CN109372697A - A kind of width wind domain breeze power generation system - Google Patents

Abstract

The invention discloses a kind of wide wind domain breeze power generation systems, comprising: the first pylon, the second pylon, rounded impeller and at least one gear connecting shaft generator；First pylon and the second pylon are oppositely arranged, and gap is equipped between the first pylon and the second pylon；The outer surface of impeller is equipped with gear；Impeller is set in the gap, and the central axis by being arranged in the impeller center of circle, is fixed with the first pylon and the second pylon, and impeller is rotatable around central axis；One end on the first pylon and the second pylon close to ground is arranged in gear connecting shaft generator, and engages with gear.The present invention guarantees that electricity generation system maintenance work can be completed in low latitude, greatly reduces system maintenance work complexity, risk and maintenance cost.And the low latitude installation and operation of wind-driven generator can carry out noise elimination noise reduction to electricity generation system, can also complete the protection to it well, avoid erosion of the environment to wind-driven generator.

Description

A kind of width wind domain breeze power generation system

Technical field

The present invention relates to technical field of wind power generation more particularly to a kind of wide wind domain breeze power generation systems.

Background technique

Along with being in an emergency for global traditional energy, the benefit to various renewable and clean energy resources is increasingly paid attention in countries in the world With.Wind-power electricity generation does not have fuel problem, will not generate radiation and environmental pollution, inexhaustible.Current wind-force Relative maturity converts wind energy into mechanical energy and drives power generator work generation technology using the rotation of wind blows fan blade, To generate the electric energy for utilizing.Currently, wind power generating set mainstream is trunnion axis blower, larger with single-machine capacity, The advantages that lasting a long time, but its material to blade, intensity requirement is higher, and is difficult to maintenance protection.Due to trunnion axis blower Double-fed generator is mostly used greatly, front end needs that step-up gear is added, so that the failure rate of gear-box is higher, seriously affects wind Machine operates normally.The cabin altitude of trunnion axis blower differs due to its amount of capacity at tens meters to rice up to a hundred, causes maintenance workers It is higher to make complex and risk.It is helpless in face of typhoon, lightning stroke and noise problem.The power generation of windmill type generating equipment Efficiency and lower and higher to environmental requirement to the utilization rate of wind energy, needs stronger air-flow, can not determine that collection wind end is begun Alignment high wind direction eventually.It is relatively deficient for wind resource, and wind comes to uncertain environment, it is difficult to hair is completed well Electric task.

Summary of the invention

The present invention provides a kind of wide wind domain breeze power generation systems, to solve wind-driven generator installation maintenance component difficulty of uniting Problem high, danger coefficient is high.

In order to solve the above-mentioned technical problem, the embodiment of the invention provides a kind of wide wind domain breeze power generation systems, comprising: the One pylon, the second pylon, rounded impeller and at least one gear connecting shaft generator；

First pylon and second pylon are oppositely arranged, and are set between first pylon and second pylon There is gap；

The outer surface of the impeller is equipped with gear；The impeller is set in the gap, and by being arranged in the leaf The central axis for taking turns the center of circle, is fixed, and the impeller is rotatable around the central axis with first pylon and second pylon；

One end on first pylon and second pylon close to ground is arranged in the gear connecting shaft generator, and It is engaged with the gear.

Preferably, the impeller includes: the end along the multiple blades of the impeller being arranged radially and with the blade Hold the annular anchoring structures of connection；

Wherein, the outer surface of the annular anchoring structures is arranged in the gear.

Preferably, the blade is rotatable relative to the annular anchoring structures in a first direction；

Wherein, the extending direction of the first direction and the blade is perpendicular.

Preferably, wide wind domain breeze power generation system further include: the pedestal for fixing on the ground；

First pylon and second pylon are fixed on the base, and the gear connecting shaft generator is close to institute State pedestal setting.

