CN206564943U

CN206564943U - Flexible photovoltaic is added lustre to greenhouse

Info

Publication number: CN206564943U
Application number: CN201720054167.5U
Authority: CN
Inventors: 徐飙; 徐凯
Original assignee: Shenzhen Radiant Architectural Technology Co Ltd
Current assignee: Shenzhen Radiant Architectural Technology Co Ltd
Priority date: 2017-01-17
Filing date: 2017-01-17
Publication date: 2017-10-20
Anticipated expiration: 2027-01-17

Abstract

The utility model is related to photovoltaic green-house technical field, specifically discloses a kind of flexible photovoltaic and adds lustre to greenhouse.The flexible photovoltaic greenhouse that adds lustre to includes greenhouse bracket, the functional module that is installed on the greenhouse bracket and energy storage device；The functional module includes plane skylight and is laminated in the flexible solar battery piece of some series connection of the daylighting plate surface；The greenhouse bracket is provided with along its arc to direction to be used to detachably install the plane skylight and for the connection member for the light angle for adjusting the plane skylight, and the flexible solar battery piece is electrically connected with the energy storage device.This flexible photovoltaic add lustre to greenhouse flexible solar battery piece light angle can adjust, and because the functional module comprising flexible solar battery piece is detachably installed with greenhouse bracket, facilitate flexible photovoltaic add lustre to greenhouse modular operation and seasonal installation, dismounting.

Description

Flexible photovoltaic is added lustre to greenhouse

Technical field

The utility model is related to photovoltaic green-house technical field, more particularly to a kind of flexible photovoltaic is added lustre to greenhouse.

Background technology

With continuing to develop for agricultural science and technology, solar photovoltaic green-house due to collection solar energy power generating, intelligent temperature control with And modern high technology plantation is integrated, thus used by being widely popularized.

Usually, solar photovoltaic green-house is using steel construction as basic framework, and ceiling covers solar cell module, too The direct current that positive energy battery component is sent, directly carries out light filling for agricultural greenhouse, and supports warmhouse booth agricultural equipment simultaneously Humiture, gas concentration lwevel etc. in normal operation, Effective Regulation warmhouse booth, suitable environment bar is provided for crop whole year growth Part, realizes scientific and technological efficient recycling ecological agriculture.But existing photovoltaic agricultural greenhouse is existed in structure design Problem, such as solar cell module are generally rigid structure, and the angle that solar components are exposed to sunlight can not be with season Change and change, or can only be by adjusting bracket bearing, and then the light angle of every piece of solar panel is adjusted, angle is adjusted Save the consuming time long；Simultaneously, it is impossible to which realization is rapidly assembled and disassembled so that seasonal large area is divulged information.

Using single glass and the photovoltaic solar cell plate of double glass, to steel structure support intensity requirement height, it is necessary to increase framework Steel using amount, and conventional photovoltaic greenhouse solar panel use traditional PERC, efficiency is only 15.5%~18.5%.

Utility model content

The light angle existed for current solar photovoltaic green-house can not adjust, can not be rapidly assembled and disassembled, can not The problems such as integrative installation technology, the utility model adds lustre to greenhouse there is provided a kind of flexible photovoltaic.

In order to reach above-mentioned utility model purpose, the utility model employs following technical scheme：

A kind of flexible photovoltaic is added lustre to greenhouse, including greenhouse bracket, the functional module that is installed on the greenhouse bracket and storage Can device；The functional module includes plane skylight and is laminated in the flexible solar battery of some series connection of the daylighting plate surface Piece；

The greenhouse bracket is provided with along its arc to direction to be used to detachably install the plane skylight and for adjusting described adopt The connection member of the light angle of tabula rasa, the flexible solar battery piece is electrically connected with the energy storage device.

Preferably, the edge of the plane skylight offers screens groove, and the connection member is to be fastened in the screens groove Slide rail, and the plane skylight can slide on the slide rail.

Preferably, the edge of the plane skylight offers screens groove, and the screens groove is fixedly connected with the connection member； Described connection member one end removably with the screens groove clamping, the other end is removably connected with the greenhouse bracket.

