CN207939447U - A kind of photovoltaic module, photovoltaic system, roof boarding and the vehicles - Google Patents

Abstract

A kind of photovoltaic module of the utility model embodiment offer, photovoltaic system, roof boarding and the vehicles, are related to photovoltaic art, photovoltaic generation unit and support member can be made to be fixed as an indivisible entirety, are deformed to avoid photovoltaic generation unit.A kind of photovoltaic module, including photovoltaic generation unit and the support member of the photovoltaic generation unit is connect and is used to support with the non-photoelectric conversion surface of the photovoltaic generation unit, the non-photoelectric conversion surface of the photovoltaic generation unit is connect with the support member heat seal.

Description

A kind of photovoltaic module, photovoltaic system, roof boarding and the vehicles

Technical field

The utility model is related to photovoltaic art more particularly to a kind of photovoltaic module, photovoltaic system, roof boarding and traffic works Tool.

Background technology

With the development of the society, people lead to heating, air-conditioning to comfortably building and the pursuit of traffic environment is higher and higher Deng energy consumption it is growing, therefore, building energy conservation and the vehicles it is energy-efficient development have become modern architecture and the vehicles hair The trend of exhibition.The utilization of Luminous energy resource on building roof and the vehicles can provide clean electricity for building and the vehicles The power energy.

Currently, being typically that the shady face of photovoltaic generation unit and metal Roof or roof are directly bonded in one using gum It rises and forms photovoltaic devices.When encountering high wind weather, it be easy to cause part and comes unglued, and photovoltaic generation unit is caused to deform, even Photovoltaic generation unit is blown up brings economic loss to even result in casualties to user.In addition, cable is usually fixedly connected In photovoltaic generation unit away from the side of metal Roof or roof, and it is exposed to the outside of photovoltaic devices, influences photovoltaic devices Appearance；Outside of the cable being electrically connected with photovoltaic generation unit because arbitrarily placing, being exposed to photovoltaic devices, causes easy to aging, rotten Erosion.

Utility model content

The embodiments of the present invention be solve in the prior art photovoltaic generation unit be easy part come unglued, yielding skill Art problem provides a kind of photovoltaic module, photovoltaic system, roof boarding and the vehicles.

In order to achieve the above objectives, the embodiments of the present invention adopt the following technical scheme that：

In a first aspect, a kind of photovoltaic module is provided, including photovoltaic generation unit and the non-light with the photovoltaic generation unit Electric conversion surface connection and the support member for being used to support the photovoltaic generation unit, the non-opto-electronic conversion of the photovoltaic generation unit Face is connect with the support member heat seal.

Optionally, the support member includes supporting part, and the photovoltaic generation unit is connect with the supporting part heat seal.

Further alternative, the support member further includes fixed part, and the fixed part is connected to together with the supporting part One plane and the edge for exceeding the photovoltaic generation unit.

It is further alternative, further include the press strip being fixedly connected with the fixed part；The edge of the photovoltaic generation unit It is folded between the press strip and the support member.

It is further alternative, further include the buffer unit being set between the photovoltaic generation unit and the press strip.

Optionally, the support member further includes strengthening portion, and the support member further includes strengthening portion, the strengthening portion with End of the fixed part far from the supporting part side connects and is directed toward the support member along the photovoltaic generation unit Direction extends.

Further alternative, the support member further includes reinforcing interconnecting piece, and the reinforcement interconnecting piece is for being fixedly connected The adjacent strengthening portion.

Optionally, further include Auxiliary support component, the Auxiliary support component deviates from the photovoltaic with the support member The side of generator unit is fixedly connected.

Second aspect, a kind of photovoltaic system, including：Photovoltaic module described in first aspect, the with the photovoltaic module The cable of one end electrical connection and the groove body for deviating from photovoltaic generation unit side positioned at the support member of the photovoltaic module；Its In, the second end of the cable is positioned in the cable placement section of the groove body.

Optionally, the groove body further includes first connecting portion, and the first connecting portion is close by the cable placement section The edge of the first end of the photovoltaic module extends along the direction parallel with the non-photoelectric conversion surface of the photovoltaic generation unit； The groove body is fixedly connected by the first connecting portion with the first end of the photovoltaic module.

Further alternative, the first connecting portion is equipped with the first fairlead, and the second end of the cable is described in First fairlead is positioned in the cable placement section.

Optionally, further include switching strengthening portion, the first connecting portion passes through the switching strengthening portion and the photovoltaic group The first end of part connects；The switching strengthening portion is equipped with the second fairlead, and the second end of the cable is drawn by described second String holes is positioned in the cable placement section；Alternatively, having between the switching strengthening portion, the photovoltaic module, the groove body The second end in gap, the cable is positioned over by the gap in the cable placement section.

Optionally, the photovoltaic system includes the multiple photovoltaic modulies being arranged along the extending direction of the groove body, phase The adjacent photovoltaic module is connected in series with, and the second end of two cables for the two neighboring photovoltaic module of connecting is in institute It states and is electrically connected in cable placement section.

Further alternative, the photovoltaic system includes that at least two edges are arranged perpendicular to the extending direction of the groove body The groove body, and at least one photovoltaic module along groove body orientation setting；Each photovoltaic module First end connects with the first connecting portion of a groove body adjacent thereto, second end and another described slot adjacent thereto The second connecting portion of body connects；Wherein, the second connecting portion of the groove body is along opposite with the edge where the first connecting portion Edge extend and it is opposite with the first connecting portion；Second end in each photovoltaic module is opposite with first end.

The third aspect provides a kind of roof boarding, including roof boarding ontology, further includes the photovoltaic system described in second aspect, Or the photovoltaic module described in first aspect；Wherein, the photovoltaic system or the photovoltaic module are set to the roof boarding ontology Outer surface.

Fourth aspect provides a kind of vehicles, including vehicles ontology, further includes the photovoltaic system described in second aspect Photovoltaic module described in system or first aspect；Wherein, the photovoltaic system or the photovoltaic module are set to the vehicles The outer surface of ontology.

