CN203774330U - Photoelectric LED integrated assembly and photoelectric on/off grid system built with the same - Google Patents

Abstract

The utility model discloses a photoelectric LED integrated assembly and a photoelectric on/off grid system built with the same, wherein the photoelectric LED integrated assembly comprises TCO glass, an amorphous silicon film, adhesive, a junction box, an LED controller, a light emitting device, bottom glass, sealing glue and a connecting line. The TCO glass is connected with the bottom glass through the adhesive. The amorphous silicon film is plated on the inner surface of the TCO glass. The light emitting device is fixed on the inner surface of the bottom glass and is connected with the LED controller through the connecting line. The anode and the cathode of the amorphous silicon film are introduced out of the junction box. The TCO glass is sealed with the edge of the bottom glass through the sealing glue. According to the photoelectric LED integrated assembly, a thin-film solar battery is perfectly integrated with the LED so that the photoelectric LED integrated assembly can be applied in the photoelectric building integrated filed. Simple structure and attractive appearance are realized.

Description

Photovoltaic LED integral component and the photovoltaic that builds up with it are from, grid-connected system

Technical field

The utility model relate to a kind of photovoltaic LED integral component and the photovoltaic that builds up with it from, grid-connected system.

Background technology

Current known building integrated photovoltaic component, divide and have Thinfilm solar cell assembly series and crystal silicon solar battery component series by the type with cell piece, divide and have conventional single-glass structure solar module series by structure type, double-layer glass structure solar module series and hollow glass structure solar module series etc., the encapsulating structure that wherein conventional crystal silicon solar battery component adopts is: glass-EVA(ethylene-vinyl acetate copolymer)-monomer solar cell-EVA-TPT mould (the compound fluoroplastics film of weatherability), the connection of the cell of this structure is direct-connected by interconnector, the encapsulating structure that conventional Thinfilm solar cell assembly adopts is: TCO glass, amorphous silicon membrane (being plated in TCO on glass), binding agent and bottom surface glass packaging form, two glass solar module series of products and building trade doubling glass structure are similar, hollow structure solar module and building trade hollow glass structure are similar.Existing building integrated photovoltaic component is applied in conjunction with class without film LED, although crystal silicon solar battery component has the product of being combined with LED, crystalline silicon component is applied in does not architecturally have film assembly attractive in appearance, and photovoltaic module and LED do not have perfect integrated.

Utility model content

First object of the present utility model is to provide a kind of photovoltaic LED integral component based on the integrated thin-film solar cells of photovoltaic LED, and photovoltaic technology is combined and is applied to BIPV field with LED technology.

The technical scheme that realizes first object of the utility model is: photovoltaic LED integral component, comprises TCO glass, amorphous silicon membrane, binding agent, terminal box, LED controller, light-emitting device, bottom surface glass, fluid sealant and connecting line; Between described TCO glass and bottom surface glass, bond by binding agent; Described amorphous silicon membrane is plated on the medial surface of TCO glass; Described light-emitting device is fixed on the medial surface of bottom surface glass, and is connected to LED controller by connecting line; Described terminal box is drawn the both positive and negative polarity of amorphous silicon membrane; The edge of described TCO glass and bottom surface glass passes through sealant sealing.

Described binding agent is PVB resin or EVA resin.

Described light-emitting device is provided with many groups, and every group of light-emitting device forms by multiple LED luminescence unit serial connections.

Described light-emitting device is LED light-emitting diode or LED line lamp or LED display.

The Show Color of described light-emitting device is solid color or multiple color.

Second object of the present utility model is to provide a kind of photovoltaic off-grid system that adopts photovoltaic LED integral component to build.

The technical scheme that realizes second object of the utility model is: photovoltaic off-grid system, comprises photovoltaic LED integral component, LED controller connection, LED controller AC power cord, photovoltaic lightningproof header box, controller, inverter, PC host computer, energy storage device and power distribution cabinet; Described photovoltaic LED integral component adopts structure described in the technical scheme that realizes first object; The LED controller of described photovoltaic LED integral component is connected to PC host computer by LED controller connection, and is connected to power distribution cabinet by LED controller AC power cord; Described photovoltaic LED integral component is provided with multiple, and connects into integrated photovoltaic assembly array; Described integrated photovoltaic assembly array is connected to photovoltaic lightningproof header box; Described photovoltaic lightningproof header box is connected to controller; One side joint energy storage device of described controller, another side joint inverter; Described inverter is connected to power distribution cabinet.

The 3rd object of the present utility model is to provide a kind of photovoltaic parallel in system that adopts photovoltaic LED integral component to build.

