CN102141005A - Wind power generating device - Google Patents

Abstract

The invention relates to a wind power generating device which comprises a first bearing piece, a first movable layer, a second bearing piece, a second movable layer, at least one wind-receiving piece and at least one generating unit, wherein the first movable layer and the second movable layer are respectively arranged on the first bearing piece and the second bearing piece, and the wind-receiving piece is connected with the first movable layer and the second movable layer and used for bearing wind power to drive the first movable layer and the second movable layer so that the first movable layer and the second movable layer drive the generating unit to generate electric energy. Compared with the prior art, the wind power generating device has the characteristics of convenience in assembly and easiness in maintenance, and can adopt to using environments with various wind directions and wind speeds by correspondingly adjusting the wind-receiving piece and the generating unit, thereby achieving the optimal wind power generating efficiency.

Description

A kind of wind generating unit

Technical field

The present invention relates to a kind of wind generating unit, particularly relate to a kind of wind generating unit that is applicable to various wind directions and wind speed.

Background technique

Food clothing in the modern society is lived all too busy to get away electric energy of row, and the mode of generating also has many kinds to select, for example firepower, waterpower, wind-force, solar energy and nuclear energy or the like generation mode.

But the thermal power generation meeting produces environment pollutes, and the storage of fuel such as coal, oil and rock gas is limited, and hydroelectric generated energy is stable inadequately usually, and the cost of solar electrical energy generation is generally too high, and nuclear energy power generation has the secret worry on the radiation safety.Therefore, utilize wind-force and wind generating unit to generate electricity, more and more come into one's own with the generation mode that obtains clean green energy resource.

Present most wind generating unit is to be divided into horizontal shaft type and perpendicular axis type.The wind generating unit of horizontal shaft type is made up of multi-disc flabellum and generating tower, drive the flabellum rotation and then produce electric energy by natural wind, yet the electricity generating device of horizontal shaft type has following defective.At first, the wind generating unit that designs with the notion of horizontal shaft type, the tower height of generating tower generally needs 60 meters at least, and in order to improve the stability of generating tower, the body of the tower structure of generating tower must be very sturdy, and the base of generating tower also need be arranged on the high-intensity concrete foundation, and the multi-disc flabellum that is arranged at generating cat head end also must possess and bulkiness arranged to build enough blowing areas, therefore, not only need to expend huge soil cost, assembly cost, and, make the utilization efficiency of natural wind have a greatly reduced quality thus because of the too huge volume of flabellum causes the increase of weight and the lifting of resistance.In addition, the wind direction of natural wind and wind speed are unfixing, and the electricity generating device of mean level shaft type can't carry out optimal adjustment along with different wind directions and wind speed, for example when wind speed is big inadequately, the situation that flabellum can't rotate easily takes place, and, also must make flabellum dally, and then caused the waste of wind resource for fear of when wind speed is too fast, causing the device damage.

Moreover, vertical shaft type wind power generation Design of device of the prior art, its notion makes the sail leaf to rotate around newel for the sail leaf with the multi-disc individual layer is vertically installed on the newel, and how with in, low power generated energy is that target is designed, is so that stable and enough electric energy can't be provided.In addition, general vertical shaft type wind power generation device mostly is to adopt mechanical bearing that the mechanism of rotation is provided, but because mechanical bearing damages easily, causes the fault of wind generating unit easily, has therefore improved the cost of safeguarding.

Therefore, how a kind of wind generating unit is provided, not only can save assembly cost and maintenance cost, and can be flexibly along with different wind speed are suitably adjusted, and be applicable in the Environmental Conditions with various wind directions, to improve the utilization efficiency of wind resource, become all circles' problem anxious to be solved then.

Summary of the invention

For solving aforesaid problem, the purpose of this invention is to provide a kind of wind generating unit, not only easy to assembly and safeguard easily, and can be flexibly along with different wind speed are suitably adjusted, also be applicable in the Environmental Conditions with various wind directions, and then improve the utilization efficiency of wind resource.

