CN205545095U - Solar cell flexible installation structure and agriculture optical filtering sunshade power generation system - Google Patents

Abstract

The utility model provides a solar cell flexible installation structure, include: solar cell, bear solar cell's flexible material, connection solar cell with flexible material's connecting piece, the connecting piece has the connection solar cell's first connecting portion and connection flexible material's second connecting portion, the second connecting portion have and hold flexible material's recess, the bolt passes will behind the diapire of second connecting portion the flexible material top tightly is in in the recess. The utility model also provides an agricultural optical filtering sunshade power generation system. The utility model discloses the advantage that possesses convenient operation, low cost, long service life.

Description

Solar cell flexible mounting structure and agricultural optical filtering sunshade electricity generation system

Technical field

This utility model relates to field of solar thermal power generation, is specifically related to solar cell flexible mounting structure and agricultural optical filtering sunshade electricity generation system.

Background technology

Solaode (also referred to as photovoltaic module) is generally divided into silica-based rigidity solaode and non-silicon-based flexible solar battery, for its mounting structure is according to supporting carrier, it is divided into rigid mounting structure and two kinds of flexible installing structure, the former be with roof, ground, car surface be to support carrier, the latter is to have the flexible material of certain flexibility and intensity for supporting carrier with steel wire rope, steel strand wires, steel cable, reinforcing bar, cable etc..

For flexible installing structure, solar panel mostly is with flexible material connected mode: by fixing for the protection of solar panel aluminum alloy frame, then be connected with flexible material by aluminum alloy frame.Connected by specific connector more than frame and the connection of flexible material.This mode aluminium usage amount is big, involves great expense, constructs loaded down with trivial details.The most commonly used connector is that U-bolts coordinates clamping plate to be connected together with solaode by flexible material, but the factor interference such as wind it are easily subject to when mounted due to flexible material, operator need on the other hand to hold flexible material, another clamping plate and nutting on hand, are inconvenient for；Another kind of mounting means is to use cam pressing flexible material, the shortcoming of this mounting means is that the compression effect of cam is unstable, cam easily turns round, and also can under tension rotating during cam actually solaode, easily cause solaode to damage, and cam assembles inconvenience, cost is high.

Shading system many employings sunshade curtain sunshade of agricultural, sunshade curtain mostly is plastic knitting curtain sunshade net, and sunshade net is between shade supporting wire and pressure curtain line, by driving limit traction to close up or launch to adjust the luminous environment of crop growth.But owing to sunshade net is flexible, running often occurs that due to wind action sunshade net spooling drive mechanism breaks down.Life-span about the 5-8 of sunshade net, just changes once for the most every 5 years, and maintenance cost is high.Sunlight is blocked absorption by sunshade net, is converted into heat and scatters and disappears, and solar energy is wasted.

Developed recently goes out a kind of photovoltaic greenhouse, and photovoltaic module is taken as being mounted in the enclosed structure in greenhouse for a kind of material that covers mostly, higher to structural requirement, causes cost increase, the marketization to be promoted slowly.

Utility model content

The purpose of this utility model is to provide a kind of easy to operate, with low cost, solar cell flexible mounting structure of length in service life and agricultural optical filtering sunshade electricity generation system.

For achieving the above object, embodiment of the present utility model provides following technical scheme:

On the one hand, provide a kind of solar cell flexible mounting structure, including: solaode, carry the flexible material of described solaode, connect described solaode and the connector of described flexible material, described connector has the first connecting portion connecting described solaode and the second connecting portion connecting described flexible material, described second connecting portion has the groove accommodating described flexible material, and described flexible material is held out against in described groove after the diapire of described second connecting portion by bolt.

Preferably, described first connecting portion includes roof and two sidewalls, described roof and described sidewall form a few font, described sidewall is coated with adhesive, being pasted with Double-face adhesive on described roof, described solaode is pasted on described first connecting portion by described adhesive and described Double-face adhesive.