The technical scheme that realizes the 3rd object of the utility model is: photovoltaic parallel in system, comprises photovoltaic LED integral component, LED controller connection, LED controller AC power cord, photovoltaic lightningproof header box, inverter, PC host computer, power distribution cabinet, DC cabinet and electrical network; Described photovoltaic LED integral component adopts structure described in the technical scheme that realizes first object; The LED controller of described photovoltaic LED integral component is connected to PC host computer by LED controller connection, and is connected to power distribution cabinet by LED controller AC power cord; Described photovoltaic LED integral component is provided with multiple, and connects into integrated photovoltaic assembly array; Described integrated photovoltaic assembly array is connected to photovoltaic lightningproof header box; Described photovoltaic lightningproof header box is connected to DC cabinet; Described DC cabinet is connected to inverter; Described inverter is connected to power distribution cabinet; Described power distribution cabinet is connected to electrical network.

Adopt after technique scheme, the utlity model has following beneficial effect: (1) the utility model, by integrated to thin-film solar cells and LED perfection, has enabled to be applied to BIPV field, simple in structure, good looking appearance.

(2) Show Styles of light-emitting device of the present utility model is various, Show Color is various, has good sight.

(3) the utility model thin-film solar cells is combined with LED, has advantages of energy-saving and environmental protection.

Brief description of the drawings

For content of the present utility model is more easily expressly understood, according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail, wherein below

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

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the A place enlarged drawing of Fig. 2.

Fig. 4 is the circuit connection diagram of the whole light-emitting devices of LED controller single channel control of the present utility model.

Fig. 5 is the circuit connection diagram that light-emitting device is respectively organized in LED controller multichannel of the present utility model control.

Fig. 6 is the connection block diagram of photovoltaic off-grid system of the present utility model.

Fig. 7 is the connection block diagram of photovoltaic parallel in system of the present utility model.

Label in accompanying drawing is:

TCO glass 1, amorphous silicon membrane 2, binding agent 3, terminal box 4, LED controller 5, light-emitting device 6, bottom surface glass 7, fluid sealant 8, connecting line 9, photovoltaic LED integral component 10, LED controller connection 11, LED controller AC power cord 12, photovoltaic lightningproof header box 13, controller 14, inverter 15, PC host computer 16, energy storage device 17, power distribution cabinet 18, DC cabinet 19, electrical network 20.

Embodiment

(embodiment 1)

See Fig. 1 to Fig. 3, the photovoltaic LED integral component of the present embodiment, comprises TCO glass 1, amorphous silicon membrane 2, binding agent 3, terminal box 4, LED controller 5, light-emitting device 6, bottom surface glass 7, fluid sealant 8 and connecting line 9.Between TCO glass 1 and bottom surface glass 7, bond by binding agent 3.Amorphous silicon membrane 2 is plated on the medial surface of TCO glass 1.Light-emitting device 6 is fixed on the medial surface of bottom surface glass 7, and is connected to LED controller 5 by connecting line 9.Terminal box 4 is drawn the both positive and negative polarity of amorphous silicon membrane 2.TCO glass 1 seals by fluid sealant 8 with the edge of bottom surface glass 7.

Binding agent 3 is PVB resin or EVA resin, optional transparent, opaque, colour or achromaticity.

Light-emitting device 6 is provided with many groups, and every group of light-emitting device 6 forms by multiple LED luminescence unit serial connections.Light-emitting device 6 is LED light-emitting diode or LED line lamp or LED display.The Show Color of light-emitting device 6 is solid color or multiple color.

Bottom surface glass 7 can adopt float glass or plate glass or pattern glass or toughened glass or low radiation coated glass or heat-reflecting glass, and optional transparent or opaque.

PC host computer 16 sends instruction to LED controller 5, and LED controller 5 is by the stroboscopic of instruction control light-emitting device 6, the long state such as bright.

As shown in Figure 4, LED controller 5 can the whole light-emitting device 6 of single channel control.

As shown in Figure 5, LED controller 5 also can be controlled the light-emitting device 6 of each group in multichannel road.

The photovoltaic LED integral component of the present embodiment can be made hollow series and splicing series.

(embodiment 2)

See Fig. 6, the photovoltaic off-grid system of the present embodiment, comprises photovoltaic LED integral component 10, LED controller connection 11, LED controller AC power cord 12, photovoltaic lightningproof header box 13, controller 14, inverter 15, PC host computer 16, energy storage device 17 and power distribution cabinet 18.

Photovoltaic LED integral component 10 adopts the structure in embodiment 1.The LED controller 5 of photovoltaic LED integral component 10 is connected to PC host computer 16 by LED controller connection 11, and is connected to power distribution cabinet 18 by LED controller AC power cord 12.Photovoltaic LED integral component 10 is provided with multiple, and connects into integrated photovoltaic assembly array.Integrated photovoltaic assembly array is connected to photovoltaic lightningproof header box 13.Photovoltaic lightningproof header box 13 is connected to controller 14.One side joint energy storage device 17 of controller 14, another side joint inverter 15.Inverter 15 is connected to power distribution cabinet 18.

