CN105179175A - Louvered wind-driven generator - Google Patents

Abstract

A louvered wind-driven generator doesn't need to consider wind directions during mounting, and comprises rectangular choke sheets, power take-off brackets, flange plates, a power take-off shaft, a transmission and a generator, wherein each power take-off bracket is divided into two parts, namely a bracket support and a support; the rectangular choke sheets are mounted on the supports via shaft pins; a center hole, screw holes, bracket support positions and support clamping positions are arranged on each flange plate; the rectangular choke sheets can only rotate around the power take-off shaft during choke power take-off; the rectangular choke sheets rotate downwind around the shaft pins and the power take-off shaft during powder unloading; the rectangular choke sheets are made of a glass fiber reinforced plastic material; the power take-off shaft is made of a stainless spring steel material; the power take-off brackets are made of an aluminium alloy material; and the flange plates are made of a stainless bearing steel material. After the adoption of the louvered wind-driven generator with a compact structure and a reasonable design, the louvered wind-driven generator cannot be corroded easily in a corrosive environment, and the service life of the louvered wind-driven generator is prolonged.

Description

Wind-force louvered generator

Technical field

The present invention relates to a kind of wind-force louvered generator in the Energy harvesting field of wind-force.

Background technique

Present wind-driven generator is all that the wind-retarding plate adopted is fixed on generator and can not freely rotates, and power taking in the scope that wind-driven generator can only be rotated at propeller cavitation, causes wind resource reasonably not utilized, waste a large amount of natural resourcess.Increasing the weight of and increasing again due to haze weather, the material that can pollute metal in air increases, and the working life that result in the wind-retarding plate of metal shortens.

Summary of the invention

The object of this invention is to provide a kind of manufacture and the installation method thereof that obtain the wind-force louvered generator of the energy of wind.

For achieving the above object, the power taking part of described wind-force louvered generator of the present invention adopts aluminum alloy material structure, comprises rectangle chip wind-retarding plate, power taking support, flange disk, power taking axle, speed changer and generator.

Described power taking support is divided into frame holder and supports two-part, and frame holder is connected with support; The section area of frame holder part is greater than the section area of supporting part, is beneficial to be arranged between two flange disks; Supporting part has bearing hole, for installing bearing; In support, the end of side windward becomes spindle or taper, and the end of rushing down the side of wind becomes spindle or circular arc or taper;

Described power taking support adopts aluminum alloy material manufacture.

Described flange disk is circular discs, flange disk there are center hole, screw, frame restitope, support screens, center hole for insert connecting pin and connecting pin is reinforced and the connection of stablizing between two relative flange disks and two flange disks close up time aligned position, two flange disks are connected with bolt by screw, frame restitope is used for Holder holder and fixing frame holder, supports screens and moves for limit frame holder part is outer and blocks support;

Described flange disk adopts aluminum alloy material manufacture.

Described power taking axle adopts aluminum alloy material to create d-axis.

The end of the both sides of described rectangle chip wind-retarding plate becomes spindle or taper or arc;

Described rectangle chip wind-retarding plate adopts aluminum alloy material manufacture;

The side that described rectangle chip wind-retarding plate is thicker is inlaid with pivot pin, and pivot pin is through the two ends of rectangle chip wind-retarding plate, and pivot pin is arranged in the support of power taking support by bearing and bearing hole;

Described rectangle chip wind-retarding plate around pivot pin reciprocating rotary, also can not only rotate around power taking axle on power taking support; When choke power taking, rectangle chip wind-retarding plate is merely able to rotate around power taking axle; When unloading power, rectangle chip wind-retarding plate, also will rotate around power taking axle in direction with the wind while pivot pin rotates.

Described pivot pin creates cylindrical, is inlaid in rectangle chip wind-retarding plate after adopting stainless steel material manufacture shaping again.

The pivot pin of described rectangle chip wind-retarding plate is fixed in the bearing hole in the support of power taking support by bearing, power taking support is fixed on the frame restitope on flange disk by frame holder and supports in screens, flange disk is connected with power taking axle, power taking axle can be fixed on fixing frame by bearing and bearing support, power taking axle is directly or indirectly connected with the axle of speed changer, and the axle of speed changer is directly or indirectly connected with the axle of generator.

