CN207543035U - A kind of mountainous region photovoltaic power plant bracket system - Google Patents
A kind of mountainous region photovoltaic power plant bracket system Download PDFInfo
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- CN207543035U CN207543035U CN201721035545.1U CN201721035545U CN207543035U CN 207543035 U CN207543035 U CN 207543035U CN 201721035545 U CN201721035545 U CN 201721035545U CN 207543035 U CN207543035 U CN 207543035U
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- photovoltaic
- power plant
- mountainous region
- bracket system
- support component
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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
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/47—Mountings or tracking
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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
Abstract
The utility model provides a kind of mountainous region photovoltaic power plant bracket system, it includes at least row's stent, often row's stent includes two columns arranged along North and South direction, the support component being arranged between described two columns, and at least one set of photovoltaic module in the support component is arranged on, the support component and the distance away the ground of the link position of two columns are adjustable.The utility model is suitable for the photovoltaic plant of mountainous region, hilly country.
Description
Technical field
The utility model is related to technical field of photovoltaic power generation, and in particular to a kind of mountainous region photovoltaic power plant bracket system.
Background technology
Photovoltaic technology is a kind of technology that the luminous energy of the sun can be converted to directly to electric energy.With the phases such as water power, wind-powered electricity generation, nuclear power
Than solar power generation does not have any discharge and noise, and application technology is ripe, securely and reliably.
At present, the photovoltaic industry in China south development eastwards comprehensively.But the southeast does not have the flat soil of large area
Ground resource is available, can only utilize the wasteland of mountain area, hilly country.Since photovoltaic module is needed towards due south direction and needs to incline
Oblique certain angle, conventional ground photovoltaic plant is along east-west direction arrangement photovoltaic bracket and photovoltaic module thus.
However, in the photovoltaic plant project of mountainous region, due to mountainous region topography out-of-flatness, lead to the photovoltaic arranged along east-west direction
Its stent is excessive along the elevation angle of east-west direction when mounted for stent, and azimuth occurs in photovoltaic bracket, so as to influence generated energy.And
And since landform height rises and falls excessive, cause stent that must increase using the cross section of material, portion support also need to scene plus
Column before and after work.Simultaneously as photovoltaic bracket is excessive along east-west direction elevation angle, the installation for also resulting in photovoltaic module is very tired
Difficulty also easily occurs that large area is hidden to be split after component installation.
As it can be seen that existing photovoltaic bracket system, is only applicable to ground photovoltaic plant, it is not particularly suited for mountainous region photovoltaic plant.
Utility model content
Technical problem to be solved in the utility model is for the drawbacks described above in the presence of the prior art, provides one kind
Suitable for the mountainous region photovoltaic power plant bracket system in mountainous region, hilly country.
Technical solution is used by solving the utility model technical problem:
The utility model provides a kind of mountainous region photovoltaic power plant bracket system, including at least row's stent, often arranges stent packet
It includes two columns arranged along North and South direction, the support component being arranged between described two columns and is arranged on the branch
At least one set of photovoltaic module on support component, the support component and the distance away the ground of the link position of two columns are adjustable.
Optionally, the support component includes girder similarly running in a north-south direction and being arranged on two column tops, along south
The north is to arrangement, the more crossbeams for extending along east-west direction and being arranged on girder and is arranged between adjacent two crossbeams
At least one set of photovoltaic module;Photovoltaic module between adjacent two crossbeams is arranged along east-west direction.
Optionally, the both ends of the girder are respectively fixed on two column tops by one group of U-bolt component;The crossbeam
Middle part be fixed on girder by one group of U-bolt component.
Optionally, the photovoltaic module is mounted on by multiple briquettings between adjacent two crossbeams.
Optionally, the girder is made of square tube, pipe, shaped steel or rack;The crossbeam is made of shaped steel.
Optionally, the support component includes extending and being separately positioned on two horizontal strokes of two column tops along east-west direction
Beam, it is similarly running in a north-south direction, arranged along east-west direction and the even number root cant beam that is arranged in parallel between two crossbeams and
At least one set of photovoltaic module being arranged between adjacent two cant beams;The crossbeam forms grid structure with cant beam, positioned at adjacent
Photovoltaic module between two cant beams is arranged along North and South direction, and the quantity of the cant beam between adjacent two crossbeams is equal to edge
Two times of the group number of the photovoltaic module of east-west direction arrangement.
Optionally, the middle part of the crossbeam is fixed on column top by one group of U-bolt component;The both ends of the cant beam
Respectively it is fixed on two crossbeams by one group of U-bolt component.
Optionally, the photovoltaic module is mounted on by multiple briquettings between adjacent two cant beams.
Optionally, the crossbeam is made of square tube, pipe, shaped steel or rack;The cant beam is made of shaped steel.
