CN101783570B

CN101783570B - Chatter wind power generation apparatus

Info

Publication number: CN101783570B
Application number: CN 200910001036
Authority: CN
Inventors: 刘新广; 刘岭逸
Original assignee: Individual
Current assignee: Individual
Priority date: 2009-01-20
Filing date: 2009-01-20
Publication date: 2013-05-01
Anticipated expiration: 2029-01-20
Also published as: CN101783570A

Abstract

The invention relates to a chatter wind power generation apparatus. Two separated and opposite magnetic plates are connected by a magnetic conduction plate to be circulated into a frame-shaped magnetic field with the quadrangular cross section, the magnetic plates are single permanent magnetic plates, or are split into a plate shape by a plurality of permanent magnetic plates, or are split into a plate shape by a plurality of permanent magnetic plates and magnetic conduction bodies, or are electric magnetic plates, a plurality of electric conduction sheets vertical to magnetic force lines of the magnetic field are arranged in the frame-shaped magnetic field, an output electric conduction line is connected on the electric conduction sheets, and the output electric conduction line is externally connected with a controller or an inverter with the current gathering, rectification and voltage regulation functions. The chatter wind power generation apparatus has simple structure, uses the turbulent fluctuation feature of the wind for generating the electricity, and has the advantages of low cost, high efficiency and easy popularization.

Description

Chatter wind power generation apparatus

Technical field

The present invention relates to wind generating technology, particularly a kind of chatter wind power generation apparatus.

Background technology

Wind generating technology is ripe, and big and small wind-driven generator uses, has also set up big and small wind power station.But prior art is made wind-driven generator, and its generator and fan blade manufacturing cost are high.To big-and-middle-sized wind-driven generator, big-and-middle-sized wind power station, because wind wheel blade is long (short then one or two meter, long then tens meters), generator that wind wheel drives is heavy, the pylon that wind wheel and generator be installed also tall and big, therefore it is difficult to make with wind wheel, generator, king-post, transportation, install difficult, must jumbo and heavy vehicle, so prior art is made wind-driven generator and is built the wind power station, cost is more expensive, difficult in maintenance, take up room large.

Summary of the invention

The present invention is intended to overcome existing wind power station defects, has designed a kind of chatter wind power generation apparatus, manufacturing, transportation, easy for installation, and construction cost is low, safeguards that it is little to take up room easily.

Chatter wind power generation apparatus is realized by following technical scheme.

Link up with the magnetic conductive board magnetic sheet that two block gaps are relative that to surround a cross section be tetragonal shaped as frame magnetic field, described magnetic sheet is the monolithic permanent magnetic plate, or it is tabular to be spliced with the polylith permanent magnetic plate, or it is tabular to be spliced with polylith permanent magnetic plate and magnetic conductor, perhaps is magnetic board; The some slice conducting strips vertical with the magnetic line of force in described magnetic field are set in shaped as frame magnetic field, connect the output conductor wire at described conducting strip, export conductor wire external have conflux, controller or the inverter of rectification, voltage regulation function.

Observational record shows: wind is disorderly air movement, and wind direction and wind speed are always changing, even within the very short time interval, the variation of wind direction and wind speed is violent.Flag trembles down with the wind, proves that also wind is disorderly air stream.Described chatter wind power generation apparatus utilizes the Turbulent characteristics generating of wind just.

When wind passes described chatter wind power generation apparatus, skim over the conducting strip surface vertical with thickness direction, the non magnetic conducting strip through-thickness vibration of disorderly wind disturbance, facing the wind the vibration as flag, conducting strip is with the magnetic line of force of cutting magnetic field and produce induced electricity, this electricity is drawn from described conducting strip by described output conductor wire, outside described whole controller or inverter can be directly for or to deposit storage battery in stand-by.When the forcing frequency of the wind natural frequency near described conducting strip, generating efficiency can be very high.

When calm, as long as described chatter wind power generation apparatus environment of living in has mechanical wave (such as Vehicle Driving Cycle, takeoff and landing, blow a trumpet or blow a whistle, shop equipment running etc. produces ripple) excitation, also can make described conducting strip in various degree vibration and more or less generating.

