CN209299184U - More herringbone structure photovoltaic component systems - Google Patents
More herringbone structure photovoltaic component systems Download PDFInfo
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- CN209299184U CN209299184U CN201920178146.3U CN201920178146U CN209299184U CN 209299184 U CN209299184 U CN 209299184U CN 201920178146 U CN201920178146 U CN 201920178146U CN 209299184 U CN209299184 U CN 209299184U
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- photovoltaic
- photovoltaic module
- herringbone structure
- supporting mechanism
- column
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/50—Photovoltaic [PV] energy
- Y02E10/52—PV systems with concentrators
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Abstract
The utility model provides a kind of more herringbone structure photovoltaic component systems, the system includes multiple photovoltaic modulies, multiple supporting mechanisms and multiple light reflecting devices, wherein: there are two the photovoltaic modulies for each supporting mechanism aligned on top, two photovoltaic modulies are obliquely installed in herringbone structure, and centre has angle;Each supporting mechanism is sequentially connected along the top photovoltaic module orientation setting;Each light reflecting device is set to the junction between each supporting mechanism, parallel with each supporting mechanism.The system uses how chevron shaped structure, the occupied area of photovoltaic component system can effectively be reduced, under same occupied area, photovoltaic module laying rate is significantly promoted, the also creative trough junction in each photovoltaic module is provided with light reflecting device simultaneously, the photovoltaic module that incident sunlight is effectively reflexed to two sides ensure that the light radiation of the photovoltaic component system with how chevron shaped structure.
Description
Technical field
The utility model relates to photovoltaic module power fields, more particularly to a kind of more herringbone structure photovoltaic component systems.
Background technique
With the development of clean energy resource, photovoltaic module obtains more and more applications, as converting the solar into electricity
The core component of energy, the installation of photovoltaic module is put particularly significant.In photovoltaic generating system, in order to promote photoelectric conversion energy
Power, photovoltaic module are typically all to be placed on supporting mechanism towards sunlight direction.
Existing photovoltaic component mounting structure is broadly divided into stent-type photovoltaic system, shed frame type photovoltaic system and tracing type light
Volt system.But due to bracket and the limitation of fixed thinking, substantially all existing photovoltaic module arrangement is flush system, tiling
The arrangement of formula photovoltaic module has the drawback that unit area lower component quantity is lower first is that occupied area is wide in the application;Second is that
Amount of radiation is constant, and generated energy depends on synoptic climate, and generated energy is limited;Third is that generated energy is imitated dependent on the conversion of each photovoltaic module
Rate, component arrangement are single.
Utility model content
The utility model provides a kind of much lower herringbone structure photovoltaic component system of space hold, to improve assembly surface
Amount of radiation, more herringbone structure photovoltaic component systems include multiple photovoltaic modulies, multiple supporting mechanisms and multiple light reflection dress
It sets, in which:
There are two the photovoltaic module, two photovoltaic modulies to tilt in herringbone structure for each supporting mechanism aligned on top
Setting, centre have angle;
Each supporting mechanism is sequentially connected along the top photovoltaic module orientation setting;
Each light reflecting device is set to the junction between each supporting mechanism, flat with each supporting mechanism
Row.
In specific implementation, each supporting mechanism includes two component fixed frames to match with the photovoltaic module size
Frame, at least one crossbeam and at least one column, in which:
Two component fixed frames are hinged by the first articulation piece, and deployable or closure is to adjust the supporting mechanism
The angle of two photovoltaic modulies at top;The crossbeam is set to two component fixed frame bottoms, both ends difference
It is connect with two component fixed frames;The bottom center of the crossbeam is connected at the top of the column.
In specific implementation, the crossbeam is arranged oppositely including two and relatively-movable Half Beam, the Half Beam front end are set
Multiple screw holes being arranged successively are equipped with, when two component fixed frames are unfolded or are closed to specified angle, described in two
Half Beam can be fixedly connected by the screw hole and bolt.
In specific implementation, each supporting mechanism along including crossbeam and the column described in two groups, crossbeam described in two groups and
The column is set gradually in the direction arranged perpendicular to the photovoltaic module.
In specific implementation, corbel is hinged at the top of the column, the corbel can be arranged perpendicular to the photovoltaic module
Direction rotation, the crossbeam is fixedly connected on the corbel by U-bolt.
In specific implementation, more herringbone structure photovoltaic component systems further include concrete foundation, and the concrete foundation is set
It is placed in the column bottom, is fixedly connected with the column.