Optionally, support component and the company of two columns are realized by being separately positioned on the hoop component at the top of two columns
The distance away the ground for connecing position is adjusted.
Advantageous effect:
Photovoltaic power plant bracket system in mountainous region described in the utility model has abandoned what conventional photovoltaic stent was arranged along east-west direction
Mode, innovatively by the way of being arranged along the North and South direction gradient, and the distance away the ground of column and the link position of support component
It is adjustable, so as to solve the problems, such as that the big height difference in mountainous region, heavy grade are brought for existing photovoltaic bracket system, especially suitable for
Mountainous region, the photovoltaic plant of hilly country.
Description of the drawings
Fig. 1 is the schematic side view of mountainous region photovoltaic power plant bracket system that the utility model embodiment 1 provides;
Fig. 2 is the schematic top plan view of mountainous region photovoltaic power plant bracket system that the utility model embodiment 1 provides;
Fig. 3 is one of stereoscopic schematic diagram of mountainous region photovoltaic power plant bracket system that the utility model embodiment 1 provides;
Fig. 4 is the two of the stereoscopic schematic diagram of mountainous region photovoltaic power plant bracket system that the utility model embodiment 1 provides;
Fig. 5 is the schematic side view of mountainous region photovoltaic power plant bracket system that the utility model embodiment 2 provides;
Fig. 6 is the schematic top plan view of mountainous region photovoltaic power plant bracket system that the utility model embodiment 2 provides;
Fig. 7 is one of stereoscopic schematic diagram of mountainous region photovoltaic power plant bracket system that the utility model embodiment 2 provides;
Fig. 8 is the two of the stereoscopic schematic diagram of mountainous region photovoltaic power plant bracket system that the utility model embodiment 2 provides.
In figure:1- photovoltaic modulies;2- crossbeams;3-U type bolt assemblies;4- columns;5- hoop components;6- girders;
7- briquettings;8- cant beams.
Specific embodiment
For those skilled in the art is made to more fully understand the technical solution of the utility model, with reference to the accompanying drawings and examples
The utility model is described in further detail.
The utility model can not meet mountainous region, knob photovoltaic plant project construction for existing photovoltaic bracket system
Problem, it is proposed that a kind of novel mountainous region photovoltaic power plant bracket system for being suitable for mountainous region, hilly country, including an at least row
Stent, each stent of arranging can be set parallel to each other, and often arranged stent and included two columns arranged along North and South direction, are arranged on described two
Support component between a column and at least one set of photovoltaic module being arranged in the support component, the support component
It is adjustable with the distance away the ground of the link position of two columns, such as can be by the anchor ear group that is separately positioned at the top of two columns
Part realizes that support component and the distance away the ground of the link position of two columns are adjusted, so as to adjust support component and two columns
The distance away the ground of link position is poor, and the difference in height should be according to the massif gradient and the difference of local photovoltaic array optimum angle of incidence come really
It is fixed.
As it can be seen that the utility model has abandoned the mode that conventional photovoltaic stent is arranged along east-west direction, innovatively use along south
The mode that the north is arranged to the gradient, and the distance away the ground of column and the link position of support component is adjustable, so as to avoid photovoltaic branch
There is azimuth in frame, and Design of Reinforcement is carried out without to stent, simultaneously because elevation angle is not present in photovoltaic bracket, so photovoltaic group
The installation of part is simply, conveniently.
Based on foregoing description, the utility model designs the stent system of two kinds of innovation structures, respectively fish bone well photovoltaic
Power plant bracket system and rack type photovoltaic power plant bracket system, are described in detail below by embodiment 1 and embodiment 2.
Embodiment 1:
As shown in Figs 1-4, the present embodiment provides a kind of fish bone well photovoltaic power plant bracket system, including at least row's branch
Frame, each stent of arranging can be set parallel to each other, and often arranged stent and included two columns 4 arrange along North and South direction, are arranged on two and stand
Support component between column 4 and at least one set of photovoltaic module 1 being arranged in the support component.The column 4 is as branch
The main support of frame realizes support component and the connection of two columns 4 by the hoop component 5 for being separately positioned on two 4 tops of column
The distance away the ground of position is adjusted.It is of course also possible to use other modes realize support component and the link position of two columns
Distance away the ground is adjusted.Since hoop component is existing product, therefore its structure is repeated no more.
In the present embodiment, the support component includes girder 6 similarly running in a north-south direction and being arranged on two 4 tops of column
(i.e. fish-bone), the more crossbeams 2 (i.e. fish-bone wing) for being arranged along North and South direction, extending along east-west direction and being arranged on girder 6, with
And it is arranged at least one set of photovoltaic module 1 between adjacent two crossbeams 2.Photovoltaic module 1 between adjacent two crossbeams 2
It is arranged along east-west direction.