The effect that the present invention is useful:

1, described chatter wind power generation apparatus structure is simple more than existing rotary wind turbine generator (comprising fan blade, generator, speed-changing gear box, pylon), make, transport, install chatter wind power generation apparatus and do not need jumbo, thereby cost is very low, estimates that the cost of chatter wind power generation apparatus is lower than the sixth of existing rotary wind turbine generator.

2, the fan blade of rotation type wind power generator must with wind speed at angle, just can catch the portion of energy of the wind comes from and rotate, and owing to exist friction torque, wind speed to reach more than the 2m/s, fan could be turned, so rotation type wind power generator generating efficiency is lower.And chatter wind power generation apparatus utilizes the Turbulent characteristics of wind, the consistent with the wind vibration with wind speed of its conducting strip, and the above wind speed of 1m/s (even lower) can both make the conducting strip vibration, so the chatter wind power generation apparatus generating efficiency is higher.

3, existing horizontal rotation type wind power generator, the circular tie-plate of the linked fan blade of fan center some front face areas that account for, this area stops the wind comes from, do not obtain wind energy, and fan blade is the closer to the place of circular tie-plate, because torque is less, so the wind energy that obtains is less.And the whole conducting strip of chatter wind power generation apparatus zone can both capturing wind energy.Moreover wind speed reaches more than the 2m/s, and fan could be turned, and the above wind speed of 1m/s (even lower) can both make the conducting strip vibration.The chatter wind power generation apparatus wind energy utilization is than the height of existing horizontal rotation type wind power generator thus.

4, existing wind-driven generator because blade is long, can not be installed near the ground or the building end face, must be installed on the tall and big pylon, and this not only uses and is restricted, and can not utilize subaerial wind-force.Chatter wind power generation apparatus can catch the wind near ground or building end face, and it is little to take up space, and this will open up wide civilian, household application market for wind power generation.

5, chatter wind power generation apparatus makes common medium-sized and small enterprises or manufacturer can build novel wind power station.

6, described chatter wind power generation apparatus, can be convenient and safe be arranged on the roadside, the wind power generation that utilizes garage or aircraft taxi to produce, and existing vane type wind-driven generator takes up space large, dangerous and can't be arranged on the roadside.

7, described chatter wind power generation apparatus can also be used for power generation with sea water, because ocean current, wave also are turbulent fluctuations.In like manner, described chatter wind power generation apparatus is arranged on streams in the mountain, rivers have the place of turbulent flow also can generate electricity.

Description of drawings

Fig. 1 is the structural representation of the embodiment of the invention one;

Fig. 2 is the A-A profile of Fig. 1;

Fig. 3 is the structural representation of the embodiment of the invention two;

Fig. 4 is the B-B profile of Fig. 3;

Fig. 5 is the structural representation of the embodiment of the invention three;

Fig. 6 is the C-C profile of Fig. 5;

Fig. 7 is the structural representation of the embodiment of the invention four;

Fig. 8 is the D-D profile of Fig. 7;

Fig. 9 is the structural representation of the embodiment of the invention five;

Figure 10 is the E-E profile of Fig. 9;

Figure 11 is the structural representation of the embodiment of the invention six;

Figure 12 is the vertical view of Figure 11.

Embodiment

Describe the present invention in detail below in conjunction with embodiment and accompanying drawing.

Embodiment one: show such as Fig. 1 Fig. 2.The fixed magnetic conductive board 4 in the upper surface of magnetic sheet 5, the fixed magnetic conductive board 8 in the lower surface of magnetic sheet 7; Fix some masts 1 in the upper surface of magnetic sheet 7 and the interval, lower surface of magnetic sheet 5, mast 1 is vertical with upper surface and the magnetic sheet 5 of magnetic sheet 7, from Fig. 2, every mast 1 just above fixed-conductive film 2, the thickness direction of conducting strip 2 is vertical with the length direction of mast 1, and conducting strip 2 does not contact with magnetic sheet 5, magnetic sheet 7; Magnetic conductive board 3 is connected in the left side of magnetic sheet 5, magnetic conductive board 4, magnetic sheet 7, magnetic conductive board 8, and magnetic conductive board 6 is connected in the right side of magnetic sheet 5, magnetic conductive board 4, magnetic sheet 7, magnetic conductive board 8; Show such as Fig. 2, the upper and lower end face of the frame that surrounds at magnetic conductive board 3, magnetic conductive board 6, magnetic sheet 5, magnetic conductive board 4, magnetic sheet 7, magnetic conductive board 8, each connects the water conservancy diversion frame 9 on inclined-plane in the band to reduce frame to the resistance of wind.During use, from Fig. 2, wind is entered from the end opening of water conservancy diversion frame 9, pass the magnetic field between magnetic sheet 5 and the magnetic sheet 7, run out of from the suitable for reading of water conservancy diversion frame 9.

