CN205792386U - It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid, assembly, array, power station - Google Patents

Abstract

Support that this utility model relates to being applied on Overwater-floating floating photovoltaic array buoyancy aid, assembly, array, power station, including: rack body；And connector；Wherein, connector includes upper part and low portion, and wherein low portion bends inwards；Wherein rack body includes upper part and low portion, and wherein the low portion of rack body cooperates with the shape of connector and outwards bends.

Description

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid, assembly, array, power station

Technical field

This utility model relates to clean energy technology field, is particularly applied to Overwater-floating floating photovoltaic array buoyancy aid On support, assembly, array, power station.

Background technology

Solar energy is a kind of clean energy resource.Utilizing photovoltaic plant that solar energy is directly translated into electric energy is a kind of efficient profit By the mode of solar energy.Photovoltaic plant is mainly built on the ground at present, such as, utilize idle soil to build.But, Because irradiation energy distribution density is little, affected relatively big by meteorological condition, thus land photovoltaic plant typically require take the biggest Area.Valuable in developed area land resource, build photovoltaic plant and be limited by very large.Photovoltaic waterborne refers to utilize The idle water surface builds photovoltaic plant.Photovoltaic plant waterborne has and is not take up land resource, reduces Water Evaporation, it is to avoid algae The plurality of advantages such as growth, have vast potential for future development.

A kind of embodiment of photovoltaic plant waterborne is to use floatation type photovoltaic array.Existing floatation type photovoltaic array Buoyancy aid all uses the integral type buoyancy aid of fixed angle.Owing to different geographical solar illumination angle is different, the buoyancy aid of fixed angle is difficult to Adapting to multiple region, therefore, repeatedly die sinking easily causes the increase of cost.And owing to buoyancy aid must be pacified according to specific direction Dress, the difficulty of installation also increased, and causes the reduction of efficiency of construction.In order to improve efficiency of construction, pre-peace sometimes must be used The mode of dress is constructed.But this mode needs to use large-scale engineering machinery, also requires construction site.

Utility model content

For technical problem present in prior art, the utility model proposes one and be applied to Overwater-floating floating photovoltaic Support on array buoyancy aid, including: rack body；And connector；Wherein, connector includes upper part and low portion, Wherein low portion bends inwards；Wherein rack body includes upper part and low portion, wherein the bottom portion of rack body The shape with connector is divided to cooperate and outwards bend.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid, the wherein upper part of rack body as above Including from it at an angle to outer extension the supporting plate that is bent to form flanging at end.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as above, farther includes press strip, solar energy The framework of cell panel is suitable to be clamped between supporting plate and the press strip of the upper part of rack body.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid, the wherein upper part of rack body as above Tilt relative to the low portion of rack body.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as above, farther includes to bend pressing plate, curved Crimping plate includes Part I, and it is joined with supporting plate and is incorporated in edge and bends outward；And Part II, it is upper with rack body The side shape of portion's part cooperates, and bends inwards at edge.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as above, wherein rack body farther includes Mid portion between upper part and low portion.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as above, wherein rack body farther includes Transition portion between upper part and low portion.

According to another aspect of the present utility model, propose a kind of be applied on Overwater-floating floating photovoltaic array buoyancy aid Frame, including rack body, it includes upper part and low portion, and wherein the low portion of rack body bends inwards；Support The upper part of main body includes from it at an angle to outer extension the supporting plate that is bent to form flanging at end.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid, the wherein upper part of rack body as above Tilt relative to the low portion of rack body.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as above, farther includes to bend pressing plate, curved Crimping plate includes Part I, and it is joined with supporting plate and is incorporated in edge and bends outward；And Part II, itself and the top portion of support The side shape divided cooperates, and bends inwards at edge.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as above, wherein rack body farther includes Mid portion between upper part and low portion.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as above, wherein rack body farther includes Transition portion between upper part and low portion.

According to an aspect of the present utility model, a kind of photovoltaic module is proposed, including: buoyancy aid, it includes multiple bearing；Too Sun energy cell panel, it includes framework；Multiple supports being applied to as above on Overwater-floating floating photovoltaic array buoyancy aid, its peace It is contained on multiple bearings of main buoyancy aid, and is connected to the framework of solar panel；Wherein, at least one is applied as above The height of the support on floating type water photovoltaic array buoyancy aid is applied to float type water glazing as above more than another Support on photovoltaic array buoyancy aid.

According to an aspect of the present utility model, proposing a kind of photovoltaic array, it includes photovoltaic module as above.

According to an aspect of the present utility model, a kind of photovoltaic plant, it includes photovoltaic array as above.