Wind generating unit provided by the invention, it comprises: form the circular rails shape first load-bearing member, form the circular rails shape and with this first load-bearing member keep the corresponding setting in compartment of terrain second load-bearing member, be arranged at first active layer on this first load-bearing member, be arranged at second active layer on this second load-bearing member, at least one wind-engaging spare to move freely mode along this first load-bearing member, and at least one generator unit in the mode that moves freely along this second load-bearing member.This wind-engaging spare is connected in this first active layer and this second active layer, and wind-force drives this first active layer and this second active layer moves on this first load-bearing member and second load-bearing member respectively in order to bear.And the live axle of this generator unit has by what moving of active layer rotate and is driven wheel, and this is driven to take turns and contacts each other with this first active layer or this second active layer.Therefore, drive this first active layer and second active layer on respectively at this first load-bearing member and second load-bearing member when mobile at this wind-engaging spare, but the wheel that is driven of this first active layer and/or this this generator unit of second active layer synchronous drive rotates to produce electric energy.

In a preferred embodiment, wind generating unit of the present invention also comprises at least one supporting element, and this supporting element is connected to each other with this first active layer and this second active layer respectively, and this supporting element is for having stretchability and/or flexible structure.In addition, wind generating unit of the present invention also can comprise the collection wind devices of being made by a plurality of wind collecting part (not shown), and this collection wind devices is located at the wind-engaging spare outer circumferential side of this wind generating unit, in order to guide, to concentrate, to shunt or to stop wind-force.Preferably, this collection wind devices can triangle, the shape of quadrangle, pentagon or five above odd number dihedrals is around around this wind-engaging spare.

In another preferred embodiment, this generator unit be driven wheel for gear, form tooth bar with this gear engagement with the contacted surface of the gear of this generator unit on this first active layer and/or this second active layer.In addition, this tooth bar can be designed to the form of non-single level height, therefore, can provide the different torque magnitude of gear of this generator unit, and then the gear that orders about this generator unit rotates with different speed by the tightness degree that this tooth bar and this gear are engaged with each other.

In another preferred embodiment, this first load-bearing member and this second load-bearing member are that a plurality of load bearing units are connected in series sealed forming each other, and the material of this load bearing unit can be plastics or plastic polymer.In addition, this first active layer and this second active layer also can be a plurality of active units and are connected in series sealed forming each other, and the material of this active unit can be metal or metallic compound.

It should be noted that, form that can circular rails shape structure because of this first load-bearing member, this second load-bearing member, this first active layer and this second active layer is presented, and this wind-engaging spare specific range at interval is connected on this first active layer and this second active layer in regular turn, therefore, this wind-engaging spare also can form the form that the circular rails shape is arranged.

Than prior art, wind generating unit of the present invention is via first load-bearing member, first active layer, second load-bearing member, second active layer, at least one wind-engaging spare, and the combination of at least one generator unit utilization, be applicable in the Environmental Conditions with various wind directions, not only do not need huge assembly cost and maintenance cost, also can flexibly the most suitably adjust, and then use wind resource and then produce electric energy with usage mode expeditiously in response to different wind speed.

Description of drawings

Fig. 1 is a configuration diagram of wind generating unit of the present invention;

Figure 1A is the partial exploded view of wind generating unit of the present invention;

Figure 1B is the partial cutaway schematic of wind generating unit of the present invention;

Fig. 2 is another configuration diagram of wind generating unit of the present invention;

Fig. 3 overlooks Organization Chart for one of wind generating unit of the present invention;

Fig. 3 A is the local side schematic representation of wind generating unit of the present invention.

The primary component symbol description:

1,2,3 wind generating units

11,21 first load-bearing members

110,130 load bearing units

12,22 first active layers

120,140 active units

121,141 tooth bars

122,222,242 bounding meanss

13,23 second load-bearing members

14,24 second active layers

15,25,35 wind-engaging spares

151 first masts

152 second masts

153 sails

16,26 generator units

161 are driven wheel

27 supporting elements

4 collection wind devices

41 wind collecting parts

411 barge boards

412 supports

Embodiment

Below by particular specific embodiment explanation embodiments of the present invention, those skilled in the art can understand other advantages of the present invention and effect easily by the content that this specification disclosed.The present invention also can be implemented or be used by other different specific embodiments.

