CN206820714U - Double-sided solar battery plate support beam structure - Google Patents

Abstract

The utility model discloses a kind of double-sided solar battery plate support beam structure, the support beam is set in parallel between adjacent two blocks of double-sided solar battery plates, fixture block is installed at the top of support beam with fixed double-sided solar panel, the vertical directive double-sided solar battery plate of sunshine, it is characterised in that the inclined-plane that support beam is opposite in double-sided solar battery plate is reflective surface.Support beam reflective surface structure of the present utility model is reflected the sunshine between adjacent cell plate, is generated electricity so as to which the back side of double-side cell plate can receive reflected light, improves the transformation efficiency of sunshine.

Description

Double-sided solar battery plate support beam structure

Technical field

Photovoltaic art is the utility model is related to, specifically a kind of double-sided solar battery plate support beam structure.

Background technology

In the conventional erecting structure of solar panel, fixing clearance, sunshine between adjacent solar battery plate be present It can not be radiated in solar cell plate face through the space, so cause energy dissipation.

The positive and negative of double-sided solar battery plate can receive sunshine and be generated electricity, and this makes empty using plate and plate installation Sunshine in gap becomes possibility.

Utility model content

Technical scheme：The utility model is for problem present in background technology, there is provided a kind of double-sided solar battery Plate support beam structure, the support beam are set in parallel between adjacent two blocks of double-sided solar battery plates, pacified at the top of support beam For clamping block with fixed double-sided solar panel, the inclined-plane that support beam is opposite in double-sided solar battery plate is reflective surface.

As the first embodiment, the inclined-plane is in plane.

As second of embodiment, the inclined-plane is in curved surface.

In second of embodiment, the vertical section on the inclined-plane is in convex.

In second of embodiment, the vertical section on the inclined-plane is concave.

More specifically, according to requirement of engineering：Inclined-plane bottom and the vertical range of plane where double-sided solar battery plate are H, the width of double-sided solar battery plate is 2a；Then inclined-plane reflective bottom surface tangent line and plane where double-sided solar battery plate Angle is：Signified in text is laterally, vertically using plane where double-sided solar battery plate as x-axis benchmark description.

More specifically, according to requirement of engineering：Incline apex and the vertical range of plane where double-sided solar battery plate are D, the lateral separation of incline apex to double-sided solar battery plate is b；Then incline apex reflective surface tangent line and double-sided solar electricity The angle of plane is where the plate of pond：

As a kind of determination method of inclined-plane entirety angle, the first step, according to requirement of engineering：Inclined-plane bottom and the two-sided sun Can the vertical range of plane be h where cell panel, the width of double-sided solar battery plate is 2a；Then inclined-plane reflective bottom surface tangent line It is with the angle of plane where double-sided solar battery plate：

Second step, according to requirement of engineering：Incline apex and the vertical range of plane where double-sided solar battery plate are d, The lateral separation of incline apex to double-sided solar battery plate is b；Then incline apex reflective surface tangent line and double-sided solar battery The angle of plane is where plate：

3rd step, top to the bottom on inclined-plane seamlessly transit.In practical operation, the first step and second step can be according to need Adjust sequencing.

As the first embodiment of reflective surface, the reflective surface is the anti-of the reflective mirror set up on inclined-plane or coating Luminescent material.

As second of embodiment of reflective surface, the reflective surface is that the polishing of support beam body forms, and body material is excellent Elect aluminum alloy material or steel material as.

The beneficial effects of the utility model

Support beam reflective surface structure of the present utility model is reflected the sunshine between adjacent cell plate, so as to two-sided The back side of cell panel can receive reflected light and be generated electricity, and improve the transformation efficiency of sunshine.In preferable scheme, design The radian of reflective surface, ensures that reflected light can farthest be reflected in the back side of double-side cell plate.

Brief description of the drawings

Fig. 1 is installation effect figure of the present utility model.

Fig. 2 is that the inclined-plane of the utility model support beam is the structural representation of plane embodiment.

Fig. 3 is that the inclined-plane of the utility model support beam is the structural representation of convex surface embodiment.

Fig. 4 is that the inclined-plane of the utility model support beam is the structural representation of concave surface embodiment.

Fig. 5 is that the radian of embodiment calculates schematic diagram.

Fig. 6 is the inclined-plane flex point situation schematic diagram of embodiment.

