CN105009999A - Tracking solar power greenhouse power station - Google Patents

Abstract

The present invention provides a tracking solar power greenhouse power station which comprises a greenhouse body, a greenhouse frame with a main beam and columns, a solar cell component with a solar panel, and a photovoltaic bracket assembly. The greenhouse body is connected to the greenhouse frame. The photovoltaic bracket assembly comprises a driving device and a solar cell mounting frame. The solar panel is installed on the solar cell mounting frame which is installed at the upper part of the main beam. The main beam is rotatingly installed on the columns. The driving device can drive the main beam to drive the solar cell mounting frame and the solar panel to rotate, and the real-time tracking is realized. The present invention provides the tracking solar power greenhouse power station, a tracking type photovoltaic bracket system is used to allow the solar panel to track sunlight in real time, the power generation efficiency is raised, at the same time, the solar panel is installed on the whole tracking type photovoltaic bracket system, and the space is effectively utilized.

Description

Motion tracking solar booth power station

Technical field

The present invention relates to solar greenhouse technical field, particularly relate to a kind of motion tracking solar booth power station.

Background technology

The application of solar energy greenhouse booth improves the heating system of greenhouse gardening greatly, its advantage is the boiler combustion heating system utilizing solar energy traditional for greenhouse heating instead of, not only meet the development situation of green low-carbon environment-friendly, consider from the angle of long-run development simultaneously, decrease the Financial cost of green house plantation.Therefore solar greenhouse receives and promotes widely.

At present, solar greenhouse main flow installs solar panel in ceiling local to replace part PC plate or safety glass, utilize the headroom of booth, efficient crops are planted in canopy, but, the solar panel of major part solar greenhouse is only arranged on booth Nan Po, and the direction of solar panel is fixing, so just make solar panel only just reaching maximum to generating efficiency during sunshine, under other states, generating efficiency is lower, and it is not owing to only installing at Nan Po, high to the availability in space yet.

Summary of the invention

Technical problem to be solved by this invention is: in order to overcome deficiency of the prior art, the invention provides a kind of motion tracking solar booth power station, tracing type photovoltaic bracket component is adopted to make solar panel to sunshine real-time tracking, improve generating efficiency, simultaneously, solar panel is arranged on the support of whole booth, effectively make use of space.

The present invention solves the technical scheme that its technical problem will adopt: a kind of motion tracking solar booth power station, and comprise greenhouse main body, greenhouse framework, solar module and photovoltaic bracket assembly, described greenhouse main body is connected with described greenhouse framework,

Described greenhouse framework comprises girder and column, and described girder is rotating to be arranged on described column,

Described solar module comprises solar panel,

Described photovoltaic bracket assembly comprises drive unit and solar cell installing rack, described solar cell installing rack is arranged on described girder top, described solar panel is arranged on described solar cell installing rack, and the described solar panel that described drive unit can drive the drive of described girder to be arranged on described solar cell installing rack rotates.The direction of illumination that described photovoltaic bracket assembly can follow the tracks of sunshine makes solar panel rotate, thus improve generating efficiency, simultaneously, solar panel installed by the girder of whole greenhouse framework, the girder of the girder of booth and photovoltaic bracket assembly can be united two into one, investment reduction cost, and effectively make use of space.

Further, in order to realize solar panel real-time tracking sunshine, described drive unit comprises power set, the first actuating arm, the second actuating arm, described power set are connected with described first actuating arm, the bearing of trend of described first actuating arm is vertical with the bearing of trend of described girder, described second actuating arm is placed between described first actuating arm and girder, and described second actuating arm one end is fixedly connected with described girder, and the described second actuating arm other end and described first actuating arm are rotationally connected.Described power set can drive described first actuating arm to swing in their extension direction, thus drive described second actuating arm to swing, because described second actuating arm is fixedly connected with described girder, therefore described girder rotates around the junction of column and girder under the promotion of described second actuating arm, thus drive described solar panel to rotate, realize real-time tracking.

Concrete, time static, described second actuating arm is vertical with described girder with described first actuating arm respectively; Time dynamic, described second actuating arm and described first actuating arm form an angle, and vertical with described girder.Refer to when not working time static, position relationship when described second actuating arm and described first actuating arm are in nature inactive state under gravity, this position relationship can make it reach energy-saving effect to greatest extent when not working.When referring in working order time dynamic, the first actuating arm drives the second actuating arm to be to swing in the plane that girder is vertical.

Concrete, described angle is greater than 0 ° and is less than 180 °.When the first actuating arm drives the second actuating arm to swing in the plane vertical with girder, second actuating arm with during static state for benchmark is 90 ° to the pendulum angle of the every side of girder is maximum, therefore, the hunting range integrating described second actuating arm is 0 ° ~ 180 °, and namely the angle of described second actuating arm and described first actuating arm is 0 ° ~ 180 °.