Preferably, the pedestal includes: the pedestal and mounting platform for fixing on the ground；

The pedestal is equipped with arc-shaped guide rail；

The mounting platform is connect with the arc-shaped guide rail, and the mounting platform along the arc-shaped guide rail slidably；

First pylon and second pylon are fixed on the mounting platform.

Preferably, the arc-shaped guide rail is spherical guide.

Preferably, the curved angle of the arc-shaped guide rail is 360 °.

Preferably, multiple boss are additionally provided on the pedestal, the boss is arranged backwards to the arc-shaped guide rail.

Preferably, one end on first pylon and the second pylon far from ground is respectively equipped with impeller support device；

The side of the impeller support device and the impeller connects.

Preferably, one end on first pylon and the second pylon far from ground is respectively equipped with lightning arrester.

Preferably, one end on first pylon and the second pylon close to ground is equipped with impeller brake apparatus.

The beneficial effect of the embodiment of the present invention is:

In above scheme, the outer rim of impeller is uniformly equipped with gear, when wind energy pushes impeller around center axis rotation, tooth Wheel follows wheel rotation；The gear connecting shaft generator is engaged with gear, therefore in wheel rotation, is realized and is driven by gear The rotation of gear connecting shaft generator, converts kinetic energy into electric energy, final to realize that wind energy transformation is electric energy.It should be noted that described The quantity of gear connecting shaft generator can be configured according to design power, and when multiple gear connecting shaft generators are arranged, due to Multiple gear connecting shaft generator is driven by same gear, it is ensured that the revolving speed of gear connecting shaft generator is identical.

In addition, the gear connecting shaft generator is arranged on first pylon and second pylon close to the one of ground End, and be driven by mechanical structure, guarantee that electricity generation system maintenance work can be completed in low latitude, greatly reduces system maintenance work Make complexity, risk and maintenance cost.And the low latitude installation and operation of wind-driven generator, can disappear to electricity generation system Sound noise reduction can also complete the protection to it well, avoid erosion of the environment to wind-driven generator.

Detailed description of the invention

Fig. 1 shows one of the schematic diagrames of the wide wind domain breeze power generation system of the embodiment of the present invention；

Fig. 2 indicates the two of the schematic diagram of the wide wind domain breeze power generation system of the embodiment of the present invention.

Description of symbols:

1, the first pylon；

2, the second pylon；

3, impeller；

31, gear；

32, blade；

33, annular anchoring structures

4, gear connecting shaft generator；

5, pedestal；

51, pedestal；

510, boss；

52, mounting platform；

6, impeller support device；

7, lightning arrester；

8, impeller brake apparatus.

Specific embodiment

The exemplary embodiment that the present invention will be described in more detail below with reference to accompanying drawings.Although showing the present invention in attached drawing Exemplary embodiment, it being understood, however, that may be realized in various forms the present invention without should be by embodiments set forth here It is limited.It is to be able to thoroughly understand the present invention on the contrary, providing these embodiments, and can be by the scope of the present invention It is fully disclosed to those skilled in the art.

As depicted in figs. 1 and 2, the embodiment provides a kind of wide wind domain breeze power generation systems, comprising: the first tower Frame 1, the second pylon 2, rounded impeller 3 and at least one gear connecting shaft generator 4.

First pylon 1 and second pylon 2 are oppositely arranged, and first pylon 1 and second pylon 2 it Between be equipped with gap.

The outer surface of the impeller 3 is equipped with gear 31；The impeller 3 is set in the gap, and by being arranged in The central axis for stating 3 center of circle of impeller, it is fixed with first pylon 1 and second pylon 2, and the impeller 3 is around the center Axis is rotatable.

The gear connecting shaft generator 4 is arranged on first pylon 1 and second pylon 2 close to the one of ground End, and engaged with the gear 31.