Embodiment

With reference to embodiment, the utility model is described in further detail, but the scope of protection of the utility model is not limited to This：

Embodiment 1：With reference to Fig. 1, a kind of double-sided solar battery plate support beam structure, the support beam 2 is set in parallel in Between adjacent two blocks of double-sided solar battery plates 1, in the top of support beam 2 installation fixture block with fixed double-sided solar panel 1, branch The inclined-plane 3 that support beam 1 is opposite in double-sided solar battery plate 1 is reflective surface.

Embodiment 2：With reference to Fig. 2, double-sided solar battery plate support beam structure as described in Example 1, the inclined-plane 3 is in Plane.

Embodiment 3：Double-sided solar battery plate support beam structure as described in Example 1, the inclined-plane 3 are in curved surface.

Embodiment 4：With reference to Fig. 3, double-sided solar battery plate support beam structure as described in Example 3, the inclined-plane 3 Vertical section is in convex.

Embodiment 5：With reference to Fig. 4, double-sided solar battery plate support beam structure as described in Example 3, the inclined-plane 3 Vertical section is concave.

With reference to Fig. 2-Fig. 3, in preferred embodiment, support beam 2 is in transversal tubular, i.e., the vertical section of support beam 2 is hollow, Above is designed for saving material and reducing the consideration of weight.The vertical section axisymmetricly figure, including inclined-plane 3, on Bottom 4 and bottom 5：Upper bottom 4 is shorter than bottom 5；The upper downward bending of bottom 4 forms the projection of falling mushroom 6, and 5 upward bendings of bottom are formed just Mushroom projection 7；The projection of falling mushroom 6 and positive mushroom projection 7 are connected reinforcing by longitudinal wall 8, and two inclined-planes 3 pass through cross wall 9 Connect reinforcing；It is in cross that longitudinal wall 8 intersects with cross wall 9.Above is design for stability reasons it.

With reference to Fig. 5, embodiment 6：Double-sided solar battery plate support beam structure as described in Example 1, for convenience of calculating, Sunshine is considered as vertical directive double-sided solar battery plate 1 by us.According to requirement of engineering：The bottom of inclined-plane 3 and double-sided solar The vertical range of the place plane of cell panel 1 is h, and the width of double-sided solar battery plate 1 is 2a；Then the reflective bottom surface of inclined-plane 3 is cut Line and the angle of the place plane of double-sided solar battery plate 1 are：Signified in text is laterally, vertically with the two-sided sun Energy cell panel 1 place plane is x-axis benchmark description.In the present embodiment, only the angle of the bottom of inclined-plane 3 is defined, inclined-plane 3 Face angle degree and the angle on top can freely be set according to environment.

Embodiment 7：Double-sided solar battery plate support beam structure as described in Example 1, according to requirement of engineering：Inclined-plane 3 The vertical range of top and the place plane of double-sided solar battery plate 1 be d, to the horizontal stroke of double-sided solar battery plate 1 at the top of inclined-plane 3 It is b to distance；Then the top reflective surface tangent line of inclined-plane 3 and the angle of the place plane of double-sided solar battery plate 1 are： In the present embodiment, only the angle at the top of inclined-plane 3 is defined, the face angle degree on inclined-plane 3 and the angle at bottom can be free according to environment Set.

Embodiment 8：Double-sided solar battery plate support beam structure as described in Example 1, the first step：According to engineering need Will：The vertical range of the bottom of inclined-plane 3 and the place plane of double-sided solar battery plate 1 is h, the width of double-sided solar battery plate 1 For 2a；Then the reflective bottom surface tangent line of inclined-plane 3 and the angle of the place plane of double-sided solar battery plate 1 are：

Second step：The vertical range of the top of inclined-plane 3 and the place plane of double-sided solar battery plate 1 is d, and the top of inclined-plane 3 is extremely The lateral separation of double-sided solar battery plate 1 is b；Then the top reflective surface tangent line of inclined-plane 3 where double-sided solar battery plate 1 with putting down The angle in face is：

3rd step：The top on inclined-plane 3 to bottom seamlessly transits.

Principle explanation：Embodiment 6-8 design original intention be make sunshine via inclined-plane 3 reflect after uniform irradiation in it is two-sided too The center line of positive energy cell panel 1 is to the nearly end of support beam 2, to obtain the conversion of the solar energy of peak efficiency.Fig. 5 gives index path, knot Close embodiment 6 to be analyzed, in 90 ° of angles, (tangent line of the bottom of inclined-plane 3 is anti-to the tangent line of the bottom of inclined-plane 3 with ∠ A angular bisector Face is penetrated, ∠ A angular bisector is its normal), but it is also 90 ° that sunshine incident ray is considered as vertical with double-sided solar battery plate 1 The angle that the tangent line of angle, wherein sunshine incident ray and the bottom of inclined-plane 3 is formed is considered as common angles, therefore the reflective bottom surface of inclined-plane 3 Tangent line and the angle of the place plane of double-sided solar battery plate 1 areIt is apparent from：So draw the bottom of inclined-plane 3 Portion's reflective surface tangent line and the angle of the place plane of double-sided solar battery plate 1 are：Embodiment 7 is similarly drawn：Inclined-plane 3 top reflective surface tangent lines and the angle of the place plane of double-sided solar battery plate 1 are：Parameter a in above formula, H, b and d is the known quantity determined by engineering-environment.