In specific implementation, each supporting mechanism is hinged by the second articulation piece for being set to two sides.
In specific implementation, the column is scalable column.
In specific implementation, the light reflecting device be tubular reflecting optics, the length of the tubular reflecting optics with it is described
The length of photovoltaic module is identical.
More herringbone structure photovoltaic component systems provided by the utility model, there are two photovoltaic modulies for multiple top fixed settings
Supporting mechanism, two photovoltaic modulies are obliquely installed in herringbone structure, centre has angle, and each supporting mechanism is arranged along photovoltaic module
Direction sets gradually and is connected, and each junction is then provided with light reflecting device, the light reflecting device and each supporting mechanism and photovoltaic
Member parallel, for sunlight to be reflexed to the photovoltaic module surface of two sides.The system uses how chevron shaped structure, can be effective
Reduction photovoltaic component system occupied area, under same occupied area, photovoltaic module laying rate is significantly promoted, simultaneously also
The creative trough junction in each photovoltaic module is provided with light reflecting device, and incident sunlight is effectively reflexed to two sides
Photovoltaic module ensure that the light radiation of the photovoltaic component system with how chevron shaped structure.
Detailed description of the invention
It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art
Specific embodiment or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below
In attached drawing be only that some specific embodiments of the utility model are not being paid for those of ordinary skill in the art
Out under the premise of creative work, it is also possible to obtain other drawings based on these drawings.In the accompanying drawings:
Fig. 1 is the structural representation according to more herringbone structure photovoltaic component systems in one specific embodiment of the utility model
Figure;
Fig. 2 is the structural schematic diagram figure according to supporting mechanism in one specific embodiment of the utility model;
Fig. 3 is the attachment structure schematic diagram according to one specific embodiment middle cross beam of the utility model and column.
Specific embodiment
For the purposes, technical schemes and advantages of specific embodiment of the present invention are more clearly understood, below with reference to
Attached drawing is described in further details specific embodiment of the present invention.Here, the schematic specific implementation of the utility model
Mode and its explanation are not intended to limit the scope of the present invention for explaining the utility model.
As shown in Figure 1 and Figure 2, the utility model provides a kind of much lower herringbone structure photovoltaic component system of space hold, uses
To improve the amount of radiation of assembly surface, more herringbone structure photovoltaic component systems include multiple photovoltaic modulies 100, multiple support machines
Structure 200 and multiple light reflecting devices 300, in which:
There are two the photovoltaic module 100, two photovoltaic modulies 100 are in each 200 aligned on top of the supporting mechanism
Herringbone structure is obliquely installed, and centre has angle;
Each supporting mechanism 200 is sequentially connected along top 100 orientation of the photovoltaic module setting;
Each light reflecting device 300 is set to the junction between each supporting mechanism 200, with each support machine
Structure 200 is parallel.
The working principle of more 100 systems of herringbone structure photovoltaic module in the utility model are as follows: the top of each supporting mechanism 200 is in
The roof shape of chevron shaped structure has angle among two photovoltaic modulies 100 above, can effectively reduce occupied area,
And the light reflecting device 300 being arranged between each supporting mechanism 200 can promote the light transmission for the photovoltaic module 100 being respectively folded with
Rate guarantees the light transmittance of each photovoltaic module 100 while reducing 100 occupied area of photovoltaic module.
In specific implementation, the selection of each supporting mechanism 200 can be there are many embodiment.For example, as shown in Figure 1 and Figure 2,
Each supporting mechanism 200 may include two component fixed frames 210 to match with 100 size of photovoltaic module, extremely
A few crossbeam 220 and at least one column 230, in which: two component fixed frames 210 can pass through the first articulation piece
211 is hinged, and deployable or closure is to adjust the angles of two photovoltaic modulies 100 at 200 top of supporting mechanism;It is described
Crossbeam 220 is set to two 210 bottoms of component fixed frame, and both ends connect with two component fixed frames 210 respectively
It connects;The top of the column 230 is connected to the bottom center of the crossbeam 220.When photovoltaic component system is arranged, inventor is examined
Consider since the difference of various regions longitude and latitude causes the solar angle degree of various regions also not identical, thus the photovoltaic module 100
Inclination angle is also required to depending on Yanguan Pass incident angle, in order to further enhance sunlight utilization, fits photovoltaic component system
The demand of different scenes is answered, inventor has selected articulated structure to connect two component fixed frames 210 to adjust photovoltaic module 100
Tilt angle.The connection of the system is also effectively guaranteed in the selection of first articulation piece 211 while facilitating and adjusting angle
Stability.