Embodiment two: show such as Fig. 3 Fig. 4.The fixed magnetic conductive board 13 in the upper surface of magnetic sheet 14, the fixed magnetic conductive board 17 in the lower surface of magnetic sheet 16; Magnetic sheet 14 leaves a distance with magnetic sheet 16, and magnetic conductive board 12 is connected in the left side of magnetic sheet 14, magnetic conductive board 13, magnetic sheet 16, magnetic conductive board 17, and magnetic conductive board 15 is connected in the right side of magnetic sheet 14, magnetic conductive board 13, magnetic sheet 16, magnetic conductive board 17; Bar 11 is connected between magnetic conductive board 12 and the magnetic conductive board 15, from Fig. 4, the fixing some conducting strips 10 in interval on bar 11, the thickness direction of conducting strip 10 is vertical with the magnetic line of force in the magnetic field of magnetic sheet 14 and magnetic sheet 16 constructions, and conducting strip 10 does not contact with magnetic sheet 14, magnetic sheet 16; Show such as Fig. 4, the upper and lower end face of the frame that surrounds at magnetic conductive board 12, magnetic conductive board 15, magnetic sheet 14, magnetic conductive board 13, magnetic sheet 16, magnetic conductive board 17, each connects the water conservancy diversion frame 18 on inclined-plane in the band to reduce frame to the resistance of wind.During use, from Fig. 4, wind is entered from the end opening of water conservancy diversion frame 18, pass the magnetic field between magnetic sheet 14 and the magnetic sheet 16, run out of from the suitable for reading of water conservancy diversion frame 18.

Embodiment three: show such as Fig. 5 Fig. 6.The fixed magnetic conductive board 21 in the upper surface of magnetic sheet 22, the fixed magnetic conductive board 25 in the lower surface of magnetic sheet 24; Magnetic sheet 22 leaves a distance with magnetic sheet 24, and magnetic conductive board 20 is connected in the left side of magnetic sheet 22, magnetic conductive board 21, magnetic sheet 24, magnetic conductive board 25, and magnetic conductive board 23 is connected in the right side of magnetic sheet 22, magnetic conductive board 21, magnetic sheet 24, magnetic conductive board 25; At the vertically fixing some conducting strips 19 in the interval, upper surface of magnetic sheet 24; The thickness direction of conducting strip 19 is vertical with the magnetic line of force in the magnetic field of magnetic sheet 22 and magnetic sheet 24 constructions, and conducting strip 19 does not contact with magnetic sheet 22; Show such as Fig. 6, the upper and lower end face of the frame that surrounds at magnetic conductive board 20, magnetic conductive board 23, magnetic sheet 22, magnetic conductive board 21, magnetic sheet 24, magnetic conductive board 25, each connects the water conservancy diversion frame 26 on inclined-plane in the band to reduce frame to the resistance of wind.During use, from Fig. 6, wind is entered from the end opening of water conservancy diversion frame 26, pass the magnetic field between magnetic sheet 22 and the magnetic sheet 24, run out of from the suitable for reading of water conservancy diversion frame 26.

