CN202564408U - Angle adjustable solar cell panel support and solar cell panel installation system - Google Patents

Abstract

The utility model discloses an angle adjustable solar cell panel support and a solar cell panel installation system. The angle adjustable solar cell panel support of the utility model comprises an oblique beam for fixing a solar cell panel and a supporting seat for fixing the oblique beam on a supporting surface. One end of the oblique beam is movably connected with the supporting seat, and a height adjustment mechanism is arranged between the other end of the oblique beam and the supporting seat, so the distance between the other end of the oblique beam and the supporting surface can be adjusted. The solar cell panel installation system comprises a plurality of angle adjustable solar cell panel supports. The angle adjustable solar cell panel supports are connected through installation rails installed on the oblique beam of each angle adjustable solar cell panel support, and multiple solar cell panels are fixed on the installation rails to form a solar cell panel array. By adopting the angle adjustable solar cell panel support and the solar cell panel installation system of the utility model, the inclined angle between the solar cell panels and the supporting surface can be flexibly adjusted to ensure the solar radiation of each solar cell panel.

Description

Adjustable angle formula solar-cell panel support and solar panel installation system

Technical field

The utility model relates to a kind of solar panel installation component, relates in particular to a kind of adjustable angle formula solar-cell panel support and solar panel installation system.

Background technology

Solar power generation refers to adopt solar panel to absorb sunlight, and is a kind of new-generation mode of electric energy with conversion of solar energy through the photoelectricity conversion coating of solar panel.Compare with traditional firepower, electric power, hydroelectric power generation, a series of advantages such as as a kind of novel reproducible solar energy, solar power generation is efficient, stable, environment friendly and pollution-free because of having, production and construction less investment enjoy favor.And in daily life, commercial production, be widely used.

Solar power generation, the sunlight that absorbs with solar panel be as the energy, thereby the insolation amount that how to improve solar panel becomes the major subjects that improves the solar panel energy output.Solar panel insolation amount depends primarily on the solar panel setting angle, and it mainly comprises the azimuth and the inclination angle adjustment of solar panel.So-called azimuth is solar panel vertical plane and angular separation, due south, and the inclination angle refers to the angle of solar cell board plane and level ground.The adjustment of solar panel azimuth depends primarily on the orientation of the sun, and the direct geographic latitude with the locality of the adjustment at solar panel inclination angle is relevant.In solar panel setting angle adjustment process, need specifically to adjust the angle of inclination of solar panel to the different latitude in each department, its adjustment capability for the installation component of solar panel is had relatively high expectations.Especially in the installation process of some large-scale sun assemblies, adopt the polylith solar panel to be combined into a solar panel square formation.And in for the solar panel square formation, in each solar panel angle of inclination adjustment process, needing to keep the harmonious of each solar panel angle of inclination, operation easier is bigger.

Thereby, how to improve the solar panel installation component for solar panel angle of inclination adjustment capability, thereby the adjustment of efficient, convenient completion solar panel setting angle is the important topic that industry is paid close attention to.

The utility model content

The utility model provides a kind of adjustable angle formula solar-cell panel support; In the solar panel installation process; Can be according to the concrete installation situation of solar panel; Adjust the inclination angle of solar panel and mounting plane flexibly, thereby improve solar panel insolation amount, effectively improve the solar panel energy output.

For addressing the above problem, the utility model provides a kind of adjustable angle formula solar-cell panel support, comprising: the bearing that is used for fixing the cant beam of solar panel and is used for said cant beam is fixed in supporting surface;

Wherein, Said bearing comprises first fulcrum and second fulcrum; Said cant beam comprises first end and second end; First end of said cant beam and first fulcrum flexibly connect, and are provided with a telescopic outrigger as height adjustment mechanism between second end of said cant beam and second fulcrum of said bearing, adjust second end of said cant beam and the distance between the supporting surface;

Said telescopic outrigger two ends connect second end of said cant beam and second fulcrum of said bearing respectively, and said telescopic outrigger comprises stretching structure, adjust the length between the said telescopic outrigger two ends;

On said bearing, said second fulcrum comprises the linking fulcrum that a plurality of and said telescopic outrigger one end is connected, and is used to adjust the angle of inclination of said telescopic outrigger along flexible direction and said supporting surface.