Accompanying drawing explanation

Below, will in conjunction with accompanying drawing, preferred implementation of the present utility model be described in more detail, wherein:

Fig. 1 is the schematic diagram of the floatation type photovoltaic array according to an embodiment of the present utility model；

Fig. 2 A-Fig. 2 H is the main buoyancy aid schematic diagram according to an embodiment of the present utility model；

Fig. 3 A-Fig. 3 F is the schematic diagram of the horizontal buoyancy aid according to an embodiment of the present utility model；

Fig. 4 A-Fig. 4 E is the schematic diagram of the longitudinal buoyancy aid according to an embodiment of the present utility model；

Fig. 5 A-Fig. 5 E is the schematic diagram of buoyancy aid between the horizontal stroke according to an embodiment of the present utility model；

Fig. 6 be according to each buoyancy aid of embodiment of the present utility model between connection diagram；

Fig. 7 be according to each buoyancy aid of embodiment of the present utility model between connection diagram；

Fig. 8 is the schematic diagram of the photovoltaic module according to an embodiment of the present utility model；

Fig. 9 A-Fig. 9 C is the schematic diagram of the mounting bracket according to an embodiment of the present utility model；

Figure 10 is the explosive view of the mounting bracket of the reduction procedure according to another embodiment of the present utility model；

Figure 11 A-Figure 11 F is the schematic diagram of the supporting structure according to embodiment of the present utility model；

Figure 12 is that the draw piece according to an embodiment of the present utility model coordinates schematic diagram with buoyancy aid；

Figure 13 is the draw piece according to an embodiment of the present utility model and buoyancy aid scheme of installation；And

Figure 14 is the anchor structure schematic diagram of the photovoltaic array according to an embodiment of the present utility model.

Detailed description of the invention

For making the purpose of this utility model embodiment, technical scheme and advantage clearer, new below in conjunction with this practicality Accompanying drawing in type embodiment, is clearly and completely described the technical scheme in this utility model embodiment, it is clear that retouched The embodiment stated is a part of embodiment of this utility model rather than whole embodiments.Based on the enforcement in this utility model Example, the every other embodiment that those of ordinary skill in the art are obtained under not making creative work premise, broadly fall into The scope of this utility model protection.

In the following detailed description, may refer to as the application part for the specific embodiment of the application is described Each Figure of description.In the accompanying drawings, similar reference describes substantially similar assembly in different drawings.This Shen Each specific embodiment please has carried out the most detailed description following so that possess the general of this area relevant knowledge and technology Logical technical staff can implement the technical scheme of the application.It is to be understood that, it is also possible to utilize other embodiments or to the application Embodiment carry out structure, logic or electrical change.

The utility model proposes the buoyancy aid of a kind of Novel floating photovoltaic array that can be used for photovoltaic plant waterborne, adapt to Ability is strong, and structural strength is high, and easy construction is suitable to build on a large scale installation.

Fig. 1 is the schematic diagram of the floatation type photovoltaic array according to an embodiment of the present utility model.As it is shown in figure 1, light Photovoltaic array 100 includes one or more photovoltaic module.It will be appreciated by those skilled in the art that in Fig. 1 and diagrammatically only illustrate 4 groups of photovoltaic modulies 101,102,103 and 104, often group includes 12 photovoltaic modulies.Photovoltaic array 100 can be according to actual need Including any number of photovoltaic module.One photovoltaic module generally comprises a solar panel.

As it is shown in figure 1, photovoltaic array 100 farther includes the protection wall 110 around one or more photovoltaic modulies.Such as figure Shown in, protection wall 110 is generally rectangular shaped, and four sides is around whole photovoltaic modulies.It will be appreciated by those skilled in the art that in Fig. 1 Protection wall be also schematic.Protection wall 110 can have any shape, around or partially around all or part photovoltaic module.

Fig. 2 A-Fig. 2 G is the main buoyancy aid schematic diagram according to an embodiment of the present utility model.Fig. 2 A and Fig. 2 B is main floating The front and back axonometric chart of body, Fig. 2 C and Fig. 2 D are top view and the front views of main buoyancy aid, it is shown that the overall shape of main buoyancy aid Shape.Fig. 2 E is the sectional view of main buoyancy aid, it is shown that the internal structure of main buoyancy aid.And Fig. 2 F and Fig. 2 G is the bearing of main buoyancy aid respectively With the partial enlarged drawing drawing ear, it is shown that the concrete structure of the two.

As it can be seen, main buoyancy aid 200 includes main body 201.Upper surface in main body 201 is substantially smooth, including one Individual or multiple bearings 202.Be additionally provided with one or more groups in main body 201 and draw ear 203, often group draw ear include more than 2 draw ear.

According to an example of the present utility model, the upper surface of main body 201 is generally rectangular shaped.On 4 angles of main buoyancy aid It is respectively provided with 4 bearings.Bearing is for being connected with support, thus supports the solar panel fixing with support.Main buoyancy aid with It is respectively provided with 4 groups on two sides that laterally buoyancy aid is connected and draws ear, often group 2.Often group draws ear for a horizontal buoyancy aid even Connect.Specifically, often group draw ear to include one is arranged on main buoyancy aid angle and draws ear 204 He from main body outward extending first On one side being arranged on main buoyancy aid second draws ear 205, and second draws ear 205 to draw ear 204 near first but draw ear with first 204 is spaced apart.

According to an embodiment of the present utility model, slightly interior on two sides that main buoyancy aid is not connected with horizontal buoyancy aid Recessed, to improve the intensity of main body itself.Further, according to an embodiment of the present utility model, main buoyancy aid and horizontal buoyancy aid Being respectively provided with multiple groove 206 on two sides being connected, second during often group draws ear draws ear 205 to be contained in groove 206.Enter One step ground, according to an embodiment of the present utility model, bearing 202 is arranged on the upper surface 201 of main buoyancy aid, and is positioned at often group The first of ear is drawn to draw ear 204 and second to draw between ear 205.This bearing and draw the spaced design between ear to be also beneficial to improve main The intensity of body, the effect of particularly lateral external force.

