Utility model content
The utility model provides a kind of photovoltaic power generation sunlight shed, to solve the photovoltaic module of existing photovoltaic power generation sunlight shed
The perishable problem of the steel construction of edge.
The utility model embodiment provides a kind of photovoltaic power generation sunlight shed, comprising:
Support column;
Braced frame is arranged on the support column;
Photovoltaic module layer is arranged in the braced frame, and the photovoltaic module layer covers the braced frame, at least
The edge of the part braced frame exceeds the edge of the photovoltaic module layer;
Binding structure, the edge of the braced frame at edge of the cladding beyond the photovoltaic module layer.
Optionally, the material of the binding structure is aluminum veneer.
Optionally, the binding structure is spirally connected by screw and the braced frame.
Optionally, the gap filling between the binding structure and the edge of the photovoltaic module layer has sealant, or
Filled with foam rods and sealant.
Optionally, the braced frame is bonded with the fringe region of the photovoltaic module layer by double-sided adhesive.
Optionally, the braced frame includes at least one the first supports along plane setting where the photovoltaic module layer
Component, and it is used to fix second of at least one the first support member around at least one the first support member
Support part part;At least one the first support member is for being supported the central area of the photovoltaic module layer;Described
Two support members are for being supported the fringe region of the photovoltaic module layer.
Optionally, photovoltaic power generation sunlight shed further include: supporting pad;The supporting pad is set to the braced frame far from institute
State the side of photovoltaic module layer.
Optionally, the binding structure side with the braced frame close to the photovoltaic module layer and the branch respectively
Stake pad is spirally connected far from the side of the braced frame.
Optionally, the photovoltaic module layer include: the first glassy layer, the second glassy layer and first glassy layer and
At least one battery chip between second glassy layer;Second glassy layer is arranged close to the braced frame.
Optionally, first glassy layer and second glassy layer are tempered glass or organic glass.
Optionally, it is provided with sealing joint strip between first glassy layer and second glassy layer, be used for by described in extremely
It is sealed around a few battery chip.
Photovoltaic power generation sunlight shed provided by the embodiment of the utility model, including support column, braced frame and covering support
The photovoltaic module layer of frame, and the edge of part braced frame exceeds the edge of photovoltaic module layer, exceeds photovoltaic in order to prevent
The edge of the braced frame of component layer is exposed in external environment, exceeds the marginal portion at photovoltaic module layer edge in braced frame
It is provided with binding structure, is coated for the marginal portion to braced frame, the direct face in the marginal portion of braced frame is avoided
The bad weathers such as facing the wind snow effectively prevent the marginal portion of braced frame that situations such as burn into gets rusty occurs, increase braced frame
Service life and self-strength.
Specific embodiment
The utility model is described in further detail with reference to the accompanying drawings and examples.It is understood that herein
Described specific embodiment is used only for explaining the utility model, rather than the restriction to the utility model.It further needs exist for
It is bright, part relevant to the utility model is illustrated only for ease of description, in attached drawing rather than entire infrastructure.
The utility model embodiment provides a kind of photovoltaic power generation sunlight shed, is the utility model embodiment with reference to Fig. 1, Fig. 1
A kind of the schematic diagram of the section structure of the photovoltaic power generation sunlight shed provided, the photovoltaic power generation sunlight shed include:
Support column 11;
Braced frame 12 is arranged on support column 11;
Photovoltaic module layer 13 is arranged in braced frame 12, and photovoltaic module layer 13 covers braced frame 12, at least partly
The edge of braced frame 12 exceeds the edge of photovoltaic module layer 13;
Binding structure 14, the edge of the braced frame 12 at edge of the cladding beyond photovoltaic module layer 13.
Fig. 1 only illustrates the structure of photovoltaic power generation sunlight shed, and the ratio in figure between each structure does not represent reality
The ratio of each structure in border.And the region being in contact in braced frame 12 with support column 11, binding structure 14 can be corresponding
Change wrapped position the setting so that binding structure 14 and support column 11 are mutually independent of each other also shows support column 11 in Fig. 1
It is only schematic construction with binding structure 14, does not represent practical structures setting.