Described flange disk and power taking axle manufacture as a whole or separate manufacture after fit together again.

Described wind-force louvered generator is arranged in wind, does not need to consider the direction of wind, can the energy of wind in automatic acquisition different amount and direction; When meeting wind, rectangle chip wind-retarding plate direction with the wind on power taking support, and rotate around pivot pin along with the swing offset of support, turn to power taking support consistent with the direction of wind time, a slice is formed overall after rectangle chip wind-retarding plate is closed on power taking support, then choke power taking, promotes power taking axle and rotates.When rotate to another side against the wind time, rectangle chip wind-retarding plate is under the effect of the resistance of wind, and be opened into framework around pivot pin automatic rotary, rectangle chip wind-retarding plate is consistent with the direction of wind afterwards, decreases rotational resistance.Along with the continuous promotion of wind, power taking support and rectangle chip wind-retarding plate continue to rotate, and rectangle chip wind-retarding plate repeats to meet wind and choke power taking, the rotation so gone round and begun again, the power produced passes to speed changer by power taking axle, and speed changer passes to electrical power generators after changing moment and rotating speed again.

In order to save material and weight reduction, described wind-retarding plate, pivot pin and power taking axle create the hollow body of solid body or hollow during fabrication.

In order to enable wind-force louvered generator reduce rotational resistance when contrary wind, described rectangle chip wind-retarding plate can be opened when contrary wind and become framework.

The compact structure of wind-force louvered generator of the present invention, reasonable in design, after have employed wind-force louvered generator, make the power taking part of wind-force louvered generator be not easy to be corroded in corrosion-prone environment, improve the working life of wind-force louvered generator.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of the structure of the power taking support of wind-force louvered generator of the present invention.

Fig. 2 is the schematic diagram of the sectional structure of the supporting part of the power taking support of wind-force louvered generator of the present invention.

Fig. 3 be the power taking axle of wind-force louvered generator of the present invention and flange disk link together the structural representation of outward appearance.

Fig. 4 is the structural representation of the inside of the flange disk of wind-force louvered generator of the present invention.

Fig. 5 be two flange disks of wind-force louvered generator of the present invention link together schematic diagram.

Fig. 6 is the schematic diagram of the surface structure of rectangle chip wind-retarding plate about power taking axle of wind-force louvered generator of the present invention; Shown in figure: wind flows to wind-force louvered generator during from dead ahead, the rectangle chip wind-retarding plate on the left side is airtight becomes a slice entirety, and opening of the right becomes framework.

Fig. 7 is the schematic diagram of the structure of the plan view of wind-force louvered generator of the present invention; Shown in figure: the sense of rotation of louvered wind-force louvered generator is clockwise direction, and wind is from dead ahead stream wind-force louvered generator.

Fig. 8 is the schematic diagram of the surface structure of the rectangle chip wind-retarding plate of wind-force louvered generator of the present invention.

Embodiment

Wind-force louvered generator of the present invention comprises rectangle chip wind-retarding plate 10, power taking support 11, flange disk 4, power taking axle 7, speed changer 13 and generator 14.

Described power taking support 11 is divided into frame holder 1 and supports 2 two-part, and frame holder 1 is connected with support 2; The section area of frame holder 1 part is greater than the section area of support 2 part, is beneficial to be arranged between two flange disks 4; Support 2 parts and have bearing hole, for installing bearing; The end supporting on 2 side windward becomes spindle or taper, and the end of rushing down the side of wind becomes spindle or circular arc or taper;

Described power taking support 11 adopts aluminum alloy material manufacture.