See also Fig. 1, for illustrating the Organization Chart of wind generating unit of the present invention.As shown in the figure, this wind generating unit 1 comprises: first load-bearing member 11, first active layer 12, second load-bearing member 13, second active layer 14, wind-engaging spare 15 and generator unit 16.And please consulting Figure 1A simultaneously, this Figure 1A is for illustrating first load-bearing member 11 of the present invention, first active layer 12, second load-bearing member 13, and the decomposing schematic representation of second active layer 14.

This first load-bearing member 11 and this second load-bearing member 13 are designed to circular rails shape structure (for example: circular, oval, square etc.), and this first load-bearing member 11 and this second load-bearing member 13 can be connected in series each other by a plurality of load bearing units 110 (130), sealed forming.And the material of this load bearing unit 110 (130) can be plastics (for example: polyethylene, polypropylene, PVC etc.) or plastic polymer, and has good hardness.For example, this load bearing unit 110 (130) can HMW synthetic resin be main component and add proper additive (plasticizing agent, stabilizer, fire retardant, oiling agent, colorant etc.), and at material structure with suitable plasticity, pliability and rigidity through forming after the course of working suitably.

In the present embodiment, the compartment of terrain is corresponding to be provided with in order to keep each other for this first load-bearing member 11 and this second load-bearing member 13.

This first active layer 12 and this second active layer 14 can be designed to should first load-bearing member 11 and the circular rails shape structure (for example: circular, oval, square etc.) of this second load-bearing member 13, and respectively being arranged on this first load-bearing member 11 and this second load-bearing member 13 along the mode that this first load-bearing member 11 and second load-bearing member 13 move freely.In addition, this first active layer 12 and/or this second active layer 14 can be connected in series sealed forming each other by a plurality of active units 120 (140), and this active unit 120 (140) (for example: steel) constituted can be metal (for example: iron, copper, aluminium), metallic compound or alloy.

Be between above-mentioned a plurality of these load bearing units 110 (130) and a plurality of this active unit 120 (140), can be connected in series by relevant connecting device (for example: bolt, chain, clasp etc.) and/or sealed what this need propose to illustrate.But these serial connections and/or sealed technological means are all known for those skilled in the art, so do not given unnecessary details in this.In addition, this first load-bearing member 11 and the contacted each other surface of this first active layer 12, and this second load-bearing member 13 and the contacted each other surface of this second active layer 14 are the extremely low smooth surface of frictional force.Is metallic material with this first active layer 12 with this second active layer 14, and this first load-bearing member 11 and this second load-bearing member 13 are example for plastic materials, because it is lower that metal and plastics connect the frictional force of face, so this first active layer 12 and this second active layer 14 can be distinguished successfully on this first load-bearing member 11 and this second load-bearing member 13 movable (rotation), and then avoid taking place easily producing the situation of fault or damage as employed mechanical bearing in the prior art.

Moreover, because of this first load-bearing member 11 and this second load-bearing member 13 can be connected in series and/or sealed forming each other by a plurality of load bearing units 110 (130), therefore, use the back if loss normally or wearing and tearing have taken place for this first load-bearing member 11 and this second load-bearing member 13 long-time, also can change simply, easily and assemble.Certainly, because of can designing by a plurality of active units 120 (140), this first active layer 12 and this second active layer 14 be connected in series sealed forming each other, use the back if this first active layer 12 with this second active layer 14 loss normally or wearing and tearing has taken place long-time, also can change and assemble this first active layer 12 and this second active layer 14 simply, easily.

This wind-engaging spare 15 is connected on this first active layer 12 and this second active layer 14, in order to bear wind-force and to utilize wind-force to order about this first active layer 12 and this second active layer 14 and move (rotation) respectively on this first load-bearing member 11 and second load-bearing member 13.In addition, a plurality of these wind-engaging spares 15 can be at interval a specific distance be connected in regular turn on this first active layer 12 and this second active layer 14 with the form of annular arrangement.

Moreover, this wind-engaging spare 15 can be designed to sheet, oar shape or wing, and for example this wind-engaging spare 15 can be designed to have in order to first mast 151 that connects this first active layer 12, in order to second mast 152 that connects this second active layer 14 and the sail 153 that is connected in this first mast 151 and this second mast 152.Certainly, the shape of this wind-engaging spare 15, size, quantity also can change along with user's demand.