Wherein, crossbeam 2 is vertically arranged with girder 6, and more crossbeams 2 can spaced set.Between adjacent two crossbeams 2
The structure of one group of photovoltaic module 1 is set as shown in figure 3, setting the structure of two groups of photovoltaic modulies 1 such as between adjacent two crossbeams 2
Shown in Fig. 4, also can more multigroup photovoltaic module be set between adjacent two crossbeams 2 certainly, these photovoltaic modulies are along between east and west
To arrangement.
More preferably, the both ends of the girder 6 are respectively fixed on two 4 tops of column by one group of U-bolt component 3, this is U-shaped
Bolt assembly may include two U-bolts and mating nut, correspondingly, should positioned at the top of the hoop component 5 at 4 top of column
It is provided with four screw holes passed through for two ends of two U-bolts.
The middle part of the crossbeam 2 is fixed on also by one group of U-bolt component 3 on girder 6, which only wraps
A U-bolt and mating nut are included, should correspondingly, on crossbeam 2 be provided with two passed through for two ends of the U-bolt
A screw hole.
The photovoltaic module 1 is mounted on by multiple briquettings 7 between adjacent two crossbeams 2.In the present embodiment, one group of photovoltaic
Component 1 can be equipped with four briquettings 7, in other words, one group of photovoltaic module 1 by four briquettings 7 be mounted on adjacent two crossbeams 2 it
Between, wherein setting is provided with other two briquetting 7 there are two briquetting 7 on another crossbeam 2 on a crossbeam 2, it is respectively used to solid
Determine two sides opposite along North and South direction of photovoltaic module 1.Due to sharing one along two groups of adjacent photovoltaic modulies 1 of North and South direction
Crossbeam 2, in order to save space, two briquettings can be integrated into structure by being arranged on four briquettings 7 shared on crossbeam 2,
Briquetting after wherein each integration is used to fixed two adjacent edge (such as Fig. 3 along two groups of adjacent photovoltaic modulies of North and South direction
Shown in 4).
In the present embodiment, the girder 6 can be used square tube, pipe, shaped steel or rack and be made;Type can be used in the crossbeam 2
Steel is made.
Embodiment 2:
As viewed in figures 5-8, the present embodiment provides a kind of rack type photovoltaic power plant bracket system, including at least row's branch
Frame, each stent of arranging can be set parallel to each other, and often arranged stent and included two columns 4 arrange along North and South direction, are arranged on two and stand
Support component between column 4 and at least one set of photovoltaic module 1 being arranged in the support component.The column 4 is as branch
The main support of frame realizes support component and the connection of two columns 4 by the hoop component 5 for being separately positioned on two 4 tops of column
The distance away the ground of position is adjusted.It is of course also possible to use other modes realize support component and the link position of two columns
Distance away the ground is adjusted.Since hoop component is existing product, therefore its structure is repeated no more.
In the present embodiment, the support component includes extending and being separately positioned on two 4 tops of column along east-west direction
Two crossbeams 2, it is similarly running in a north-south direction, arranged along east-west direction and the even number root that is arranged in parallel between two crossbeams 2
Cant beam 8 and at least one set of photovoltaic module 1 being arranged between adjacent two cant beams 8.The crossbeam 2 forms rack with cant beam 8
Structure, grid structure can extend along east-west direction, and even number root cant beam 8 is arranged along east-west direction, between adjacent two cant beams 8
Photovoltaic module 1 arranged along North and South direction, and the quantity of the cant beam 8 between adjacent two crossbeams 2 is equal to along east-west direction
Two times of the group number of the photovoltaic module 1 of arrangement, in other words, the two group photovoltaic modulies 1 adjacent along east-west direction do not share one
Cant beam 8 (as shown in FIG. 7 and 8).
Wherein, cant beam 8 is vertically arranged with crossbeam 2.Structure such as Fig. 7 of two cant beams 8 is set between adjacent two crossbeams 2
It is shown, the structure of four cant beams 8 is set between adjacent two crossbeams 2 as shown in figure 8, certainly also can be in adjacent two crossbeams 2
Between greater number of cant beam 8 is set.
More preferably, the middle part of the crossbeam 2 is fixed on 4 top of column by one group of U-bolt component 3, the U-bolt group
Part may include two U-bolts and mating nut, correspondingly, should be provided with positioned at the top of the hoop component 5 at 4 top of column
Four screw holes passed through for two ends of two U-bolts.
The both ends of the cant beam 8 are respectively fixed on by one group of U-bolt component 3 on two crossbeams 2, the U-bolt component
Only include a U-bolt and mating nut, correspondingly, the both ends of cant beam 8 are respectively arranged with two for a U-bolt
Two screw holes that end passes through.
