CN205430135U - Photovoltaic component mounting structure - Google Patents

Abstract

The utility model relates to a photovoltaic component mounting structure, including a plurality of solar cell panel and two aluminium guide rails, two aluminium guide rails set up one on the other on the roof of transformer substation, just two aluminium guide rails are parallel to each other, every the equal cross -over connection of solar cell panel is in on two aluminium guide rails, a plurality of solar cell panel set gradually to the right side from a left side, and every adjacent two distance between the solar cell panel is 27mm, every the both ends of aluminium guide rail are provided with briquetting on one side respectively, every the upper surface of aluminium guide rail is provided with a plurality of well briquettings and every well briquetting all lies in adjacent two between the solar cell panel, every the lower surface of aluminium guide rail is provided with a plurality of anchor clamps. The utility model discloses a photovoltaic component mounting structure can effectually improve the availability factor of photovoltaic module's solar photovoltaic electricity generation owing to adopted above -mentioned technical scheme, and energy saving and emission reduction reduces the loss.

Description

A kind of photovoltaic component mounting structure

Technical field

This utility model relates to a kind of photovoltaic component mounting structure.

Background technology

China belongs to one of abundant country of solar energy resources, national total area more than 2/3 area year sunshine time was more than 2000 hours, and solaode carries out packaging protection and can form large-area solar module after series connection, the parts such as upper power controller are coordinated to be the formation of photovoltaic power generation apparatus again, photovoltaic generation is the new and high technology directly utilizing solar electrical energy generation, it has many advantages, as: safe and reliable, noiseless, pollution-free, energy is available anywhere, without geographical restrictions, without consuming fuel, mechanical rotating part, failure rate is low, easy maintenance, can be with unmanned, cycle of building a station is short, scale is random, without additionally erecting power transmission lines, can combine with building easily.These advantages be all conventional power generation usage and other generation modes incomparable.

But the application that photovoltaic module is not the most arranged on the roof of transformer station by China at present.

Utility model content

The purpose of this utility model, it is simply that in order to solve the problem that above-mentioned prior art exists, and provide a kind of photovoltaic component mounting structure, photovoltaic module can be arranged on the roof of transformer station, the service efficiency of the effective solar energy power generating improving photovoltaic module.

The technical scheme realizing above-mentioned purpose is: provide a kind of photovoltaic component mounting structure, including some solar panels and two aluminum guide rails, wherein:

Said two aluminum guide rail is arranged on the roof of transformer station one on the other, and said two aluminum guide rail is parallel to each other；

Each described solar panel is all connected across on said two aluminum guide rail；

Described some solar panels set gradually from left to right, and the distance between two the most adjacent described solar panels is 27mm；

The two ends of each described aluminum guide rail are respectively arranged with briquetting on one side；

The upper surface of each described aluminum guide rail is provided with some middle briquettings, and each medium pressure block is respectively positioned between the described solar panel of adjacent two；

The distance that the lower surface of each described aluminum guide rail is provided with between some fixtures, and two the most adjacent described fixtures is 1290mm, and each described aluminum guide rail is all fixed on the roof of transformer station by described some fixtures thereon.

Above-mentioned a kind of photovoltaic component mounting structure, wherein, a length of 992mm of each described solar panel, width is 1640mm.

Above-mentioned a kind of photovoltaic component mounting structure, wherein, fewer than the number of described solar panel one of the number of the middle briquetting on each described aluminum guide rail；

The number of the fixture on each described aluminum guide rail is equal with the number of described solar panel.

Above-mentioned a kind of photovoltaic component mounting structure, wherein, the left side of each described aluminum guide rail and the distance between the left surface of the described solar panel of the leftmost side are 75mm；

The right side of each described aluminum guide rail and the distance between the right flank of the described solar panel of the rightmost side are 75mm.

This utility model photovoltaic component mounting structure, is arranged on photovoltaic module on the roof of transformer station, the service efficiency of the effective solar energy power generating improving photovoltaic module, and energy-saving and emission-reduction reduce loss.

