CN207442780U - For the photovoltaic solar device of wind power generating set - Google Patents

Abstract

The utility model discloses a kind of photovoltaic solar devices for wind power generating set.It is described to include for the photovoltaic solar device of wind power generating set：At least one stent is fixed on the platform of the wind power generating set；At least one solar panel is supported at least one stent according to the platform in a manner of predetermined angular；At least one adjusting part is installed on the bracket, for adjusting angle of at least one solar panel compared with the platform, wherein, the photovoltaic solar device can power to the wind power generating set.The lighting angle of photovoltaic solar device according to the present utility model is adjustable, so as to provide good generating efficiency.

Description

For the photovoltaic solar device of wind power generating set

Technical field

The utility model is related to field of renewable energy, more particularly, are related to a kind of light for wind power generating set Lie prostrate solar energy equipment.

Background technology

In field of renewable energy, the technology of wind-power electricity generation and solar power generation is widely used.

In field of solar thermal power generation, photovoltaic solar device is the basic lighting equipment for photovoltaic generation, existing big Type photovoltaic solar device is all installed on land substantially, and mounted on the preferable region of intensity of illumination, such as Plain, hillside, room Top, photovoltaic planning region etc..Polylith solar panel is generally formed by a solar energy module using carbon steel spraying support, then By the tiling of multiple solar energy modules geographically, a set of photovoltaic solar device is formed.Common photovoltaic solar device can not With the lighting angle of adjust automatically solar panel, and mostly using on land, operability is stronger, area occupied Greatly.

In order to efficiently utilize regenerative resource, it is contemplated that wind generating technology and solar energy generation technology are combined. But since the operating platform area of wind-driven generator is small, solar energy equipment installation space is limited, working environment is severe, makees The shortcomings of industry time is short, O＆M cost is high, the solar energy equipment in wind power generating set are not easy to be installed and be tieed up Shield, and the daylighting effect of solar energy equipment is poor, therefore cause the utilization rate of regenerative resource low.

Utility model content

The utility model provides a kind of photovoltaic solar device for wind power generating set, can overcome the prior art Deficiency effectively improves renewable energy utilization rate.The photovoltaic solar device not only be convenient under severe working environment into Row installation and maintenance, and the lighting angle of the photovoltaic solar device is adjustable, is advantageously implemented good daylighting effect.

One side according to the present utility model provides a kind of photovoltaic solar device for wind power generating set, described Photovoltaic solar device includes：At least one stent is fixed on the platform of the wind power generating set；At least one solar energy Solar panel is supported at least one stent according to the platform in a manner of predetermined angular；At least one adjusting group Part is installed on the bracket, for adjusting angle of at least one solar panel compared with the platform, In, the photovoltaic solar device can power to the wind power generating set.

The one side of at least one solar panel is rotatably connected at least one stent, it is described at least The opposite side of one solar panel is connected at least one adjusting part, so as to adjust it is described it is at least one too It is positive can solar panel compared with the platform angle, wherein, the one side is oppositely disposed with the opposite side.

Be provided with arc groove at least one adjusting part, at least one solar panel it is described another Side is connected to the arc groove, and the opposite side of at least one solar panel can be transported along the arc groove It is dynamic.

At least two first level slots, at least one solar cell are provided at least one adjusting part The opposite side of plate is optionally connected to one in at least two first levels slot.

At least one adjusting part includes multigroup adjusting part, and the one side of at least one solar panel can One group be rotatably connected in multigroup adjusting part, the opposite side of at least one solar panel are connected to institute Another group in multigroup adjusting part is stated, wherein, the one side is oppositely disposed with the opposite side.

At least one solar panel includes the multiple solar panels being arranged parallel to each other, described multigroup The upper and lower part of each in adjusting part is respectively arranged with level trough and arc groove, wherein, the multiple solar-electricity The one side of the first solar panel in the plate of pond is rotatably connected to first group of adjusting group in multigroup adjusting part The level trough of part, the opposite side of first solar panel are connected to second group of adjusting group in multigroup adjusting part The arc groove of part, the one side of the second solar panel in the multiple solar panel are connected to second group of adjusting The level trough of component, the opposite side of second solar panel are connected to the 3rd group of adjusting in multigroup adjusting part The arc groove of component, the first solar panel and the second solar panel are adjacent to each other.