A kind of photovoltaic module of the utility model embodiment offer, photovoltaic system, roof boarding, the vehicles, including photovoltaic hair Electric unit and the support member being connect with the non-photoelectric conversion surface heat seal of photovoltaic generation unit are bonded compared to using gum, this Utility model embodiment can be such that photovoltaic generation unit is connect with support member more secured by the way of heat seal connection, So, it can fix on the supporting member, will not deform if even if encountering high wind weather photovoltaic generation unit；Also, It since the area of photovoltaic generation unit is usually larger, is bonded according to gum, then needs to expend very more gums, be unfavorable for saving Therefore manufacturing cost is bonded compared to using gum, by the way of heat seal connection, can reduce the preparation for preparing photovoltaic module Cost.

On this basis, since photovoltaic generation unit and support member become an indivisible entirety, light can be increased The overall weight of component and support member is lied prostrate, so, even if encountering high wind weather, high wind is not easy to make photovoltaic generation unit It is moved with support member, to can avoid unnecessary casualties and avoid economic loss.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, other drawings may also be obtained based on these drawings.

Fig. 1 is a kind of structural schematic diagram for photovoltaic module that the utility model embodiment provides；

Fig. 2 is a kind of structural schematic diagram for photovoltaic module that the utility model embodiment provides；

Fig. 3 is a kind of structural schematic diagram for photovoltaic module that the utility model embodiment provides；

Fig. 4 is a kind of schematic side view for photovoltaic module that the utility model embodiment provides；

Fig. 5 a are a kind of schematic top plan view for press strip that the utility model embodiment provides；

Fig. 5 b are a kind of schematic top plan view for press strip that the utility model embodiment provides；

Fig. 5 c are a kind of schematic top plan view for press strip that the utility model embodiment provides；

Fig. 6 a are a kind of schematic side view for photovoltaic module that the utility model embodiment provides；

Fig. 6 b are a kind of schematic side view for photovoltaic module that the utility model embodiment provides；

Fig. 6 c are a kind of schematic side view for photovoltaic module that the utility model embodiment provides；

Fig. 7 is a kind of structural schematic diagram for photovoltaic module that the utility model embodiment provides；

Fig. 8 be Fig. 7 in W1-W2 to schematic cross-sectional view；

Fig. 9 is a kind of schematic top plan view for support member that the utility model embodiment provides；

Figure 10 is a kind of structural schematic diagram for photovoltaic module that the utility model embodiment provides；

Figure 11 be Figure 10 in P1-P2 to schematic cross-sectional view；

Figure 12 is a kind of structural schematic diagram for photovoltaic system that the utility model embodiment provides；

Figure 13 is a kind of structural schematic diagram for photovoltaic system that the utility model embodiment provides；

Figure 14 a are a kind of structural schematic diagram for groove body that the utility model embodiment provides；

Figure 14 b are a kind of structural schematic diagram for groove body that the utility model embodiment provides；

Figure 15 a be Figure 12 in B1-B2 to schematic cross-sectional view；

Figure 15 b be Figure 12 in B1-B2 to schematic cross-sectional view；

Figure 15 c are the schematic cross-sectional view that the first lead hole site is avoided in Figure 12；

Figure 16 a be Figure 13 in C1-C2 to schematic cross-sectional view；

Figure 16 b be Figure 13 in C1-C2 to schematic cross-sectional view；

Figure 16 c are the schematic cross-sectional view that the first lead hole site is avoided in Figure 13；

Figure 17 be Figure 12 in B1-B2 to schematic cross-sectional view；

Figure 18 a are a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 18 b are a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 19 a are a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 19 b are a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 20 is a kind of schematic top plan view for photovoltaic system that the utility model embodiment provides；

Figure 21 is a kind of structural schematic diagram for switching strengthening portion that the utility model embodiment provides；

Figure 22 is a kind of schematic top plan view for photovoltaic system that the utility model embodiment provides；

Figure 23 is a kind of structural schematic diagram for switching strengthening portion that the utility model embodiment provides；

Figure 24 is a kind of schematic top plan view for photovoltaic system that the utility model embodiment provides；

Figure 25 is a kind of structural schematic diagram for switching strengthening portion that the utility model embodiment provides；

Figure 26 is a kind of structural schematic diagram for photovoltaic system that the utility model embodiment provides；

Figure 27 is a kind of structural schematic diagram for photovoltaic system that the utility model embodiment provides；

Figure 28 is a kind of structural schematic diagram for photovoltaic system that the utility model embodiment provides；

Figure 29 is a kind of structural schematic diagram for switching strengthening portion that the utility model embodiment provides；

Figure 30 is a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 31 is a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 32 is a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 33 is a kind of schematic side view for photovoltaic system that the utility model embodiment provides；

Figure 34 is a kind of schematic top plan view for photovoltaic system that the utility model embodiment provides；

Figure 35 is a kind of schematic top plan view for photovoltaic system that the utility model embodiment provides；

Figure 36 is a kind of schematic top plan view for photovoltaic system that the utility model embodiment provides；

Figure 37 is a kind of schematic top plan view for photovoltaic system that the utility model embodiment provides；

Figure 38 be Figure 37 in M1-M2 to schematic cross-sectional view；

Figure 39 be Figure 37 in M3-M4 to schematic cross-sectional view；

Figure 40 be Figure 37 in M1-M2 to schematic cross-sectional view.

Reference numeral：

10- photovoltaic generation units；20- support members；21- supporting parts；22- fixed parts；23- strengthening portions；30- press strips；40- Buffer unit；50- cables；51- anode cables；52- cathode cables；60- cable troughs；61- discharge outlet；62- cable placement sections； The first fairleads of 621-；The opening of 622- groove bodies；63- first connecting portions；64- second connecting portions；70- switching strengthening portions；71- Two fairleads；The first fixed parts of 701-；The second fixed parts of 702-；80- terminal boxes；90- connectors；91- bolts；92- adapters； 100- roof boarding ontologies；100- vehicles ontologies；200- photovoltaic electric systems；800- Auxiliary support components.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work The every other embodiment obtained, shall fall within the protection scope of the present invention.