Specifically, the first pylon 1 and the second pylon 2 are used to be vertically installed in ground, or ground is set to by pedestal； Wherein the first pylon 1 and the second pylon 2 respectively include a main support column, and with the main support column in predetermined angle setting At least two auxiliary support columns, the auxiliary support column are respectively arranged at the two sides of the main support column, and the one of the auxiliary support column End is connect with the main support column, and the other end is for being set to ground or being set to ground by pedestal, to improve the first tower The stability and reliability of frame 1 and the second pylon 2.

In the embodiment, the outer rim of the impeller 3 is uniformly equipped with gear 31, when wind energy pushes impeller 3 around central axis When rotation, gear 31 follows impeller 3 to rotate；The gear connecting shaft generator 4 is engaged with gear 31, therefore when impeller 3 rotates, It realizes and is rotated by gear 31 with moving gear connecting shaft generator 4, convert kinetic energy into electric energy, it is final to realize that wind energy transformation is electricity Energy.

It should be noted that the quantity of the gear connecting shaft generator 4 can be configured according to design power, and it is arranged When multiple gear connecting shaft generators 4, since multiple gear connecting shaft generator 4 is driven by same gear, it is ensured that gear connects The revolving speed of shaft generator 4 is identical.

In addition, the gear connecting shaft generator 4 is arranged on first pylon 1 and second pylon 2 close to ground One end, and by mechanical structure be driven, guarantee electricity generation system maintenance work can be completed in low latitude, greatly reduce system tie up Nurse makees complexity, risk and maintenance cost.And the low latitude installation and operation of wind-driven generator, can to electricity generation system into Row noise elimination noise reduction can also complete the protection to it well, avoid erosion of the environment to wind-driven generator.

Wherein, the impeller 3 include: along the impeller the multiple blades 32 being arranged radially and with the blade 32 The annular anchoring structures 33 of end connection；Wherein, the outer surface of the annular anchoring structures 33 is arranged in the gear 31.

Specifically, the end of blade 32 is one end radially away from 3 center of circle of impeller along impeller 3.Annular anchoring structures 33 center of circle is the center of circle of impeller 3, and the blade 32 is located at the inside of the annular anchoring structures 33, and from the center point It radially distributes along the radial direction of the annular anchoring structures 33.The blade 32 is in a first direction relative to the annular Fixed structure 33 is rotatable；Wherein, the extending direction of the first direction and the blade 32 is perpendicular.Preferably, blade 32 Rotatable angular range is 0~360 ° in a first direction, to guarantee that blade 32 can rotate random angle in a first direction Degree.In this way, by being rotated blade 32 in a first direction to different angles, to adjust the front face area of blade 32, to protect Card impeller 3 under different wind conditions is able to maintain that in a stable range of speeds.

It should be noted that the quantity of blade 32 can be configured according to design power, although giving one as shown in figure 1 Kind of impeller 3 has an example of 5 blades 32, but the embodiment of the present invention can also be arranged impeller 3 and have in addition to this other The blade 32 of quantity, invention is not limited thereto.

In the embodiment, the end of blade 32 is fixed by annular anchoring structures 33, greatly strengthens the reply of fan blade 32 Boisterous ability；It is also beneficial to increase the front face area of fan blade by the fixed fan blade 32 of annular anchoring structures 33, low In the case where wind speed, higher wind power can capture, higher efficiency utilizes wind resource.

Wherein, wide wind domain breeze power generation system further include: the pedestal 5 for fixing on the ground；First tower Frame 1 and second pylon 2 are fixed on the pedestal 5, and the gear connecting shaft generator 4 is arranged close to the pedestal 5.

Specifically, the pedestal 5 includes: the pedestal 51 and mounting platform 52 for fixing on the ground.

The pedestal 51 is equipped with arc-shaped guide rail；The mounting platform 52 is connect with the arc-shaped guide rail, and the installation Platform 52 along the arc-shaped guide rail slidably；First pylon 1 and second pylon 2 are fixed on the mounting platform 52 On.

Wherein, the shape of pedestal 51 and mounting platform 52 can be circle, rectangle, polygon or in addition to this other Shape, invention is not limited thereto.It preferably, can be circle.

