: the power fan blade part in described power plant module, uses translucent red engineering plastic materials manufacture; Manufacturing in the power fan blade finished part formed, the ratio between whole part Extreme breadth value and maximum height value, between 1:1.1 to 1:1.3; Ratio between top planomural minimum width value and bottom wall width value, between 1:1.8 to 1:2.1; Ratio between expansion wing chord long value and basic wing chord long value, between 1:1.1 to 1:1.3.

7. hanging lamp cage wind electricity generating system according to claim 1, is characterized in that: the reverse cone pulley part in described electronic control module, uses the manufacture of alloy structure Steel material; Manufacturing in the reverse cone pulley finished part formed, elongate axis angle value and the ratio oppositely between cone pulley part maximum length value, between 1:4.5 to 1:4.8; Ratio between reverse cone pulley part maximum length value and alligator maximum outside diameter value, between 1:1.2 to 1:1.5; Ratio between alligator minimum outer diameter value and maximum outside diameter value, between 1:1.1 to 1:1.2.

8. hanging lamp cage wind electricity generating system according to claim 1, it is characterized in that: in molding product, the commutation gear that described electronic control module reverse cone pulley part and hanging seat module Variable speed fluted disc part cooperatively interact formed, its gear ratio is between 1:8 to 1:10, that is: Variable speed fluted disc part often rotates 1 week, and namely reverse cone pulley part rotates 8 weeks to 10 weeks.

9. the hanging lamp cage wind electricity generating system according to any one of claim 1-8, it is characterized in that: coordinate according to hanging seat module, power plant module, electronic control module the molding product formed, self-generating outwardly output current under the effect of natural wind power, and induction ambient light, according to bright-dark degree, realizes lighting function selectively automatically; Product in use, when outside natural gas flow flows through around product, propulsion power module rotates around hanging seat module hanger part and produces mechanical energy, and the mechanical energy that power plant module produces, by the transmission of commutation gear, forms the power driving the running of generator part; The generator part electric energy produced that operates enters photoelectric control device part by power lead part; Outwards exported by the electric current major part after photoelectric control device part rectification process, form the electricity generate function of product; Fraction electric current stores in photoelectric control device part, for the luminescence of energy-saving bulb part; When light sensor part perception extraneous light is dimmed, the power supply that automatic activation photoelectric control device part stores, makes to be placed in energy-saving bulb part on annular lamp holder part luminous; When light sensor part perception extraneous light brightens, automatically cut off again the power supply leading to energy-saving bulb part, make lights; In addition, user also can by the method for the manual switch part of operation, force the power supply of connection or force disconnect energy-saving bulb part, product is used and meets user intention completely, thus formed product safety efficient, without the need to fuel, without the need to take surface area and can generate electricity, luminous dual using effect.