The photovoltaic module 1 is mounted on by multiple briquettings 7 between adjacent two cant beams 8.In the present embodiment, one group of photovoltaic
Component 1 can be equipped with four briquettings 7, and in other words, one group of photovoltaic module 1 is mounted on by four briquettings 7 on adjacent two cant beams 8,
Setting is there are two briquetting 7 on a wherein cant beam 8, is provided with other two briquetting 7 on another cant beam 8, and described one tiltedly
A briquetting on beam fixes a line of photovoltaic module 1, remaining two briquettings with a briquetting on another cant beam
Fix the another a line opposite along North and South direction of the photovoltaic module 1.It is adjacent along North and South direction for fixation in order to save space
Four briquettings of adjacent two edges of two groups of photovoltaic modulies 1 can be integrated into two briquettings in structure, wherein each integrate
Briquetting afterwards is used to fixed two adjacent edges (as shown in FIG. 7 and 8) along two groups of adjacent photovoltaic modulies of North and South direction.
In the present embodiment, the crossbeam 2 is made of square tube, pipe, shaped steel or rack;The cant beam 8 uses shaped steel system
Into.
Photovoltaic power plant bracket system in above-described embodiment 1 and embodiment 2 is respectively provided with that component is few, processing, simple installation
Advantage is adapted to fit any kind of photovoltaic module.Especially change with reference to the massif gradient and local photovoltaic array optimum angle of incidence
Become the height of column, the problem of not only making stent cost reduction, also solve constructional difficulties.And embodiment 1 is using 2 points of supports
And fish bone structure, embodiment 2 are all very suitable for the mountainous region project that span is big, elevation is big using 2 points of supports and grid structure.
It is understood that embodiment of above is merely to illustrate that the principle of the utility model and uses exemplary
Embodiment, however the utility model is not limited thereto.For those skilled in the art, this is not being departed from
In the case of the spirit and essence of utility model, various changes and modifications can be made therein, these variations and modifications are also considered as this reality
With novel protection domain.
Claims (5)
1. a kind of mountainous region photovoltaic power plant bracket system, which is characterized in that including at least row's stent, often arrange stent and include along north and south
It two columns of direction arrangement, the support component that is arranged between described two columns and is arranged in the support component
At least one set of photovoltaic module, the support component and the distance away the ground of the link position of two columns are adjustable;The support
Component includes along east-west direction extending and be separately positioned on two crossbeams of two column tops, similarly running in a north-south direction, along east
West is to the even number root cant beam for arranging and being arranged in parallel between two crossbeams and is arranged between adjacent two cant beams
At least one set of photovoltaic module;The crossbeam forms grid structure, the photovoltaic module between adjacent two cant beams with cant beam
It is arranged along North and South direction, and the quantity of the cant beam between adjacent two crossbeams is equal to the photovoltaic module arranged along east-west direction
Group two times of number.
2. photovoltaic power plant bracket system in mountainous region according to claim 1, which is characterized in that the middle part of the crossbeam passes through one
Group U-bolt component is fixed on column top;The both ends of the cant beam are respectively fixed on two crossbeams by one group of U-bolt component
On.
3. photovoltaic power plant bracket system in mountainous region according to claim 1, which is characterized in that the photovoltaic module passes through multiple
Briquetting is mounted between adjacent two cant beams.
4. photovoltaic power plant bracket system in mountainous region according to any one of claim 1-3, which is characterized in that the crossbeam is adopted
It is made of square tube, pipe, shaped steel or rack;The cant beam is made of shaped steel.
5. photovoltaic power plant bracket system in mountainous region according to claim 1, which is characterized in that vertical by being separately positioned on two
The hoop component of column top realizes that support component and the distance away the ground of the link position of two columns are adjusted.
Priority Applications (1)
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CN201721035545.1U CN207543035U (en) | 2017-08-16 | 2017-08-16 | A kind of mountainous region photovoltaic power plant bracket system |
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CN201721035545.1U CN207543035U (en) | 2017-08-16 | 2017-08-16 | A kind of mountainous region photovoltaic power plant bracket system |
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CN207543035U true CN207543035U (en) | 2018-06-26 |
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CN201721035545.1U Active CN207543035U (en) | 2017-08-16 | 2017-08-16 | A kind of mountainous region photovoltaic power plant bracket system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108880444A (en) * | 2018-08-20 | 2018-11-23 | 江苏协统新能源科技有限公司 | It is the photovoltaic plate fixation system of square tube based on girder |
-
2017
- 2017-08-16 CN CN201721035545.1U patent/CN207543035U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108880444A (en) * | 2018-08-20 | 2018-11-23 | 江苏协统新能源科技有限公司 | It is the photovoltaic plate fixation system of square tube based on girder |
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