In the embodiment, first pylon 1 and second pylon 2 are fixed on the mounting platform 52, and are pacified It is connected between assembling platform 52 and pedestal 51 by arc-shaped guide rail, realizes the rotation of the first pylon 1 and the second pylon 2 in the horizontal plane Turn, to realize the rotation of impeller in the horizontal plane.

Preferably, the arc-shaped guide rail is spherical guide, realizes water of the mounting platform 52 relative to pedestal 51 by ball Flat rotation.The curved angle of the arc-shaped guide rail is 360 °.In this way, the first pylon 1 and the second pylon 2 can be real in the horizontal plane Existing 360 ° of rotations, so that the 360 ° of rotations of impeller 3 in the horizontal plane are realized, in order to adjust blade windward according to wind-force direction Self- steering is realized in face direction, makes to collect air port always towards the stronger direction of wind-force.Meanwhile horizontal rotation function can also be severe Unrestricted choice downwind under weather, effectively reduces front face area, enhances electricity generation system and copes with boisterous ability.

Wherein, multiple boss 510 are additionally provided on the pedestal 51, the boss 510 is arranged backwards to the arc-shaped guide rail.Institute Boss 510 is stated for being fixed on ground, increases the stress with ground, guarantees that wide wind domain breeze power generation system is fixed on ground On stability and reliability.Preferably, the material of boss 510 can be cement.

Wherein, one end on first pylon 1 and the second pylon 2 far from ground is respectively equipped with impeller support device 6；Institute The side for stating impeller support device 6 and the impeller 3 connects.

In the embodiment, the top (one end far from ground) of first pylon 1 and the second pylon 2 is equipped with impeller branch Support arrangement 6 is contacted with impeller 3, is played a protective role for the rotation of impeller 3.

Wherein, one end on first pylon 1 and the second pylon 2 far from ground is respectively equipped with lightning arrester 7, plays guarantor Protect the effect of wide wind domain breeze power generation system.

Wherein, one end on first pylon 1 and the second pylon 2 close to ground is equipped with impeller brake apparatus 8, in order to The braking to impeller 3 is realized by impeller brake apparatus 8.

The working principle of wide wind domain breeze power generation system in the embodiment of the present invention are as follows: the uncertain wind regime in direction near the ground It, can be according to wind intensity size, by installing the sliding between flat 52 and pedestal 51 when blowing to wide wind domain breeze power generation system Guide rail rotates the first pylon 1 connecting with mounting platform 52 and the second pylon 2 in horizontal plane, and adjust automatically direction makes impeller 3 always towards the stronger direction of wind-force.Wind energy pushes the blade 32 installed on impeller 3 to rotate, and converts wind energy into impeller 32 Kinetic energy.Impeller 3 rotates, and by the gear 31 of 3 outer rim of impeller, drives the gear connecting shaft generator 4 in low latitude to work, kinetic energy is converted It is final to realize that wind energy transformation is electric energy for electric energy.

In above scheme, gear connecting shaft generator 4 is arranged on first pylon 1 and second pylon 2 closely The one end in face, and be driven by mechanical structure, guarantee that electricity generation system maintenance work can be completed in low latitude, greatly reduces system Maintenance work complexity, risk and maintenance cost.And the low latitude installation and operation of wind-driven generator, can be to electricity generation system Noise elimination noise reduction is carried out, the protection to it can also be completed well, avoid erosion of the environment to wind-driven generator.

And the end of blade 32 is fixed by annular anchoring structures 33, fan blade 32 is greatly strengthened and copes with bad weather Ability；It is also beneficial to increase the front face area of fan blade by the fixed fan blade 32 of annular anchoring structures 33, in the feelings of low wind speed Under condition, higher wind power can capture, higher efficiency utilizes wind resource.