The intensity of main buoyancy aid is firmly connected the stability for photovoltaic array with main buoyancy aid with horizontal buoyancy aid notable shadow Ring.Main buoyancy aid of the present utility model has carried out many improvement on material and structure, with improve main buoyancy aid intensity and with laterally The firmness that buoyancy aid connects.

According to an example of the present utility model, main buoyancy aid uses high-density polyethylene material, and intensity is high, toughness and durable Property is good.According to an example of the present utility model, between main buoyancy aid and laterally buoyancy aid, have employed the most double connected mode drawing ear, The firmness connected is greatly increased.Under extreme conditions, even if one is drawn ear to rupture, another draws ear to be also enough to master Buoyancy aid and horizontal buoyancy aid are firmly attached.Further, this design make safeguard between interval can be longer, reduce entirety Maintenance cost.According to an example of the present utility model, the groove of main buoyancy aid side draws except can accommodate main buoyancy aid second Ear, it is also possible to accommodate horizontal buoyancy aid and be similar to one group of setting and draw the be positioned in ear on angle the 3rd to draw ear.In like manner, on main buoyancy aid angle First receiving the 4th drawing ear can also be received setting similar with on horizontal buoyancy aid is drawn in the groove of ear.Thus, main buoyancy aid with Laterally not only there is the most double connection drawing ear between buoyancy aid, between main buoyancy aid and laterally buoyancy aid, embedded structure can also be formed, from And increase bonding strength between the two further.Meanwhile, the groove design of main buoyancy aid side itself is also beneficial to improve main floating The intensity of body.

Further, as it can be seen, be respectively provided with, in the upper and lower surface of main buoyancy aid, the netted concave that pattern is different. Netted concave can increase the ability of main buoyancy aid opposing external force, increases the intensity of main buoyancy aid.Upper and lower surface pattern is different, Make the most all differences in direction of winner's buoyancy aid opposing external force, be more beneficial for improving the intensity of main buoyancy aid.According to of the present utility model One example, upper surface arranges 42 degree and 132 degree orthogonal netted concaves 207.Lower surface arranges 0 degree and 90 degree and mutually hangs down Straight netted concave 208.

Further, according to an embodiment of the present utility model, main buoyancy aid is provided through the opening of main buoyancy aid 209.The existence of opening is also for the intensity increasing main buoyancy aid.According to an example of the present utility model, opening is bar shaped, bar The long limit of shape is perpendicular to the direction of horizontal buoyancy aid.Due to the fixation of horizontal buoyancy aid, longitudinal stress is not likely to produce destruction. The direction of this opening arranges increase main buoyancy aid opposing lateral stress so that main buoyancy aid intensity is higher.

Further, with reference to Fig. 2 E, main buoyancy aid is hollow (in figure, dash area represents the cross section of hollow).Floating of hollow Body both can reduce the consumption of material can also increase the buoyancy of main buoyancy aid.Meanwhile, the structure of hollow is for opposing stress and shape Become and also have certain benefit.

Further, with reference to Fig. 2 F, bearing 203 is arranged on main buoyancy aid, and bearing is overall in bar shaped, trapezoidal flat including one Platform 210 and the "T"-shaped raised line 211 (shape of section shown in Fig. 2 E) extended from trapezoid platform.Top at "T"-shaped raised line Two grooves are formed, for coordinating with the installation of support between lateral extension portions 212 and trapezoid platform 210.

Further, with reference to Fig. 2 G, draw ear 201 one-body molded with main buoyancy aid, naturally stretch out from main buoyancy aid.Draw ear Including a through hole 214 so that screw 213 can pass.In order to increase the intensity of gallal, draw and be provided with on ear radially and annular Reinforcement 215.

Fig. 3 A-Fig. 3 F is the schematic diagram of the horizontal buoyancy aid according to an embodiment of the present utility model.Fig. 3 A and Fig. 3 B is The laterally front and back axonometric chart of buoyancy aid, Fig. 3 C is the top view of horizontal buoyancy aid, and Fig. 3 D is the front view of horizontal buoyancy aid, it is shown that The global shape of horizontal buoyancy aid.And Fig. 3 E is the sectional view of horizontal buoyancy aid, it is shown that the laterally internal structure of buoyancy aid.And Fig. 3 F It it is the partial enlarged drawing drawing ear, it is shown that its concrete structure.

Laterally buoyancy aid includes main body 310.Laterally the upper surface of buoyancy aid is substantially in bar shaped.Laterally the upper surface of buoyancy aid is the most flat Smooth, draw ear including least one set, often group draw ear at least to include two are drawn ear.According to an example of the present utility model, such as figure institute Show, two sides that horizontal buoyancy aid 300 is connected with main buoyancy aid are respectively provided with 4 groups and draw ear, often group 2.Often group draws ear to include one On the individual angle being arranged on horizontal buoyancy aid and the outward extending 3rd draw ear 301 and the 4th drawing of being arranged on the side of horizontal buoyancy aid Ear 302, the 4th draws ear 302 draw ear 301 near the 3rd and draw ear 301 spaced apart with the 3rd be positioned on angle.Further, according to An embodiment of the present utility model, two sides that main buoyancy aid is connected with horizontal buoyancy aid is respectively provided with multiple groove 303, often Group draws the in ear the 4th to draw ear 302 to be contained in groove 303.

