CN206726059U - BIPV uniaxiality tracking built-up roofings - Google Patents

Abstract

The utility model discloses a kind of BIPV uniaxiality trackings built-up roofing, including the roof rack (1) in domatic setting, roof rack (1) are provided with multiple photovoltaic modulies (2) arranged from top of the slope to bottom of slope；The upper end of each photovoltaic module (2) is connected by rotating shaft (3) with roof rack (1), and lower end is shelved on above underlying photovoltaic module (2)；Support column (6) is equipped with below each photovoltaic module (2), (6) is supported and is connected with the powered support (5) of lower end.The utility model can adjust the direction of photovoltaic module according to sun angle, so as to improve photovoltaic efficiency, and can meet Architectural Mechanics, ventilation and the building requirements of daylighting.

Description

BIPV uniaxiality tracking built-up roofings

Technical field

A kind of photovoltaic module is the utility model is related to, particularly a kind of BIPV uniaxiality trackings built-up roofing.

Background technology

BIPV is that Building Integrated PV are BIPVs.PV is Photovoltaic.BIPV skills Art is that solar power generation (photovoltaic) product is integrated into architectural technology.BIPV (BIPV) is different from photovoltaic system System is attached to architectural (BAPV:BuildingAttached PV) form.BIPV photovoltaic modulies are needed photovoltaic generation function It is integrated into architectural, the method for its generally use is that photovoltaic module is made into building roof.But existing photovoltaic module is direct For roofing, direct sunlight angle can not be tracked, therefore generating efficiency is relatively low.

Utility model content

The purpose of this utility model is, there is provided a kind of BIPV uniaxiality trackings built-up roofing.It can be according to sun angle The direction of photovoltaic module is adjusted, so as to improve photovoltaic efficiency, and can meet that Architectural Mechanics, ventilation and the building of daylighting will Ask.

The technical solution of the utility model：BIPV uniaxiality tracking built-up roofings, are characterized in：Including the room in domatic setting Top rack, roof rack are provided with multiple photovoltaic modulies arranged from top of the slope to bottom of slope；The upper end of each photovoltaic module is by turning Axle is connected with roof rack, and lower end is shelved on above underlying photovoltaic module；Support is equipped with below each photovoltaic module Post, support and be connected with the powered support of lower end.

In above-mentioned BIPV uniaxiality tracking built-up roofings,：Described support column one end is hinged with powered support, the other end and light Lie prostrate member hinges.

In foregoing BIPV uniaxiality tracking built-up roofings, multiple main frames support, Mei Gezhu are provided with below the roof rack The hydraulic cylinder being hinged in machine support provided with bottom with host rack, push rod and the powered support of hydraulic cylinder are hinged, on the outside of hydraulic cylinder Provided with buffer spring.

In foregoing BIPV uniaxiality tracking built-up roofings, the oil pump of the hydraulic cylinder is connected with main control, connects in main control It is connected to two light intensity sensors；The receiving plane of one of light intensity sensor is parallel with photovoltaic module；Another light intensity sensor Receiving plane level upward.

In foregoing BIPV uniaxiality tracking built-up roofings, the lower end of the photovoltaic module is connected with flexible baffle, for preventing Only rainwater is got in.

Compared with prior art, the utility model is made up of basic fixed roof rack and rotatable powered support Support system, and can utilize powered support rotations go to control the lifting angle of each photovoltaic module, allow its maximum Change ground and utilize solar energy.And roof of the present utility model has certain ventilation and daylighting ability in photovoltaic module lifting, While with enough wind resisting structure intensity, can basic guarantee building in ventilation and daylighting demand.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

Mark in accompanying drawing：1- roofs rack, 2- photovoltaic modulies, 3- rotating shafts, 5- powered supports, 6- support columns, 7- main frames Support, 8- hydraulic cylinders, 9- push rods.

Embodiment

The utility model is further described with reference to the accompanying drawings and examples, but is not intended as to the utility model The foundation of limitation.