Preferably, the connection member includes T-shape support member and " L " type support member, the vertical part of the T-shape support member Slidably adjusted with the coincidence position of the vertical part of " L " the type support member；The transverse part of the T-shape support member is connected to the screens On groove, the transverse part of " L " the type support member is detachable or is fixed on the surface of the greenhouse bracket.

Preferably, the connection member is additionally provided with the bearing block for carrying the functional module.

Preferably, the wedging position of the T-shape support member and the screens groove has also been fastened for preventing the clamping The buckling piece of position water inlet.

Preferably, the plane skylight is makrolon or fiberglass, and the plane skylight is not folded and is provided with flexible solar battery The surface of piece attaches one layer of conversion film, or the plane skylight contains light-converting powder.

Preferably, the daylighting plate surface, which has, is used to increase the concavo-convex or pyramid texture shape structure of light transmittance, institute Concavo-convex or pyramid texture shape structure bump sizes are stated for 0.5mm~2mm.

Preferably, the flexible photovoltaic adds lustre to greenhouse also including some light compensating lamps for being used to improve intensity of illumination, described Light compensating lamp is installed on the greenhouse bracket towards the side on ground.

The flexible photovoltaic that the utility model is provided is added lustre to greenhouse, is fitted in by flexible solar battery piece on plane skylight, And be mounted at greenhouse bracket surface, passing through the regulation of connection member so that flexible solar battery piece light angle It is adjustable, and because the functional module comprising flexible solar battery piece is detachably installed with greenhouse bracket, and by daylighting Plate and the laminating assembling of flexible solar battery piece, realize the curved surface installation and removal of the solar battery sheet of integration, convenient Flexible photovoltaic add lustre to greenhouse modular operation and seasonal installation, dismounting.

Brief description of the drawings

Below in conjunction with drawings and Examples, the utility model is described in further detail, in accompanying drawing：

Fig. 1 is that the flexible photovoltaic that the utility model embodiment is provided is added lustre to greenhouse structure schematic diagram；

Fig. 2 is that the flexible photovoltaic that the utility model embodiment is provided is added lustre to the functional module stereogram of greenhouse；

Fig. 3 be the utility model embodiment provide flexible photovoltaic add lustre to greenhouse functional module front view；

Fig. 4 is that the flexible photovoltaic that another embodiment of the utility model is provided is added lustre to the functional module stereogram of greenhouse；

Fig. 5 is that the flexible photovoltaic that another embodiment of the utility model is provided is added lustre to the functional module front view of greenhouse；

Fig. 6 is that the flexible photovoltaic that the utility model embodiment is provided is added lustre to the part A enlarged drawing of greenhouse；

Fig. 7 is that the flexible photovoltaic that another embodiment of the utility model is provided is added lustre to the part A enlarged drawing of greenhouse；

Fig. 8 is that the flexible photovoltaic that the another embodiment of the utility model is provided is added lustre to the part A enlarged drawing of greenhouse；

Fig. 9 is that the flexible photovoltaic that the another embodiment of the utility model is provided is added lustre to the part A enlarged drawing of greenhouse；

Figure 10 is that the flexible photovoltaic that the another embodiment of the utility model is provided is added lustre to the part A enlarged drawing of greenhouse；

Figure 11 be the embodiment of the utility model one provide flexible photovoltaic add lustre to greenhouse functional module include ribs Structural representation.

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are more clearly understood, below in conjunction with accompanying drawing and implementation Example, the utility model is further elaborated.It should be appreciated that specific embodiment described herein is only to explain The utility model, is not used to limit the utility model.

As shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, the utility model embodiment is added lustre to greatly there is provided a kind of flexible photovoltaic Canopy, including greenhouse bracket 1, the functional module 2 that is installed on the greenhouse bracket 1, and energy storage device (not marked in figure)；Institute State flexible solar battery piece of the functional module 2 including plane skylight 21 and some series connection for being laminated in the surface of plane skylight 21 22；The greenhouse bracket 1 is provided with along its arc to direction to be used to detachably install the plane skylight 21 and for adjusting the daylighting The connection member 3 of the light angle of plate 21；The flexible solar battery piece 22 and the energy storage device (not marked in figure) electricity Property connection.

Wherein, greenhouse bracket 1 is steel structure support, it is ensured that the flexible photovoltaic greenhouse that adds lustre to has enough intensity.