Embodiment four: show such as Fig. 7 Fig. 8.The fixed magnetic conductive board 29 in the upper surface of magnetic sheet 30, the fixed magnetic conductive board 33 in the lower surface of magnetic sheet 32; Magnetic sheet 30 leaves a distance with magnetic sheet 32, and magnetic conductive board 28 is connected in the left side of magnetic sheet 30, magnetic conductive board 29, magnetic sheet 32, magnetic conductive board 33; Magnetic conductive board 31 is connected in the right side of magnetic sheet 30, magnetic conductive board 29, magnetic sheet 32, magnetic conductive board 33; Vertically fix some conducting strips 27 at the lower surface of magnetic sheet 30, the interval, upper surface of magnetic sheet 32 respectively; The thickness direction of conducting strip 27 is vertical with the magnetic line of force in the magnetic field of magnetic sheet 30 and magnetic sheet 32 constructions, and each conducting strip 27 does not contact mutually; Show such as Fig. 8, the upper and lower end face of the frame that surrounds at magnetic conductive board 28, magnetic conductive board 29, magnetic sheet 30, magnetic conductive board 33, magnetic sheet 32, magnetic conductive board 31, each connects the water conservancy diversion frame 34 on inclined-plane in the band to reduce frame to the resistance of wind.During use, from Fig. 8, wind is entered from the end opening of water conservancy diversion frame 34, pass the magnetic field between magnetic sheet 30 and the magnetic sheet 32, run out of from the suitable for reading of water conservancy diversion frame 34.

Embodiment five: show such as Fig. 9 to Figure 10.The fixed magnetic conductive board 37 in the upper surface of magnetic sheet 38, the fixed magnetic conductive board 41 in the lower surface of magnetic sheet 40; Magnetic sheet 38 leaves a distance with magnetic sheet 40, and magnetic conductive board 36 is connected in the left side of magnetic sheet 38, magnetic conductive board 37, magnetic sheet 40, magnetic conductive board 41; Magnetic conductive board 39 is connected in the right side of magnetic sheet 38, magnetic conductive board 37, magnetic sheet 40, magnetic conductive board 41; Vertically fix some conducting strips 35 at the lower surface of magnetic sheet 38, the interval, upper surface of magnetic sheet 40 respectively, the magnetic field magnetic line perpendicular direction of the thickness direction of conducting strip 35 and magnetic sheet 38 and magnetic sheet 40 constructions, each conducting strip 35 does not contact mutually; Show such as Figure 10, the upper and lower end face of the frame that surrounds at magnetic conductive board 36, magnetic conductive board 37, magnetic sheet 38, magnetic conductive board 41, magnetic sheet 40, magnetic conductive board 39, each connects the water conservancy diversion frame 42 on inclined-plane in the band to reduce frame to the resistance of wind.During use, from Figure 10, wind is entered from the end opening of water conservancy diversion frame 42, pass the magnetic field between magnetic sheet 38 and the magnetic sheet 40, run out of from the suitable for reading of water conservancy diversion frame 42.

Embodiment six: described chatter wind power generation apparatus is made four limit shape frameworks, perhaps make tile-shaped framework, these four limits shape frameworks or tile-shaped framework are spliced into the cylindric frame shape chatter wind power generation apparatus 43 shown in Figure 12 such as Figure 11, and described cylindric frame shape chatter wind power generation apparatus 43 is vertically fixed on ground or building sides.

Show such as Figure 12, establish a certain moment, a horizontal wind (among the figure shown in the arrow) is arranged perpendicular to the vertical cross-section of the F-F that crosses diameter of cylindric frame shape chatter wind power generation apparatus 43.Cross non magnetic conducting strip on the cylindric frame shape chatter wind power generation apparatus 43 on the vertical cross-section left side of diameter C-C all in work, send either large or small electric energy.Cross non magnetic conducting strip on the cylindric frame shape chatter wind power generation apparatus 43 on vertical cross-section the right of diameter F-F and accept the tail wind on the left side and work, also send either large or small electric energy.Skimming over cylindric frame shape chatter wind power generation apparatus by side direction wind forms low-pressure area and the non magnetic conducting strip that is on the diameter F-F is produced suction force in both sides about in the of 43, this suction force greater than the tail wind of the non magnetic conducting strip on the cylindric frame shape chatter wind power generation apparatus 43 on the vertical cross-section left side of crossing diameter F-F to being in the back suction suction of the non magnetic conducting strip on the diameter F-F, so be in non magnetic conducting strip on the vertical cross-section of diameter F-F also in the work generating.In a word, described cylindric frame shape chatter wind power generation apparatus can meet the wind of any level direction to generate electricity.