Further, each described girder and at least two columns are rotationally connected.At least two upright supports girders realize rotating, and ensure the stability of support.

Concrete, described column is three, lays respectively at centre and the two ends of described girder.Three columns can more effectively support described girder, ensure the stability of girder in rotation process.

Concrete, each described girder is provided with multiple described solar cell installing rack, described solar cell installing rack is evenly distributed on described girder, and each described solar cell installing rack installs a described solar panel.Solar cell installing rack is uniformly distributed the installation and arrangement of being convenient to solar cell.

Further, the bearing of trend of described solar cell installing rack is vertical with the bearing of trend of described girder.Described solar cell installing rack is vertical with described girder to be arranged, and ensure that all solar cells be arranged in parallel, is convenient to further install arrangement.

The invention has the beneficial effects as follows: a kind of motion tracking solar booth power station provided by the invention, adopt tracking mode flat single shaft photovoltaic bracket assembly, the girder of existing greenhouse framework is installed solar cell installing rack, installing rack installs solar panel, builds whole system and generate electricity.Have the following advantages: on the basis utilizing same booth roof, tracking mode power station, owing to being real-time tracking to sunshine, generating efficiency is far away higher than conventional photovoltaic booth; During booth investment construction, the girder of booth and the girder of support can unite two into one, investment reduction cost; Motion tracking solar support is after installation cell panel, and both can use as the frame part of electricity generation system, also can use as the roof framework of booth entirety, can not increase construction cost, integrated cost can reduce on the contrary.

Accompanying drawing explanation

Below in conjunction with drawings and Examples, the invention will be further described.

Fig. 1 is the structural representation in motion tracking solar booth power station of the present invention.

Fig. 2 is the enlarged drawing of A in Fig. 1.

In figure: 1, greenhouse main body, 2, girder, 3, column, 4, plastic bearing, 5, solar panel, 6, solar cell installing rack, 7, power set, the 8, first actuating arm, the 9, second actuating arm.

Embodiment

The present invention is described in detail by reference to the accompanying drawings now.This figure is the schematic diagram simplified, and only basic structure of the present invention is described in a schematic way, therefore it only shows the formation relevant with the present invention.

As shown in Figure 1-2, a kind of motion tracking solar booth power station of the present invention, comprise greenhouse main body 1, greenhouse framework, solar module and photovoltaic bracket assembly, greenhouse main body 1 is connected with greenhouse framework.

Wherein, greenhouse framework comprises girder 2 and column 3, and column 3 top is provided with plastic bearing 4, and girder 2 is arranged on column 3 by plastic bearing 4 is rotating;

Solar module comprises solar panel 5;

Photovoltaic bracket assembly is tracking mode flat single shaft photovoltaic bracket assembly, comprise drive unit and solar cell installing rack 6, solar cell is installed 6 framves and is arranged on girder 2 top, solar panel 5 is arranged on solar cell installing rack 6, and drive unit can drive many group girders 2 to drive the solar panel 5 be arranged on solar cell installing rack 6 to rotate.The direction of illumination that photovoltaic bracket assembly can follow the tracks of sunshine makes solar panel 5 rotate, thus improve generating efficiency, simultaneously, solar panel 5 installed by the girder 2 of whole greenhouse framework, the girder 2 of booth and the girder 2 of photovoltaic bracket assembly can be united two into one, investment reduction cost, and effectively make use of space.

Drive unit comprises power set 7, first actuating arm 8, second actuating arm 9, power set 7 are connected with the first actuating arm 8, the bearing of trend of the first actuating arm 8 is vertical with the bearing of trend of girder 2, second actuating arm 9 is placed between the first actuating arm 8 and girder 2, second actuating arm 9 one end is fixedly connected with girder 2, and second actuating arm 9 other end and the first actuating arm 8 are rotationally connected.Power set 7 can drive the first actuating arm 8 to swing in their extension direction, thus drive the second actuating arm 9 to swing, because the second actuating arm 9 is fixedly connected with girder 2, therefore girder 2 rotates around the junction of column 3 with girder 2 under the promotion of the second actuating arm 9, thus drive solar panel 5 to rotate, realize real-time tracking.