Each lower part in multigroup adjusting part is provided at least two first level slots, multigroup adjusting group Each top in part is set there are one the second level trough, and the one side of at least one solar panel is rotatable Ground is connected to the second level trough of one group of adjusting part in multigroup adjusting part, at least one solar panel The opposite side be optionally connected to each at least two in another group of adjusting part in multigroup adjusting part One in a first level slot.

At least one stent rectangular frame structure, and four columns including being vertically fixed on platform and By sequentially connected four crossbeams of four columns, reinforcer is additionally provided between four columns, with described in reinforcing Stent.

At least one stent includes multiple stents, is connected between the multiple stent by connector.

At least one adjusting part is telescopic rod, and one end of the telescopic rod is connected to described at least one Frame, the other end of the telescopic rod is connected at least one solar panel, by adjusting the telescopic rod Telescopic level adjusts angle of at least one solar panel compared with the platform.

Photovoltaic solar device according to the present utility model at least has the following advantages：The photovoltaic solar device can On the platform of wind power generating set, space is made full use of, and the installation space for the miscellaneous equipment being not take up on platform, Save platform area；The photovoltaic solar device can use multiple columns and crossbeam, between column and between crossbeam Sufficient operating space can be left, is not take up the operating space of miscellaneous equipment, personnel's operation path is flowed out also without independent, The activity duration will not be increased；The utility model is connected using angle steel with latching, easy for installation, can be same with wind-driven generator group platform When install, can also be separately installed after the completion of wind power generating set stage+module, do not interfere with wind power generating set and integrally pacify Threading degree；The photovoltaic solar device needs regular maintenance, and personnel can operate replacement under solar panel, but big without inciting somebody to action Type equipment and more mini-plant will not increase O＆M cost as operation and maintenance tools；The photovoltaic solar device Installation and maintenance are very convenient, can realize the daylighting simultaneously of multiple solar panels, stop to greatest extent for wind power generating set Emergency service is carried out during machine；The lighting angle of the solar panel of the manually adjustable photovoltaic solar device, to reach Maximum lighting quantity；The photovoltaic solar device is suitable for the wind power generating set of different regions, and design cost is low；The photovoltaic The solar panel of solar energy equipment uses modularized design, can increase with reference to stent and reduce solar panel quantity, with Adapt to different generated energy demands.

Description of the drawings

By the description carried out below in conjunction with the accompanying drawings to exemplary embodiment, the advantages of the utility model, will become more It is clear.

Fig. 1 is to schematically show photovoltaic solar device according to the present utility model showing in wind power generating set It is intended to.

Fig. 2 is the schematic diagram for schematically showing photovoltaic solar device according to the present utility model.

Fig. 3 is the schematic diagram for schematically showing photovoltaic solar device according to the present utility model.

Fig. 4 is the schematic diagram for the adjusting part for schematically showing photovoltaic solar device according to the present utility model.

Fig. 5 is the partial schematic diagram for schematically showing photovoltaic solar device according to the present utility model.

Fig. 6 is the schematic diagram for schematically showing adjusting part according to the present utility model.

Fig. 7 is the schematic diagram for the stent for schematically showing photovoltaic solar device according to the present utility model.

Fig. 8 is the schematic diagram for the stent for schematically showing photovoltaic solar device according to the present utility model.

Fig. 9 is the schematic diagram for schematically showing photovoltaic solar device according to the present utility model.

Specific embodiment

To enable the above-mentioned purpose of the utility model, feature and advantage more obvious understandable, below in conjunction with the accompanying drawings and have Body embodiment is described in further detail the utility model.

Fig. 1 schematically shows photovoltaic solar device 1 according to the present utility model in wind power generating set 3 Schematic diagram；Fig. 2 is the schematic diagram for schematically showing photovoltaic solar device 4 according to the present utility model；Fig. 3 is to schematically show Another schematic diagram of photovoltaic solar device 4 according to the present utility model；Fig. 4 is to schematically show light according to the present utility model Lie prostrate the schematic diagram of the adjusting part 12 of solar energy equipment 4；Fig. 5 is to schematically show photovoltaic solar dress according to the present utility model Put 4 partial schematic diagram；Fig. 6 is the adjusting part 22 for schematically showing photovoltaic solar device 4 according to the present utility model Schematic diagram；Fig. 7 is the schematic diagram for the stent 13 for schematically showing photovoltaic solar device 4 according to the present utility model；Fig. 8 is signal Property shows the schematic diagram of the stent 10 of photovoltaic solar device 1 according to the present utility model；Fig. 9 is schematically shown according to this reality With the schematic diagram of new photovoltaic solar device 1.