Preferably, above-mentioned solar cell flexible mounting structure also includes buckle closure part, described buckle closure part has the first buffer groove and the first teeth portion, described first connecting portion has the second buffer groove and the second teeth portion, described first teeth portion and described second teeth portion engage thus are clamped between described first buffer groove and described second buffer groove by described solaode, and the padded coaming in described first buffer groove is squeezed on described solaode with the padded coaming in described second buffer groove.

Preferably, above-mentioned solar cell flexible mounting structure also includes drawknot bar, and below described solaode, above described flexible material, self-tapping screw is screwed into described drawknot bar after described connector.

Preferably, described drawknot bar has the tubular-shaped structures of lateral opening, and its inwall is profile of tooth, and its outer wall extends relative T-shaped structure.

Preferably, described connector, described buckle closure part are aluminium.

On the other hand, it is provided that a kind of agricultural optical filtering sunshade electricity generation system, including: solar cell flexible mounting structure, at least one pair of column as above, described flexible material is by described upright supports.

Preferably, described solaode is silica-base film euphotic solar energy cell panel.

Preferably, above-mentioned agricultural optical filtering sunshade electricity generation system also includes the intermediate support between the pair of column, being fixed with pillar on described intermediate support, described flexible material is supported on described pillar and makes described solaode and horizontal direction is an angle.

Preferably, on earth anchor, there is wire tensioning device between described column and described earth anchor in described flexible material drawknot.

Preferably, having heliogreenhouse or cold canopy below described silica-base film euphotic solar energy cell panel, described column is directly installed on the rear wall of described heliogreenhouse or shares the structural framework of described cold canopy.

Embodiment of the present utility model uses bolt to hold out against flexible material through the mode of the diapire of the second connecting portion, bolt can use standard component, low cost, and compress effect and be better than cam, the instability problem that cam turns round will not occur, and bolt is to press flexible material from bottom to top, will not be as solaode being applied pulling force when cam rotates so that service life is longer.

Further, adopt the most easy for installation.

Further; use buckle closure part and connector collectively as frame aluminium; length can adjust according to natural causes such as the situation of solaode and wind and snow load; length can also be smaller than solar panel length more than or equal to solar panel length; more cost-effective than the processing mode of the most common circumferential side frame; and buckle closure part had both existed with connector and engages, there is again the extruding of padded coaming, connective stability, protectiveness for solaode all can improve.

Further, drawknot bar can improve structural strength, when preventing wind, flexible material rocks and pulls tear solar panel, and drawknot this body structure of bar possesses lightweight feature, and being screwed into of the tooth-shape structure of inwall beneficially self-tapping screw, the T-shaped structure of outer wall can block buckle closure part, the frame aluminium of connector composition, it is ensured that will not rotate when being screwed into self-tapping screw.

The flexible solar battery mounting structure that the agriculture optical filtering sunshade electricity generation system of the present embodiment uses makes that system Construction is easier, low cost, life-span are long.Further, silica-base film euphotic solar energy cell panel is as sun-shading main body, and silica-base film euphotic solar energy cell panel may filter that the short wavelength light harmful to crops, the uniform HONGGUANG needed through crop growth.25 years photovoltaic module life-spans, it is not necessary to changing, wind loading rating is strong, it is not necessary to driving unit fault rate is low.In addition to light necessary to plant, remaining light generates electricity, and the most sufficiently utilizes solar energy, produces additional economic benefit.Using flexible material to fix silica-base film printing opacity electrification component, flexible material is lightweight, deformable, is suitable for more complicated landform, with low cost, is suitable for promoting.