By 3 two, the inclined-plane end points obtained in embodiment 6 and embodiment 7, (position of end points determines by engineering-environment, end points Corresponding tangential angle is by being calculated) carry out smooth connection, then obtain the technical scheme that embodiment 8 is protected.Due to two The angle of the position of individual end points and corresponding tangent line is different, and joint face (i.e. inclined-plane 3) is likely to form a smooth concave surface or convex surface (as shown in Figure 5), it is also possible to form a curved surface (as shown in fig. 6, bumps connect) with flex point, it is new to belong to this practicality The protection content of type.

As the first embodiment of reflective surface, the reflective surface is the reflective mirror or coating set up on inclined-plane 3 Reflectorized material.

As second of embodiment of reflective surface, the reflective surface is that the polishing of the body of support beam 2 forms, and body material is excellent Elect aluminum alloy material or steel material as.

Specific embodiment described herein is only that the utility model spirit is illustrated.The utility model institute Category those skilled in the art can make various modifications or supplement to described specific embodiment or using similar Mode substitute, but without departing from spirit of the present utility model or surmount scope defined in appended claims.

Claims (10)

1. a kind of double-sided solar battery plate support beam structure, the support beam (2) is set in parallel in adjacent two pieces of two-sided sun Between energy cell panel (1), installation fixture block is with fixed double-sided solar panel (1) at the top of support beam (2), it is characterised in that branch The inclined-plane (3) that support beam (2) is opposite in double-sided solar battery plate (1) is reflective surface.

2. double-sided solar battery plate support beam structure according to claim 1, it is characterised in that the inclined-plane (3) is in flat Face.

3. double-sided solar battery plate support beam structure according to claim 1, it is characterised in that the inclined-plane (3) is in song Face.

4. double-sided solar battery plate support beam structure according to claim 3, it is characterised in that the inclined-plane (3) is indulged Section is in convex.

5. double-sided solar battery plate support beam structure according to claim 3, it is characterised in that the inclined-plane (3) is indulged Section is concave.

6. double-sided solar battery plate support beam structure according to claim 1, it is characterised in that according to requirement of engineering：Tiltedly The vertical range of plane where face (3) bottom and double-sided solar battery plate (1) is h, the width of double-sided solar battery plate (1) For 2a；Then inclined-plane (3) reflective bottom surface tangent line and the angle of plane where double-sided solar battery plate (1) are：

7. double-sided solar battery plate support beam structure according to claim 1, it is characterised in that according to requirement of engineering：Tiltedly Vertical range at the top of face (3) with double-sided solar battery plate (1) place plane is d, to double-sided solar electricity at the top of inclined-plane (3) The lateral separation of pond plate (1) is b；Then reflective surface tangent line and the folder of plane where double-sided solar battery plate (1) at the top of inclined-plane (3) Angle is：

8. double-sided solar battery plate support beam structure according to claim 1, it is characterised in that：

According to requirement of engineering：The vertical range of plane is h where inclined-plane (3) bottom and double-sided solar battery plate (1), it is two-sided too The width of positive energy cell panel (1) is 2a；Then inclined-plane (3) reflective bottom surface tangent line and plane where double-sided solar battery plate (1) Angle be：

According to requirement of engineering：It is d with the vertical range of plane where double-sided solar battery plate (1) at the top of inclined-plane (3), inclined-plane (3) top to the lateral separation of double-sided solar battery plate (1) is b；Then reflective surface tangent line and double-sided solar at the top of inclined-plane (3) The angle of plane is where cell panel (1)：

Top to the bottom on inclined-plane (3) seamlessly transits.

9. double-sided solar battery plate support beam structure according to claim 1, it is characterised in that the reflective surface be The reflective mirror or the reflectorized material of coating set up on inclined-plane (3).

10. double-sided solar battery plate support beam structure according to claim 1, it is characterised in that the reflective surface is branch Support beam (2) body polishing forms, and body material is preferably aluminum alloy material or steel material.