Time static, the second actuating arm 9 is vertical with girder 2 with the first actuating arm 8 respectively; Time dynamic, the second actuating arm 9 is vertical with girder 2, and forms an angle with the first actuating arm 8, and the size of angle is less than 180 ° for being greater than 0 °.Refer to when not working time static, position relationship when the second actuating arm 9 and the first actuating arm 8 are in nature inactive state under gravity, this position relationship can make it reach energy-saving effect to greatest extent when not working.When referring in working order time dynamic, first actuating arm 8 drives the second actuating arm 9 to swing in the plane vertical with girder 2, second actuating arm 9 with during static state for benchmark can be 90 ° to the pendulum angle of the every side of girder 2 is maximum, therefore, the hunting range integrating the second actuating arm 9 is 0 ° ~ 180 °, and namely the angle of the second actuating arm 9 and the first actuating arm 8 is 0 ° ~ 180 °.

Further, each girder 2 is rotationally connected with at least two columns 3.In the present embodiment, column 3 is three, lays respectively at centre and the two ends of girder 2.Three columns 3 can more effective support girder 2, ensures the stability of girder 2 in rotation process.

Concrete, each girder 2 is provided with multiple solar cell installing rack 6, and solar cell installing rack 6 is evenly distributed on girder 2, and each solar cell installing rack 6 installs a solar panel 5.Solar cell installing rack 6 is uniformly distributed the installation and arrangement of being convenient to solar cell 5.

Further, the bearing of trend of solar cell installing rack 6 is vertical with the bearing of trend of girder 2.Solar cell installing rack 6 is vertical with girder 2 to be arranged, and ensure that all solar panels 5 be arranged in parallel, is convenient to further install arrangement.

In concrete enforcement, greenhouse main body 1 and greenhouse framework can be many groups, the power set 7 of drive unit are arranged on the centre position of the first actuating arm 8, the bearing of trend of the first actuating arm 8 can arrange multiple second actuating arm 9 according to the size uniform of greenhouse main body 1, and each second actuating arm 9 can drive the girder 2 being positioned at two greenhouse main body 1 that the first actuating arm 8 bilateral symmetry is arranged simultaneously.The driving force of power set 7 determined by the maximum drive ability of power set 7, when designing, and can need the total amount of solar energy to arrange according to the quantity of greenhouse main body 1.

With above-mentioned according to desirable embodiment of the present invention for enlightenment, by above-mentioned description, relevant staff not departing from scope of the present invention, can carry out various change and amendment completely.The technical scope of this invention is not limited to the content on specification, must determine its technical scope according to right.

Claims (8)

1. a motion tracking solar booth power station, is characterized in that: comprise greenhouse main body (1), greenhouse framework, solar module and photovoltaic bracket assembly, and described greenhouse main body (1) is connected with described greenhouse framework,

Described greenhouse framework comprises girder (2) and column (3), and described girder (2) is rotating to be arranged on described column (3),

Described solar module comprises solar panel (5),

Described photovoltaic bracket assembly comprises drive unit and solar cell installing rack (6), described solar cell installing rack (6) is arranged on described girder (2) top, described solar panel (5) is arranged on described solar cell installing rack (6), and the described solar panel (5) that described drive unit can drive described girder (2) drive to be arranged on described solar cell installing rack (6) rotates.

2. motion tracking solar booth power station as claimed in claim 1, it is characterized in that: described drive unit comprises power set (7), first actuating arm (8) and the second actuating arm (9), described power set (7) are connected with described first actuating arm (8), the bearing of trend of described first actuating arm (8) is vertical with the bearing of trend of described girder (2), described second actuating arm (9) is placed between described first actuating arm (8) and girder (2), described second actuating arm (9) one end is fixedly connected with described girder (2), described second actuating arm (9) other end and described first actuating arm (8) are rotationally connected.

3. motion tracking solar booth power station as claimed in claim 2, is characterized in that: time static, described second actuating arm (9) is vertical with described girder (2) with described first actuating arm (8) respectively; Time dynamic, described second actuating arm (9) and described first actuating arm (8) form an angle, and vertical with described girder (2).

4. motion tracking solar booth power station as claimed in claim 3, is characterized in that: described angle is greater than 0 ° and is less than 180 °.

5. motion tracking solar booth power station as claimed in claim 1, is characterized in that: each described girder (2) and at least two columns (3) are rotationally connected.

6. motion tracking solar booth power station as claimed in claim 5, is characterized in that: described column (3) is three, lays respectively at centre and the two ends of described girder (2).

7. the motion tracking solar booth power station as described in any one of claim 1-6, it is characterized in that: each described girder (2) is provided with multiple described solar cell installing rack (6), described solar cell installing rack (6) is evenly distributed on described girder (2), the upper installation described solar panel (5) of each described solar cell installing rack (6).

8. motion tracking solar booth power station as claimed in claim 7, is characterized in that: the bearing of trend of described solar cell installing rack (6) is vertical with the bearing of trend of described girder (2).