CN202948943U - Solar tracking bracket - Google Patents

Abstract

An embodiment of the utility model discloses a solar tracking bracket which can perform manual adjustment to improve solar energy conversion efficiency. The solar tracking bracket comprises a battery panel assembly, a column assembly, a beam assembly, an angle adjustment plate and a connecting plate. A bracket of the battery panel assembly is fixed on the beam assembly, the angle adjustment plate is connected with the beam assembly, the beam assembly is connected with the column assembly through the connecting plate, and a positioning hole is arranged on the angle adjustment plate and can be adjusted so as to drive the beam assembly to rotate to drive the battery panel assembly to rotate. The solar tracking bracket can be adjusted manually so as to improve solar energy conversion efficiency.

Description

A kind of solar energy tracking support

Technical field

The utility model relates to field of solar energy, relates in particular to a kind of solar energy tracking support.

Background technology

Solar energy has obtained using widely in current society as a kind of clean energy resource, in order effectively to utilize solar energy, just needs cell panel to carry out photoelectric conversion.

Cell panel often is fixed by support, and existing solar energy is support bracket fastened relatively simple for structure, and reliability is high, but can not adjust along with the variation of time, making cell panel absorb light energy conversion is that the electric weight of electric energy can not reach maximization, and generating efficiency is low, and solar energy utilization ratio is not high.

The utility model content

The utility model embodiment provides a kind of solar energy tracking support, can carry out manual adjustments to improve the solar energy conversion ratio.

The solar energy tracking support that the utility model embodiment provides comprises:

Battery panel components, columns assemblies, beam assembly, angle adjustment plate and connecting plate;

The carriage of described battery panel components is fixed on described beam assembly;

Described angle adjustment plate is connected with described beam assembly;

Described beam assembly is connected with described columns assemblies by described connecting plate;

Be provided with location hole on described angle adjustment plate, described location hole can be conditioned, and rotates and drives battery panel components rotation to drive described beam assembly.

Alternatively, described beam assembly comprises crossbeam and cant beam;

The carriage of described battery panel components is fixed on described crossbeam;

Described crossbeam is fixed on described cant beam;

The two ends of described angle adjustment plate all are fixed on described cant beam;

The location hole that arranges on described angle adjustment plate can be conditioned, and rotates and drives battery panel components rotation to drive described cant beam.

Alternatively, described crossbeam is bolted on described cant beam;

The two ends of described angle adjustment plate all are bolted on described cant beam.

Alternatively, described columns assemblies comprises front column;

Described cant beam is connected with described front column by described connecting plate.

Alternatively, described columns assemblies also comprises rear column;

Described solar energy tracking support also comprises the bearing diagonal assembly;

Described front column is connected by described bearing diagonal assembly with described rear column.

Alternatively, be provided with rotatable bolt on described front column, be provided with a plurality of location holes on described angle adjustment plate.

Alternatively, the arbitrary location hole that arranges on the bolt that arranges on described front column and described angle adjustment plate all mates;

The bolt that arranges on described front column can penetrate the arbitrary location hole that arranges on described angle adjustment plate.

As can be seen from the above technical solutions, the utility model embodiment has the following advantages:

In the utility model embodiment, angle adjustment plate is connected by beam assembly with battery panel components, and be provided with location hole on angle adjustment plate, location hole can be conditioned, rotate and drive battery panel components rotation to drive described beam assembly, so thereby the user can be by adjusting the direction of battery panel components to the location hole on angle adjustment plate, therefore can make battery panel components to change the angle of regulating itself and the sun with the solar latitude in season, absorbing to greatest extent and trans-utilization solar energy, thereby improved the solar energy conversion ratio.

Description of drawings

Fig. 1 is embodiment schematic diagram of solar energy tracking support in the utility model embodiment;

Fig. 2 is another embodiment end view of solar energy tracking support in the utility model embodiment;

Fig. 3 is another embodiment stereogram of solar energy tracking support in the utility model embodiment.