Referring to figs. 1 to Fig. 6, the photovoltaic solar device 1 according to the present utility model for wind power generating set 3 includes： Stent 13 is fixed on the platform 2 of wind power generating set 3；Solar panel 11, according to the side for platform 2 being in predetermined angular Formula is supported on stent 13；Adjusting part 12, on stent 13, for adjusting solar panel 11 compared with platform 2 Angle, wherein photovoltaic solar device 1 can direction wind-driven generator group 3 power.Such as, but not limited to, photovoltaic solar device 1 disclosure satisfy that power demand of the wind power generating set 3 before powering on, when wind power generating set 3 breaks down, photovoltaic solar Device 1 can be used for power supply to meet dehumidification.

With reference to Fig. 2 and Fig. 3, for ease of description, it is with the photovoltaic solar device 4 for including two solar panels 11 Example is described.Specifically, photovoltaic solar device 4 includes 13, two solar panels 11 of a stent and three groups of adjustings Component 12.Two solar panels 11 include the first solar panel 111 and the second solar panel 112, and first too Positive energy 111 and second solar panel 112 of solar panel is positioned in parallel within according to predetermined angular on stent 13.It is described Three groups of adjusting parts 12 include first group of adjusting part, 121, the second groups of adjusting parts 122 being mounted on stent 13 and the 3rd group Adjusting part 123.

The one side of first solar panel 111 is connected to first group of adjusting part 121, the first solar panel 111 Opposite side be connected to second group of adjusting part 122, wherein, the one side is oppositely disposed with the opposite side.Similarly, The one side of two solar panels 112 is connected to second group of adjusting part 122, and the opposite side of the second solar panel 112 connects It is connected to the 3rd group of adjusting part 123.Although describing photovoltaic solar device 4 according to this embodiment includes two solar cells The situation of plate 11, but photovoltaic solar device according to the present utility model may include one or the solar-electricity more than two Pond plate 11.

In one embodiment according to the present utility model, the top of adjusting part 12 is provided with level trough 12-1, adjusts The lower part of component 12 is provided with arc groove 12-2, as shown in Figure 4.

It is described in detail with reference to Fig. 2 to Fig. 5 and uses the example of adjusting part 12 as shown in Figure 4 as adjusting part, first The one side of solar panel 111 is rotatably connected to the level trough 121-1 of first group of adjusting part 121, the first solar energy The opposite side of solar panel 111 is connected to the arc groove 122-2 of second group of adjusting part 122.The institute of first solar panel 111 Stating opposite side can move along the arc groove 122-2, so as to adjust the first solar panel 111 compared with described The angle of platform 2.

Similarly, the one side of the second solar panel 112 is connected to the level trough 122-1 of second group of adjusting part 122, The opposite side of second solar panel 112 is connected to the arc groove 123-2 of the 3rd group of adjusting part 123.As shown in Fig. 2, the One solar panel 111 and the second solar panel 112 are adjacent to each other.

Can according to actual demand the size of design of curved slots 12-2, for example, can be according to 11 phase of solar panel For the size of predetermined angular range (such as, but not limited to, 5 ° to 30 °) design of curved slots 12-2 of platform 2, to meet photovoltaic The daylighting demand of solar energy equipment 4.

Optionally, the one side of solar panel 11 can be rotatably connected to stent by fasteners such as latchings 13, and the opposite side of solar panel 11 is connected to the arc groove 12-2 of adjusting part 12, so as to can also adjust the sun Can solar panel 11 compared with the platform 2 angle, wherein, the one side is oppositely disposed with the opposite side.

In another embodiment according to the present utility model, there are two first level slots for the lower part setting of adjusting part 22 22-2, the top of adjusting part 22 are set there are one the second level trough 22-1, as shown in Figure 6.

Another embodiment according to the present utility model, adjusting part 22 can replace adjusting part 12 to be mounted on stent 13 On.Similar with the connection mode of adjusting part 12, the one side of solar panel 11 is rotatably connected to one group of adjusting part 22 the second level trough 22-1.The opposite side of solar panel 11 is optionally connected to every in another group of adjusting part 22 One at least two a first level slot 22-2, so as to adjust solar panel 11 compared with the platform 2 Angle.It is similar with the set-up mode of adjusting part 12, can at least three groups of adjusting parts 22 be set according to actual demand, to support Multiple solar panels 11.