Described flange disk 4 is circular discs, flange disk 4 there are center hole 9, screw 8, frame restitope 5, support screens 6, center hole 9 for insert connecting pin and connecting pin is reinforced and the connection of stablizing between two relative flange disks 4 and two flange disks 4 close up time aligned position, two flange disks 4 are connected with bolt by screw 8, frame restitope 5, for Holder holder 1 also fixing frame holder 1, supports screens 6 and moves for limit frame holder 1 part is outer and blocks support 2;

Described flange disk 4 adopts aluminum alloy material manufacture.

Described power taking axle 7 adopts aluminum alloy material to create d-axis.

The end of the both sides of described rectangle chip wind-retarding plate 10 becomes spindle or taper or arc;

Described rectangle chip wind-retarding plate 10 adopts aluminum alloy material manufacture;

The side that described rectangle chip wind-retarding plate 10 is thicker is inlaid with pivot pin 12, and pivot pin 12 is through the two ends of rectangle chip wind-retarding plate, and pivot pin 12 is arranged in the support 2 of power taking support 11 by bearing and bearing hole 3;

Described rectangle chip wind-retarding plate 10 around pivot pin 12 reciprocating rotary, also can not only rotate around power taking axle 7 on power taking support 11; When choke power taking, rectangle chip wind-retarding plate 10 is merely able to rotate around power taking axle 7; When unloading power, rectangle chip wind-retarding plate 10, also will rotate around power taking axle 7 at downwind while pivot pin 12 rotates.

Described pivot pin 12 creates cylindrical, is inlaid in rectangle chip wind-retarding plate after adopting stainless steel material manufacture shaping again.

The pivot pin 12 of described rectangle chip wind-retarding plate 10 is fixed in the bearing hole 3 in the support 2 of power taking support 11 by bearing, power taking support 11 is fixed on the frame restitope 5 on flange disk 4 by frame holder 1 and supports in screens 6, flange disk 4 is connected with power taking axle 7, power taking axle 7 can be fixed on fixing frame by bearing and bearing support, power taking axle is directly or indirectly connected with the axle of speed changer, and the axle of speed changer is directly or indirectly connected with the axle of generator.Described flange disk 4 and power taking axle 7 manufacture as a whole or separate manufacture after fit together again.

In order to save material and weight reduction, described rectangle chip wind-retarding plate 10, pivot pin 12 and power taking axle 7 create the hollow body of solid body or hollow during fabrication.In order to enable wind-force louvered generator reduce rotational resistance when contrary wind, described rectangle chip wind-retarding plate 10 can be opened when contrary wind and become framework.

Wind-force louvered generator of the present invention is arranged in wind, does not need to consider the direction of wind, can the energy of wind in automatic acquisition different amount and direction; When meeting wind, rectangle chip wind-retarding plate 10 direction with the wind on power taking support 11, and rotate around pivot pin 12 along with the swing offset of support, turn to power taking support 11 consistent with the direction of wind time, a slice is formed overall after rectangle chip wind-retarding plate 10 is closed on power taking support 11, then choke power taking, promotes power taking axle 7 and rotates.When rotate to another side against the wind time, rectangle chip wind-retarding plate 10 is under the effect of the resistance of wind, and be opened into framework around pivot pin 12 automatic rotary, rectangle chip wind-retarding plate 10 is consistent with the direction of wind afterwards, decreases rotational resistance.Along with the continuous promotion of wind, power taking support and rectangle chip wind-retarding plate continue to rotate, rectangle chip wind-retarding plate repeats to meet wind and choke power taking, the rotation so gone round and begun again, the power produced passes to speed changer 13 by power taking axle 7, and speed changer 13 passes to generator 14 again and generates electricity after changing moment and rotating speed.