Preferably, the flexible solar battery piece 22 of the surface of plane skylight 21 stacking, solid particular by gluing or bolt Surely so that plane skylight 21 and flexible solar battery piece 22 realize connection.

During using gluing stacking, preferred sandwich rubber.

Preferably, the edge of the plane skylight 21 offers screens groove 211, and the connection member 3 is to be fastened on the card Slide rail 11 (as shown in Figure 8) in the groove 211 of position, and the plane skylight 21 can slide on the slide rail 11.In greenhouse bracket 1 The radian of slide rail 11 can change radian, Jin Ergai by carrying out the regulation of elasticity with the connecting portion of greenhouse bracket 1 Become the angle that functional module 2 (namely plane skylight 21 and flexible solar battery piece 22) is exposed to sunlight.

Preferably, the edge of the plane skylight 21 offers screens groove 211, the screens groove 211 and the connection member 3 It is fixedly connected；Described one end of connection member 3 removably with the clamping of screens groove 211, the other end removably with it is described big Canopy support 1 is connected.

Preferably, flexible solar battery piece 22 is IBC mono-crystalline silicon solar pieces, IBC monocrystaline silicon solar cell pieces Efficiency may be up to 20.5%~23.5%, and weight 9kg/m²。

It is further preferred that as shown in Figure 6,7, connection member 3 includes T-shape support member 31 and " L " type support member 32, The coincidence position of the vertical part of T-shape support member 31 and the vertical part of " L " type support member 32 is slidably adjusted.Overlapped by slidable adjustment Position, realize the flexible photovoltaic add lustre to greenhouse functional module 2 (namely plane skylight 21 and flexible solar battery piece 22) by The regulation of angular；The transverse part of the T-shape support member 31 is connected on the screens groove 211, " L " the type support member 32 Transverse part is detachable or is fixed on the surface of greenhouse bracket 1.

Specifically, the coincidence position of the vertical part of T-shape support member 31 and the vertical part of " L " type support member 32 offers strip The neck of shape, bolt fastens T-shape support member 31 and " L " type support member 32 by the neck of strip, when bolt unclamps, on The position that lower regulation T-shape support member 31 and " L " type support member 32 overlap, you can the radian of regulatory function module 2, reaches Adjust the purpose of sunlight accepts angle.

In one embodiment, when the screens groove 211 of functional module 2 and greenhouse bracket 1 carry out clamping, can use as Fig. 2, The structure of screens groove 211 shown in 3., will using screw or bolt after the transverse part of T-shape support member 31 is connected in screens groove 211 T-shape support member 31 is fixed with screens groove 211, prevents functional module 2 from walking.

In another embodiment, when the screens groove 211 of functional module 2 carries out clamping with greenhouse bracket 1, it can use as schemed 4th, the structure of screens groove 211 shown in 5, screens groove 211 is socketed on slide rail 11 (as shown in Figure 8), so as to realize functional module 2 Install.This clamping mounting means, is advantageous to, by the overall extraction of functional module 2, for the seasonal large area of greenhouse lead to Wind.

, can be by " T " in order to mitigate the stress degree of T-shape support member 31 and avoid the stress concentration of functional module 2 Type support member 31 and " L " type support member 32 are deformed into structure as shown in Figure 9.

Specifically, the first bearing block 311 for being capable of bearing function module 2, first are extended in the vertical part of T-shape support member 31 The functional module 2 that fast 311 carrying of load-bearing connects therewith；And " L " type support member 32 is then deformed into two support members and second and held Pouring weight 323, two described support members are the first concave support block 321 and the second concave support block 322；First concave support The surface that is detachable or being fixedly installed in the greenhouse bracket 1 of 321 and second concave support block of block 322；Second bearing block 323 Removably it is connected with support member one of them described.In addition, the vertical part of T-shape support member 31, the first bearing block 311, One concave support block 321, the second concave support block 322 and the second bearing block 323 are fastened by retract bolt 6.

By the deformation of structure as shown in Figure 8, the first bearing block 311 and the direct bearing function mould of the second bearing block 323 The weight of block 1, and the first bearing block 311 and the second bearing block 323 have certain contact area with functional module 1, save The pressure that T-shape support member 31 is born, and functional module 2 can be prevented effectively from occur stress concentration.