Claims

1. chatter wind power generation apparatus, it is characterized in that: link up with the magnetic conductive board magnetic sheet that two block gaps are relative that to surround a cross section be tetragonal shaped as frame magnetic field, described magnetic sheet is the monolithic permanent magnetic plate, or be spliced tabular with the polylith permanent magnetic plate, or it is tabular to be spliced with polylith permanent magnetic plate and magnetic conductor, perhaps is magnetic board; The some slice conducting strips vertical with the magnetic line of force in described magnetic field are set in shaped as frame magnetic field, connect the output conductor wire at described conducting strip, export conductor wire external have conflux, controller or the inverter of rectification, voltage regulation function.

2. described chatter wind power generation apparatus according to claim 1 is characterized in that: at the fixed magnetic conductive board in the upper surface of a magnetic sheet (5) (4), at fixed No. two magnetic conductive boards in the lower surface of No. two magnetic sheets (7) (8); Fix some masts (1) in the upper surface of No. two magnetic sheets (7) and the interval, lower surface of a magnetic sheet (5), mast (1) is vertical with upper surface and a magnetic sheet (5) of No. two magnetic sheets (7), every mast (1) just above fix a conducting strip (2), the thickness direction of a conducting strip (2) is vertical with the length direction of mast (1), and a conducting strip (2) does not contact with a magnetic sheet (5), No. two magnetic sheets (7); No. three magnetic conductive boards (3) are connected in the left side of a magnetic sheet (5), a magnetic conductive board (4), No. two magnetic sheets (7), No. two magnetic conductive boards (8), and No. four magnetic conductive boards (6) are connected in the right side of a magnetic sheet (5), a magnetic conductive board (4), No. two magnetic sheets (7), No. two magnetic conductive boards (8); The upper and lower end face of the frame that surrounds at No. three magnetic conductive boards (3), No. four magnetic conductive boards (6), a magnetic sheet (5), a magnetic conductive board (4), No. two magnetic sheets (7), No. two magnetic conductive boards (8), each connects a water conservancy diversion frame (9) on inclined-plane in the band to reduce frame to the resistance of wind.

3. described chatter wind power generation apparatus according to claim 1 is characterized in that: at fixed No. five magnetic conductive boards in the upper surface of No. three magnetic sheets (14) (13), at fixed No. six magnetic conductive boards in the lower surface of No. four magnetic sheets (16) (17); No. three magnetic sheets (14) leave a distance with No. four magnetic sheets (16), No. eight magnetic conductive boards (12) are connected in the left side of No. three magnetic sheets (14), No. five magnetic conductive boards (13), No. four magnetic sheets (16), No. six magnetic conductive boards (17), and No. seven magnetic conductive boards (15) are connected in the right side of No. three magnetic sheets (14), No. five magnetic conductive boards (13), No. four magnetic sheets (16), No. six magnetic conductive boards (17); Bar (11) is connected between No. eight magnetic conductive boards (12) and No. seven magnetic conductive boards (15), fixing some No. two conducting strips (10) in interval on bar (11), the thickness direction of No. two conducting strips (10) is vertical with the magnetic line of force in the magnetic field of No. three magnetic sheets (14) and No. four magnetic sheets (16) construction, and No. two conducting strips (10) do not contact with No. three magnetic sheets (14), No. four magnetic sheets (16); The upper and lower end face of the frame that surrounds at No. eight magnetic conductive boards (12), No. seven magnetic conductive boards (15), No. three magnetic sheets (14), No. five magnetic conductive boards (13), No. four magnetic sheets (16), No. six magnetic conductive boards (17), each connects No. two water conservancy diversion frames (18) on inclined-plane in the band to reduce frame to the resistance of wind.