Accompanying drawing explanation

Next in conjunction with accompanying drawing, specific embodiment of the utility model will be described in further detail, wherein:

Fig. 1 is the front view of the agriculture optical filtering sunshade electricity generation system of embodiment of the present utility model；

Fig. 2 is the top view of the agriculture optical filtering sunshade electricity generation system of embodiment of the present utility model；

Fig. 3 is the sectional view of the line A-A along Fig. 2；

Fig. 4 is the upward view that the flexible material of first embodiment of the present utility model is connected with solaode；

Fig. 5 is the sectional view that the flexible material of first embodiment of the present utility model is connected with solaode；

Fig. 6 is the upward view that the flexible material of second embodiment of the present utility model is connected with solaode；

Fig. 7 is the sectional view of the line B-B along Fig. 6；

The sectional view of the drawknot bar that Fig. 8 is used by second embodiment of the present utility model；

Fig. 9 is the first application form of the agriculture optical filtering sunshade electricity generation system of embodiment of the present utility model；

Figure 10 is the second application form of the agriculture optical filtering sunshade electricity generation system of embodiment of the present utility model.

Description of reference numerals: 1, solaode, 2, flexible material, 3, connector, 31, second connecting portion, 311, groove, 312, diapire, 32, first connecting portion, 321, roof, 322, sidewall, 323, second teeth portion, 324, second buffer groove, 4, Double-face adhesive, 5, adhesive, 6, nut, 7, bolt, 8, earth anchor, 9, column, 10, upright post basic, 11, wire tensioning device, 12, draw in the net beam, 13, intermediate support, 14, pillar, 15, drawknot bar, 151, tubular-shaped structures, 152, profile of tooth, 153, T-shaped structure, 16, frame aluminum material, 17, padded coaming, 18, self-tapping screw, 19, buckle closure part, 191, first teeth portion, 192, first buffer groove.

Detailed description of the invention

With reference to Fig. 1, in agriculture optical filtering sunshade electricity generation system in the present embodiment, use solar cell flexible mounting structure, both solaode 1 was fixed on flexible material 2 by connector 3, flexible material 2 is strapped to drawing in the net on beam 12, drawing in the net beam 12 is fixed on a column 9, so that flexible material 2 is supported by column 9, column 9 is fixed on upright post basic 10.In actual construction, it is also possible to by other attachment structure, flexible material 2 is supported on column 9.On earth anchor 8, there is wire tensioning device 11 by flexible material 2 drawknot in the column 9 at two ends, the tightening force of flexible material 2 is delivered on earth anchor 8 by wire tensioning device 11 between column 9 and earth anchor 8.

Flexible material 2 is the material that steel wire rope, steel strand wires, steel cable, reinforcing bar etc. have certain flexibility and intensity.

Wire tensioning device 11 is the device that flower basket bolt, tightener etc. have tension function.

Size according to spacing L between column 9 decides whether to arrange intermediate support 13 and the quantity of intermediate support 13.

The height of the column 9 at two ends can be unequal as required, thus adjusts the angle of flexible material 2.

With reference to Fig. 2, solaode 1 is multiple, preferably silica-base film euphotic solar energy cell panel, and printing opacity uniformly can HONGGUANG thoroughly, for the cell panel of aluminium-fre e alloy frame, actual construction also can be selected for the solaode of other forms such as non-silicon-based flexible thin-film solar cell.Having space between solaode 1, meet other light required for crops normal growth, the size in space is different according to the difference of institute's Planting Crops.Flexible material 2 is parallel to each other and reticulates, and keeps overall stablizing.

With reference to Fig. 3, being fixed with pillar 14 on intermediate support 13, one is long and the other is short for pillar 14, and flexible material 2 is supported on pillar 14, the pillar 14 of varying length makes solaode 1 and horizontal direction be an angle, can be adjusted the inclination angle of solaode 1 by the length adjusting pillar 14.

As shown in Figure 4, solaode 1 is fixed on flexible material 2 by connector 3.In first embodiment, the quantity of connector 3 is 6, and the connector 3 of both end of which is 4, and two middle connectors 3 can select to add and be not added with according to the size of solaode 1 and mode.The preferably connector 3 at two ends flushes with solaode 1 or highlights the edge of solaode 1, in order to avoid the two ends of solaode 1 encountered by flexible material 2 strokes.