Claims (4)

1. a wind-force louvered generator, it is characterized in that: the power taking part of described wind-force louvered generator adopts aluminum alloy material structure, comprises rectangle chip wind-retarding plate (10), power taking support (11), flange disk (4), power taking axle (7), speed changer (13) and generator (14);

Described power taking support (11) is divided into frame holder (1) and supports (2) two-part, and frame holder (1) is connected with support (2); The section area of frame holder (1) part is greater than the section area of support (2) part, is beneficial to be arranged between two flange disks (4); Support (2) part and have bearing hole (3), for installing bearing; The end supporting on (2) side windward becomes spindle or taper, and the end of rushing down the side of wind becomes spindle or circular arc or taper;

Described power taking support (11) adopts aluminum alloy material manufacture;

Described flange disk (4) is circular discs, flange disk (4) there is center hole (9), screw (8), frame restitope (5), support screens (6), center hole (9) is for inserting connecting pin, and connecting pin is reinforced and stablizes the connection between two relative flange disks (4), and two flange disks (4) aligned position when closing up, two flange disks (4) are connected with bolt by screw (8), frame restitope (5) is for Holder holder (1) and fixing frame holder (1), support screens (6) move for limit frame holder (1) part is not outer and blocks support (2),

Described flange disk (4) adopts aluminum alloy material manufacture;

Described power taking axle (7) adopts aluminum alloy material to create d-axis;

The end of the both sides of described rectangle chip wind-retarding plate (10) becomes spindle or taper or arc;

Described rectangle chip wind-retarding plate (10) adopts aluminum alloy material manufacture;

The side that described rectangle chip wind-retarding plate (10) is thicker is inlaid with pivot pin (12), and pivot pin (12) is through the two ends of rectangle chip wind-retarding plate, and pivot pin (12) is arranged in the support (2) of power taking support (11) by bearing and bearing hole (3);

Described rectangle chip wind-retarding plate (10) around pivot pin (12) reciprocating rotary, also can not only rotate around power taking axle (7) on power taking support (11); When choke power taking, rectangle chip wind-retarding plate (10) is merely able to rotate around power taking axle (7); When unloading power, rectangle chip wind-retarding plate (10), also will rotate around power taking axle (7) at downwind while pivot pin (12) rotates;

Described pivot pin (12) creates cylindrical, is inlaid in rectangle chip wind-retarding plate again after adopting stainless steel material manufacture shaping;

The pivot pin (12) of described rectangle chip wind-retarding plate (10) is fixed in the bearing hole (3) in the support (2) of power taking support (11) by bearing, power taking support (11) is fixed on the frame restitope (5) on flange disk (4) by frame holder (1) and supports in screens (6), flange disk (4) is connected with power taking axle (7), power taking axle (7) can be fixed on fixing frame by bearing and bearing support, power taking axle (7) is directly or indirectly connected with the axle of speed changer (13), and the axle of speed changer (13) is directly or indirectly connected with the axle of generator (14);

Described flange disk (4) and power taking axle (7) manufacture as a whole or separate manufacture after fit together again;

Described wind-force louvered generator is arranged in wind, does not need to consider the direction of wind, can the energy of wind in automatic acquisition different amount and direction; When meeting wind, rectangle chip wind-retarding plate (10) direction with the wind on power taking support (11), and rotate around pivot pin (12) along with the swing offset of support, turn to power taking support (11) consistent with the direction of wind time, rectangle chip wind-retarding plate (10) is overall in the upper closed rear formation a slice of power taking support (11), then choke power taking, promotes power taking axle (7) and rotates.

2. when rotate to another side against the wind time, rectangle chip wind-retarding plate (10) is under the effect of the resistance of wind, and be opened into framework around pivot pin (12) automatic rotary, rectangle chip wind-retarding plate (10) is consistent with the direction of wind afterwards, decreases rotational resistance.

3. along with the continuous promotion of wind, power taking support and rectangle chip wind-retarding plate continue to rotate, rectangle chip wind-retarding plate repeats to meet wind and choke power taking, the rotation so gone round and begun again, the power produced passes to speed changer (13) by power taking axle (7), and speed changer (13) passes to generator (14) generating again after changing moment and rotating speed;

In order to save material and weight reduction, described rectangle chip wind-retarding plate (10), pivot pin (12) and power taking axle (7) create the hollow body of solid body or hollow during fabrication.

4. wind-force louvered generator according to claim 1, is characterized in that: in order to enable wind-force louvered generator reduce rotational resistance when contrary wind, described rectangle chip wind-retarding plate (10) can be opened when contrary wind and become framework.