CN104518731A - Wind-gathering photovoltaic power generation system of base station - Google Patents

Abstract

The invention discloses a wind-gathering photovoltaic power generation system of a base station. The wind-gathering photovoltaic power generation system comprises a solar power generation system and a wind power generation system, wherein the wind power generation system comprises a stator fixed with a supporting rod of the base station, and a rotor which sleeves the outer side of the stator and rotates around the stator; the axial direction of the rotor is the same as that of the supporting rod; two or more wind-gathering parts circumferentially and uniformly distributed along the rotor are fixedly connected to the outer side of the rotor and driven by wind to drive the rotor to rotate; the solar power generation system comprises a bracket fixedly connected to the supporting rod below the rotor; two or more solar cell panels are fixed on the outer side surface of the bracket. According to the wind-gathering photovoltaic power generation system, the wind power generation and the photovoltaic power generation can be realized, and the electricity utilization requirements of the base station can be met, so that the working state of the base station can be smoothly kept; moreover, an upper wind guide part and a lower wind guide part are arranged, so that the wind-gathering effect is relatively good and the sensitivity is relatively high due to wind power driving.

Description

Base station wind gathering photovoltaic generating system

Technical field

The present invention relates to a kind of electricity generation system, particularly relate to a kind of base station electricity generation system.

Background technology

The fast development of communication requires the wider network coverage, also requires to provide reliable, stable supply of electric power simultaneously.But China is vast in territory, with a varied topography, electrical network covers the supply of electric power requirement that can not meet communication equipment far away, even if the area covered also is much rural power grids or small power station's supply power mode, supply of electric power is very unstable, and the maintenance cost of circuit is very high.Therefore, a lot of areas without electricity communication generally adopts diesel engine, but the long-time running of diesel engine and maintenance cost are all high, and diesel oil produces carbon dioxide pollution, large too to the pollution of environment.

Therefore some wind-force used at the communication base station without electric network or photovoltaic generating system have also been there is now, energy-conservation communication base station disclosed in Chinese patent CN202359843U, this energy-conservation communication base station, comprise communication tower, machine room that inside is provided with current consuming apparatus, described communication tower is provided with the solar energy electroplax group of wind-driven generator and at least one deck, described solar energy electroplax group is fixedly installed on around communication tower, and described wind-driven generator is all connected with the current consuming apparatus in machine room with solar energy electroplax group.This power generation system structure is complicated, and volume is comparatively large, actual use very inconvenient.

Or the green integration base station disclosed in Chinese patent CN203308126U, it comprises top and is provided with the tower body of antenna equipment device, bottom platform and machine room; Tower body forms by some sections, is arranged in bottom platform; Tower body top is provided with the wind energy system of wind power plant, and machine room arranges solar panels, and tower body arranges tie-strut and reinforces the connection in bottom platform and machine room, and tie-strut is made up of some rod members.Tower body forms by some sections, with anti-theft screw by being arranged in bottom platform, machine room anti-theft bolt is arranged in bottom platform, tower body becomes to be integrated with bottom platform with machine room, tie-strut forms by some, tower body and machine room tie-strut are reinforced, according to the on-site situation quantification of construction; This structure, installs simple and convenient, cycle of building a station short, convenient transportation, can be used as interim or persistent communication base station and uses.Although it also has the function of photovoltaic generation and wind power generation, overall structure is still simplified not, and too complicated, volume is small and exquisite not, is unfavorable for the installation, maintenance in base station and use.

Summary of the invention

It is little that technical problem to be solved by this invention is to provide a kind of volume, compact conformation, can provide the base station wind gathering photovoltaic generating system of photovoltaic generation and wind power generation for base station.

The present invention solves the problems of the technologies described above adopted technical scheme: a kind of base station wind gathering photovoltaic generating system, comprise solar power system and wind generator system, it is characterized in that: described wind generator system comprises the stator fixed with the support bar of base station, and the rotor be placed on around stator rotation outside stator, the axis of described rotor and the axis of described support bar are in the same way, equally distributed at least two the wind gathering parts of circumference along rotor are fixedly connected with outside described rotor, described wind gathering parts rotor driven under wind drive rotates, described solar power system comprises the support that the support bar below described rotor is fixedly connected with, the outer surface of this support is fixed with solar panel,

Described support bar is fixed with wind guide component on above described rotor, on this support bar, the below of described rotor is fixed with wind guide component, described upper and lower wind guide component is all fixed with support bar and is placed on outside support bar, on this wind guide component from the top down external diameter reduce gradually, this lower wind guide component from bottom to top external diameter reduces gradually, and described upper and lower wind guide component is between wind gathering parts and rotor.