Accompanying drawing explanation

Fig. 1 is the structural representation of a kind of photovoltaic component mounting structure of the present utility model；

Fig. 2 is the upward view of a kind of photovoltaic component mounting structure of the present utility model.

Detailed description of the invention

In order to make those skilled in the art be better understood when the technical solution of the utility model, below in conjunction with accompanying drawing, the utility model is described in further detail.

Referring to Fig. 1 and Fig. 2, embodiment of the present utility model, a kind of photovoltaic component mounting structure, including some solar panels 1 and two aluminum guide rails 2.

Two aluminum guide rails 2 are arranged on the roof of transformer station one on the other, and two aluminum guide rails 2 are parallel to each other；Length a of each solar panel 1 is 992mm, and width b is 1640mm, and each solar panel 1 is all connected across on two aluminum guide rails 2；Some solar panels 1 set gradually from left to right, and distance c between two the most adjacent solar panels 1 is 27mm；The two ends of each aluminum guide rail 2 are respectively arranged with briquetting 3 on one side；The upper surface of each aluminum guide rail 2 is provided with some middle briquettings 4, and each middle briquetting 4 is respectively positioned between adjacent two solar panel 1；Distance d that the lower surface of each aluminum guide rail 2 is provided with between some fixtures 5, and two the most adjacent fixtures 5 is 1290mm, and each aluminum guide rail 2 is all fixed on the roof of transformer station by some fixtures 5 thereon.

Fewer than the number of solar panel 1 one of the number of the middle briquetting 4 on each aluminum guide rail 2；The number of the fixture 5 on each aluminum guide rail 2 is equal with the number of solar panel 1.The left side of each aluminum guide rail 2 and distance e between the left surface of the solar panel 1 of the leftmost side are 75mm；The right side of each aluminum guide rail 2 and the distance between the right flank of the solar panel 1 of the rightmost side are 75mm.

Photovoltaic component mounting structure of the present utility model, aluminum guide rail 2 is all fixed on the roof of transformer station by fixture 5, the two ends of the photovoltaic module of some solar panels 1 composition are fixed by limit briquetting 3, between two adjacent solar panels 1, briquetting 4 is fixed in 2, by this structure, photovoltaic module is arranged on the roof of transformer station, the service efficiency of the effective solar energy power generating improving photovoltaic module, energy-saving and emission-reduction, reduce loss.

Above example is the most for illustration of the utility model, rather than to restriction of the present utility model, person skilled in the relevant technique, in the case of without departing from spirit and scope of the present utility model, various conversion or modification can also be made, the technical scheme of the most all equivalents also should belong to category of the present utility model, should be limited by each claim.

Claims (4)

1. a photovoltaic component mounting structure, it is characterised in that include some solar panels and two aluminum guide rails, wherein:

Said two aluminum guide rail is arranged on the roof of transformer station one on the other, and said two aluminum guide rail is parallel to each other；

Each described solar panel is all connected across on said two aluminum guide rail；

Described some solar panels set gradually from left to right, and the distance between two the most adjacent described solar panels is 27mm；

The two ends of each described aluminum guide rail are respectively arranged with briquetting on one side；

The upper surface of each described aluminum guide rail is provided with some middle briquettings, and each medium pressure block is respectively positioned between the described solar panel of adjacent two；

The distance that the lower surface of each described aluminum guide rail is provided with between some fixtures, and two the most adjacent described fixtures is 1290mm, and each described aluminum guide rail is all fixed on the roof of transformer station by described some fixtures thereon.

A kind of photovoltaic component mounting structure the most according to claim 1, it is characterised in that a length of 992mm of each described solar panel, width is 1640mm.

A kind of photovoltaic component mounting structure the most according to claim 1, it is characterised in that fewer than the number of described solar panel one of the number of the middle briquetting on each described aluminum guide rail；

The number of the fixture on each described aluminum guide rail is equal with the number of described solar panel.

A kind of photovoltaic component mounting structure the most according to claim 1, it is characterised in that the left side of each described aluminum guide rail and the distance between the left surface of the described solar panel of the leftmost side are 75mm；

The right side of each described aluminum guide rail and the distance between the right flank of the described solar panel of the rightmost side are 75mm.