CN205142088U - Be applicable to concrete roof adjustable angle photovoltaic installing the system - Google Patents

Abstract

The utility model discloses a be applicable to concrete roof adjustable angle photovoltaic installing the system, the system includes the photovoltaic supporting structure that has the stand, and solar cell panel sets up on this photovoltaic supporting structure, the stand sets up on the reinforced concrete buttress, and the girder setting is between two stands, and the slide bearing connection is passed through at this girder tip and stand top, lays a plurality of secondary beams on this girder, and solar cell panel fixes on these a plurality of secondary beams. The utility model discloses on fixing the reinforced concrete mound on the roofing with original photovoltaic installing the system's stand, can effectively reduce the load of photovoltaic system roofing installation, whole photovoltaic module installing the system can carry out manual angle regulation according to the requirement in different seasons, increases the generated energy.

Description

One is applicable to concrete roof adjustable angle photovoltaic installation system

Technical field

The utility model relates to one and is applicable to concrete roof adjustable angle photovoltaic installation system, takes this installation system, effectively reduces the load that photovoltaic system roofing is installed, and can carry out angular adjustment according to the requirement of Various Seasonal, increases energy output.

Background technology

East China regional population density is large, and modernization of industry degree is high, to the demand of electric energy much larger than west area.Country encourages the construction at roofing development distributed photovoltaic power generation station.Eastern region has a large amount of industrial premises resident roofs can utilize carrier as distributed solar energy photovoltaic plant, reduces the occupancy of land resource.Have in concrete roof and much belong to non-accessible roof, roofing live load design bearing capacity 0.5KN/M2, the fixed form of traditional cement variable weights, significantly can increase the burden of former roofing dead load, cause potential safety hazard.And the illumination resources supplIes of eastern region is poor, generally belong to three, four class illumination areas, energy output size is directly connected to the income of photovoltaic plant, existing roofing power station major part is that fixed angle installs solar panel, the energy output of solar panel and setting angle have direct relation, and the incident angle of solar energy Various Seasonal is changing, fixed angle installation photovoltaic component, cannot with adjusting angle in season, energy output cannot obtain appropriate raising.Traditional electronic tracking support, input cost is high, and later maintenance difficulty is large, and failure rate is high, and economy is bad.

Summary of the invention

The purpose of this utility model is the deficiency overcoming prior art, and provide a kind of load that effectively can reduce photovoltaic system roofing and install, what increase energy output is applicable to concrete roof adjustable angle photovoltaic installation system.

The technical scheme realizing the utility model object is as described below:

One is applicable to concrete roof adjustable angle photovoltaic installation system, described system comprises the photovoltaic support structure with column, solar panel is arranged on this photovoltaic support structure, it is characterized in that: described column is arranged on armored concrete buttress, girder is arranged between two columns, this end of main beam is connected by sliding bearing with column top, and multiple secondary beam laid by this girder, and solar panel is fixed on the plurality of secondary beam.

Be provided with pre-embedded bolt in described armored concrete buttress, one end of described column is fixed on this armored concrete buttress by this pre-embedded bolt.

The end of described girder arranges gear wheel, and the gear wheel correspondence position of described column and end of main beam arranges pinion shaft, and this pinion shaft is installed can only the pinion of radial rotary, and this pinion engages with this gear wheel, and described gear wheel is provided with bolt hole.

Fixed by hoop component between described secondary beam and girder.

Between adjacent solar panel, there is gap, be used for letting out wind, reduce wind load to the power of whole installation system.

Described pinion arranges rocking handle.

What above-mentioned the utility model provided is applicable to concrete roof adjustable angle photovoltaic installation system, and be fixed on by the column of original photovoltaic installation system and have on the concrete pier of reinforcing bar, column top arranges girder, is rotatably connected between end of main beam with column.Secondary beam is laid on girder, and solar panel is fixed on secondary beam, leaves certain gap between adjacent cell plate, be used for letting out wind, reducing wind load to the power of whole installation system, by shaking the handle be arranged on column, forwarding photovoltaic module to corresponding position.Whole photovoltaic module installation system can carry out manual adjustments angle according to the requirement of Various Seasonal, increases energy output.Photovoltaic module arrangement is transverse arrangement of turbo, according to the characteristic of crystal silicon component, the impact that the transverse direction of shade is blocked than vertically blocking energy output is much smaller, in the morning and the at dusk time-division, below the assembly of transverse arrangement of turbo only has, a part is blocked by shade, or can have a certain amount of generating, at this level, design of the present utility model also improves energy output.

Accompanying drawing explanation

Fig. 1 is the utility model example structure schematic diagram;

Fig. 2 is A-A direction view in Fig. 1;

Fig. 3 a, Fig. 3 b, Fig. 3 c are the schematic diagram in the utility model embodiment between solar panel and column during different angles respectively;

Fig. 4 is close-up schematic view 1. in Fig. 1;

Fig. 5 is close-up schematic view 2. in Fig. 1;

Fig. 6 is close-up schematic view 3. in Fig. 1;

Fig. 7 is close-up schematic view 4. in Fig. 3 c;

Fig. 8 is close-up schematic view 5. in Fig. 2.