Preferably, the part that fixes of described wind gathering parts and support bar is between upper and lower wind guide component.

Preferably, described support is umbrella shape parts.The support of umbrella shape has certain wind effect, and solar power system and wind generator system are complemented each other.

Preferably, the described wind gathering parts conical part that to be an entire outer diameter size close along the diminishing and small end of the circumference of rotor, the axis of these wind gathering parts is vertical with described support bar, and the change direction of the external diameter of described at least two wind gathering parts is consistent.

In order to make wind gathering parts only by a direction wind drive and sensitivity is higher, described wind gathering parts comprise external diameter and reduce wind gathering portion in hollow barrel-type gradually along the circumference of rotor, described wind gathering portion both ends open, the inner side in described wind gathering portion is provided with a connection bracket, this connection bracket along wind gathering portion radial direction extend and this connection bracket is provided with a through hole, the connecting rod extended in the same way with the axis in wind gathering portion is inserted with in described through hole, one end of described connecting rod is fixedly attached to a movable part, this movable part can along with connecting rod move in wind gathering portion so that near or away from this connection bracket, this movable part is close to away from the periphery of its periphery during connection bracket and the less one end of wind gathering portion external diameter this end in wind gathering portion is closed, this movable part has gap between its periphery and the inner surface in wind gathering portion when this connection bracket.

Preferably, described movable part be an external diameter reduce gradually and small end close conical part.

In order to make overall volume smaller and more exquisite, topology layout is more reasonable, and described lower wind guide component is formed on the top of described support.

Preferably, described support bar is divided into two sections, and this hypomere is connected to the below of stator by lower flange, and epimere is connected to the top of stator by upper flange, and epimere and hypomere are all coaxially arranged with stator.

Preferably, described wind gathering parts are fixed by connection bracket and described support bar.

Preferably, described connection bracket is a cross bracket.

Compared with prior art, advantage of the present invention: be that this base station wind gathering photovoltaic generation not only can realize wind-force and photovoltaic generation, enough can meet the need for electricity of base station, make base station can keep operating state smoothly; And this base station wind gathering photovoltaic generating system, have upper and lower wind guide component, wind gathering effect is better, and by wind drives sensitiveer.And lower wind guide component is formed on the top of this support, make integral structure layout more reasonable, wind generator system and photovoltaic generating system complement each other.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the base station wind gathering photovoltaic generating system of the embodiment of the present invention.

Fig. 2 is the enlarged diagram in Fig. 1.

Fig. 3 is the schematic diagram of another angle of parts in Fig. 2.

Fig. 4 is the schematic diagram looking up angle of the parts in Fig. 2.

Fig. 5 is the cutaway view of the wind gathering parts of the embodiment of the present invention.

Fig. 6 is the cutaway view (wind gathering portion and movable part have the state in gap) of the wind gathering parts of the embodiment of the present invention.

Embodiment

Below in conjunction with accompanying drawing embodiment, the present invention is described in further detail.

As Figure 1-5, the base station wind gathering photovoltaic generating system of the embodiment of the present invention comprises solar power system and wind generator system.Concrete, comprise the stator be fixed on the support bar 10 of base station 100, and be placed on the rotor 2 outside stator, this rotor 2 coaxially arranges with stator and can around stator rotation outside stator, and the axis of this rotor 2 and the axis of support bar 10 are in the same way.Described support bar 10 can be divided into two sections, hypomere is connected to the below of stator by lower flange, epimere is connected to the top of stator by upper flange, and epimere and hypomere axially all with the axis of stator in the same way, the top of epimere is fixedly connected with described base station 100, between upper and lower section that namely the stator of wind generator system is fixed on support bar 10.The support bar 10 of the below of described stator is also fixed with solar panel 3, this solar panel is fixed on the support 4 of a taper, the support 4 of this taper is fixed on support bar 10, the outer surface of this support 4 is fixed with at least that two panels solar panel 3 is for solar power generation, the electric energy that the solar energy changed of solar panel 3 is formed can be stored in the storage battery of base station.Support 4 and the solar panel 3 of above-mentioned taper are described solar power system.Preferably, this support is umbrella shape parts, i.e. its intermediate hollow, and this support 4 also not necessarily umbrella shape, as long as its external diameter from up to down expands gradually, and its outer surface is upwards provided with solar panel 3, and this support 4 can hollow also can be a solid object.

