CN203896255U - Hillside photovoltaic power station base support system - Google Patents

Abstract

Provided is a hillside photovoltaic power station base support system, comprising a fulcrum bearing, a main beam, a main beam bracing frame, a column and cell panel fulcrum bearings. The fulcrum bearing is pre-embedded under the ground; the column is fixed on the fulcrum bearing; the main beam is provided with a fixing seat; the fixing seat is provided with a bolt hole; the main beam is installed on the column through the bolt hole on the fixing seat by rotating a bolt; the main beam bracing frame is arranged between the main beam and the column; the main beam bracing frame and the column are in swivelling joint. The cell panel fulcrum bearings are installed on the main beam to support a solar cell panel and comprise cell panel fixing seats and lifting devices. The solar cell panel is fixed on the cell panel fixing seats. The hillside photovoltaic power station base support system employs the main beam bracing frame capable of adjusting inclination angles and the cell panel fulcrum bearings to adjust inclination angles and azimuth angles of the solar cell panel and allows the solar cell panel to contact sunlight to a maximum, thereby allowing the solar cell panel to produce greatest efficiency.

Description

A kind of hillside photovoltaic plant base rack system

Technical field

The utility model relates to a kind of photovoltaic plant base rack system that is applied to hillside type, is specifically related to a kind of adjustable square formation inclination angle and azimuthal mounting system.

Background technology

Current, traditional energy is embodied in non-recyclability, traditional energy has produced serious environmental pollution simultaneously, new forms of energy are as wind energy, solar energy more and more comes into one's own, particularly solar energy is inexhaustible, nexhaustible have a vast potential for future development, the important way of increasing country using solar energy as sustainable development, for the hard-wired solar cell array in ground, only have in the time that battery array is operated in optimum angle of incidence and azimuth, could obtain maximum generating watt, but landform height in hillside rises and falls, reaching optimum angle of incidence and azimuth, to build difficulty large, expense is high.。

Summary of the invention

For addressing the aforementioned drawbacks, the utility model provides a kind of hillside photovoltaic plant base rack system, its structure of optimizing has realized inclination angle and the azimuth by regulating solar panel, make solar cell array obtain to greatest extent energy output, effectively solve the problem that difficulty is large, expense is high of building, the present invention is simple in structure, and can produce higher usefulness.

For achieving the above object, the utility model is by the following technical solutions: a kind of hillside photovoltaic plant base rack system, comprise supporting base, girder, girder bracing frame, column, cell panel supporting base, described supporting base is embedded in underground in advance, described column is fixed on supporting seat, on described girder, be provided with holder, be provided with bolt hole on holder, girder uses bolt to be rotatably mounted on column by the bolt hole on holder; Described girder bracing frame is arranged between girder and column, between girder bracing frame and column, is rotatably connected; Described cell panel supporting base is arranged on girder, and for support solar cell panel, described cell panel supporting seat comprises cell panel holder and lowering or hoisting gear, and solar panel is fixed on cell panel holder.

Further, described lowering or hoisting gear is two concave shape supports that are buckled together, and is provided with adjusting bolt between the two.

Further, described girder bracing frame is arc bracing frame, and the two ends of arc bracing frame are fixedly connected with respectively girder and column by gim peg, well-regulated circular hole on arc bracing frame, and Circularhole diameter is greater than gim peg diameter.

As preferably, described supporting base adopts mixed clay structure.

As preferably, the utility model adopts single pile townhouse, and pilespacing is 2600mm.

Compared with prior art, the present invention has following beneficial effect: the present invention realizes the azimuthal adjusting of solar panel inclination angle agent by the girder bracing frame and the cell panel supporting seat that adopt adjustable inclination, make to greatest extent solar panel touch sunlight, thereby make solar panel produce maximum usefulness, and the present invention is simple in structure, difficulty of construction is little, therefore economizes on resources, increase again efficiency, reduce cost.

Brief description of the drawings

Below in conjunction with the drawings and specific embodiments, the utility model is described further.

A kind of hillside of Fig. 1 photovoltaic plant base rack system configuration schematic diagram.

A kind of hillside of Fig. 2 photovoltaic plant base rack system battery plate supporting base partial enlarged drawing.

In figure, 1 supporting base, 2 holders, 3 columns, 4 cell panel holders, 5 girders, 6 girder bracing frames, 7 lowering or hoisting gears, 8 cell panel supporting bases, 9 solar panels.

Embodiment

As shown in Figure 1-2, a kind of hillside photovoltaic plant base rack system, comprise 1 supporting base, 5 girders, 6 girder bracing frames, 3 columns, 8 cell panel supporting bases, 1 described supporting base is embedded in underground in advance, 3 described columns are fixed on 1 supporting seat, on 5 affiliated girders, be provided with 2 holders, on 2 holders, be provided with bolt hole, 5 girders use bolt to be rotatably mounted on 3 columns by the bolt hole on 2 holders, 6 described girder bracing frames are arranged between 5 girders and 3 columns, between 6 girder bracing frames and 3 columns, are rotatably connected, 8 described cell panel supporting bases are arranged on 5 girders, be used for supporting 9 solar panels, 8 described cell panel supporting seats comprise 4 cell panel holders and 7 lowering or hoisting gears, 9 solar panels are fixed on 4 cell panel holders, 7 described lowering or hoisting gears are two concave shape supports that are buckled together, be provided with adjusting bolt between the two, 6 described girder bracing frames are arc bracing frame, the two ends of arc bracing frame are fixedly connected with respectively 5 girders and 3 columns by gim peg, well-regulated circular hole on arc bracing frame, Circularhole diameter is greater than gim peg diameter, as preferably, 1 described supporting base adopts mixed clay structure, as preferably, the utility model adopts single pile townhouse, pilespacing is 2600mm.

In the present invention, inclination angle and azimuthal principle that realizes are: when construction assembling, according to the hillside gradient, determine the angle between 5 girders and 8 cell panel supporting bases, determine the adjusting angle of 7 lowering or hoisting gears, by the inclination angle of adjusting bolt self-contained battery plate; Determine azimuth according to hillside trend, 6 girder bracing frames rotate to suitable angle, on described 6 girder bracing frames, leave circular hole, by 7 gim pegs, 6 girder bracing frames are fixed on 3 columns according to suitable angle, whole like this group string just reaches best inclination angle and azimuth.

Obviously, above-mentioned execution mode is only preferred embodiments of the present utility model, and any simple modifications on this basis all belongs to protection scope of the present invention.

Claims (3)

1. a hillside photovoltaic plant base rack system, comprise supporting base, girder, girder bracing frame, column, cell panel supporting base, it is characterized in that described supporting base is embedded in underground in advance, described column is fixed on supporting seat, on affiliated girder, be provided with holder, on holder, be provided with bolt hole, girder uses bolt to be rotatably mounted on column by the bolt hole on holder; Described girder bracing frame is arranged between girder and column, between girder bracing frame and column, is rotatably connected; Described cell panel supporting base is arranged on girder, and for support solar cell panel, described cell panel supporting seat comprises cell panel holder and lowering or hoisting gear, and solar panel is fixed on cell panel holder.

2. hillside according to claim 1 photovoltaic plant base rack system, is characterized in that described lowering or hoisting gear is two concave shape supports that are buckled together, and is provided with adjusting bolt between the two.

3. hillside according to claim 1 photovoltaic plant base rack system, it is characterized in that described girder bracing frame is arc bracing frame, the two ends of arc bracing frame are fixedly connected with respectively girder and column by gim peg, well-regulated circular hole on arc bracing frame, Circularhole diameter is greater than gim peg diameter.