In specific implementation, the setting of crossbeam 220 can be there are many embodiment.For example, the crossbeam 220 may include two
A to be arranged oppositely and relatively-movable Half Beam, the Half Beam front end is provided with multiple screw holes being arranged successively, described in two
When component fixed frame 210 is unfolded or is closed to specified angle, two Half Beams 220 can be fixed by the screw hole and bolt
Connection.Since the system needs to adjust the angle for adjusting the angle between photovoltaic module 100 to adapt to sunlight incidence in setting,
And the both ends of crossbeam 220 need to be fixedly connected on two component fixed frames 210, thus crossbeam 220 is needed in setting
For adjustable length to adapt to the adjustment of angle between two component fixed frames 210, two Half Beams are relatively-movable
The entire length that then can effectively adjust crossbeam 220 is set.
In specific implementation, the setting of 230 quantity of crossbeam 220 and column can be there are many embodiment.For example, such as Fig. 2 institute
Show, each supporting mechanism 200 along may include crossbeam 220 and the column 230 described in two groups, crossbeam 220 described in two groups and
The column 230 is set gradually in the direction arranged perpendicular to the photovoltaic module 100.Two groups of crossbeams 220 and column 230 are set
It sets, can further promote the stabilization of supporting mechanism 200, promote the durability of the system.
In specific implementation, the connection of crossbeam 220 and column 230 can be there are many embodiment.For example, as shown in figure 3, hair
Bright people is different in view of the solar angle degree of different regions, and photovoltaic module 100 is longitudinal (to be arranged perpendicular to photovoltaic module 100
Direction) tilt angle also need to adapt to the solar angle degree of each department, thus in order to further promote the system
Place applicability improves the surface emissivity amount of photovoltaic module 100, can be hinged with corbel 231 at the top of the column 230, described
Corbel 231 can rotate in the direction arranged perpendicular to the photovoltaic module 100, and the crossbeam 220 is fixed by U-bolt 232
It is connected to the corbel 231.In implementation, crossbeam 220 can realize rotation by being articulated with the corbel 231 of column 230, and then adjust
The longitudinal inclination of component fixed frame 210 and photovoltaic module 100.
In specific implementation, in order to enable the system adapts to a variety of environment, which can also include bracing means.Reinforce dress
The selection set can there are many embodiments, for example, as shown in Figure 1 and Figure 2, more 100 systems of herringbone structure photovoltaic module may be used also
To include the concrete foundation 400 for reinforcing, the concrete foundation 400 be can be set in 230 bottom of column, with institute
Column 230 is stated to be fixedly connected.Further, when there are two the directions arranged perpendicular to photovoltaic module 100 for the tool of supporting mechanism 200
When column 230, two columns 230 can share a strip concrete foundation, reduce cost while improving stability.
In specific implementation, the connection between each supporting mechanism 200 can be there are many embodiment.For example, institute as shown in Figure 1, Figure 2
Show, in order to enable each supporting mechanism 200 keeps the fastness of connection while changing 210 tilt angle of component fixed frame,
Each supporting mechanism 200 can be hinged by being set to the second articulation piece 500 of two sides.
In specific implementation, the selection of column 230 can be there are many embodiment.For example, in order to effectively adjust each support machine
The longitudinal tilt angle of structure 200, or highly reduce photovoltaic module 100 under severe weather conditions, reduce photovoltaic module 100
Stress, the column 230 can be Telescopic vertical column.
In specific implementation, the selection of light reflecting device 300 can be there are many embodiment.For example, as shown in Figure 1 and Figure 2,
In order to which 100 light radiation of photovoltaic module of 300 two sides of light reflecting device is effectively ensured, the light reflecting device 300 can be cylinder
Shape reflecting optics;Further, in order to guarantee the light radiation of monolith photovoltaic module 100, the length of the tubular reflecting optics
It can be identical as the length of the photovoltaic module 100.