The position that functional module 2 is connected with greenhouse bracket 1, due to being chronically exposed under air, sunlight, rainwater, easily occurs Corrode and there may be potential safety hazard, to increase the service life, the position connected in functional module 2 and greenhouse bracket 1, that is, The connecting portion of T-shape support member 31 and screens groove 211, fastens the buckling piece 5 being socketed with for preventing wedging position from intaking, tool Body is as shown in Fig. 7,8,10, additionally with sun-proof or directly exposed purpose.

Preferably, the plane skylight 21 is makrolon or fiberglass.

Preferably, the makrolon or fiberglass are transparent reinforced hollow sheeting of the raw material through hot-extrudable technique machine-shaping Or solid slab.The template of the hollow sheeting or solid slab includes stile connecting-type with ribbing or socket connection type not with ribbing.

In use, in order that the ultraviolet (340nm and following) that must be irradiated in the sunlight of plane skylight 21 becomes Be conducive to the blue violet light or blood orange light of plant absorption, the surface not covered in plane skylight 21 by flexible solar battery piece 22 is puted up Conversion film, improves the efficiency that light is effectively absorbed by plant.By attaching conversion film, flexible photovoltaic is added lustre to blue and red in greenhouse Color spectrum composition increase, improve the efficiency of light energy utilization, plant growth is fast, result is good, result is more, strong stress resistance, precocity, volume increase and Quality better, while crop production capacity improves 0.5~3 times.

It is of course also possible to directly add light-converting powder in the manufacturing process of plane skylight 21, light-converting powder has same with conversion film The function of sample.

In a particular embodiment, counted according to light-converting powder quality 100%, the rare earth that light-converting powder includes 80%~90% coordinates Thing, 10%~15% acrylic resin and 1%~5% antioxidant.Usage amount of the light-converting powder in plane skylight 21, is pressed 0.5g~1.0g light-converting powder is added according to every square metre of plane skylight 21 of manufacture.

Preferably, the surface of plane skylight 21 has concave/convex-shaped structure or pyramid texture shape structure, described concavo-convex or gold The bump sizes of word tower textured structure are 0.5mm~2mm.By concave/convex-shaped structure or pyramid texture shape structure, improve The firmness that flexible solar battery piece 22 is laminated, and light passes through concave/convex-shaped structure or pyramid texture shape structure Refraction and diffusing reflection after, can have more light in greenhouse, can effectively make up by flexible solar battery piece 22 block it is dark Area and increase light income.

In order to improve the intensity of illumination of plant in greenhouse, some benefits are installed towards the side on ground in greenhouse bracket 1 Light lamp 4, it is specific as shown in Figure 1.

Preferably, light compensating lamp 4 is LED, and the spectrum of LED complies fully with plant growth, and its spectrum contains plant life The crest in red blue area domain that chlorophyll A and B in length are absorbed.

Preferably, the electric energy that flexible solar battery piece 22 is produced, is used directly for flexible photovoltaic and adds lustre to the light of greenhouse According in, can be used for it is grid-connected use, can also store, energy storage device is needed during storage.Because energy storage device is in flexible photovoltaic The position added lustre in greenhouse can be put according to specific needs, therefore the position that it is put is not defined.

The flexible photovoltaic that the utility model is provided is added lustre to greenhouse, by the way that flexible solar battery piece is fitted in into plane skylight On, and be mounted at together with plane skylight greenhouse bracket surface, passing through the regulation of connection member so that flexible solar Cell piece light angle has adjustable function, and due to functional module and greenhouse bracket comprising flexible solar battery piece It is detachable to install, facilitate flexible photovoltaic add lustre to greenhouse modular operation and seasonal installation, dismounting.

The utility model flexible photovoltaic add lustre to greenhouse install and use when, can be according to different plants, using different Mounting means, such as half cloudy plant or ombrophyte, the interval of functional module 2 is installed at the top of greenhouse or whole beddings and greenhouse Top, reduces the irradiation of sunlight；And for sun plant, then functional module 2 is subjected to big spacing installation, to ensure more sun Illumination is mapped to plant.