As Figure 2-3, the top of the support 4 of this umbrella shape is stators and rotators 2, rotor 2 is fixedly connected with equally distributed at least two the wind gathering parts 5 of circumference along rotor 2, this wind gathering parts 5 horizontally set is positioned at the outside of rotor 2, it is axially vertical with support bar 10, as shown in Figure 5, these wind gathering parts 5 comprise external diameter and reduce wind gathering portion 51 in hollow barrel-type gradually along the circumference of rotor 2, this wind gathering portion both ends open, this wind gathering portion horizontally set, namely the axis in wind gathering portion 51 is horizontally disposed with, the i.e. axis in this wind gathering portion 51 and the axial vertical of this support bar 10, this wind gathering portion 51 is fixedly connected with this rotor 2, and the change direction of the external diameter in the wind gathering portion 51 of these at least two wind gathering parts 5 is consistent.The inner side in this wind gathering portion 51 is provided with connection bracket 52, and this wind gathering portion 51 is fixed on rotor 2 by this connection bracket 52, and this connection bracket 52 extends along the radial direction in this wind gathering portion 51, and namely this connection bracket 52 and this wind gathering portion 51 is axial vertical.Preferably, as shown in the figure, can be a cross bracket.The center of this connection bracket 52 is provided with the through hole 54 passed for a horizontally disposed horizontal expansion connecting rod 53, the bearing of trend of described connecting rod 53 and the axis in wind gathering portion 51 are in the same way, the one end of the connecting rod 53 inserted in this through hole 54 is connected to the center of the movable part 55 of a taper, the movable part 55 of this taper can move along this through hole 54 anterior-posterior horizontal under the driving of wind-force, namely this movable part 55 can along with the motion of connecting rod 53 move in wind gathering portion 51 near or away from this connection bracket 52.And the movable part 55 of this taper matches with the radial direction of less one end, wind gathering portion 51, when making the movable part 55 of this taper away from this connection bracket 52, the movable part 55 of this taper and wind gathering portion 51 form a larger taper, namely this wind gathering parts 5 entirety is vertical with support bar 10 in an axial horizontal expansion, and reducing gradually along its outside dimension of circumference of rotor 2, and the parts that its small end is closed.The end of the periphery of movable part 55 and the less one end of wind gathering portion 51 radial dimension is close to.Such setting, make these wind gathering parts 5 only can be subject to the driving of the wind direction in a direction, and then rotor driven 2 rotates, realize wind power generation, when these wind gathering parts 5 are subject to the driving of other reciprocal wind-force, this movable part 55 can move towards connection bracket 52, make to occur gap 56 between the periphery of movable part 55 and the less one end of wind gathering portion 51 radial dimension, as shown in Figure 6, and then wind flows through from this gap 56, these wind gathering parts 5 are made only to be subject to the driving of the wind in a direction, all have because the wind of occurring in nature is often all directions, arrange if not so, these wind gathering parts 5 can cannot rotate usually, and then cannot wind power generation be realized.And those skilled in the art also can recognize, this movable part 55 also not necessarily cross section be the conical part of annulus, the external diameter of other shapes that also can be cross section be reduces and the conical part closed of small end gradually, or this movable part 55 also can be the plane of a circle or other shapes, or can be a cover-shaped body, as long as this movable part 55 along with connecting rod 53 move time, when this movable part 55 is close to makes one end that this wind gathering portion external diameter is less close away from the periphery of one end that its periphery during connecting rod can be less with the external diameter in wind gathering portion 51, between the inner surface in this movable part 55 its periphery and wind gathering portion 51 when connection bracket 52, there is gap 56, those skilled in the art can according to above-mentioned principle designed, designed.And the longer distance namely between wind gathering parts 5 and rotor of the length of this connection bracket 52 is larger, then moment is larger, makes the efficiency of wind gathering higher, the better effects if of wind power generation.

Preferably, as shown in Figure 2,3, 4, the profile of the latter half in the shape at the top of this support 4 and the wind gathering portion 51 of wind gathering parts matches, form wind guide component 61, namely the profile of the outer surface of this lower wind guide component 61 and the latter half in wind gathering portion 51 matches, this lower wind guide component 61 from bottom to top external diameter reduces gradually, and cross section is curved.This support bar 10 fixes wind guide component 62 on above this stator and rotor, on this wind guide component 62 from the top down external diameter reduce gradually, and its cross section is also arc, and the profile of the first half in its outer surface and wind gathering portion 51 matches, this upper and lower wind guide component lays respectively at the upper and lower of wind gathering parts 5, between wind gathering parts 5 and rotor 2, for wind is directed to wind gathering parts 5.The electric energy that this wind generator system is changed, is also stored in the storage battery of base station.This lower wind guide component 61 can be one-body molded with support 4, namely this lower wind guide component 61 is formed on the top of support 4, namely described solar panel also can be fixed on lower wind guide component, make structure compact and reasonable more like this, the volume of whole system is also less, also can be to separate with support 4 to be formed.This upper and lower wind guide component all fixes with support bar 10.Preferably, this upper and lower wind guide component and support 4 are all fixed by outward extending connecting rod vertical with the axis of support bar 10 and support bar 10, and this upper and lower air dam and support are all placed on the outside of support bar 10.And the part that above-mentioned connection bracket and support bar 10 fix is between upper wind guide component 62 and lower wind guide component 61.