The utility model embodiment provides a kind of photovoltaic module, as shown in Figs. 1-3, including photovoltaic generation unit 10 and with light The non-photoelectric conversion surface connection of volt generator unit 10 and the support member 20 for being used to support photovoltaic generation unit 10, photovoltaic generation The non-photoelectric conversion surface of unit 10 is connect with 20 heat seal of support member.

Herein, the non-photoelectric conversion surface of photovoltaic generation unit 10 is connect with 20 heat seal of support member, is photovoltaic generation unit 10 non-photoelectric conversion surface is combined together with support member 20 by heating lamination, makes support member 20 and photovoltaic generation unit 10 melt as indivisible entirety.

It is exemplary, under conditions of 0.5~1 atmospheric pressure, 100~200 DEG C, to photovoltaic generation unit 10 and support member 20 hot melt laminations 20~40 minutes.

For example, when support member 20 is metal material, under conditions of 1 atmospheric pressure, 160 DEG C, to photovoltaic generation list Member 10 and the hot melt of support member 20 are laminated 30 minutes.

Optionally, support member 20 includes supporting part 21, and photovoltaic generation unit 10 is specifically connect with 21 heat seal of supporting part.

It should be noted that first, as shown in Figure 1, when support member 20 only includes supporting part 21, support member 20 can It is connected on photovoltaic generation unit 10 with whole heat seals；As shown in Figures 2 and 3, support member 20 can also part heat seal connection In on photovoltaic generation unit 10, as long as photovoltaic generation unit 10 can become an indivisible entirety with support member 20.

Second, the material of support member 20 is not defined, as long as support member 20 can connect with 10 heat seal of photovoltaic module It is connected in an entirety, and support member 20 will not melt during heat seal.

Specifically, support member 20 can be metal material.The support member 20 of metal material is not but not in high tender feeling Melting under condition, also there is lightning protection effect, and the material of same volume, the weight of metal is bigger, can prevent in high wind weather, with The photovoltaic generation unit 10 of 20 heat seal of support member connection blows deformation by high wind.

Third, the photovoltaic generation unit 10 that the utility model embodiment proposes can be flexible photovoltaic generator unit, also may be used To be crystal silicon photovoltaic generator unit, the material of flexible photovoltaic generator unit for example may include copper indium gallium selenide, crystal silicon photovoltaic power generation The material of unit for example can be monocrystalline silicon or polysilicon.

Wherein, flexible photovoltaic generator unit has that flexibility is good, frivolous, dim light is good, Color tunable, shape-plastic etc. The adaptability and practicability of photovoltaic generation unit 10 can be improved in advantage.

4th, it will be appreciated by those skilled in the art that, the photoelectric conversion surface of photovoltaic generation unit 10 refers to：Photovoltaic generation The one side of opto-electronic conversion can be carried out in unit 10 when receiving illumination.The face opposite with photoelectric conversion surface in photovoltaic generation unit 10 As non-photoelectric conversion surface.

The utility model embodiment provides a kind of photovoltaic module, including photovoltaic generation unit 10 and with photovoltaic generation unit 10 Non- photoelectric conversion surface heat seal connection support member 20, compared to using gum be bonded, the utility model embodiment using heat The mode for closing connection can be such that photovoltaic generation unit 10 is connect with support member 20 more secured, so, even if encountering High wind weather, photovoltaic generation unit 10 can be also fixed in support member 20, will not be deformed；Also, due to photovoltaic generation The area of unit 10 is usually larger, is bonded according to gum, then needs to expend very more gums, is unfavorable for saving manufacturing cost, Therefore, it is bonded compared to using gum, by the way of heat seal connection, the manufacturing cost for preparing photovoltaic module can be reduced.

On this basis, since photovoltaic generation unit 10 and support member 20 become an indivisible entirety, can increase Add the overall weight of photovoltaic module 10 and support member 20, so, even if encountering high wind weather, high wind is not easy to make photovoltaic Generator unit 10 and support member 20 move, to can avoid unnecessary casualties and economic loss.

Optionally, as shown in Figures 2 and 3, support member 20 further includes fixed part 22, and fixed part 22 is connect with supporting part 21 In same plane and beyond the edge of photovoltaic generation unit 10.

Herein, fixed part 22 and supporting part 21 can be integrated formed structures.

It should be noted that fixed part 22 can exceed one or two or three or four of photovoltaic generation unit 10 A edge.

In the utility model embodiment, since fixed part 22 exceeds the edge of photovoltaic generation unit 10, by photovoltaic When component is fixed on installation carrier, it can avoid damaging photovoltaic generation unit 10.

It is further alternative, as shown in figure 4, photovoltaic module further includes the press strip 30 being fixedly connected with fixed part 22；Photovoltaic The edge of generator unit 10 is folded between press strip 30 and support member 20.

It should be noted that first, press strip 30 and the connection type of fixed part 22 are not defined, for example, can lead to The modes such as screw connection or clamping or strong magnetic attachment are crossed to be fixedly connected with press strip 30 with fixed part 22.Fig. 4 only shows press strip 30 with fixed part 22 be connected by screw the case where.

Second, as shown in Figure 5 a, press strip 30 can be one continuous whole；As shown in Fig. 5 b and Fig. 5 c, press strip 30 also may be used To be to disconnect, to this without limiting.

Third, as shown in figure 5a and 5b, press strip 30, which can surround complete one week, to be arranged on fixed part 22；Such as Fig. 5 c institutes Show, press strip 30, which can also be interrupted, to be arranged on fixed part 22, to this without limiting, as long as press strip 30 can be fixed on fixed part On 22 and the edge of photovoltaic generation unit 10 is made to be folded between support member 20 and press strip 30.

4th, it is contemplated that press strip 30, which is set to photovoltaic generation unit 10, can carry out the side of photoelectric conversion surface, and press strip 30 have light transmittance limited or even opaque, and therefore, press strip 30 only covers the edge of photovoltaic module 10, so that photovoltaic generation The photoelectric conversion surface of unit 10 normally receives the irradiation of light.