Generator unit 16, its live axle has by mobile being driven of rotating of first active layer 12 and/or second active layer 14 takes turns 161, to drive these first active layers 12 and second active layer 14 at this wind-engaging spare 15 on respectively at this first load-bearing member 11 and second load-bearing member 13 when mobile, be driven wheel 161 this first active layer 12 of contact or this second active layers 14 by this, be driven wheel 161 rotations to produce electric energy thereby drive this by this first active layer 12 or second active layer 14.In addition, the shape of this generator unit 16, quantity or allocation position, also can be flexibly along with the wind speed in the wind generating unit 1 residing environment of the present invention and/or air quantity and change.For example, stronger as if the wind-force of the environment that wind generating unit 1 of the present invention is set, can dispose many generator units 16 simultaneously to reach preferable wind-power electricity generation efficient, avoid causing the waste of wind resource.

In the present embodiment, this is driven wheel 161 and can be gear, this first active layer 12 and/or this second active layer 14 are taken turns 161 contacted surfaces with being driven of this generator unit 16, a plurality of tooth bars 121 (141) can have been designed, this tooth bar 121 (141) is driven wheel 161 in order to mesh this, and this tooth bar 121 (141) can be designed to one-body molded with this first active layer 12 and/or this second active layer 14 or separates setting.Certainly, the shape of this tooth bar 121 (141) also can design with user's demand, for example can be designed to vertical bar shape or radial.

Please consult Figure 1B simultaneously, for showing first load-bearing member 11 of the present invention, first active layer 12 and this tooth bar 121, and a side-looking generalized section of second load-bearing member 13 of the present invention, second active layer 14 and this tooth bar 141.As shown in the figure, this tooth bar 121 (141) can be designed to non-single level height.Therefore, wind generating unit of the present invention, can be along with the wind-force of environment of living in, the change of wind speed, or the quantity of the generator unit 16 that is disposed, that suitably adjusts this generator unit 16 is driven the wheel 161 and the allocation position of this tooth bar 121 (141), to provide this generator unit 16 different torque magnitude.Certainly, shape, quantity and/or the span of this tooth bar 121 (141) also can design with user's demand.

In a preferred embodiment, this first mast 151 by break (for example: oil compression rod etc.) be connected on this first active layer 12, and also can be designed to have at least one bounding means 122 on this first active layer 12 can be designed to.This break is in order to adjust the sphere of activities of this first mast 151, to change the wind-engaging angle of the sail 153 that connects this first mast 151 and this second mast 152.And this bounding means 122 is in order to limit this first mast 151 with respect to the sphere of activities on this first active layer 12.

During concrete enforcement, can be with a plurality of these wind generating unit 1 stacked on top of one another settings, and the mutual collocation by this bounding means 122 and this break, make that this wind generating unit 1 that lays respectively at upper and lower layers is designed to utilize wind resource to generate electricity with different sense of rotation (clockwise, counterclockwise) rotation.Therefore, be positioned at this sail 153 of the wind-engaging side (application of force side) of this wind generating unit 1, can be by of the mutual collocation of this bounding means 122 with this break, adjust this first mast 151 and then adjust the wind-engaging angle of this sail 153, make this sail 153 have best blowing area (maximum lifting surface area).Otherwise, be positioned at this sail 153 of the non-wind-engaging side of this wind generating unit 1, can be by the mutual collocation of this bounding means 122 with this break, adjust this first mast 151 and then adjust the wind-engaging angle of this sail 153, make this sail 153 that is positioned at non-wind-engaging side wind can be given removal.Certainly, also hearsay can be directed at this wind generating unit 1 of upper strata or lower floor, wind resource is carried out best utilization.

In another preferred embodiment of the present invention, this wind-engaging spare 15 can be movably connected on this first active layer 12 and this second active layer 14 simultaneously by break and swivel joint.In addition, all designing on this first active layer 12 and this second active layer 14 has relevant bounding means, in order to limit the sphere of activities of this wind-engaging spare 15 on this active layer 12 and this second active layer 14.