For sake of simplicity, two first level slot 22-2 are illustrated only herein.The first water can be designed according to actual demand It rises as high as the banks the size and number of 22-2, for example, can be according to solar panel 11 compared with the predetermined angular range (example of platform 2 As but be not limited to, 5 ° to 30 °) size and number of design first level slot 22-2, to meet the daylighting of photovoltaic solar device 4 Demand.

Optionally, the one side of solar panel 11 can be rotatably connected to stent by fasteners such as latchings 13, and the opposite side of solar panel 11 be optionally connected in at least two first levels slot 22-2 one It is a, so as to can also adjust angle of the solar panel 11 compared with the platform 2, wherein, the one side with it is described another Side is oppositely disposed.

Fig. 7 shows the schematic diagram of the stent 13 of photovoltaic solar device 4 according to the present utility model.13 rectangular frame of stent Frame structure, and four including being vertically fixed on platform 2 column 13-2 and be sequentially connected four column 13-2 Four crossbeam 13-1.Reinforcer 13-3 is also provided between four column 13-2, to reinforce the stent 13.Add Strong part 13-3 may include the crossbeam 13-3 (as shown in Figure 7) between adjacent column 13-2 and trapezoidal additional reinforcement Part 13-3 (as shown in Figure 8), to further enhance the intensity of stent.Optionally, reinforcer 13-3 may also include to enhance branch Other reinforcers of frame intensity.

The bottom of each column 13-2 in four column 13-2 is provided with plate shape footing 13-4, the plate shape footing 13-4 can be fixed on the platform 2.In the embodiment of the utility model, solar panel 11 is arranged at stent 13 Top, in order to daylighting, but the utility model is without being limited thereto.

In order to provide sufficient operating space, the overhead height of stent 13 can be but not limited to 2 meters to 4 meters, stent 13 Width can be but not limited to 1.5 meters.The size of stent 13 can be designed according to actual demand, in order to which photovoltaic solar fills The installation and maintenance put.

Fig. 8 is the schematic diagram for the stent 10 for schematically showing photovoltaic solar device 1 according to the present utility model.The branch Frame 10 may include but be not limited to two stents 13, and described two stents 13 include first support 131 and second support 132, and first It is connected between stent 131 and second support 132 by connector 100, to form stent 10.Optionally, stent 10, which further includes, adds Strong part 13-3, reinforcer 13-3 may include the trapezoidal additional reinforcement members 13-3 between adjacent column 13-2, such as Fig. 8 It is shown.

Fig. 9 is the schematic diagram for schematically showing photovoltaic solar device 1 according to the present utility model.As shown in figure 9, according to Power demand can install multiple solar panels 11 on the stent 10 of photovoltaic solar device 1.

The adjusting part of photovoltaic solar device according to the present utility model can also be telescopic rod, the telescopic rod One end be connected to stent 13 or 10, the other end of the telescopic rod is connected to solar panel 11, by adjust can stretch The telescopic level of contracting bar adjusts angle of the solar panel 11 compared with platform 2.

Photovoltaic solar device according to the present utility model can be mounted on the platform of wind power generating set, made full use of Platform space, and sufficient operating space is provided for staff.Photovoltaic solar device is connected using angle steel and latching It connects, it is easy for installation, both can simultaneously it be installed with wind-driven generator group platform, it can also be complete in wind power generating set stage+module Into rear separately installed, therefore, wind power generating set overall installation progress are not interfered with.

The installation and maintenance of the photovoltaic solar device are very convenient, when the photovoltaic solar device needs regular maintenance When, personnel can operate replacement under solar panel, without using large scale equipment and more mini-plant as O＆M work Tool, therefore O＆M cost will not be increased.

In addition, the solar panel of the photovoltaic solar device uses modularized design, it can increase with reference to stent and subtract Few solar panel quantity, to adapt to different generated energy demands.It can be realized using the photovoltaic solar device multiple Solar panel daylighting simultaneously, carries out emergency service, can also adjust simultaneously when being shut down to greatest extent for wind power generating set The lighting angle of the solar panel of the photovoltaic solar device, to reach maximum lighting quantity.Therefore, the photovoltaic solar Energy device is suitable for the wind power generating set of different regions, such as, but not limited to, offshore wind turbine and land wind-force hair Motor group, design cost are low.

Embodiment in above-described embodiment can be further combined or replace, and embodiment is only new to this practicality The preferred embodiment of type is described, and not the spirit and scope of the utility model are defined, new not departing from this practicality On the premise of type design philosophy, various change that professional and technical personnel in the art make the technical solution of the utility model and It improves, belongs to the scope of protection of the utility model.