Alternatively, the stretching structure of said telescopic outrigger comprises:

Said telescopic outrigger comprises the multistage telescopic strut, wherein is provided with a plurality of flexible linking points along the flexible direction of said telescopic outrigger between at least two sections adjacent telescopic struts.

Alternatively, said flexible linking point comprises and is opened in the through hole on the said telescopic strut and is installed on the set bolt in the said through hole.

Alternatively, described a plurality of linking fulcrum is parallel to said supporting surface distribution.

Alternatively, described a plurality of linking fulcrums comprise the chute that is opened on the said bearing, and the bolt that is used for an end of said telescopic strut is fixed in said chute.

Alternatively, said bearing is provided with and the corresponding scale marker of said chute.

In order to address the above problem; The utility model also provides a kind of solar panel installation system; Comprise a plurality of above-mentioned adjustable angle formula solar-cell panel supports and be connected adjacent said adjustable angle formula solar-cell panel support and be used to install the attachment rail of solar panel that said attachment rail is fixed on the cant beam of said adjustable angle formula solar-cell panel support.

Alternatively, on said attachment rail, be provided with the chute track, and in said chute track, be provided with the fixture of fixed solar cell panel.

Alternatively, the cant beam of each described adjustable angle formula solar-cell panel support laterally arranges.

Alternatively, on a said adjustable angle formula solar-cell panel support, be provided with many said attachment rails, and described many attachment rails laterally arrange.

Compared with prior art, the utlity model has following advantage:

1. a kind of adjustable angle formula of the utility model solar-cell panel support; Its cant beam one end that is used to solar panel is installed is through bearing and supporting surface flexible connection; Thereby being provided with height adjustment mechanism between the other end and bearing can install needs according to solar panel and adjust distance between the cant beam other end and the supporting surface flexibly; Thereby the angle of inclination of adjustment cant beam and supporting surface; And adjust solar panel thus and ground between the angle of inclination, improve the insolation amount of solar panel, improve the solar panel energy output.

Telescopic outrigger as arrangement for adjusting height not only can be through said cant beam one end of distance adjustment between the two ends of regulating said bearing of connection and cant beam and the height of supporting surface; Thereby regulate the angle of inclination on cant beam and inclined plane; But also can be through a plurality of linking fulcrums of second fulcrum on the said bearing; Regulate the angle of inclination of said telescopic outrigger and supporting surface; Thereby further adjust the angle of inclination of said cant beam and supporting surface significantly flexibly, and reach the purpose that flexible adjustment is installed on the angle of inclination of the solar panel on the cant beam thus.

2. in a kind of solar panel installation system of the utility model; Through adopting attachment rail to be fixedly connected two adjacent said adjustable angle formula solar-cell panel supports; Thereby adopt a plurality of said adjustable angle formula solar-cell panel supports to realize that polylith solar cell slab integral connects, and forms the solar panel matrix; And adjusting flexibly significantly by said a plurality of said adjustable angle formula solar-cell panel supports realization solar panel tilt matrix angles; Thereby increase the insolation amount of solar panel matrix; And increase the energy output of solar panel with this, improve the solar panel operating efficiency.

Description of drawings

Fig. 1 is the structural representation of the utility model adjustable angle formula solar-cell panel support;

Fig. 2 is the structural representation that adopts the solar panel square formation of solar panel installation system;

Fig. 3 is the structural representation of the utility model solar panel installation system among Fig. 2;

Fig. 4 is the syndeton sketch map of adjustable angle formula solar-cell panel support and attachment rail among Fig. 3.

Embodiment

Said as background technology; In the solar panel installation process, the concrete conditions such as latitude on ground need be installed, adjustment solar panel angle of inclination according to solar panel; Thereby guarantee the insolation amount of solar panel, to improve the energy output of solar panel.To above-mentioned solar panel demand for the angle of inclination in installation process; The utility model provides a kind of adjustable angle formula solar-cell panel support; In solar panel installation and adjustment process, according to actual needs, adjust the angle of inclination of solar panel flexibly; Thereby guarantee solar panel insolation amount, improve the energy output and the operating efficiency of solar panel.