5th, the material of press strip 30 is not defined, as long as press strip 30 can be utilized the side of photovoltaic generation unit 10 Edge is located between press strip 30 and support member 20.

In the present embodiment, what photovoltaic generation unit 10 was folded in press strip 30 and support member 20 is the envelope of photovoltaic generation unit Jiao Qu.

Specifically, press strip 30 can be metal material, to play lightning protection effect, such as press strip 30 can be aluminium alloy type Material.

The utility model embodiment by making the edge of photovoltaic generation unit 10 be folded between press strip 30 and fixed part 22, Photovoltaic generation unit 10 can be made fixed more securely with support member 20；Simultaneously as press strip 30 also has constant weight, Therefore, the overall weight that can also increase photovoltaic generation unit 10, press strip 30 and support member 20, to avoid in high wind weather Photovoltaic generation unit 10, press strip 30 and support member 20 move, and cause unnecessary casualties and economic loss.

Further alternative, as shown in fig. 6a-6c, photovoltaic module further includes being set to photovoltaic generation unit 10 and press strip 30 Between buffer unit 40.

It should be noted that first, as shown in Figure 6 a, buffer unit 40 can be folded in press strip 30 and cover photovoltaic generation list The whole region of member 10；As shown in Figure 6 b, buffer unit 40 can also be folded in the portion that press strip 30 covers photovoltaic generation unit 10 Subregion；As fig. 6 c, the region that buffer unit 40 can also be between press strip 30 and photovoltaic generation unit 10, extends to pressure Region between item 30 and fixed part 22.Wherein, as shown in Figure 6 b, photovoltaic generation is covered when buffer unit 40 is folded in press strip 30 Can be that press strip 30 reserves certain mobile space, when press strip 30 is arranged, to adjust press strip 30 when the subregion of unit 10 Position, make press strip 30 place in position；Also, being also prevented from buffer unit 40 and expanding with heat and contract with cold leads to press strip 30 Position changes.

Second, the material of buffer unit 40 is not defined, as long as buffer unit 40 can play cushioning effect, is avoided Press strip 30 damages the surface of photovoltaic generation unit 10.

Exemplary, buffer unit 40 can be adhesive tape, and the material of adhesive tape can be ethylene propylene diene rubber (Ethylene- Propylene-Diene Monomer, abbreviation EPDM).

In the utility model embodiment, buffer unit 40 has certain flexibility, may be provided at photovoltaic generation unit 10 Between press strip 30, photovoltaic generation unit 10 is spaced apart with press strip 30, to play cushioning effect, press strip 30 is avoided to damage photovoltaic The surface of generator unit 10.

Optionally, as shown in Figure 7 and Figure 8, support member 20 further includes strengthening portion 23, and strengthening portion 23 and fixed part 22 are separate The end of 21 side of supporting part connects and is directed toward the direction extension of support member 20 along photovoltaic generation unit 10.

It should be noted that first, the angular range between strengthening portion 23 and fixed part 22 can be 30 °~150 °, example Such as, the angle between strengthening portion 23 and fixed part 22 is 60 ° or 90 ° or 120 °.Fig. 8 only shows strengthening portion 23 and fixes The case where angle between portion 22 is 90 °.

Wherein, the angle between strengthening portion 23 and fixed part 22 refers to：Fixed part 22 is far from 10 side of photovoltaic generation unit Surface and strengthening portion 23 between angle.

Second, may include one or two or three or four strengthening portions 23 in a support member 20.

Third, strengthening portion 23 can be an integral molding structure with supporting part 21 and fixed part 22, can also pass through connection shape It is into a single integrated structure.

When strengthening portion 23 can be an integral molding structure with supporting part 21 and fixed part 22, planar plate can be initially formed Material；Later, as shown in figure 9, four angles for cutting the plank (can also be one or two according to the number of strengthening portion difference A or three angles)；Finally, so that the part of strengthening portion 23 to be formed is bent, form Fig. 7 and support member shown in Fig. 8 20.

In the utility model embodiment, the overall stiffness of support member 20 can be increased by the way that strengthening portion 23 is arranged, it is effectively anti- Only photovoltaic module deforms.

Further alternative, as shown in Figure 10, support member 20 further includes reinforcing interconnecting piece, reinforces interconnecting piece for fixing Connect neighbouring reinforcement 23.

Herein, as shown in Figure 10, reinforce interconnecting piece and may include L-shaped corner brace 400 and fixing piece 401, pass through L-shaped corner brace 400 Two adjacent strengthening portions 23 can be made to be fixedly connected with fixing piece 401.

Wherein, reinforce the madial wall that interconnecting piece may be provided at two neighboring strengthening portion 23, can also be arranged two neighboring The lateral wall of strengthening portion 23.Figure 10 only shows that reinforcing interconnecting piece is arranged the lateral wall of two neighboring strengthening portion 23 the case where.

It should be noted that working as, a support member 20 includes at least two strengthening portions 23 and two strengthening portions 23 are adjacent When, fix two adjacent strengthening portions 23 using interconnecting piece is reinforced.

In the utility model embodiment, the intensity of strengthening portion 23 can be further increased by reinforcing interconnecting piece, further, The intensity for increasing support member 20, can effectively prevent photovoltaic module to deform.

Optionally, as shown in figure 11, photovoltaic module further includes Auxiliary support component 800, Auxiliary support component 800 and support Component 20 is fixedly connected away from the side of photovoltaic generation unit 10.

It should be noted that when support member 20 only includes supporting part 21, Auxiliary support component 800 and supporting part 21 are right It answers and is fixedly connected；When support member includes supporting part 21 and fixed part 22, Auxiliary support component 800 is with supporting part 21 and admittedly Determine portion 22 correspond to and be fixedly connected, Auxiliary support component 800 is fixedly connected with fixed part 22, optionally, assist support sector 800 and It is connected by adhesive means between supporting part 21；As shown in figure 11, when support member include supporting part 21, fixed part 22 and When strengthening portion 23, Auxiliary support component 800 is corresponding with supporting part 21, fixed part 22 and strengthening portion 23 and is fixedly connected, optional , Auxiliary support component 800 is fixedly connected with fixed part 22 and/or strengthening portion 23, further alternative, assists support sector 800 It is connect by adhesive means between supporting part 21.