Embodiment

The utility model embodiment provides a kind of solar energy tracking support, can carry out manual adjustments to improve the solar energy conversion ratio.

See also Fig. 1, embodiment of the solar energy tracking support in the utility model embodiment can comprise:

Battery panel components 101, columns assemblies 102, beam assembly 103, angle adjustment plate 104 and connecting plate 105;

The carriage of battery panel components 101 is fixed on described beam assembly 103;

Described angle adjustment plate 104 is connected with described beam assembly 103;

Described beam assembly 103 is connected with described columns assemblies 102 by described connecting plate 104;

Be provided with location hole 106 on described angle adjustment plate 104, described location hole 106 can be conditioned, and rotates and drives battery panel components 101 rotation to drive described beam assembly 103.

In the present embodiment, this beam assembly 103 may further include crossbeam and cant beam;

The carriage of described battery panel components 101 is fixed on described crossbeam;

Described crossbeam is fixed on described cant beam;

The two ends of described angle adjustment plate 104 all are fixed on described cant beam;

The location hole 106 that arranges on described angle adjustment plate 104 can be conditioned, and rotate and drives battery panel components 101 and rotate to drive described cant beam.

In the present embodiment, crossbeam can be bolted on described cant beam;

The two ends of described angle adjustment plate 104 all are bolted on described cant beam.

Columns assemblies 102 in the present embodiment can comprise front column;

Described cant beam is connected with described front column by described connecting plate 105.

Columns assemblies 102 in the present embodiment can also comprise rear column;

This solar energy tracking support can further include the bearing diagonal assembly;

Described front column is connected by described bearing diagonal assembly with described rear column.

in the present embodiment, angle adjustment plate 104 is connected by beam assembly 103 with battery panel components 101, and be provided with location hole 106 on angle adjustment plate 104, location hole 106 can be conditioned, rotate and drive battery panel components 101 rotation to drive described beam assembly 103, so thereby the user can be by adjusting the direction of battery panel components 101 to the location hole 106 on angle adjustment plate 104, therefore can make battery panel components 101 to change the angle of regulating itself and the sun with the solar latitude in season, to absorb to greatest extent and trans-utilization solar energy, thereby improved the solar energy conversion ratio.

For ease of understanding, the below is described in detail the utility model solar energy tracking support with an instantiation, see also Fig. 2 and Fig. 3, Fig. 2 and Fig. 3 show the utility model solar energy tracking support from angle and the three-dimensional angle of side-looking respectively, by finding out in above-mentioned two figure, the solar energy tracking support in the utility model embodiment comprises:

Battery panel components 201, crossbeam 202, cant beam 203, angle adjustment plate 204, connecting plate 205, front column 206, rear column 208 and bearing diagonal assembly 207.

Wherein, described battery panel components 201 is fixed on described crossbeam 202, and described crossbeam 202 is bolted on described cant beam 203.

Described angle adjustment plate 204 two ends are bolted on described cant beam 203, and described cant beam 203 passes through described connecting plate 205 and is connected front column 206 connections.

Described front column 206 be connected rear column 208 and connect by described bearing diagonal 207, make total more firm.

Location hole 209 on the described angle adjustment plate 204 of manual adjustments can drive described cant beam 203 and rotates and drive battery panel components 201 rotation, so can adjust the angle of solar energy tracking support according to the variation of external environment, cause battery panel components 201 at utmost to absorb sunray.

In the present embodiment, can also be provided with rotatable bolt 210 on front column 206, be provided with a plurality of location holes 209 on angle adjustment plate 204.

the size of the arbitrary location hole 209 that arranges on the bolt 210 that arranges on front column 206 and angle adjustment plate 204 is all mated, and this bolt 210 can penetrate in the arbitrary location hole 209 that arranges on described angle adjustment plate 4, so when the user manually carries out location hole 209 on adjusting angle adjustable plate 204, can drive cant beam 203 rotates and drives battery panel components 201 rotation, therefore make battery panel components 201 can regulate with the variation of sun altitude the angle of itself and the sun, to absorb to greatest extent and trans-utilization solar energy, thereby improved the solar energy conversion ratio.