In addition, first pylon 1 and second pylon 2 are fixed on the mounting platform 52, and mounting platform It is connected between 52 and pedestal 51 by arc-shaped guide rail, realizes the rotation of the first pylon 1 and the second pylon 2 in the horizontal plane, thus Realize the rotation of impeller in the horizontal plane.Preferably, the curved angle of arc-shaped guide rail is 360 °.In this way, the first pylon 1 and second Pylon 2 can realize 360 ° of rotations in the horizontal plane, so that the 360 ° of rotations of impeller 3 in the horizontal plane are realized, in order to basis Wind-force direction adjusts the windward side direction of blade, realizes self- steering, makes to collect air port always towards the stronger direction of wind-force.Meanwhile Rotate horizontally function can also unrestricted choice downwind in inclement weather, effectively reduce front face area, enhance electricity generation system Cope with boisterous ability.

Above-described is the preferred embodiment of the present invention, it should be pointed out that the ordinary person of the art is come It says, can also make several improvements and retouch under the premise of not departing from principle of the present invention, these improvements and modifications also exist In protection scope of the present invention.

Claims (10)

1. a kind of width wind domain breeze power generation system characterized by comprising the first pylon (1), the second pylon (2), rounded Impeller (3) and at least one gear connecting shaft generator (4)；

First pylon (1) and second pylon (2) are oppositely arranged, and first pylon (1) and second pylon (2) gap is equipped between；

The outer surface of the impeller (3) is equipped with gear (31)；The impeller (3) is set in the gap, and by being arranged in The central axis in impeller (3) center of circle, it is fixed with first pylon (1) and second pylon (2), and the impeller (3) It is rotatable around the central axis；

The gear connecting shaft generator (4) is arranged on first pylon (1) and second pylon (2) one close to ground End, and engaged with the gear (31).

2. width wind domain according to claim 1 breeze power generation system, which is characterized in that the impeller (3) includes: along described The multiple blades (32) of impeller being arranged radially and the annular anchoring structures (33) being connect with the end of the blade (32)；Its In, outer surface of gear (31) setting in the annular anchoring structures (33).

3. width wind domain according to claim 2 breeze power generation system, which is characterized in that the blade (32) is in a first direction On it is rotatable relative to the annular anchoring structures (33)；

Wherein, the extending direction of the first direction and the blade is perpendicular.

4. width wind domain according to claim 1 breeze power generation system, which is characterized in that further include: for being fixed on ground On pedestal (5)；

First pylon (1) and second pylon (2) are fixed on the pedestal (5), and the gear connecting shaft generator (4) it is arranged close to the pedestal (5).

5. width wind domain according to claim 4 breeze power generation system, which is characterized in that the pedestal (5) includes: for solid Fixed pedestal (51) and mounting platform (52) on the ground；

The pedestal (51) is equipped with arc-shaped guide rail；

The mounting platform (52) connect with the arc-shaped guide rail, and the mounting platform (52) can be slided along the arc-shaped guide rail It is dynamic；

First pylon (1) and second pylon (2) are fixed on the mounting platform (52).

6. width wind domain according to claim 5 breeze power generation system, which is characterized in that the curved angle of the arc-shaped guide rail It is 360 °.

7. width wind domain according to claim 5 breeze power generation system, which is characterized in that be additionally provided on the pedestal (51) more A boss (510), the boss (510) are arranged backwards to the arc-shaped guide rail.

8. width wind domain according to claim 1 breeze power generation system, which is characterized in that first pylon (1) and second One end on pylon (2) far from ground is respectively equipped with impeller support device (6)；

The side of the impeller support device (6) and the impeller (3) connects.

9. width wind domain according to claim 1 breeze power generation system, which is characterized in that first pylon (1) and second One end on pylon (2) far from ground is respectively equipped with lightning arrester (7).

10. width wind domain according to claim 1 breeze power generation system, which is characterized in that first pylon (1) and second One end on pylon (2) close to ground is equipped with impeller brake apparatus (8).