In the utility model embodiment, the integral strength of photovoltaic module can be reinforced by Auxiliary support component 800, to have Effect prevents photovoltaic generation unit 10 from deforming, and avoids the appearance because of 10 deformation effect photovoltaic module of photovoltaic generation unit and influences light Lie prostrate the opto-electronic conversion performance of generator unit 10.

The utility model embodiment provides a kind of photovoltaic system, as shown in Figure 12-16c, including：Aforementioned any embodiment institute The photovoltaic module stated, the cable being electrically connected with the first end of photovoltaic module and deviate from positioned at the support member 20 of photovoltaic module The groove body 60 of 10 side of photovoltaic generation unit；Wherein, the second end of cable is positioned in the cable placement section 62 of groove body 60.

Wherein, cable includes positive cable 51 and cathode cable 52, first end and the photovoltaic module 10 of positive cable 51 Positive terminal is electrically connected, and the first end of cathode cable 52 is electrically connected with the negative terminals of photovoltaic module 10.

Herein, for photovoltaic system shown in Figure 12, Figure 15 b, Figure 16 b, in assembling photovoltaic system, first by the of cable Two ends are put by the first fairlead 621 on groove body 60 in cable placement section 62, and then photovoltaic module and groove body 60 are consolidated Fixed connection.

It, can be directly by the of cable in assembling photovoltaic system for photovoltaic system shown in Figure 13, Figure 15 a, Figure 16 a Two ends are put into cable placement section 62, are then fixedly connected with photovoltaic module with groove body 60.

On this basis, groove body 60 is equipped with discharge outlet 61, as shown in Figure 15 a-16c, although the utility model embodiment does not have It is described the specific location of discharge outlet 61 in groove body 60, but it will be appreciated by those skilled in the art that, in order to make nothing in groove body 60 The side surface far from support member 20 can be arranged in groove body 60 in discharge outlet 61 by ponding.Also, discharge outlet 61 in groove body 60 Number, should be related with the size of groove body 60 and practical application, for example, when the size of groove body 60 is smaller, on groove body 60 If a discharge outlet 61；When the size of groove body 60 is bigger, it can be spaced on groove body 60 and open up multiple discharge outlet 61.

It should be noted that first, the material of groove body 60 is not defined, optionally, groove body 60 is metal material, gold The effect of lightning protection can be played by belonging to the groove body 60 of material, and the rigidity of metal material is larger, groove body 60 can be utilized to support photovoltaic Generator unit 10 and support member 20.For example, the material of groove body 60 is aluminium alloy.

Second, as shown in Figure 15 a- Figure 16 c, groove body 60 can be in direct contact and be fixedly connected with support member 20, wherein The structure of groove body 60 shown in Figure 15 a and 16a is corresponding with groove body 60 shown in Figure 14 a, and the second end of cable passes through on groove body 60 The opening on surface enters cable placement section 62, the structure of groove body 60 shown in Figure 15 b and Figure 16 b and groove body 60 shown in Figure 14 b It is corresponding.Certainly, groove body 60 can also be spaced with support member 20 and be arranged, and fixed and connected by the other component in photovoltaic system It connects, such as other components are the just structures such as logical.

Herein, as shown in fig. 14b, groove body 60 includes the first fairlead 621, and the second end of cable can pass through fairlead 621 It is positioned in cable placement section 62.In order to illustrate groove body 60 fairlead 621 only occupy cable placement section 62 side wall part Region, Figure 15 b and Figure 16 b show that the sectional view at the first fairlead 621, Figure 15 c and Figure 16 c are shown except first draws The sectional view of other parts other than string holes 621 is put it can be seen from the figure that the first fairlead 621 does not fully take up cable Set a side wall in portion 62.

Third, the part that can be placed in groove body 60 in cable can be known as the second end of cable.

4th, as shown in Figure 12-16c, the not position to groove body 60 relative to support member 20 and photovoltaic generation unit 10 It is defined, as long as the second end of cable can be placed in groove body 60, in some embodiments, groove body 60 is also to support Component 20 plays the role of support.

Herein, it is contemplated that outside cable is chronically exposed to, not only influence beauty, but also be easy aging therefore groove body 60 can be arranged In the closer position of the first end apart from cable, it is placed in cable placement section 62 so that cable is as much as possible.

Further, as shown in Figure 14 a-16c, groove body 60 further includes first connecting portion 63, and first connecting portion 63 is by cable The edge of the first end of the close photovoltaic module of placement section 62, along the side parallel with the non-photoelectric conversion surface of photovoltaic generation unit 10 To extension；Groove body 60 is fixedly connected by first connecting portion 63 with the first end of photovoltaic module.

Wherein, as shown in Figure 18 a-19b, first connecting portion 63 can be to the close side with the cable placement section 62 where it Extend along opposite edge side, as shown in Figure 15 a-16c, first connecting portion 63 can also be put to the separate cable with where it Set the opposite edge side extension in the edge in portion 62.

Herein, when support member only includes supporting part 21, groove body 60 is fixed by first connecting portion 63 and supporting part 21 Connection；When support member only includes supporting part 21 and fixed part 22, groove body 60 can pass through first connecting portion 63 and fixed part 22 It is fixedly connected；When support member includes supporting part 21, fixed part 22 and strengthening portion 23, groove body 60 can pass through the first connection Portion 63 is fixedly connected with strengthening portion 23.

5th, since groove body 60 is set to support member 20 far from 10 side of photovoltaic generation unit, photovoltaic module can To be connect with installation carrier by groove body 60.Wherein, the one end of groove body 60 far from photovoltaic module is connect with installation carrier.

6th, first connecting portion 63 and the connection type of photovoltaic module are not defined, for example, can be connected by screw It the modes such as connects or is clamped to be fixedly connected with groove body 60 with photovoltaic module.