For above-mentioned purpose, the feature and advantage that make the utility model can be more obviously understandable, the embodiment of the utility model is done detailed explanation below in conjunction with accompanying drawing.

A lot of details have been set forth in the following description so that make much of the utility model; But the utility model can also adopt other to be different from alternate manner described here and implement, so the utility model does not receive the restriction of following disclosed specific embodiment.

With reference to shown in Figure 1, a kind of adjustable angle formula of the utility model solar-cell panel support comprises: cant beam 1 and the bearing that is used for said cant beam 1 is fixed in supporting surface 200.Said bearing comprises first bearing that first fulcrum 31 is set and second bearing that second fulcrum 32 is set, said first bearing and second bearing all through bolt in supporting surface 200.Said bearing comprises that the design of first bearing and second bearing is convenient to adjustable angle formula solar-cell panel support and installs flexibly.Certainly, said bearing also can be an integral body, and said like this first fulcrum and second fulcrum are located on the bearing that is an integration simultaneously.These are simply transformed all in the protection range of the utility model.

One end of said cant beam 1 flexibly connects through bearing pin and said first fulcrum 31; And between said second fulcrum 32 and said cant beam 1, be provided with height adjustment mechanism 3; Thereby realizing that said cant beam 1 is fixedly connected with second fulcrum 32 simultaneously, adjusts the other end of said cant beam 1 and the distance between the supporting surface 200 flexibly.Make that said cant beam 1 is a fixed point with the tie point of one of which end and said first fulcrum 31; And, realize the angle of inclination adjustment between said cant beam 1 and the said supporting surface 200 through the distance between said height adjustment mechanism's 3 said cant beam 1 other ends of adjustment and the said supporting surface 200.In use, fixed solar cell panel 100 on described cant beam 1 based on the angle of inclination adjustment of said cant beam 1 with respect to said supporting surface 200, is realized the angle of inclination adjustment of said solar panel 100 with respect to said supporting surface 200.

Said height adjustment mechanism 3 has comprised a telescopic outrigger 2.Said telescopic outrigger 2 is a stretching structure, and said telescopic outrigger 2 comprises epimere pole 21 and hypomere pole 22.The upper end of said epimere pole 21 is fixedly connected with said cant beam 1; The lower end of said hypomere pole 22 is fixedly connected with said second bearing 32; And on said epimere pole 21 and hypomere pole 22,, offer a plurality of through holes 23 respectively along the flexible direction of said telescopic outrigger 2.Said a plurality of through holes 23 corresponding settings of said epimere pole 21 and hypomere pole 22, and the set bolts 24 that pass through to install in the said through hole 23 realize that said epimere pole 21 is fixedly connected with hypomere pole 22.Simultaneously; With along the through hole 23 of the flexible direction setting of said telescopic outrigger 2 and be installed on set bolt 24 in the said through hole 23 as epimere pole 21 and hypomere pole 22 along a plurality of flexible linking point on the flexible directions of said telescopic outrigger 2; Effectively the said telescopic outrigger 2 of adjustment connects the length between the two ends of the said cant beam 1 and second fulcrum 32 respectively; Adjust the distance between said cant beam 1 other end and the said supporting surface 200, and adjust the angle of inclination of said cant beam 1 with respect to said supporting surface 200 with this.

It should be noted that; In the present embodiment; Said telescopic outrigger 2 is the bipartial structure that comprises epimere pole 21 and hypomere pole 22, in practical application, can as required said telescopic outrigger 2 be designed to comprise the multi-section structure of multistage telescopic strut (greater than 2 sections telescopic struts).And can be designed to comprise all kinds of stretching structures such as chute between two sections adjacent telescopic struts, thus realize the length variations between said telescopic outrigger 2 two ends, these simply change all within the protection range of the utility model.