The laterally intensity of buoyancy aid and laterally being firmly connected the stability for photovoltaic array and have between buoyancy aid with main buoyancy aid Appreciable impact.Horizontal buoyancy aid of the present utility model has carried out many improvement on material and structure, with improve its intensity and With the firmness being connected.

According to an example of the present utility model, horizontal buoyancy aid uses high-density polyethylene material, and intensity is high, toughness and resistance to Property is good for a long time.According to an example of the present utility model, between horizontal buoyancy aid and main buoyancy aid, have employed the most double connection side drawing ear Formula so that the firmness of connection is greatly increased.Under extreme conditions, even if one is drawn ear to rupture, another draws ear to be also enough to Main buoyancy aid and horizontal buoyancy aid are firmly attached.Further, this design make safeguard between interval can be longer, reduce whole The maintenance cost of body.According to an example of the present utility model, the groove of horizontal buoyancy aid side is except accommodating horizontal buoyancy aid The 4th draw ear, it is also possible to accommodate main buoyancy aid and be similar to one group of setting and draw ear is positioned on angle first to draw ear.In like manner, laterally float The receiving second that on body angle the 3rd draws ear can also be housed inside on main buoyancy aid similar setting is drawn in the groove of ear.Thus, main Not only there is the most double connection drawing ear between buoyancy aid and laterally buoyancy aid, chimeric knot between main buoyancy aid with laterally buoyancy aid, can also be formed Structure, thus increase bonding strength between the two further.Meanwhile, the groove design of horizontal buoyancy aid side itself is also beneficial to carry The intensity of high main buoyancy aid.

Further, as it can be seen, be respectively provided with different netted recessed of pattern in the upper and lower surface of horizontal buoyancy aid Line.Netted concave can increase the ability of horizontal buoyancy aid opposing external force, increases the intensity of horizontal buoyancy aid.Upper and lower surface figure Case is different so that the laterally the most all differences in direction of buoyancy aid opposing external force.According to an example of the present utility model, upper surface sets Put 45 degree and 135 degree orthogonal netted concaves 304.Lower surface arranges 0 degree and 90 degree orthogonal netted concave 305.

Further, with reference to Fig. 3 D and 3E, the lower surface of horizontal buoyancy aid arranges nonpenerative opening 306 (shadow part in figure Divide the cross section representing hollow).The existence of opening is also for the intensity increasing horizontal buoyancy aid.According to a reality of the present utility model Example, opening is along the bar shaped in horizontal buoyancy aid direction and stepped, gradually tapers up to upper surface from lower surface.Strong in order to increase Degree, the lower section of upper surface is provided with reinforcement.

Laterally the strip gab of buoyancy aid bottom both can reduce the consumption of material and can also increase the buoyancy of horizontal buoyancy aid.With Time, strip gab structure also has certain benefit for opposing stress.

Further, one-body molded with horizontal buoyancy aid with reference to Fig. 3 F, La Er, naturally stretch out from horizontal buoyancy aid.Draw Through hole it is provided with, to allow screw to pass through on ear.In order to increase the intensity of gallal, draw and arrange on ear radially and the reinforcement of annular Muscle.

Fig. 4 A-Fig. 4 E is the schematic diagram of the longitudinal buoyancy aid according to an embodiment of the present utility model.Fig. 4 A and Fig. 4 B is The front and back axonometric chart of longitudinal buoyancy aid, Fig. 4 C is the top view of longitudinal buoyancy aid, and Fig. 4 D is the front view of longitudinal buoyancy aid, it is shown that The global shape of longitudinal buoyancy aid.And Fig. 4 E is the sectional view of longitudinal buoyancy aid, it is shown that the internal structure of longitudinal buoyancy aid.

Longitudinal buoyancy aid includes main body 410.The upper surface of longitudinal buoyancy aid, substantially in bar shaped, draws ear including one or more groups, often Group draws ear to include, and at least 2 are drawn ear.As it can be seen, be respectively provided with 2 on two sides being connected with horizontal buoyancy aid of longitudinal buoyancy aid 400 Group draws ear, often 2 (if can include in the case of being connected with 4 horizontal buoyancy aids that 4 groups are drawn ear) of group.Often group draws ear to include one On the individual angle being arranged on longitudinal buoyancy aid and stretch out and the 5th draw on ear 401 and a side being arranged on longitudinal buoyancy aid 6th draws ear 402, and the 6th draws ear 402 to draw ear 401 near the 5th draws ear 401 spaced apart with the 5th be positioned on angle.Longitudinal buoyancy aid Often group draw ear for being connected with a horizontal buoyancy aid.Further, according to an embodiment of the present utility model, longitudinal buoyancy aid Being respectively provided with multiple groove 403 on the side being connected with horizontal buoyancy aid, the 6th during often group draws ear draws ear 402 to be contained in groove In 403.