The utility model embodiment provides a kind of photovoltaic system, by being arranged the second end of cable in cable placement section 62 In, it can be chronically exposed to avoid cable outer, on the one hand, since cable is neatly placed in cable placement section 62, and it is non-exposed Outside, the appearance of photovoltaic system can be made more beautiful；On the other hand, cable aging, corrosion are also prevented from；On this basis, By the way that discharge outlet 61 is arranged on groove body 60, it can prevent rainwater equivalance in cable placement section 62, avoid to cable placement section 62 In cable cause to corrode.

On this basis, as shown in figure 17, groove body 60 further includes support fixed part 65, and support fixed part 65 is for making draining Mouth 61 has certain altitude with installation carrier, to facilitate the water in groove body 60 to be discharged by discharge outlet 61.

Further alternative, as shown in Figure 15 b and 16b, first connecting portion 63 is equipped with the first fairlead 621, cable Second end is positioned over by the first fairlead 621 in cable placement section 62.

In the utility model embodiment, by making groove body 60 and photovoltaic module be in direct contact, and make groove body 60 by first Interconnecting piece 63 is fixedly connected with photovoltaic module, is played a supporting role to photovoltaic module using groove body 60.

Optionally, further include switching strengthening portion, the first end that first connecting portion 63 passes through transfer strengthening portion and photovoltaic module Connection；As shown in Figure 18 a-19b, switching strengthening portion 70 is equipped with the second fairlead 71, and the second end of cable passes through the second lead Hole 71 is positioned in cable placement section 62.

Wherein, as shown in Figure 18 a-19b, switching strengthening portion 70 can be fixedly connected with the first connecting portion 63 of groove body 60.

It should be noted that first, the material and concrete structure of strengthening portion 70 of transferring are not defined, as long as cable Second end can pass through strengthening portion 70 of transferring.

Specifically, switching strengthening portion 70 can the side of being it is logical, material can be metal material, so, switching reinforcement Portion 70 not only has lightning protection effect, can also play a supporting role to photovoltaic module.

Second, since groove body 60 is fixedly connected by strengthening portion 70 of transferring with support member 20, strengthening portion 70 of transferring Position it is corresponding with the position of groove body 60 and support member 20.

Specifically, as shown in Figure 20 and Figure 21, switching strengthening portion 70 can be in that blocky interval is arranged, a block-like switching It include second fairlead 71 in strengthening portion 70；As shown in Figure 22 and Figure 23, switching strengthening portion 70 can also be in a strip shape, strip First connecting portion 70 on include one or more second fairleads 71；As shown in figures 24 and 25, switching strengthening portion 70 surrounds Surrounding, and include one or more second fairleads 71.

In the utility model embodiment, by strengthening portion 70 of transferring photovoltaic module with groove body 60 can be fixedly connected, turn The effect that strengthening portion 70 may also function as support photovoltaic module is connect, when switching strengthening portion 70 surrounds surrounding structure for as shown in figure 25 When, switching strengthening portion 70 also acts as the assistant reinforcement effect to support member 20, and photovoltaic generation unit is avoided to deform.

Alternatively, as illustrated in figures 26-29, there is gap between switching strengthening portion 70, photovoltaic module, groove body 60, cable 50 Second end is positioned over by gap in cable placement section 62.

Herein, as shown in figure 29, switching strengthening portion 70 includes the first fixed part 701 and the second fixed part 702, and first fixes Portion 701 is fixedly connected with the side wall of support member 20, and the second fixed part 702 is fixedly connected with the first connecting portion 63 of groove body 60.

It should be noted that first, when support member 20 only includes supporting part 21, the first fixed part 701 and supporting part 21 side wall is fixedly connected；When support member 20 includes supporting part 21 and fixed part 22, the first fixed part 701 and fixed part 22 It is fixedly connected；When support member 20 includes supporting part 21, fixed part 22 and strengthening portion 23, the first fixed part 701 and reinforcement The side wall in portion 23 is fixedly connected.

Second, according to the size of photovoltaic module, the number of switching strengthening portion 70 corresponding with a photovoltaic module can be One, can also be multiple.

Third is not defined fixed strengthening portion 70 and the connection type of first connecting portion 63 and support member 20, example Such as it can utilize screw that fixed strengthening portion 70 is made to be fixedly connected respectively with first connecting portion 63 and support member 20.

4th, as shown in Figure 26 and Figure 27, the second fixed part 702 is set to first connecting portion 63 close to photovoltaic module one Side；As shown in figure 28, the second fixed part 702 can also be set to first connecting portion 63 far from photovoltaic module side.

For any of the above-described embodiment, as shown in figs. 30-33, the photovoltaic system further includes terminal box 80, support member 20 may include void region, and terminal box 80 is set in the void region and is fixedly connected with support member 20, that is, connects Wire box 80 is in direct contact with photovoltaic module 10, and the first end of cable 50 is electrically connected by terminal box 80 with photovoltaic module 10.

Wherein, the connecting terminal in the first end with terminal box 80 of cable 50 is electrically connected, the connecting terminal in terminal box 80 It is electrically connected with the positive terminal (or negative terminals) of photovoltaic module 10.

It should be noted that having positive terminal and negative terminals on each photovoltaic module, each terminal box 80 can With tool, there are one connecting terminals, it is of course also possible to have, there are two connecting terminals；Under normal conditions, there are one connecting terminals for tool Terminal box 80, connecting terminal are only electrically connected with the positive terminal in photovoltaic module 10, one in negative terminals；Have The terminal box 80 of two connecting terminals, two connecting terminal can respectively with the positive terminal of photovoltaic module and negative terminal End electrical connection, the positive terminal in photovoltaic module 10 and the spacing between negative terminals should not be too large at this time, to ensure to connect Two connecting terminals of wire box 80 can be electrically connected with positive terminal and negative terminals respectively.

The utility model embodiment is by being arranged terminal box 80 in the void region of support member 20, that is, terminal box 80 are arranged the non-photoelectric conversion surface in photovoltaic module, and the appearance of photovoltaic system can be made more beautiful.