As stated; The lower end of said hypomere pole 22 is fixedly connected with said second fulcrum 32; And realize the distance adjustment of 200 of the other end and the supporting surfaces of said cant beam 1, thereby realize the angle adjustment of said cant beam 1 with respect to supporting surface 200 through the stretching structure of telescopic outrigger 2.Moreover, said second fulcrum 32 also comprises the bolt 35 in chute 34 and the said chute 34, and the bearing of trend of said chute 34 is parallel to said supporting surface 200.The lower end of said hypomere pole 22 is fixedly connected with said second bearing with bolt 35 through said chute 34.And the lower end of said hypomere pole 22 is based on said chute 33 bearing of trends; Be positioned at different installation site on the said chute 33; On the plane that is parallel to said supporting surface 200, do the position adjustment; Thereby between the lower end that forms a plurality of said hypomere poles 22 on the plane that is parallel to said supporting surface 200 and second bearing, be connected fulcrum; And adjust said telescopic outrigger 2 along the angle of inclination between flexible direction and the said supporting surface 200 with this, further adjust the angle of inclination between said cant beam 1 and the supporting surface 200.And in the preferred version, on said bearing, be positioned at said chute 33 1 sides to be provided with the scale sign 34 corresponding, thereby accurately control the position that said hypomere support 22 lower ends are positioned at said chute 33 with said chute 33 length directions.And based on the length of said telescopic outrigger 2; Obtain the distance between said cant beam 1 other end and the said supporting surface 200 through trigonometric function calculating; Control the angle of inclination of 200 of said cant beam 1 and said supporting surfaces, thereby adjustment is installed on the angle of inclination of solar panel 100 and supporting surface 200 on the said cant beam 1.

And for the solar panel square formation, it is made up of the polylith solar panel, when it is installed, need make whole setting angle for the solar panel square formation and adjust, and is higher with respect to the angle adjustment difficulty of monolithic solar panel.In the difficulty to polylith solar panel integral inclination angle adjustment, the utility model provides a kind of solar panel installation system to above-mentioned solar panel square formation.

Referring to figs. 2 and 3 shown in, the utility model provides a kind of solar panel installation system, has comprised a plurality of said adjustable angle formula solar-cell panel supports 300.Described a plurality of adjustable angle formula solar-cell panel support 300 is arranged side by side, and the cant beam 1 of each said adjustable angle formula solar-cell panel support 300 is parallel.Through welding attachment rail 4 is housed fixedly on two adjacent said cant beams 1, thereby each said adjustable angle formula solar-cell panel support 300 is fixedly connected.On described attachment rail 4, geometrical clamp 5 is housed, as between the said solar panel 100 of each piece and the fixture that is fixedly connected with said attachment rail 4 of the said solar panel 100 of each piece.The solar panel 100 that each piece is installed on the said attachment rail 4 is formed the solar panel square formation.It should be noted that in this enforcement, thereby said attachment rail 4 is fixed on the said cant beam 1 through welding procedure, in the practical operation, can passes through bolt arrangement equally, or other fixed part such as buckle is fixedly connected said attachment rail 4 with cant beam 1.

With shown in Figure 4, above the cant beam 1 of two adjacent said adjustable angle formula solar-cell panel supports 300, the two ends that are positioned at said cant beam 1 are fixed with attachment rail 4a and the 4b that pair of parallel is placed respectively through welding with reference to figure 3.Wherein, Be equipped with chute track 41 on said attachment rail 4a and the 4b; And described geometrical clamp 5 comprises the slide block (not shown) that is installed in the said chute track 41 and is complementary with said chute track 41 structures, thereby realizes that each described geometrical clamp 5 moves on chute track 41.During use,, thereby select said geometrical clamp 5 to be positioned at the installation site on the said chute track 41, thereby realize that each piece solar panel 100 is fixedly connected according to the size of solar panel 100.And realize of the angle of inclination adjustment of each piece solar panel 100 with respect to supporting surface 200 through said adjustable angle formula solar-cell panel support 300.Adopt the utility model solar panel installation system can adjust the angle of inclination of each piece solar panel 100 and supporting surface 200 fast and flexibly significantly, guarantee the insolation amount of each piece solar panel 100 according to the actual needs that the solar panel square formation is installed.And parts such as the cant beam 1 of said chute track 41 and adjustable angle formula solar-cell panel support 300, telescopic outrigger 2 all can adopt " C shaped steel " preparation, greatly reduce preparation cost.It should be noted that; In the present embodiment; Attachment rail 4a and the 4b that pair of parallel is provided with is installed on the said cant beam 1 of each root, and in the solar panel installation system actual design, can increases the quantity of attachment rail according to the actual needs that solar panel 100 is installed.And said geometrical clamp 5 is installed on said attachment rail 4 tops; In actual the use; Said geometrical clamp 5 equally also can be installed on the said cant beam 1; And said attachment rail 4 can be fixed in said cant beam 1 below too, and the installation that these simple transformations do not influence said solar panel 100 produces substantial effect.These are simply transformed all in the utility model protection range.