In another preferred embodiment of the present invention, this wind-engaging spare 15 is fixedly connected on this first active layer 12, and be movably connected on this second active layer 14, and design has relevant bounding means on this second active layer 14, in order to limit the sphere of activities of this wind-engaging spare 15 on this second active layer 14.

See also Fig. 2, for illustrating the Organization Chart of wind generating unit 2 of the present invention.This wind generating unit 2 comprises: first load-bearing member 21, first active layer 22, second load-bearing member 23, second active layer 24, wind-engaging spare 25 and generator unit 26.Yet, be with the maximum differential of aforementioned wind generating unit 1, this wind generating unit 2 also comprises at least one supporting element 27, and this wind-engaging spare 25 can be designed to have laminar body, oar shape body or the alae of certain degree of hardness, and this wind-engaging spare 25 is movably connected on this first active layer 22 and this second active layer 24 simultaneously.

This supporting element 27 can be designed to have stretchability and/or flexible structure, and connects this first active layer 22 and this second active layer 24 respectively, in order to this first active layer 22 and this second active layer, 24 support forces to be provided.In addition, on average force on this wind-engaging spare 25 because of wind is normally non-, therefore this supporting element 27 can further drive this first active layer 22 and this second active layer 24 is movable on this first load-bearing member 21 and this second load-bearing member 23 respectively simultaneously, and can avoid the situation that has big difference and cause this wind-engaging spare 25 to be damaged because of this first active layer 22 and this second active layer, 24 moving speed.Certainly, the length of this supporting element 27, width, quantity also can change with the demand of environment.Moreover, because of this wind-engaging spare 25 is to be movably connected on simultaneously on this first active layer 22 and this second active layer 24, therefore, this first active layer 22 and this second active layer 24 are respectively arranged with bounding means 222 and bounding means 242, to provide this wind-engaging spare 25 certain support force, and limit the sphere of activities of this wind-engaging spare 25, and then applicable in the Environmental Conditions with various wind directions.

See also Fig. 3, for illustrating the configuration diagram of overlooking of wind generating unit 3 of the present invention.The element of this wind generating unit 3, framework, configuration mode and roughly the same in aforementioned wind generating unit 1 (2), its maximum differential is that this wind generating unit 3 also comprises at least one collection wind devices 4.

This collects wind devices 4, is located at the wind-engaging spare outer circumferential side of this wind generating unit 3, in order to guide, to concentrate, to shunt or to stop wind-force.And this collection wind devices 4 can be designed to the shape of triangle, quadrangle, the odd number dihedral more than the pentagon or five, to obtain preferable inlet air angle.Moreover, this collection wind devices 4 can be surrounded on wind-engaging spare 35 around.As shown in Figure 3, dimetric collection wind devices 4 be surrounded on this wind-engaging spare 35 around, so that the wind-force of outside is imported inner wind generating unit 3.

What deserves to be mentioned is that this collection wind devices 4 can be made by a plurality of wind collecting part 41, and this wind collecting part 41 can be constituted (as shown in Figure 3A) with support 412 by a plurality of barge boards 411.This barge board 411 can be by swing before and after relevant control gear (not shown) is on this support 412 with up and down.Certainly, the barge board 411 that had of this wind collecting part 41 and shape, the quantity of support 412 all can be adjusted with user's demand.In addition, this collection wind devices 4 can triangle, the shape of quadrangle, pentagon or five above odd number dihedrals is around around this wind generating unit 3, and then guides wind blows to this wind-engaging spare 35 with the direction of the best.In the specific implementation, also can be according to different wind directions, wind speed, environment, power generating equipment height be set, build object height degree and user's demand, with a plurality of collection wind devices 4 self pile up, socket layer by layer, thereby this collection wind devices is installed to obtain wind resource by the mode of the most convenient and full blast.

In sum, wind generating unit of the present invention includes first load-bearing member, first active layer, second load-bearing member, second active layer, at least one wind-engaging spare, and at least one generator unit.This first active layer and this second active layer are arranged at respectively and reach on this second load-bearing member on this first load-bearing member, this wind-engaging spare is in order to driving this first active layer and this second active layer activity, and this first active layer and second active layer and then drive this generator unit to produce electric energy.Than prior art, wind generating unit of the present invention is applicable to various Environmental Conditions, not only can assemble easily and safeguard, also can flexibly adjust, and then use wind resource and then produce electric energy with usage mode expeditiously in response to different wind directions and wind speed.