Embodiment.BIPV uniaxiality tracking built-up roofings, as shown in Figure 1：Including the roof rack 1 in domatic setting, roof Rack 1 is provided with multiple photovoltaic modulies 2 arranged from top of the slope to bottom of slope；The upper end of each photovoltaic module 2 passes through rotating shaft 3 and roof Rack 1 connects, and lower end is shelved on the underlying top of photovoltaic module 2；Each lower section of photovoltaic module 2 is equipped with support column 6, props up 6 are propped up with the powered support 5 of lower end to be connected.Described one end of support column 6 is be hinged with powered support 5, and the other end is cut with scissors with photovoltaic module 2 Connect.The lower section of roof rack 1 is provided with host rack 7, the hydraulic cylinder being hinged in host rack 7 provided with bottom with host rack 7 8, the push rod 9 and powered support 5 of hydraulic cylinder 8 are be hinged, and the outside of hydraulic cylinder 8 is provided with buffer spring 11.The oil pump of the hydraulic cylinder 8 with Main control is connected, and two light intensity sensors are connected with main control；The receiving plane and photovoltaic module of one of light intensity sensor It is parallel；The receiving plane level of another light intensity sensor is upward.The lower end of the photovoltaic module is connected with flexible baffle.

Operation principle of the present utility model.On sunny daytime, two light intensity sensors collect different light intensity, it is assumed that The angle of incident light is α, and the angle of inclination of roof rack is β (known), at that time light intensity maximum (if direct projection light intensity sensor When) be A, then the light intensity of two light intensity sensor collections is theoretically Asin α and Asin (alpha+beta), is gathered in real time according to it The light intensity a and b arrived, α, i.e., the light that need to be only collected according to two light intensity sensors can be drawn according to sin α/sin (alpha+beta)=a/b The angle of inclination of intensity values and roof rack is β, you can the angle for drawing incident light is α.Then according to this angle, hydraulic pressure is controlled The push rod ejection distance of cylinder, it is 90 ° of-α photovoltaic module is raised to inclination angle, i.e., perpendicular to sunshine.And when cloudy day, the rainy day or During evening, light intensity sensor collects light intensity and is less than threshold value, then controls photovoltaic module complete parallel to roof rack, the breach of roofing Portion closes.

Claims (5)

1.BIPV uniaxiality tracking built-up roofings, it is characterised in that：Including the roof rack (1) in domatic setting, roof rack (1) It is provided with multiple photovoltaic modulies (2) arranged from top of the slope to bottom of slope；The upper end of each photovoltaic module (2) passes through rotating shaft (3) and room Top rack (1) is connected, and lower end is shelved on above underlying photovoltaic module (2)；Branch is equipped with below each photovoltaic module (2) Dagger (6), support column (6) are connected with the powered support (5) of lower end.

2. BIPV uniaxiality trackings built-up roofing according to claim 1, it is characterised in that：Described support column (6) one end with Powered support (5) is be hinged, and the other end is be hinged with photovoltaic module (2).

3. BIPV uniaxiality trackings built-up roofing according to claim 1, it is characterised in that：Below the roof rack (1) Provided with multiple main frames support (7), provided with the hydraulic cylinder (8) that bottom is be hinged with host rack (7), liquid in each host rack (7) The push rod (9) of cylinder pressure (8) is be hinged with powered support (5), and buffer spring (11) is provided with the outside of hydraulic cylinder (8).

4. BIPV uniaxiality trackings built-up roofing according to claim 3, it is characterised in that：The oil pump of the hydraulic cylinder (8) It is connected with main control, two light intensity sensors is connected with main control；The receiving plane of one of light intensity sensor and photovoltaic group Part (2) is parallel；The receiving plane level of another light intensity sensor is upward.

5. BIPV uniaxiality trackings built-up roofing according to claim 1, it is characterised in that：Under the photovoltaic module (2) End is connected with flexible baffle (10).