Longitudinal buoyancy aid of the present utility model has carried out many improvement on material and structure, with improve its intensity and with even The firmness connect.According to an example of the present utility model, longitudinal buoyancy aid uses high-density polyethylene material, and intensity is high, toughness And good endurance.According to an example of the present utility model, between longitudinal buoyancy aid and laterally buoyancy aid, have employed the most double ear that draws Connected mode so that the firmness of connection is greatly increased.Under extreme conditions, even if one is drawn ear to rupture, another draws ear Also be enough to be firmly attached main buoyancy aid and horizontal buoyancy aid.Further, this design make safeguard between interval can be longer, fall Low overall maintenance cost.According to an example of the present utility model, the groove of longitudinal buoyancy aid side is vertical except accommodating Ear is drawn, it is also possible to accommodate horizontal buoyancy aid and be similar to one group of setting and draw the ear is positioned on angle the 3rd to draw ear to the 6th of buoyancy aid the.With Reason, the 3rd on horizontal buoyancy aid angle draws ear can also be housed inside the similar receiving the 6th arranged on longitudinal buoyancy aid and draws the groove of ear In.Thus, not only there is the most double connection drawing ear between longitudinal buoyancy aid and laterally buoyancy aid, between longitudinal buoyancy aid and laterally buoyancy aid also Embedded structure can be formed, thus increase bonding strength between the two further.Meanwhile, the groove of longitudinal buoyancy aid side sets Meter itself is also beneficial to improve the intensity of main buoyancy aid.

Further, as it can be seen, be respectively provided with different netted recessed of pattern in the upper and lower surface of longitudinal buoyancy aid Line.Netted concave can increase the ability of longitudinal buoyancy aid opposing external force, increases the intensity of longitudinal buoyancy aid.Upper and lower surface figure Case is different so that the most all differences in direction of longitudinal buoyancy aid opposing external force.According to an example of the present utility model, upper surface sets Put 45 degree and 135 degree orthogonal netted concaves 404.Lower surface arranges 0 degree and 90 degree orthogonal netted concave 405.

Further, with reference to Fig. 4 D and 4E, the lower surface of longitudinal buoyancy aid arranges nonpenerative opening 406 (shadow part in figure Divide the cross section representing hollow).The existence of opening is also for the intensity increasing longitudinal buoyancy aid.According to a reality of the present utility model Example, opening is along the bar shaped in longitudinal buoyancy aid direction and stepped, gradually tapers up to upper surface from lower surface.Strong in order to increase Degree, the lower section of upper surface is provided with reinforcement.

The strip gab of longitudinal buoyancy aid bottom both can reduce the consumption of material can also increase the buoyancy of longitudinal buoyancy aid.With Time, strip gab structure also has certain benefit for opposing stress.

Fig. 5 A-Fig. 5 E is the schematic diagram of buoyancy aid between the horizontal stroke according to an embodiment of the present utility model.Fig. 5 A and Fig. 5 B is The front and back axonometric chart of buoyancy aid between horizontal stroke, Fig. 5 C is the top view of buoyancy aid between horizontal stroke, and Fig. 5 D is the front view of buoyancy aid between horizontal stroke, it is shown that The global shape of buoyancy aid between horizontal stroke.And Fig. 5 E is the sectional view of buoyancy aid between horizontal stroke, it is shown that the internal structure of buoyancy aid between horizontal stroke.

Between horizontal stroke, buoyancy aid includes main body 510.Buoyancy aid 500 general square shape between horizontal stroke, is arranged on angle and naturally outside including multiple Extend and draw ear 501-504.According to an embodiment of the present utility model, ear is drawn to be arranged between horizontal stroke on the side of buoyancy aid.According to this One example of utility model, between horizontal stroke, 4 of buoyancy aid are drawn ear to be all simultaneously connected to main buoyancy aid and horizontal buoyancy aid.Or, floating between horizontal stroke 2 of body are drawn ear, are simultaneously connected to main buoyancy aid and horizontal buoyancy aid；Other 2 are drawn ear to be connected to horizontal buoyancy aid.New according to this practicality One embodiment of type, between horizontal stroke, buoyancy aid uses high-density polyethylene material, and intensity is high, and toughness and good endurance, the life-span is long.Enter one Step ground, between horizontal stroke of the present utility model, buoyancy aid structurally also uses many improvement, with improve between horizontal stroke the intensity of buoyancy aid self and The firmness connected.Such as, have employed double connected mode drawing ear between horizontal stroke between buoyancy aid and other buoyancy aids so that connection firm Degree is greatly increased.Under extreme conditions, even if one is drawn ear to rupture, another draw ear also be enough to by buoyancy aid between horizontal stroke and other Buoyancy aid firmly connects, so that maintenance can be carried out in time.The groove design that between horizontal stroke, the side of buoyancy aid includes itself is the most favourable In improving the intensity of buoyancy aid between horizontal stroke.

Further, as it can be seen, between horizontal stroke the upper and lower surface of buoyancy aid be respectively provided with different netted recessed of pattern Line.Netted concave can increase the ability of buoyancy aid opposing external force between horizontal stroke, increases the intensity of buoyancy aid between horizontal stroke.Upper and lower surface figure Case is different so that the most all differences in direction of buoyancy aid opposing external force between horizontal stroke.According to an example of the present utility model, upper surface sets Put 45 degree and 135 degree orthogonal netted concaves 505.Lower surface arranges 0 degree and 90 degree orthogonal netted concave 506. Further, with reference to Fig. 5 D and 5E, between horizontal stroke, buoyancy aid is (in figure, dash area represents the cross section of hollow) of hollow.