4. described chatter wind power generation apparatus according to claim 1 is characterized in that: at fixed No. nine magnetic conductive boards in the upper surface of No. five magnetic sheets (22) (21), at fixed No. ten magnetic conductive boards in lower surface (25) of No. six magnetic sheets (24); No. five magnetic sheets (22) leave a distance with No. six magnetic sheets (24), ride on Bus No. 11 magnetic conductive board (20) is connected in the left side of No. five magnetic sheets (22), No. nine magnetic conductive boards (21), No. six magnetic sheets (24), No. ten magnetic conductive boards (25), and ten No. two magnetic conductive boards (23) are connected in the right side of No. five magnetic sheets (22), No. nine magnetic conductive boards (21), No. six magnetic sheets (24), No. ten magnetic conductive boards (25); At vertically fixing some No. three conducting strips (19) in the interval, upper surface of No. six magnetic sheets (24); The thickness direction of No. three conducting strips (19) is vertical with the magnetic line of force in the magnetic field of No. five magnetic sheets (22) and No. six magnetic sheets (24) construction, and No. three conducting strips (19) do not contact with No. five magnetic sheets (22); The upper and lower end face of the frame that surrounds at ride on Bus No. 11 magnetic conductive board (20), ten No. two magnetic conductive boards (23), No. five magnetic sheets (22), No. nine magnetic conductive boards (21), No. six magnetic sheets (24), No. ten magnetic conductive boards (25), each connects No. three water conservancy diversion frames (26) on inclined-plane in the band to reduce frame to the resistance of wind.

5. described chatter wind power generation apparatus according to claim 1 is characterized in that: at fixed ten No. three magnetic conductive boards in the upper surface of No. seven magnetic sheets (30) (29), at fixed ten No. four magnetic conductive boards in the lower surface of No. eight magnetic sheets (32) (33); No. seven magnetic sheets (30) leave a distance with No. eight magnetic sheets (32), and ten No. five magnetic conductive boards (28) are connected in the left side of No. seven magnetic sheets (30), ten No. three magnetic conductive boards (29), No. eight magnetic sheets (32), ten No. four magnetic conductive boards (33); Ten No. six magnetic conductive boards (31) are connected in the right side of No. seven magnetic sheets (30), ten No. three magnetic conductive boards (29), No. eight magnetic sheets (32), ten No. four magnetic conductive boards (33); Vertically fix some No. four conducting strips (27) at the lower surface of No. seven magnetic sheets (30), the interval, upper surface of No. eight magnetic sheets (32) respectively; The thickness direction of No. four conducting strips (27) is vertical with the magnetic line of force in the magnetic field of No. seven magnetic sheets (30) and No. eight magnetic sheets (32) construction, and each No. four conducting strip (27) does not contact mutually; The upper and lower end face of the frame that surrounds at ten No. five magnetic conductive boards (28), ten No. three magnetic conductive boards (29), No. seven magnetic sheets (30), ten No. four magnetic conductive boards (33), No. eight magnetic sheets (32), ten No. six magnetic conductive boards (31), each connects No. four water conservancy diversion frames (34) on inclined-plane in the band to reduce frame to the resistance of wind.

6. described chatter wind power generation apparatus according to claim 1 is characterized in that: at fixed ten No. seven magnetic conductive boards in the upper surface of No. nine magnetic sheets (38) (37), at fixed ten No. eight magnetic conductive boards in the lower surface of No. ten magnetic sheets (40) (41); No. nine magnetic sheets (38) leave a distance with No. ten magnetic sheets (40), and ten No. nine magnetic conductive boards (36) are connected in the left side of No. nine magnetic sheets (38), ten No. seven magnetic conductive boards (37), No. ten magnetic sheets (40), ten No. eight magnetic conductive boards (41); Two No. ten magnetic conductive boards (39) are connected in the right side of No. nine magnetic sheets (38), ten No. seven magnetic conductive boards (37), No. ten magnetic sheets (40), ten No. eight magnetic conductive boards (41); Vertically fix some No. six conducting strips (35) at the lower surface of No. nine magnetic sheets (38), the interval, upper surface of No. ten magnetic sheets (40) respectively, the magnetic field magnetic line perpendicular direction of the thickness direction of No. six conducting strips (35) and No. nine magnetic sheets (38) and No. ten magnetic sheets (40) construction, each No. six conducting strip (35) does not contact mutually; The upper and lower end face of the frame that surrounds at ten No. nine magnetic conductive boards (36), ten No. seven magnetic conductive boards (37), No. nine magnetic sheets (38), ten No. eight magnetic conductive boards (41), No. ten magnetic sheets (40), two No. ten magnetic conductive boards (39), each connects No. five water conservancy diversion frames (42) on inclined-plane in the band to reduce frame to the resistance of wind.

7. described chatter wind power generation apparatus according to claim 1 is characterized in that: make four limit shape frameworks, perhaps make tile-shaped framework.