In conclusion more herringbone structure photovoltaic component systems provided by the utility model, there are two multiple top fixed settings
The supporting mechanism of photovoltaic module, two photovoltaic modulies are obliquely installed in herringbone structure, are intermediate with angle, and each supporting mechanism is along photovoltaic
The direction of module arrangement sets gradually and is connected, and each junction is then provided with light reflecting device, the light reflecting device and each support
Mechanism and photovoltaic module are parallel, for sunlight to be reflexed to the photovoltaic module surface of two sides.The system uses how chevron shaped knot
Structure can effectively reduce the occupied area of photovoltaic component system, and under same occupied area, photovoltaic module laying rate is significantly
It is promoted, while the also creative trough junction in each photovoltaic module is provided with light reflecting device, effectively by incident sunlight
The photovoltaic module for reflexing to two sides ensure that the light radiation of the photovoltaic component system with how chevron shaped structure.
Above-described specific embodiment, to the purpose of this utility model, technical scheme and beneficial effects carried out into
One step is described in detail, it should be understood that being not used to limit the foregoing is merely specific embodiment of the present utility model
Determine the protection scope of the utility model, within the spirit and principle of the utility model, any modification for being made equally is replaced
It changes, improve, should be included within the scope of protection of this utility model.
Claims (9)
1. a kind of more herringbone structure photovoltaic component systems, which is characterized in that more herringbone structure photovoltaic component systems include multiple light
Lie prostrate component (100), multiple supporting mechanisms (200) and multiple light reflecting devices (300), in which:
There are two the photovoltaic module (100), two photovoltaic modulies (100) for each supporting mechanism (200) aligned on top
It is obliquely installed in herringbone structure, centre has angle;
Each supporting mechanism (200) is arranged along the top photovoltaic module (100) orientation, is sequentially connected;
Each light reflecting device (300) is set to the junction between each supporting mechanism (200), with each support machine
Structure (200) is parallel.
2. more herringbone structure photovoltaic component systems as described in claim 1, which is characterized in that each supporting mechanism (200) packet
Include two component fixed frames (210) to match with the photovoltaic module (100) size, at least one crossbeam (220) and extremely
A few column (230), in which:
Hingedly by the first articulation piece (211), deployable or closure is to adjust the branch for two component fixed frames (210)
The angle of two photovoltaic modulies (100) at the top of support mechanism (200);The crossbeam (220) is set to two components
Fixed frame (210) bottom, both ends are connect with two component fixed frames (210) respectively;The top of the column (230)
It is connected to the bottom center of the crossbeam (220).
3. more herringbone structure photovoltaic component systems as claimed in claim 2, which is characterized in that the crossbeam (220) includes two
It is arranged oppositely and relatively-movable Half Beam, the Half Beam front end is provided with multiple screw holes being arranged successively, when two described group
When part fixed frame (210) is unfolded or is closed to specified angle, two Half Beams (220) can be solid by the screw hole and bolt
Fixed connection.
4. more herringbone structure photovoltaic component systems as claimed in claim 3, which is characterized in that each supporting mechanism (200) edge
Including crossbeam (220) described in two groups and the column (230), crossbeam described in two groups (220) and the column (230) perpendicular to
The direction of photovoltaic module (100) arrangement is set gradually.
5. more herringbone structure photovoltaic component systems as claimed in claim 4, which is characterized in that hinged at the top of the column (230)
Have corbel (231), the corbel (231) can rotate in the direction arranged perpendicular to the photovoltaic module (100), the crossbeam
(220) corbel (231) are fixedly connected on by U-bolt (232).
6. more herringbone structure photovoltaic component systems as claimed in claim 5, which is characterized in that more herringbone structure photovoltaic module systems
System further includes concrete foundation (400), and the concrete foundation (400) is set to the column (230) bottom, with the column
(230) it is fixedly connected.
7. more herringbone structure photovoltaic component systems as claimed in claim 2, which is characterized in that each supporting mechanism (200) is logical
Cross be set to two sides the second articulation piece (500) it is hinged.
8. more herringbone structure photovoltaic component systems as claimed in claim 2, which is characterized in that the column (230) is scalable
Column.
9. more herringbone structure photovoltaic component systems as described in claim 1, which is characterized in that the light reflecting device (300) is
The length of tubular reflecting optics, the tubular reflecting optics is identical as the length of the photovoltaic module (100).
Priority Applications (1)
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CN201920178146.3U CN209299184U (en) | 2019-01-31 | 2019-01-31 | More herringbone structure photovoltaic component systems |
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CN201920178146.3U CN209299184U (en) | 2019-01-31 | 2019-01-31 | More herringbone structure photovoltaic component systems |
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