Main buoyancy aid of the present utility model and horizontal buoyancy aid can be interconnected to form photovoltaic array.Longitudinal buoyancy aid is optional , it can form photovoltaic array or the border of part photovoltaic array.Between horizontal stroke, buoyancy aid is optional, and it can increase main buoyancy aid The intensity being connected with horizontal buoyancy aid.

Fig. 6 be according to each buoyancy aid of embodiment of the present utility model between connection diagram.Fig. 6 shows photovoltaic A part for array.As shown in Figure 6, horizontal buoyancy aid 603 is the most elongated, and is connected respectively to 4 near its 4 angles Main buoyancy aid 601.A solar panel 602 is carried on each main buoyancy aid 601.

Fig. 7 be according to each buoyancy aid of embodiment of the present utility model between connection diagram.Fig. 7 shows photovoltaic A part for array.As it is shown in fig. 7, main buoyancy aid 601 is generally rectangular shaped, and near its 4 angles, it is connected respectively to 4 laterally Buoyancy aid 603.Further, between buoyancy aid horizontal on border, connection has longitudinal buoyancy aid 604.Further, it is being positioned at limit Connect between two horizontal buoyancy aids 603 in boundary and have buoyancy aid 605 between horizontal stroke.Further, between horizontal stroke, buoyancy aid 605 is connected to main buoyancy aid Two angles of 601, thus overall structure is played the effect of reinforcing.

Fig. 8 is the schematic diagram of the photovoltaic module according to an embodiment of the present utility model.As it can be seen, photovoltaic array 800 include multiple main buoyancy aid 601 and the cell panel 602 being arranged on main buoyancy aid 601.According to an enforcement of the present utility model Example, a main buoyancy aid 601 arranges a cell panel 602.Photovoltaic module 800 farther includes around multiple main buoyancy aids 601 Border 610.Border 610 includes multiple horizontal buoyancy aid 603 and multiple longitudinal buoyancy aid 604.In border 610, it is provided with and is arranged in The multiple horizontal buoyancy aid 603 of row.Main buoyancy aid 601 is connected between multiple horizontal buoyancy aid 603.Longitudinal buoyancy aid 604 is connected to multiple Laterally between buoyancy aid 603.According to an embodiment of the present utility model, main buoyancy aid is connected to 4 horizontal buoyancy aids.Longitudinal buoyancy aid is even Receive 2 or 4 horizontal buoyancy aids.

According to an embodiment of the present utility model, between the horizontal buoyancy aid 603 on border 610, include buoyancy aid 605 between horizontal stroke, In the horizontal buoyancy aid that its two be connected on border 610 are adjacent between 603.According to an embodiment of the present utility model, limit Buoyancy aid 605 between horizontal stroke can be with or without between the rows of multiple horizontal buoyancy aids 603 of arrangement in boundary.

Fig. 9 A-Fig. 9 C is the schematic diagram of the mounting bracket according to an embodiment of the present utility model.Fig. 9 A shows logical Cross support and solar panel is arranged on the generalized section of main buoyancy aid.As previously shown, main buoyancy aid by two groups of short supports and Long stent supports other solar panel.Fig. 9 B shows the mounting structure of short support；Fig. 9 C illustrates the installation of long stent Structure.Figure 10 is the explosive view of the mounting bracket of the reduction procedure according to another embodiment of the present utility model.Figure 11 A-schemes 11F is the schematic diagram of the supporting structure according to embodiment of the present utility model.

According to an embodiment of the present utility model, as shown in Figure 9 A, provide right by long stent 901 and short support 902 The support of solar panel 903, it is achieved that the inclination at the certain inclination angle of solar panel 903.Length support 901 and 902 One end is installed on the bearing 9051 and 9052 of main buoyancy aid 904, thus realizes the connection with main buoyancy aid 904.Long and short two kind support The other end be installed on the metal framework of solar panel 903, thus realize and the connection of solar panel 903.Long The height of short support 901 and 902 can be processed according to actual needs, and main buoyancy aid 903 itself is smooth.Thus, this reality Different angles can be realized with novel photovoltaic array thus be adapted to different regions.And, support can be aluminium alloy Component, cost is the highest；Main buoyancy aid of the present utility model and other buoyancy aids then can become standardized components, carry out extensive Production so that cost reduce.On the other hand, without considering the angle of main buoyancy aid when the standardization of main buoyancy aid also makes to install Degree, makes installation more convenient.