Specifically, as shown in figure 11, the plane skylight 21 in the functional module 2 of sun plant can be designed to ribs 7 template.When multiple functional modules 2 are carried out into splicing installation, the plane skylight 21 with ribs 7 is provided with and is converted into " several " type Structure, and plane skylight 21 one end screens groove then turn up it is in perpendicular shape, rectangular-shaped shorter one end insertion " several " type structure Recess, and be fastenedly connected by screw etc., the connecting portion being mutually fastenedly connected in plane skylight places elastomeric pad, to prevent Only rainwater is entered by connecting portion is likely to result in moist and corrodes ribs 7 inside ribs 7, and plane skylight 21 and greenhouse bracket The structure of 1 position installed then for any of the above-described kind of screens groove 211, so that realize that more sunlight enter inside greenhouse, in addition, When ribs 7 is only located at the middle part of plane skylight 21, by increasing capacitance it is possible to increase the intensity of template, it can be prevented effectively from compared with the middle part of wide plate type It is recessed.

The greenhouse in addition, flexible photovoltaic that the utility model embodiment is provided is added lustre to, can be also used in carport.It is used as vapour During bicycle shed, the effect kept the sun off for automobile is not only acted as, additionally it is possible to sunshine is converted into electric energy, or even filled to electric automobile Electricity etc..

Preferred embodiment of the present utility model is the foregoing is only, it is all at this not to limit the utility model Any modification, equivalent substitution or improvement made within the spirit and principle of utility model etc., should be included in the utility model Protection domain within.

Claims

The greenhouse 1. a kind of flexible photovoltaic is added lustre to, it is characterised in that：Including greenhouse bracket, the function being installed on the greenhouse bracket Module and energy storage device；The functional module includes plane skylight and is laminated in the flexibility of some series connection of the daylighting plate surface too Positive energy cell piece；

The greenhouse bracket is provided with along its arc to direction to be used to detachably install the plane skylight and for adjusting the plane skylight Light angle connection member, the flexible solar battery piece and the energy storage device are electrically connected with.
The greenhouse 2. flexible photovoltaic as claimed in claim 1 is added lustre to, it is characterised in that：The edge of the plane skylight offers screens Groove, the connection member is the slide rail being fastened in the screens groove, and the plane skylight can be slided on the slide rail.
The greenhouse 3. flexible photovoltaic as claimed in claim 1 is added lustre to, it is characterised in that：The edge of the plane skylight offers screens Groove, the screens groove is fixedly connected with the connection member；Described connection member one end removably with the screens groove clamping, The other end is removably connected with the greenhouse bracket.
The greenhouse 4. flexible photovoltaic as described in any one of claim 2~3 is added lustre to, it is characterised in that：The connection member includes The coincidence part of the vertical part of T-shape support member and " L " type support member, the vertical part of the T-shape support member and " L " the type support member Position is slidably adjusted；The transverse part of the T-shape support member is connected on the screens groove, and the transverse part of " L " the type support member is removable Unload or be fixed on the surface of the greenhouse bracket.
The greenhouse 5. flexible photovoltaic as claimed in claim 4 is added lustre to, it is characterised in that：The connection member is additionally provided with for carrying The bearing block of the functional module.
The greenhouse 6. flexible photovoltaic as claimed in claim 4 is added lustre to, it is characterised in that：The T-shape support member and the screens The wedging position of groove is also fastened for preventing the buckling piece of the wedging position water inlet.
The greenhouse 7. flexible photovoltaic as claimed in claim 1 is added lustre to, it is characterised in that：The plane skylight is makrolon or glass Steel, the folded one layer of conversion film of surface attaching provided with flexible solar battery piece of the plane skylight, or the plane skylight, which contain, to be turned Light powder.
The greenhouse 8. flexible photovoltaic as claimed in claim 7 is added lustre to, it is characterised in that：The daylighting plate surface, which has, to be used to increase The concavo-convex or pyramid texture shape structure of light transmittance, described concavo-convex or pyramid texture shape structure bump sizes are 0.5mm~2mm.
The greenhouse 9. flexible photovoltaic as described in claims 1 to 3 and 5~8 any one is added lustre to, it is characterised in that：The flexible light Volt adds lustre to greenhouse also including some light compensating lamps for being used to improve intensity of illumination, and the light compensating lamp is installed on the greenhouse bracket face Side earthward.