With reference to Fig. 5, in the solar cell flexible mounting structure of first embodiment, it is by connecting the realization of the connector 3 of solaode 1 and flexible material 2 that solaode 1 is carried on flexible material 2.In the present embodiment, connector 3 has the first connecting portion 32 connecting solaode 1 and the second connecting portion 31 connecting flexible material 2.Second connecting portion 31 has the groove 311 accommodating flexible material 2, and this groove 311 is low wide and up narrow, can be trapezoidal, semicircle etc..During installation, being placed in the groove 311 of connector 3 by flexible material 2, then bolt 7 and nut 6 enter connector 3 from one end, and bolt 7 is through tighting a bolt 7 and nut 6 after the diapire 312 of the second connecting portion 31, and flexible material 2 is held out against in groove 311 by bolt 7.During actual installation, it is also possible to directly open screwed hole on diapire 312, without nut 6.The advantage of the embodiment shown in Fig. 5 is, bolt 7 can use standard component, low cost, and compress effect and be better than cam, the instability problem that cam turns round will not occur, and when assembling, operator hold flexible material 2 on the other hand, after making it into groove 311, another hands operation bolt 7 compresses flexible material 2 from bottom to top, will not be as solaode 1 applies when cam rotates the pulling force of the length direction along flexible material 2, it is to avoid solaode 1 stress tears, make service life longer, especially for flexible solar battery.

In first embodiment, the first connecting portion includes that roof 321 and two sidewalls 322, roof 321 and sidewall 322 form a few font.During installation, first pass through the Double-face adhesive 4 pasted on roof 321 to be temporarily pasted together with solaode 1 by connector 3, on sidewall 322, then coat adhesive 5, such as structural silicone adhesive etc., solaode is securely adhered on the first connecting portion 32, easy for installation.With reference to Fig. 6, have employed drawknot bar 15 and frame aluminium 16 in the solar cell flexible mounting structure in second embodiment, solaode 1 is fixed on flexible material 2 by frame aluminium 16 and drawknot bar 15.The length of frame aluminium 16 can adjust according to natural causes such as the situation of solaode 1 and wind and snow load, length can also be smaller than solaode 1 length more than or equal to solaode 1 length, more cost-effective than the processing mode of the most common circumferential side frame.

With reference to Fig. 7, the frame aluminium 16 in the present embodiment by connector 3 fasten to buckle closure part 19 together with formed, actually frame aluminium 16 can be that integral type is the most split type.Wherein, buckle closure part 19 has the first teeth portion 191 and the first buffer groove 192, and connector 3 and first embodiment difference essentially consist in the first connecting portion 32.In the second embodiment, the first connecting portion 32 has the second teeth portion 323 and the second buffer groove 324.Be provided with slowly punching your material 17 well-behaved in first buffer groove the 192, second buffer groove 324, padded coaming 17 material can for EPDM, rubber etc. conventional have certain elastic material.During installation, the first teeth portion 191 and the second teeth portion 323 engage thus are clamped in by solaode 1 between first buffer groove 192 and the second buffer groove 324, and two padded coamings 17 are squeezed on solaode 1.Connector 3 is identical with first embodiment with the connected mode of flexible material 2, no longer describes in detail.Using buckle closure part 19 and connector 3 collectively as frame aluminium 16, buckle closure part 19 had both existed with connector 3 and had engaged, and padded coaming 17 can be utilized again to protect solaode 1 not by pressure break, and connective stability, protectiveness for solaode 1 all can improve.

Drawknot bar 15 is positioned at below solaode 1, above flexible material 2, and self-tapping screw 18 is screwed into drawknot bar 15 after connector 3.The effect of drawknot bar 15 is to improve structural strength, and when preventing wind, flexible material 2 rocks and pulls tear solaode 1.

With reference to Fig. 8, the main body of drawknot bar 15 is to have the tubular-shaped structures 151 of lateral opening, for lightweight structure.The inwall of tubular-shaped structures 151 is being screwed into of profile of tooth 152, beneficially self-tapping screw.The outer wall of tubular-shaped structures 151 extends relative T-shaped structure 153, for blocking buckle closure part 19, the frame aluminium 16 of connector 3 composition, it is ensured that when being screwed into self-tapping screw 18, drawknot bar 15 will not rotate.