Optionally, as shown in figure 34, the photovoltaic system includes the multiple photovoltaic groups being arranged along the extending direction of groove body 60 Part, adjacent photovoltaic component are connected in series with, and the second end of two cables 50 for two neighboring photovoltaic module of connecting is put in cable It sets in portion 62 and is electrically connected.

In the utility model embodiment, multiple lines for being electrically connected with the multiple photovoltaic modulies being arranged along 60 extending direction of groove body Cable 50, second end can be put into the groove body 60.

Further alternative, as shown in figure 35, photovoltaic system includes at least two along the extending direction perpendicular to groove body 60 The groove body 60 of arrangement, and at least one photovoltaic module along 60 orientation of groove body setting；Each photovoltaic module first end and The connection of first connecting portion 63 of a groove body 60 adjacent thereto, the second company of second end and another groove body 60 adjacent thereto Socket part 64 connects；Wherein, the second connecting portion 64 of groove body 60 extend along the edge opposite with the edge where first connecting portion 63, And it is opposite with first connecting portion 63, the second end in each photovoltaic module is opposite with first end.

It should be noted that first, as shown in Figure 14 a and Figure 14 b, the extension of second connecting portion 64 and first connecting portion 63 Direction can be identical, can not also be identical.

It is exemplary, when second connecting portion 64 is identical as the extending direction of first connecting portion 63, first connecting portion 63 to by Nearly 64 side of second connecting portion extends, and second connecting portion 64 extends to far from 63 side of first connecting portion；Alternatively, first connecting portion 63 extend to far from 64 side of second connecting portion, and second connecting portion 64 extends to close to 63 side of first connecting portion.

When the extending direction of second connecting portion 64 and first connecting portion 63 differs, first connecting portion 63 is to close to second 64 side of interconnecting piece extends, and second connecting portion 63 extends to close to first connecting portion side；Alternatively, first connecting portion 63 is to separate 64 side of second connecting portion extends, and second connecting portion 63 extends to far from first connecting portion side.

Second, although the second end of photovoltaic module and the connection of the second connecting portion 64 of another groove body 60 adjacent thereto, But due to the second end of photovoltaic module include positive terminal and negative terminals, it is adjacent with the same groove body 60 Two photovoltaic modulies between not series relationship.

In the utility model embodiment, the photovoltaic module can be consolidated by two groove bodies 60 adjacent with a photovoltaic module It is scheduled on installation carrier.

It is further alternative, as shown in Figure 36 and Figure 37, the of cable is summarized in the cable 50 for multiple photovoltaic modulies of connecting Two ends, which are placed in, summarizes in cable trough 200, summarizes the interface for being equipped in cable trough 200 and being connect with photovoltaic electric system, summarizes cable Positive cable 51 and cathode cable 52 respectively with corresponding interface connect.

It should be noted that being put into the second end for summarizing cable 50 summarized in cable trough 200, it is and multiple photovoltaic modulies In the second end of cable 50 that is electrically connected near the photovoltaic module for summarizing cable trough 200.

On this basis, for any of the above-described embodiment, in the case where groove body 60 and photovoltaic module are in direct contact, groove body The size of 60 the first fairlead 621 should be greater than or the size of second end equal to cable 50, so that 50 second end of cable is logical It crosses the first fairlead 621 and enters groove body 60；In the case of being equipped with switching strengthening portion 70 between groove body 60 and support member 20, turn The size for connecing the size of the second fairlead 71 in strengthening portion 70 and the opening 622 of groove body 60 should be greater than or be equal to cable 50 Second end size so that cable second end passes through the second fairlead 71 and opening 622 enters cable troughs 60.

For example, it is contemplated that the width to 50 second end of cable is generally 16mm, the size of cable first end and second end is general For 10mm, therefore, above-mentioned first fairlead 621, the second fairlead 71 width be set as 12mm-16mm (for example, the first lead Hole 621, the second fairlead 71 may be configured as one kind in 14mm, 15mm, 16mm), the width setting of above-mentioned cable channel opening 622 For 20~26mm (for example, the width of cable channel opening 622 is 20mm).

Herein, when photovoltaic system includes multiple support members 20, the second end of cable 50 is being put into cable trough 60 In the process, the cable head of cable 50 may pass through the spacing between adjacent support member 20, therefore, between adjacent support member 20 Spacing size also should be greater than or equal to cable head in the second end of cable 50 size.

The utility model embodiment provides a kind of roof boarding, including roof boarding ontology further includes described in aforementioned any embodiment Photovoltaic system or aforementioned any embodiment described in photovoltaic module；Wherein, photovoltaic system or photovoltaic module are set to roof boarding The outer surface of ontology.

The utility model embodiment provides a kind of vehicles, including vehicles ontology, further includes aforementioned any implementation Photovoltaic system described in example or the photovoltaic module described in aforementioned any embodiment；Wherein, photovoltaic system or photovoltaic module are set to The outer surface of vehicles ontology.

It should be noted that when photovoltaic system only includes photovoltaic generation unit 10 and support member 20, photovoltaic system is logical Connector is crossed to be installed on roof boarding ontology (or vehicles ontology) or (or the traffic of support member 20 and roof boarding ontology Tool body) all have magnetic regions, support member 20 is fixedly installed in roof boarding ontology (or vehicles sheet by magnetic force Body) on；When photovoltaic system includes photovoltaic generation unit 10, support member 20 and groove body 60, photovoltaic system is pacified by groove body 60 Loaded on roof boarding ontology (or vehicles ontology)；As shown in Figure 38-Figure 39, when groove body 60 includes support fixed part 65, Photovoltaic system is by supporting fixed part 65 to be installed on roof boarding ontology 100 (or vehicles ontology 100).

Optionally, as shown in Figure 38-Figure 40, above-mentioned roof boarding or the vehicles further include connector 90, the connector 90 by the photovoltaic module or photovoltaic system for being fixed on roof boarding ontology 100 (or vehicles ontology 100).