Though the utility model with preferred embodiment openly as above; But it is not to be used for limiting the utility model; Any those skilled in the art are in spirit that does not break away from the utility model and scope; Can make possible change and modification, so the protection range of the utility model should be as the criterion with the scope that the utility model claim is defined.

Claims (10)

1. an adjustable angle formula solar-cell panel support is characterized in that, comprising: be used for fixing solar energy

The cant beam of cell panel and the bearing that is used for said cant beam is fixed in supporting surface;

Wherein, Said bearing comprises first fulcrum and second fulcrum; Said cant beam comprises first end and second end; First end of said cant beam and first fulcrum flexibly connect, and are provided with a telescopic outrigger as height adjustment mechanism between second end of said cant beam and second fulcrum of said bearing, adjust second end of said cant beam and the distance between the supporting surface;

Said telescopic outrigger two ends connect second end of said cant beam and second fulcrum of said bearing respectively, and said telescopic outrigger comprises stretching structure, adjust the length between the said telescopic outrigger two ends;

On said bearing, said second fulcrum comprises the linking fulcrum that a plurality of and said telescopic outrigger one end is connected, and is used to adjust the angle of inclination of said telescopic outrigger along flexible direction and said supporting surface.

2. adjustable angle formula solar-cell panel support according to claim 1 is characterized in that the stretching structure of said telescopic outrigger comprises:

Said telescopic outrigger comprises the multistage telescopic strut, wherein is provided with a plurality of flexible linking points along the flexible direction of said telescopic outrigger between at least two sections adjacent telescopic struts.

3. adjustable angle formula solar-cell panel support according to claim 2 is characterized in that, said flexible linking point comprises and is opened in the through hole on the said telescopic strut and is installed on the set bolt in the said through hole.

4. adjustable angle formula solar-cell panel support according to claim 1 is characterized in that, described a plurality of linking fulcrums are parallel to said supporting surface and distribute.

5. adjustable angle formula solar-cell panel support according to claim 4 is characterized in that, and is said

A plurality of linking fulcrums comprise the chute that is opened on the said bearing, and be used for said telescopic strut

An end be fixed in the bolt in the said chute.

6. adjustable angle formula solar-cell panel support according to claim 5 is characterized in that, said bearing is provided with and the corresponding scale marker of said chute.

7. solar panel installation system; It is characterized in that; Comprise a plurality of as the described adjustable angle formula of above-mentioned each claim solar-cell panel support be connected adjacent said adjustable angle formula solar-cell panel support and be used to install the attachment rail of solar panel, said attachment rail is fixed on the cant beam of said adjustable angle formula solar-cell panel support.

8. solar panel installation system according to claim 7 is characterized in that, on said attachment rail, is provided with the chute track, and in said chute track, is provided with the fixture of fixed solar cell panel.

9. solar panel installation system according to claim 7 is characterized in that, the cant beam of each described adjustable angle formula solar-cell panel support laterally arranges.

10. solar panel installation system according to claim 7 is characterized in that, on a said adjustable angle formula solar-cell panel support, be provided with many said attachment rails, and described many attachment rails laterally arranges.

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