When mounted, first padded coaming 17 is inserted respectively in the first buffer groove 192 and the second buffer groove 324 stand-by.Then connector 3 is coupled together with drawknot bar 15 self-tapping screw 18.Then solaode 1 is put on the padded coaming 17 on connector 3.Being then pressed into buckle closure part 19, make solaode 1 be crushed between connector 3 and buckle closure part 19, two padded coamings 17, tight against extruding solaode 1, had both played interconnection function, had played a protective role again.

With reference to Fig. 9, in the first form, have heliogreenhouse, column 9 or intermediate support 13 below silica-base film euphotic solar energy cell panel and can be directly installed on rear wall with cost-effective.

With reference to Figure 10, in the second form, have Leng Peng, column 9 or intermediate support 13 below silica-base film euphotic solar energy cell panel and can share the structural framework of cold canopy with cost-effective.

Although this utility model combines above example and is described, but this utility model is not limited to above-described embodiment, and only limited by claim, it easily can be modified and change by those of ordinary skill in the art, but and without departing from essential idea of the present utility model and scope.Such as, the first connecting portion 32 and the connected mode of solaode 1 are in addition to above-mentioned two embodiment, additionally it is possible to the modes such as with bolts, riveting or other clamping.

Claims (11)

1. a solar cell flexible mounting structure, including: solaode, carry the flexible material of described solaode, connect described solaode and the connector of described flexible material, it is characterized in that, described connector has the first connecting portion connecting described solaode and the second connecting portion connecting described flexible material, described second connecting portion has the groove accommodating described flexible material, and described flexible material is held out against in described groove after the diapire of described second connecting portion by bolt.

Solar cell flexible mounting structure the most according to claim 1, it is characterized in that, described first connecting portion includes roof and two sidewalls, described roof and described sidewall form a few font, described sidewall is coated with adhesive, being pasted with Double-face adhesive on described roof, described solaode is pasted on described first connecting portion by described adhesive and described Double-face adhesive.

Solar cell flexible mounting structure the most according to claim 1, it is characterized in that, also include buckle closure part, described buckle closure part has the first buffer groove and the first teeth portion, described first connecting portion has the second buffer groove and the second teeth portion, described first teeth portion and described second teeth portion engage thus are clamped between described first buffer groove and described second buffer groove by described solaode, and the padded coaming in described first buffer groove is squeezed on described solaode with the padded coaming in described second buffer groove.

Solar cell flexible mounting structure the most according to claim 3, it is characterised in that also include drawknot bar, below described solaode, above described flexible material, self-tapping screw is screwed into described drawknot bar after described connector.

Solar cell flexible mounting structure the most according to claim 4, it is characterised in that described drawknot bar has the tubular-shaped structures of lateral opening, its inwall is profile of tooth, and its outer wall extends relative T-shaped structure.

Solar cell flexible mounting structure the most according to claim 3, it is characterised in that described connector, described buckle closure part are aluminium.

7. an agriculture optical filtering sunshade electricity generation system, it is characterised in that including: the solar cell flexible mounting structure as described in any one in claim 1-6, at least one pair of column, described flexible material is by described upright supports.

Agricultural optical filtering sunshade electricity generation system the most according to claim 7, it is characterised in that described solaode is silica-base film euphotic solar energy cell panel.

Agricultural optical filtering sunshade electricity generation system the most according to claim 7, it is characterized in that, also include the intermediate support between the pair of column, being fixed with pillar on described intermediate support, described flexible material is supported on described pillar and makes described solaode and horizontal direction is an angle.

Agricultural optical filtering sunshade electricity generation system the most according to claim 7, it is characterised in that described flexible material drawknot, on earth anchor, exists wire tensioning device between described column and described earth anchor.

11. agricultural optical filtering sunshade electricity generation systems according to claim 8, it is characterized in that, having heliogreenhouse or cold canopy below described silica-base film euphotic solar energy cell panel, described column is directly installed on the rear wall of described heliogreenhouse or shares the structural framework of described cold canopy.