Wherein, groove body 60 can be corresponding with a connector 90, also can be corresponding with multiple connectors 90；In addition, in groove body 60 Water roof boarding ontology 100 (or vehicles ontology 100) can be discharged to by discharge outlet 61, finally converge to roof boarding ontology In the gutter of 100 (or vehicles ontologies 100).

As shown in figure 38, it is typically provided with close to 10 side of photovoltaic module due to roof boarding ontology 100 multiple spaced Protrusion 300, therefore, connector 90 can be made of bolt 91, adapter 92, and photovoltaic system is connected by bolt 91, adapter 92 (or photovoltaic module) and roof boarding ontology 100；As shown in Figure 39-Figure 40, since vehicles ontology 100 is close to photovoltaic module 10 One side surface is usually a plane, and connector 90 can only include screw, be fixed photovoltaic module or photovoltaic system using screw Onto vehicles ontology 100.

Wherein, the material of roof boarding ontology 100 and vehicles ontology 100 can be aluminium alloy, it is almag, stainless Steel, galvanized steel etc..

The utility model embodiment provides a kind of roof boarding, and aforementioned photovoltaic system technique effect having the same, herein It repeats no more.

The utility model embodiment provides a kind of vehicles, and aforementioned photovoltaic system technique effect having the same, This is repeated no more.

Above description is only a specific implementation of the present invention, but the scope of protection of the utility model is not limited to In this, any one skilled in the art within the technical scope disclosed by the utility model, can readily occur in variation Or replace, it should be covered within the scope of the utility model.Therefore, the scope of protection of the utility model should be with the power Subject to the protection domain that profit requires.

Claims (16)

1. a kind of photovoltaic module, including photovoltaic generation unit and it connect and uses with the non-photoelectric conversion surface of the photovoltaic generation unit In the support member for supporting the photovoltaic generation unit, which is characterized in that

The non-photoelectric conversion surface of the photovoltaic generation unit is connect with the support member heat seal.

2. photovoltaic module according to claim 1, which is characterized in that the support member includes supporting part, the photovoltaic Generator unit is connect with the supporting part heat seal.

3. photovoltaic module according to claim 2, which is characterized in that the support member further includes fixed part, described solid Determine portion to be connected to same plane with the supporting part and exceed the edge of the photovoltaic generation unit.

4. photovoltaic module according to claim 3, which is characterized in that further include the pressure being fixedly connected with the fixed part Item；

The edge of the photovoltaic generation unit is folded between the press strip and the support member.

5. photovoltaic module according to claim 4, which is characterized in that further include being set to the photovoltaic generation unit and institute State the buffer unit between press strip.

6. photovoltaic module according to claim 3, which is characterized in that the support member further includes strengthening portion, described to add Strong portion connect with end of the fixed part far from the supporting part side and is directed toward the support along the photovoltaic generation unit The direction of component extends.

7. photovoltaic module according to claim 6, which is characterized in that the support member further includes reinforcing interconnecting piece, institute It states and reinforces interconnecting piece for being fixedly connected with the adjacent strengthening portion.

8. according to claim 2-7 any one of them photovoltaic modulies, which is characterized in that further include Auxiliary support component, it is described Auxiliary support component is fixedly connected with the support member away from the side of the photovoltaic generation unit.

9. a kind of photovoltaic system, which is characterized in that including：Claim 1-8 any one of them photovoltaic module and the photovoltaic The cable and deviate from photovoltaic generation unit side positioned at the support member of the photovoltaic module that the first end of component is electrically connected Groove body；

Wherein, the first end of the cable is electrically connected with the first end of the photovoltaic module, second end is positioned over the groove body In cable placement section.

10. photovoltaic system according to claim 9, which is characterized in that the groove body further includes first connecting portion, and described One interconnecting piece by the cable placement section close to the edge of the first end of the photovoltaic module, along and the photovoltaic generation unit The parallel direction of non-photoelectric conversion surface extend；

The groove body is fixedly connected by the first connecting portion with the first end of the photovoltaic module.

11. photovoltaic system according to claim 10, which is characterized in that the first connecting portion is equipped with the first lead The second end in hole, the cable is positioned over by first fairlead in the cable placement section.

12. photovoltaic system according to claim 10, which is characterized in that further include switching strengthening portion, first connection Portion is connect by the switching strengthening portion with the first end of the photovoltaic module；

The switching strengthening portion is equipped with the second fairlead, and the second end of the cable is positioned over institute by second fairlead It states in cable placement section；

Alternatively, having gap between the switching strengthening portion, the photovoltaic module, the groove body, the second end of the cable is logical The gap is crossed to be positioned in the cable placement section.

13. according to claim 9-12 any one of them photovoltaic systems, which is characterized in that the photovoltaic system includes along described Multiple photovoltaic modulies of the extending direction setting of groove body, the adjacent photovoltaic module is connected in series with, for connecting adjacent two The second end of two cables of a photovoltaic module is electrically connected in the cable placement section.

14. photovoltaic system according to claim 13, which is characterized in that the photovoltaic system includes at least two along vertical In the groove body that the extending direction of the groove body arranges, and at least one light along groove body orientation setting Lie prostrate component；

The first end of each photovoltaic module connects with the first connecting portion of a groove body adjacent thereto, second end and The second connecting portion of another groove body adjacent thereto connects；

Wherein, the second connecting portion of the groove body extend along the edge opposite with the edge where the first connecting portion and with The first connecting portion is opposite；Second end in each photovoltaic module is opposite with first end.

15. a kind of roof boarding, including roof boarding ontology, which is characterized in that further include as described in any one of claim 9-14 Photovoltaic system, or the photovoltaic module as described in any one of claim 1-8；

Wherein, the photovoltaic system or the photovoltaic module are set to the outer surface of the roof boarding ontology.

16. a kind of vehicles, including vehicles ontology, which is characterized in that further include such as any one of claim 9-14 The photovoltaic system, or the photovoltaic module as described in any one of claim 1-8；

Wherein, the photovoltaic system or the photovoltaic module are set to the outer surface of the vehicles ontology.