But the foregoing description only is illustrative principle of the present invention and effect thereof, but not is used to limit the present invention.Any those skilled in the art all can be under spirit of the present invention and category, and the foregoing description is modified and changed.

Claims (16)

1. a wind generating unit is characterized in that, comprising:

First load-bearing member forms the circular rails shape;

First active layer is arranged on this first load-bearing member in the mode that moves along this first load-bearing member freely;

Second load-bearing member forms the circular rails shape, and keeps the corresponding setting in compartment of terrain with this first load-bearing member;

Second active layer is arranged on this second load-bearing member in the mode that moves along this second load-bearing member freely;

At least one wind-engaging spare is connected in this first active layer and this second active layer, drives this first active layer and this second active layer in order to bear wind-force and moves on this first load-bearing member and second load-bearing member respectively; And

At least one generator unit, its live axle has the wheel that is driven that rotates by moving of active layer, to drive this first active layer and second active layer at this wind-engaging spare respectively on this first load-bearing member and second load-bearing member when mobile, be driven wheel this first active layer of contact or this second active layer by this, be driven the wheel rotation to produce electric energy and drive this by this first active layer or second active layer.

2. wind generating unit according to claim 1 is characterized in that, also comprises at least one have stretchability and/or elastic supporting member for supporting optical member, connects this first active layer and this second active layer respectively.

3. wind generating unit according to claim 1, it is characterized in that, also comprise at least one collection wind devices, be located at the wind-engaging spare outer circumferential side of this wind generating unit, in order to guide, to concentrate, to shunt or to stop wind-force, this collection wind devices is made by a plurality of wind collecting parts, and this collection wind devices is that shape with triangle, quadrangle, pentagon or five above odd number dihedrals is around this wind-engaging spare.

4. wind generating unit according to claim 1 is characterized in that, the wheel that is driven of this generator unit is gear, and the contacted surface of this first active layer and/or this second active layer and gear forms the tooth bar with this gear engagement.

5. wind generating unit according to claim 4 is characterized in that, this tooth bar is non-single level height.

6. wind generating unit according to claim 1 is characterized in that, this first load-bearing member and this second load-bearing member are to be connected in series sealed forming each other by a plurality of load bearing units.

7. wind generating unit according to claim 1 is characterized in that, this first active layer and/or this second active layer are to be connected in series sealed forming each other by a plurality of active units.

8. wind generating unit according to claim 1 is characterized in that, this wind-engaging spare is laminar body or oar shape body, and this wind-engaging spare is movably connected on this first active layer and this second active layer.

9. wind generating unit according to claim 1 is characterized in that, also comprises at least one bounding means, is arranged at this first active layer or this second active layer, in order to limit the sphere of activities of this wind-engaging spare.

10. wind generating unit according to claim 1, it is characterized in that this wind-engaging spare comprises in order to first mast that connects this first active layer, in order to second mast that connects this second active layer and the sail that is connected in this first mast and this second mast.

11. wind generating unit according to claim 10 is characterized in that, this first mast and this second mast flexibly connect/are fixedly connected on this first active layer and this second active layer respectively.

12. wind generating unit according to claim 11, it is characterized in that, also comprise at least one bounding means, be arranged at this first active layer/this second active layer when flexibly connecting this first active layer/this second active layer at this first mast/this second mast, limit the sphere of activities of this first mast/this second mast.

13. wind generating unit according to claim 12 is characterized in that, this first mast/this second mast is to connect this first active layer/this second active layer by break.

14. wind generating unit according to claim 13 is characterized in that, adjusts the sphere of activities of this first mast or this second mast by this break, to change the wind-engaging angle of the sail that connects this first mast and this second mast.

15. wind generating unit according to claim 1 is characterized in that, this first load-bearing member, this second load-bearing member, this first active layer and this second active layer are ring structure.

16. wind generating unit according to claim 15 is characterized in that, a plurality of these wind-engaging spares are that at interval a specific range connects this first active layer and this second active layer in regular turn to present annular arrangement.

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