Claims (10)

1. A kind of 1. photovoltaic solar device for wind power generating set, which is characterized in that the photovoltaic solar device (Isosorbide-5-Nitrae) Including：

   At least one stent (10,13), is fixed on the platform (2) of the wind power generating set (3)；

   At least one solar panel (11,111,112) is supported on according to the platform (2) in a manner of predetermined angular On at least one stent (10,13)；

   At least one adjusting part (12,22), at least one stent (10,13), for adjust it is described at least One solar panel (11,111,112) compared with the platform (2) angle,

   Wherein, the photovoltaic solar device (Isosorbide-5-Nitrae) can be powered to the wind power generating set (3).
2. 2. photovoltaic solar device according to claim 1, which is characterized in that at least one solar panel (11) one side is rotatably connected at least one stent (10,13), at least one solar panel (11) Opposite side be connected at least one adjusting part (12,22), so as to adjust at least one solar cell Plate (11) compared with the platform (2) angle, wherein, the one side is oppositely disposed with the opposite side.
3. 3. photovoltaic solar device according to claim 2, which is characterized in that at least one adjusting part (12) Arc groove (12-2) is provided with, the opposite side of at least one solar panel (11) is connected to the arc groove (12-2), the opposite side of at least one solar panel (11) can be moved along the arc groove (12-2).
4. 4. photovoltaic solar device according to claim 2, which is characterized in that at least one adjusting part (22) At least two first level slots (22-2) are provided with, the opposite side of at least one solar panel (11) may be selected Ground is connected to one in at least two first levels slot (22-2).
5. 5. photovoltaic solar device according to claim 1, which is characterized in that at least one adjusting part (12) bag Multigroup adjusting part (121,122,123) is included, the one side of at least one solar panel (11) is rotationally attached to One group in multigroup adjusting part (121,122,123), the opposite side of at least one solar panel (11) connects Another group be connected in multigroup adjusting part (121,122,123), wherein, the one side is relatively set with the opposite side It puts.
6. 6. photovoltaic solar device according to claim 5, which is characterized in that at least one solar panel (11) multiple solar panels (111,112) for being arranged parallel to each other are included, the multigroup adjusting part (121,122, 123) upper and lower part of each in is respectively arranged with level trough (12-1) and arc groove (12-2),

   Wherein, the one side of the first solar panel (111) in the multiple solar panel (11) is rotatably attached To the level trough (121-1) of first group of adjusting part (121) in multigroup adjusting part (121,122,123), described The opposite side of one solar panel (111) is connected to second group of adjusting in multigroup adjusting part (121,122,123) The arc groove (122-2) of component (122),

   The one side of the second solar panel (112) in the multiple solar panel (11) is connected to second group of tune The level trough (122-1) of component (122) is saved, the opposite side of second solar panel (112) is connected to multigroup tune The arc groove (123-2) of the 3rd group of adjusting part (123) in component (121,122,123) is saved,

   First solar panel (111) and the second solar panel (112) are adjacent to each other.
7. 7. photovoltaic solar device according to claim 5, which is characterized in that

   Each lower part in multigroup adjusting part (22) is provided at least two first level slots (22-2), described multigroup Each top in adjusting part (22) is set there are one the second level trough (22-1),

   The one side of at least one solar panel (11) is rotatably connected to multigroup adjusting part (22) In one group of adjusting part (22) the second level trough (22-1), at least one solar panel (11) it is described another Side is optionally connected to each at least two in another group of adjusting part (22) in multigroup adjusting part (22) One in first level slot (22-2).
8. 8. photovoltaic solar device according to claim 1, which is characterized in that at least one stent (13) is rectangular Frame structure, and four columns (13-2) including being vertically fixed on platform (2) and by four columns (13-2) Sequentially connected four crossbeams (13-1),

   Reinforcer (13-3) is additionally provided between four columns (13-2), to reinforce the stent (13).
9. 9. photovoltaic solar device according to claim 1, which is characterized in that at least one stent (10) includes more A stent (13) passes through connector (100) between the multiple stent (13) and connects.
10. 10. photovoltaic solar device according to claim 1, which is characterized in that at least one adjusting part is can Telescopic rod, one end of the telescopic rod are connected at least one stent (10,13), and the other end of the telescopic rod connects Be connected at least one solar panel (11), adjusted by adjusting the telescopic level of the telescopic rod it is described at least One solar panel (11) compared with the platform (2) angle.