As shown in Fig. 9 B and 11A, long stent 901 includes rack body 9011 and connector 9012.Both can be flat The plate-shaped metal material of row is formed, and includes parallel connecting plate between sheet metal at spacing intervals.Specifically, connect Part 9012 includes upper part 9013 and low portion 9014, and low portion 9014 bends inwards, and formation can be main floating Two bases 9015 extended internally on the trapezoid platform of body bearing 9051.Low portion 9014 and the main buoyancy aid of connector 9012 The T row raised line shape of bearing 9051 cooperate, the T-shaped of the bearing 9051 that two bases 9015 are adapted for insertion into main buoyancy aid is convex In groove between horizontal continuation and the trapezoid platform of bar, form close-fitting relationship, and realize installation therebetween. Rack body 9011 includes upper part 9016, mid portion 9017 and low portion 9018.Low portion 9018 outwards bends, It is formed at outward extending two bases 9019 on the trapezoid platform of main buoyancy aid bearing 9051.The low portion of rack body 9011 9018 cooperate with connector 9012 shape, such that it is able to realize installation therebetween.The top portion of rack body 9011 Points 9016 include from it at an angle to outer extension the supporting plate 90161 that is bent to form flanging at end.Supporting plate 90161 with Press strip 90162 coordinates, and a part for the framework of solar panel is pressed between the two, and solid by through bolt-lock Fixed, thus solar panel is fixed on long stent.

As shown in Figure 9 C, the structure of short support 902 is similar with long stent 901, including rack body 9021 and connector 9022.The connector 9022 of short support is similar with the connector 9012 of long stent, the shortest, repeats no more here.Short Rack body 9021 includes upper part 9023 and low portion 9024, but there is not mid portion；Further, upper part 9023 is at an angle with low portion 9024.Low portion 9024 coordinates with connector 9022 and bent outward in shape Folding, is formed at outward extending two bases on the trapezoid platform of main buoyancy aid bearing 9052.In order to increase intensity, low portion 9024 can be fixed by through bolt-lock 9025 with connector 9022 in shape.The upper part 9023 of short support include from Supporting plate 9026 that is that extend on it and that bend inwards at edge.Part I is included with the bending pressing plate 9027 of short support assorted 90271, it is joined with supporting plate 9026 and is incorporated in edge and bends outward；Bending pressing plate 9027 includes Part II 90272, itself and short The side of the upper part 9023 of frame coordinates, and bends inwards at edge.The Part I 90271 of bending pressing plate 9027 and supporting plate A part for 9026 frameworks that can push down solar panel betwixt, and bend the Part I 90272 of pressing plate 9027 with Can be fixed by through bolt-lock between the upper part 9023 of short support, thus also by the framework pressure of solar panel Tightly.

According to one embodiment of present invention, the low portion of long stent or short rack body can be arranged to the most inwardly prolong Stretch the formation supporting construction that coordinates with the T raised line on main buoyancy aid bearing and stretch out, thereby eliminating connector so that support Main body is tightr with the combination of main buoyancy aid bearing.

In the case of intensity allows, support can be given up the part of outwards bending, so that the design of support is more For simple and low cost.According to an embodiment of the present utility model, with reference to Figure 10 and Figure 11 C, 11D, 11E and 11F, except length Beyond the part-structure of short support, other parts of the present embodiment are identical with a upper embodiment.4 are arranged on main buoyancy aid 1001 Seat 1002-1005.Two group leaders are short, and totally 4 support 1006-1009 may be installed 4 bearing 1002-1005 on main buoyancy aid 1001 On, and support cell panel 1010.Bending pressing plate 1010-1014 coordinates with support 1006-1009, by the framework of cell panel 1010 1020 fix with support 1006-1009, thus realize the fixing of cell panel 1010.

With reference to Figure 11 C-11F, long stent 1101 includes upper part 1103, transition portion 1104, mid portion 1105 and Low portion 1106.Short support 1102 includes upper part 1107 and low portion 1108.Bending pressing plate 1111 and 1112 is respectively Coordinate with length support 1101 and 1102, it is achieved fixing of cell panel.

The short support 1102 of the present embodiment is similar with the short support 902 of a upper embodiment, but low portion 1108 Being changed to bend inwards, thus low portion 1108 directly coordinates with the T-shaped raised line of main buoyancy aid bearing, it is achieved support and main buoyancy aid Between installation, thus eliminate connector.Similarly, the low portion 1106 of long stent 1101 is also changed to bend inwards, Thus directly coordinate with the T-shaped raised line of main buoyancy aid bearing, eliminate connector.

Another change of the present embodiment is, long stent 1101 adds transition portion 1104.Depositing of transition portion In the intensity that both can increase long stent 1101 so that transition is the mildest, and there is higher external force resistance ability, it is also possible to Support the fixed form of bending pressing plate, be more conducive to the enforcement installed.

According to an embodiment of the present utility model, by rope, photovoltaic array is anchored so that floating type water photovoltaic battle array Arrange more stable.If be fixed on single buoyancy aid by rope, easily buoyancy aid is caused damage.For the utility model proposes Buoyancy aid, by main buoyancy aid and laterally combination between buoyancy aid realize being simultaneously connected to rope multiple buoyancy aid dexterously, thus Avoid the broken meeting for buoyancy aid, and without buoyancy aid itself is made any change.

Figure 12 is the anchor structure schematic diagram of the photovoltaic array according to an embodiment of the present utility model.Figure 13 is basis The draw piece of an embodiment of the present utility model coordinates schematic diagram with buoyancy aid.Figure 14 is according to an embodiment of the present utility model Draw piece and buoyancy aid scheme of installation.