Photovoltaic power generation sunlight shed is provided with the support column 11 to play a supportive role, for erecting entire photovoltaic power generation sunlight
Canopy, and support force is provided for braced frame 12, at least need to be arranged 3 support columns 11, for keeping stable support force, generally
In the case of, settable 4 support columns 11.Braced frame 12 has been used to support the photovoltaic module layer 13 of full wafer, has than photovoltaic group
The bigger rigidity of part layer 13, optionally, braced frame 12 can be steel structure material, and steel structure material intensity is larger, Neng Gouti
For biggish support force.As shown in Figure 1, photovoltaic module layer 13 covers braced frame 12, and the edge of part braced frame 12
The edge for having exceeded photovoltaic module layer 13, with reference to Fig. 1 it is found that braced frame 12 there are part edges not by photovoltaic module layer 13
Covering is highly susceptible to the erosion of wind and frost sleet if this edge is directly exposed in air, and the present embodiment is provided with bound edge
Structure 14 is used to coat the marginal portion that braced frame 12 exceeds 13 edge of photovoltaic module layer.
Optionally, the material of binding structure 14 can be aluminum veneer.Aluminum veneer refers to after the processing such as chromaking, then uses
Fluorocarbon-sprayed technology processes the building decoration materials of formation.Fluororine-carbon coating has brilliant corrosion resistance and weatherability, can resist
Acid rain, salt fog and various air pollutants, cold-resistant hot property is fabulous, can resist the irradiation of intense UV rays, can keep for a long time not
It fades, not dusting, long service life.And aluminum veneer cost is not high, is convenient for volume production.In the present embodiment, aluminum veneer can be used 2~
The high-quality aluminium alloy plates such as the AA1100 pure aluminum plate or AA3003 of 4mm thickness, specifically, 2.5mm thickness AA3003 aluminium alloy plate can be used.
Photovoltaic power generation sunlight shed provided by the embodiment of the utility model, including support column, braced frame and covering support
The photovoltaic module layer of frame, and the edge of part braced frame exceeds the edge of photovoltaic module layer, exceeds photovoltaic in order to prevent
The edge of the braced frame of component layer is exposed in external environment, exceeds the marginal portion at photovoltaic module layer edge in braced frame
It is provided with binding structure, is coated for the marginal portion to braced frame, the direct face in the marginal portion of braced frame is avoided
The bad weathers such as facing the wind snow effectively prevent the marginal portion of braced frame that situations such as burn into gets rusty occurs, increase braced frame
Service life and self-strength.
Optionally, it can be carried out by double-sided adhesive 16 with reference to Fig. 1, braced frame 12 and the fringe region of photovoltaic module layer 13
Fitting, because photovoltaic module layer 13 includes the more fragile structure sheaf such as glassy layer, and braced frame 12 is mostly by steel system
At for example, braced frame 12 is built by steel pipe, so the photovoltaic group being in contact in braced frame 12 with photovoltaic module layer 13
The fringe region of part layer 13 goes fitting braced frame 12 and photovoltaic module layer 13 by double-sided adhesive 16, prevents braced frame 12 right
Photovoltaic module layer 13 damages.With reference to Fig. 1, glue 17 can be set close to double-sided adhesive 16 while double-sided adhesive 16 are set,
Under the supporting role of double-sided adhesive 16, glue 17 can be solidified into certain shape, can either protect to photovoltaic module layer 13
Shield, and can guarantee certain sealed environment.The setting of binding structure 14 can be avoided the directly sudden and violent leakage of double-sided adhesive 16 in air
In, the problem of the failure of the stickiness that prevents double-sided adhesive 16 from generating because exposed.
Optionally, with reference to Fig. 1, although binding structure 14 is coated on the edge of braced frame 12, binding structure 14 with
There are certain gaps 19 between photovoltaic module layer 13, and illustratively, the width in gap 19 is about the left side 15mm in the present embodiment
The right side, as shown in Figure 1, the gap 19 between binding structure 14 and the edge of photovoltaic module layer 13 can be filled with sealant, or
Foam rods and sealant can be filled with.
Sealant can effectively prevent outside air to invade, and double-sided adhesive 16 is avoided to fail, enhancing photovoltaic power generation sunlight shed
Service life, so sealant blind 19 can be used.Furthermore it is also possible to be carried out using foam rods and sealant to gap 19
Foam rods are first packed into gap 19 by filling, are sealed gluing by sealant afterwards, can effectively be saved the use of sealant
Amount, save the cost.
It optionally, is the section of another photovoltaic power generation sunlight shed provided by the embodiment of the utility model with reference to Fig. 2, Fig. 2
Structural schematic diagram, photovoltaic power generation sunlight shed can also include: supporting pad 15;Supporting pad 15 is set to braced frame 12 far from photovoltaic
The side of component layer 13.Braced frame 12 is further supported.Supporting pad 15 can be plate, can also with as shown in Fig. 2,
For " I " fonts, certain supporting role had not only been played, but also the making material of supporting pad 15 can be saved.Similarly, shown in Figure 2
Support column 11, braced frame 12 and supporting pad 15 are only schematic construction, practical structures setting are not represented, in braced frame 12
The region being in contact with support column 11, binding structure 14 can change wrapped position accordingly, so that binding structure 14 and support column
11 and supporting pad 15 do not influence to be arranged mutually.