In actual applications, the user can be according to the difference in season, the bolt 210 that arranges on certain location hole 209 on manual adjustments angle adjustment plate 204 and front column 206 is fixedly connected with, thereby can make battery panel components 201 with season solar latitude change the angle regulate itself and the sun, absorbing to greatest extent and trans-utilization solar energy, thereby improved the solar energy conversion ratio.

For ease of analyzing the utility model solar energy tracking support effect in actual applications, the below compares with the data form of two reality, wherein, table 1 is for adopting the annual energy output of support bracket fastened solar power system of the prior art, and table 2 is the annual energy output of the solar power system of employing the utility model solar energy tracking support:

The annual energy output list of table 1 fixed angle system

Month/energy output (kwh)	37 degree (fixed angle system)
		January	3105032
February	3358778
		March	3738404

April	3507277
		May	3609673
June	3283127
		July	3298272
August	3397067
		September	3470987
October	3530045
		November	2944577
December	2733089
		Annual energy output (kwh)	39976328

The annual energy output list of table 2 the utility model solar energy tracking mounting system

Can be found out by above-mentioned table 1 and table 2 contrast, adopt the annual energy output of the solar power system of the utility model solar energy tracking support to increase by 5.79% than the annual energy output that adopts support bracket fastened solar power system of the prior art, so the utility model solar energy tracking support can absorb and trans-utilization solar energy to greatest extent, thereby improved the solar energy conversion ratio.

The above, above embodiment only in order to the technical solution of the utility model to be described, is not intended to limit; Although with reference to previous embodiment, the utility model is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme that aforementioned each embodiment puts down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of each embodiment technical scheme of the utility model.

Claims (7)

1. a solar energy tracking support, is characterized in that, comprising:

Battery panel components, columns assemblies, beam assembly, angle adjustment plate and connecting plate;

The carriage of described battery panel components is fixed on described beam assembly;

Described angle adjustment plate is connected with described beam assembly;

Described beam assembly is connected with described columns assemblies by described connecting plate;

Be provided with location hole on described angle adjustment plate, described location hole can be conditioned, and rotates and drives battery panel components rotation to drive described beam assembly.

2. solar energy tracking support according to claim 1, is characterized in that, described beam assembly comprises crossbeam and cant beam;

The carriage of described battery panel components is fixed on described crossbeam;

Described crossbeam is fixed on described cant beam;

The two ends of described angle adjustment plate all are fixed on described cant beam;

The location hole that arranges on described angle adjustment plate can be conditioned, and rotates and drives battery panel components rotation to drive described cant beam.

3. solar energy tracking support according to claim 2, is characterized in that, described crossbeam is bolted on described cant beam;

The two ends of described angle adjustment plate all are bolted on described cant beam.

4. solar energy tracking support according to claim 2, is characterized in that, described columns assemblies comprises front column;

Described cant beam is connected with described front column by described connecting plate.

5. solar energy tracking support according to claim 4, is characterized in that, described columns assemblies also comprises rear column;

Described solar energy tracking support also comprises the bearing diagonal assembly;

Described front column is connected by described bearing diagonal assembly with described rear column.

6. solar energy tracking support according to claim 4, is characterized in that, is provided with rotatable bolt on described front column, is provided with a plurality of location holes on described angle adjustment plate.

7. solar energy tracking support according to claim 6, is characterized in that, the arbitrary location hole that arranges on the bolt that arranges on described front column and described angle adjustment plate all mates;

The bolt that arranges on described front column can penetrate the arbitrary location hole that arranges on described angle adjustment plate.

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