As shown in figs. 12-14, in the space that main buoyancy aid and horizontal buoyancy aid cross, both can add between horizontal stroke that buoyancy aid can also It is used for fixing the draw piece being connected with rope, thus realizes the connection of rope and multiple buoyancy aids.

As it can be seen, draw piece 1201 includes four outward extending arms, the end of each arm includes edge through hole 1202- 1205.The other end of each arm is interconnected to form the center of draw piece 1201.At the center of draw piece 1201, there is central through hole 1206, it is for being connected with rope by rope steady pin, and each in edge through hole 1202-1205 is simultaneously floating with main The ear that draws of body and horizontal buoyancy aid connects.Thus, draw piece 1201 and main buoyancy aid 1210,1220 about and laterally buoyancy aid 1230, 1240, form stable structure.The most therefore the pulling force of rope disperses, thus protects buoyancy aid.

As shown in figure 14, anchor structure 1400 includes the draw piece 1401-1404 being arranged in photovoltaic array.Draw piece is preferably pacified It is contained in the region that main buoyancy aid and horizontal buoyancy aid cross.Draw piece 1401-1404 is connected to column 1409 by rope 1405-1408 On 1410.As it can be seen, rope can be secured on column by anchor ear.Figure 14 illustrate only draw piece 1403 and 1404 Main buoyancy aid around and horizontal buoyancy aid, the main buoyancy aid in around other draw pieces and photovoltaic module and horizontal buoyancy aid.Preferably, Photovoltaic array includes multiple draw piece, and each column is also connected to multiple draw piece.For photovoltaic array waterborne, The rope anchored is scattered, and rope to be connected to buoyancy aid be also scattered, thus can form the stable knot of entirety Structure.This is highly beneficial for improving the environmental effects such as the photovoltaic array waterborne meteorological change of opposing；Further, those skilled in the art should When noticing, the most therefore the most main buoyancy aid or horizontal buoyancy aid make any change, and it naturally meets rope and divides Dissipate and buoyancy aid scattered anchoring condition, also reduce difficulty for construction simultaneously so that it is waterborne that buoyancy aid of the present utility model is constituted Photovoltaic array can meet the construction environment building photovoltaic plant waterborne, it is achieved Fast Installation construction.

Above-described embodiment is the most for illustration of the utility model, and is not to restriction of the present utility model, relevant technology The those of ordinary skill in field, in the case of without departing from this utility model scope, it is also possible to make a variety of changes and modification, because of This, the technical scheme of all equivalents also should belong to category disclosed in this utility model.

Claims (15)

1. it is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid, including:

Rack body；And connector；

Wherein, connector includes upper part and low portion, and wherein low portion bends inwards；

Wherein rack body includes upper part and low portion, wherein the shape phase of the low portion of rack body and connector Interworking merges outwards bending.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 1, wherein rack body is upper Portion's part includes from it at an angle to outer extension the supporting plate that is bent to form flanging at end.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 2, farther includes press strip, too Sun can the framework of cell panel be suitable to be clamped between supporting plate and the press strip of the upper part of rack body.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 2, wherein rack body is upper Portion's part tilts relative to the low portion of rack body.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 4, farther includes bending pressure Plate, bending pressing plate includes Part I, and it is joined with supporting plate and is incorporated in edge and bends outward；And Part II, itself and support master The side shape of the upper part of body cooperates, and bends inwards at edge.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 1, wherein rack body enters one Step includes the mid portion between upper part and low portion.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 4, wherein rack body enters one Step includes the transition portion between upper part and low portion.

8. it is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid, including:

Rack body, it includes upper part and low portion, wherein the low portion of rack body bend inwards or simultaneously to Inner bending and outwards bending；The upper part of rack body includes from it at an angle to outer extension and at end bent Become the supporting plate of flanging.

Being applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 8, wherein rack body is upper Portion's part tilts relative to the low portion of rack body.

It is applied to the support on Overwater-floating floating photovoltaic array buoyancy aid the most as claimed in claim 9, farther includes bending pressure Plate, bending pressing plate includes Part I, and it is joined with supporting plate and is incorporated in edge and bends outward；And Part II, itself and support The side shape of upper part cooperates, and bends inwards at edge.

11. are applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as claimed in claim 8, and wherein rack body enters one Step includes the mid portion between upper part and low portion.

12. are applied to the support on Overwater-floating floating photovoltaic array buoyancy aid as claimed in claim 8, and wherein rack body enters one Step includes the transition portion between upper part and low portion.

13. 1 kinds of photovoltaic modulies, including:

Main buoyancy aid, it includes multiple bearing；

Solar panel, it includes framework；

Multiple supports being applied on Overwater-floating floating photovoltaic array buoyancy aid as described in claim 1-12 is arbitrary, it is arranged on On multiple bearings of main buoyancy aid, and it is connected to the framework of solar panel；

Wherein, at least one support being applied on Overwater-floating floating photovoltaic array buoyancy aid as described in claim 1-12 is arbitrary Height more than another support being applied on Overwater-floating floating photovoltaic array buoyancy aid as described in claim 1-12 is arbitrary.

14. 1 kinds of photovoltaic arrays, it includes photovoltaic module as claimed in claim 13.

15. 1 kinds of photovoltaic plants, it includes photovoltaic array as claimed in claim 14.