It optionally, is the amplification assumption diagram of regional area A in Fig. 2 with reference to Fig. 3, Fig. 3, binding structure 14 can pass through screw
20 are spirally connected with braced frame 12.Screw 20 is set to gap 19, and gap 19 is filled with sealant, screw 20 can be prevented to be damaged,
Extend the service life of screw 20.
Optionally, with reference to Fig. 3, after supporting pad 15 are arranged in photovoltaic power generation sunlight shed, binding structure 14 can respectively with support
Frame 12 is spirally connected close to the side of photovoltaic module layer 13 and supporting pad 15 far from the side of braced frame 12.With reference to Fig. 3, in bound edge
When structure 14 and supporting pad 15 are spirally connected, the fixation of screw 20 is carried out by " L " shape steel plate, and in binding structure 14 and supporting pad
The place that is spirally connected of screw 20, is equally coated with sealant, protects to spiro connection structure between 15.
Optionally, referring to figs. 1 to Fig. 3, braced frame 12 may include being arranged extremely along 13 place plane of photovoltaic module layer
Few first support member 121, and around at least one the first support members 121 for fixing at least one the first supports
Second support member 122 of component 121;At least one the first support members 121 are used for the central area to photovoltaic module layer 13
It is supported;Second support member 122 is for being supported the fringe region of photovoltaic module layer 13.
Second support member 122 needs to be in contact with support column 11 while fixing the first support member 121, by institute
There is the gravity of braced frame 12 and photovoltaic module layer 13 to assign on each support column 11, then the second support member 122 needs to have
There is bigger intensity.If the second support member 122 and the first support member 121 are all tube material, the second support member 122
Caliber be greater than the first support member 121.Illustratively, the caliber of the second support member 122 be 200mm × 200mm, first
The caliber of support member 121 is 100mm × 100mm.
As shown in figure 4, Fig. 4 is the vertical view of the first support member and the second support member provided by the embodiment of the utility model
Figure, the first support member 121 are set up in the side for being parallel to 13 place plane of photovoltaic module layer, multiple first support members
121 can be arranged in a crossed manner, illustratively, can be as shown in figure 4, multiple first support members 121 are in " well " set up of character patt ern, enhancing first
The support force of support member 121.Second support member 122 is then arranged one week around the first support member 121, and supports to first
Component 121 is fixed.
Optionally, with continued reference to Fig. 3, photovoltaic module layer 13 may include: the first glassy layer 131, the second glassy layer 133,
And first at least one battery chip 132 between glassy layer 131 and the second glassy layer 133;Second glassy layer 133 is close to branch
Support frame frame 12 is arranged.
Optionally, at least one battery chip 132 can be arranged in array, and be the utility model embodiment with reference to Fig. 5, Fig. 5
The top view of the battery chip of offer.For the ease of showing the array arrangement of battery chip 132, the first glass is not shown in Fig. 5
Layer 131.As shown in figure 5, at least one battery chip 132 can the arrangement of rectangular array shape.
Optionally, with reference to Fig. 5, sealing joint strip 21 can be set between the first glassy layer 131 and the second glassy layer 133,
Be set to the outside of outmost turns battery chip 132, for will be sealed around at least one battery chip 132, prevent steam or
Other impurities invasion, avoids the damage of battery chip 132.
Optionally, the first glassy layer 131 and the second glassy layer 132 can be tempered glass or organic glass.Tempered glass
Bearing capacity, reinforcing glass itself anti-wind pressure, cold and heat, punching are improved relative to simple glass for the higher glass of intensity
Hitting property etc..And organic glass has the preferable transparency, chemical stability, mechanical property and weatherability, and easy processing.
Note that above are only the preferred embodiment and institute's application technology principle of the utility model.Those skilled in the art's meeting
Understand, the utility model is not limited to specific embodiment described here, is able to carry out for a person skilled in the art various bright
Aobvious variation is readjusted, be combined with each other and is substituted without departing from the protection scope of the utility model.Therefore, although passing through
Above embodiments are described in further detail the utility model, but the utility model is not limited only to the above implementation
Example can also include more other equivalent embodiments in the case where not departing from the utility model design, and the utility model
Range is determined by the scope of the appended claims.