Wherein: 1-column, 2-solar panel, 3-armored concrete buttress, 4-girder, 5-secondary beam, 6-bearing, 7-gear wheel, 8-pinion shaft, 9-pinion, 10-rocking handle, 11-roofing, 12-bolt, 13-hoop component, 15-welded plate, 16-aluminium alloy briquetting.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is further described:

Refer to shown in Fig. 1, Fig. 2 and Fig. 7, Fig. 8, what the present embodiment provided is applicable to concrete roof adjustable angle photovoltaic installation system, its central post 1 is arranged on the armored concrete buttress 3 on roofing 11, girder 4 two ends are separately fixed on two columns 1, this girder 4 end is connected by sliding bearing with column 1 top, on this girder 4, equidistant intervals lays eight secondary beams 5, and solar panel 2 is fixed on secondary beam 5 on these eight secondary beams 5 by aluminium alloy briquetting 16 and adopts light gauge cold-formed steel shape to make.The gap of 2-3 centimetre is about had, to reduce the power of wind load to whole installation system between adjacent solar panel 2.Fixed, as Fig. 6 by hoop component 13 between secondary beam 5 and girder 4.In armored concrete buttress, 3 are provided with pre-embedded bolt, and the bottom of column 1 is fixed on this armored concrete buttress 3 by this pre-embedded bolt.

In the position of column 1, carry out chemically-planted steel bar, implant after meeting the reinforcing bar of designing requirement, prick corresponding stirrup and fixing pre-embedded bolt, then at this position formwork, casting reinforced concrete buttress 3.Arrive after designing requirement until maintenance and carried out secondary waterproof construction.By column 1, be fixed on concrete cast-in-situ armored concrete buttress 3 by pre-embedded bolt, cast-in-place concrete pier, pre-embedded bolt in this concrete pier, the bottom of column 1 is fixed on this cast-in-place concrete pier by this pre-embedded bolt, photovoltaic support structure is set above, avoid and place cement briquetting on roof boarding, photovoltaic system load is directly delivered on column 1, adds the fail safe of structure.Cast-in-place concrete pier, conveniently does secondary waterproof, avoids the roof leakage situation because bar planting causes.As Fig. 5.

Further, girder 4 end is pipe axle, by POM acetal plastic bearing 6, is fixed on column 1 top, and girder 4 can be rotated around column 1.The pipe shaft end of girder 4 arranges gear wheel 7, described column 1 arranges pinion shaft 8 with gear wheel 7 correspondence position of girder 4 end, this pinion shaft 8 is installed can only the pinion 9 of radial rotary, and this pinion 9 engages with this gear wheel 7, and this pinion 9 arranges rocking handle 10.As shown in Figure 4.

The panel of gear wheel 7 opens bolt hole 11 in the position of the setting angle needing solar panel 2.According to the photovoltaic module of Various Seasonal towards angle requirement, swinging handle 10, forwards solar panel 2 to corresponding position, by bolt 12 through the bolt hole on gear wheel 7 web and the bolt hole on column 1 welded plate 15, locking positioning bolt.Be 30 between solar panel 2 and column 1 respectively shown in Fig. 3 a, Fig. 3 b and Fig. 3 c ⁰, 60 ⁰with 45 ⁰embodiment during angle.

Claims (5)

1. one kind is applicable to concrete roof adjustable angle photovoltaic installation system, described system comprises the photovoltaic support structure with column, solar panel is arranged on this photovoltaic support structure, it is characterized in that: described column is arranged on armored concrete buttress, girder is arranged between two columns, this end of main beam is connected by sliding bearing with column top, and multiple secondary beam laid by this girder, and solar panel is fixed on the plurality of secondary beam.

2. be according to claim 1ly applicable to concrete roof adjustable angle photovoltaic installation system, it is characterized in that: be provided with pre-embedded bolt in described armored concrete buttress, one end of described column is fixed on this armored concrete buttress by this pre-embedded bolt.

3. be according to claim 1ly applicable to concrete roof adjustable angle photovoltaic installation system, it is characterized in that: the end of described girder arranges gear wheel, the gear wheel correspondence position of described column and end of main beam arranges pinion shaft, this pinion shaft is installed can only the pinion of radial rotary, this pinion engages with this gear wheel, and described gear wheel is provided with bolt hole.

4. be according to claim 1ly applicable to concrete roof adjustable angle photovoltaic installation system, it is characterized in that: fixed by hoop component between described secondary beam and girder.

5. be according to claim 3ly applicable to concrete roof adjustable angle photovoltaic installation system, it is characterized in that: described pinion arranges rocking handle.