This base station wind gathering photovoltaic generation not only can realize wind-force and photovoltaic generation, enough can meet the need for electricity of base station, makes base station can keep operating state smoothly.And this base station wind gathering photovoltaic generating system, have upper and lower wind guide component, wind gathering effect is better, and by wind drives sensitiveer.

Although more than describe in detail the preferred embodiments of the present invention, should be expressly understood that, for a person skilled in the art, the present invention can have various modifications and variations.All any amendments done within the spirit and principles in the present invention, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. a base station wind gathering photovoltaic generating system, comprise solar power system and wind generator system, it is characterized in that: described wind generator system comprises the stator fixed with the support bar of base station (100) (10), and the rotor (2) be placed on around stator rotation outside stator, the axis of described rotor (2) and the axis of described support bar (10) are in the same way, described rotor (2) outside is fixedly connected with equally distributed at least two the wind gathering parts (5) of circumference along rotor (2), described wind gathering parts (5) rotor driven (2) under wind drive rotates, described solar power system comprises the support (4) that the support bar (10) of described rotor (2) below is fixedly connected with, the outer surface of this support (4) is fixed with solar panel (3),

Described support bar (10) is fixed with wind guide component on (62) in the top of described rotor (2), the below of the upper described rotor (2) of this support bar (10) is fixed with wind guide component (61), described upper and lower wind guide component is all fixed with support bar (10) and is placed on support bar (10) outside, on this wind guide component (62) from the top down external diameter reduce gradually, this lower wind guide component (61) from bottom to top external diameter reduces gradually, and described upper and lower wind guide component is positioned between wind gathering parts (5) and rotor (2).

2. wind gathering photovoltaic generating system in base station as claimed in claim 1, is characterized in that: the part that described wind gathering parts (5) and support bar (10) fix is between upper and lower wind guide component.

3. wind gathering photovoltaic generating system in base station as claimed in claim 1, is characterized in that: described support (4) is umbrella shape parts.

4. the base station wind gathering photovoltaic generating system according to any one of claim 1-3, it is characterized in that: described wind gathering parts (5) conical part that to be an entire outer diameter size close along the diminishing and small end of the circumference of rotor (2), the axis of these wind gathering parts (5) is vertical with described support bar (10), and the change direction of the external diameter of described at least two wind gathering parts (5) is consistent.

5. wind gathering photovoltaic generating system in base station as claimed in claim 4, it is characterized in that: described wind gathering parts (5) comprise external diameter and reduce wind gathering portion (51) in hollow barrel-type gradually along the circumference of rotor (2), described wind gathering portion (51) both ends open, the inner side of described wind gathering portion (51) is provided with a connection bracket (52), this connection bracket (52) along wind gathering portion (51) radial direction extend and this connection bracket (52) is provided with a through hole (54), the connecting rod (53) extended in the same way with the axis of wind gathering portion (51) is inserted with in described through hole (54), one end of described connecting rod (53) is fixedly attached to a movable part (55), this movable part (55) can along with connecting rod (53) move in wind gathering portion (51) so that near or away from this connection bracket (52), this movable part (55) is close to away from the periphery of its periphery time connection bracket (52) and the less one end of wind gathering portion (51) external diameter this end in wind gathering portion (51) is closed, this movable part (55) has gap (56) between its periphery and the inner surface of wind gathering portion (51) when this connection bracket (52).

6. base station wind gathering photovoltaic generating system as claimed in claim 5, is characterized in that: described movable part (55) is that an external diameter reduces and the conical part closed of small end gradually.

7. wind gathering photovoltaic generating system in base station as claimed in claim 1, is characterized in that: described lower wind guide component (61) is formed on the top of described support (4).

8. wind gathering photovoltaic generating system in base station as claimed in claim 1, it is characterized in that: described support bar (10) is divided into two sections, this hypomere is connected to the below of stator by lower flange, epimere is connected to the top of stator by upper flange, and epimere and hypomere are all coaxially arranged with stator.

9. wind gathering photovoltaic generating system in base station as claimed in claim 5, is characterized in that: described wind gathering parts (5) are fixed by connection bracket (52) and described support bar (10).

10. wind gathering photovoltaic generating system in base station as claimed in claim 9, is characterized in that: described connection bracket (52) is a cross bracket.