(embodiment 3)

See Fig. 7, the photovoltaic parallel in system of the present embodiment, comprises photovoltaic LED integral component 10, LED controller connection 11, LED controller AC power cord 12, photovoltaic lightningproof header box 13, inverter 15, PC host computer 16, power distribution cabinet 18, DC cabinet 19 and electrical network 20.

Photovoltaic LED integral component 10 adopts the structure in embodiment 1.The LED controller 5 of photovoltaic LED integral component 10 is connected to PC host computer 16 by LED controller connection 11, and is connected to power distribution cabinet 18 by LED controller AC power cord 12.Photovoltaic LED integral component 10 is provided with multiple, and connects into integrated photovoltaic assembly array.Integrated photovoltaic assembly array is connected to photovoltaic lightningproof header box 13.Photovoltaic lightningproof header box 13 is connected to DC cabinet 19.DC cabinet 19 is connected to inverter 15.Inverter 15 is connected to power distribution cabinet 18.Power distribution cabinet 18 is connected to electrical network 20.

Above-described specific embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; institute is understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment of making, be equal to replacement, improvement etc., within all should being included in protection range of the present utility model.

Claims (7)

1. photovoltaic LED integral component, is characterized in that: comprise TCO glass (1), amorphous silicon membrane (2), binding agent (3), terminal box (4), LED controller (5), light-emitting device (6), bottom surface glass (7), fluid sealant (8) and connecting line (9); Between described TCO glass (1) and bottom surface glass (7), bond by binding agent (3); Described amorphous silicon membrane (2) is plated on the medial surface of TCO glass (1); Described light-emitting device (6) is fixed on the medial surface of bottom surface glass (7), and is connected to LED controller (5) by connecting line (9); Described terminal box (4) is drawn the both positive and negative polarity of amorphous silicon membrane (2); Described TCO glass (1) seals by fluid sealant (8) with the edge of bottom surface glass (7).

2. photovoltaic LED integral component according to claim 1, is characterized in that: described binding agent (3) is PVB resin or EVA resin.

3. photovoltaic LED integral component according to claim 1, is characterized in that: described light-emitting device (6) is provided with many groups, and every group of light-emitting device (6) forms by multiple LED luminescence unit serial connections.

4. photovoltaic LED integral component according to claim 1, is characterized in that: described light-emitting device (6) is LED light-emitting diode or LED line lamp or LED display.

5. photovoltaic LED integral component according to claim 1, is characterized in that: the Show Color of described light-emitting device (6) is solid color or multiple color.

6. photovoltaic off-grid system, is characterized in that: comprise photovoltaic LED integral component (10), LED controller connection (11), LED controller AC power cord (12), photovoltaic lightningproof header box (13), controller (14), inverter (15), PC host computer (16), energy storage device (17) and power distribution cabinet (18); Described photovoltaic LED integral component (10) adopts structure described in claim 1; The LED controller (5) of described photovoltaic LED integral component (10) is connected to PC host computer (16) by LED controller connection (11), and is connected to power distribution cabinet (18) by LED controller AC power cord (12); Described photovoltaic LED integral component (10) is provided with multiple, and connects into integrated photovoltaic assembly array; Described integrated photovoltaic assembly array is connected to photovoltaic lightningproof header box (13); Described photovoltaic lightningproof header box (13) is connected to controller (14); One side joint energy storage device (17) of described controller (14), another side joint inverter (15); Described inverter (15) is connected to power distribution cabinet (18).

7. photovoltaic parallel in system, is characterized in that: comprise photovoltaic LED integral component (10), LED controller connection (11), LED controller AC power cord (12), photovoltaic lightningproof header box (13), inverter (15), PC host computer (16), power distribution cabinet (18), DC cabinet (19) and electrical network (20); Described photovoltaic LED integral component (10) adopts structure described in claim 1; The LED controller (5) of described photovoltaic LED integral component (10) is connected to PC host computer (16) by LED controller connection (11), and is connected to power distribution cabinet (18) by LED controller AC power cord (12); Described photovoltaic LED integral component (10) is provided with multiple, and connects into integrated photovoltaic assembly array; Described integrated photovoltaic assembly array is connected to photovoltaic lightningproof header box (13); Described photovoltaic lightningproof header box (13) is connected to DC cabinet (19); Described DC cabinet (19) is connected to inverter (15); Described inverter (15) is connected to power distribution cabinet (18); Described power distribution cabinet (18) is connected to electrical network (20).