CN108155865A - The mounting structure of non-frame photovoltaic module - Google Patents

Abstract

The present invention relates to a kind of mounting structures of non-frame photovoltaic module,Support device includes the bottom plate that both ends are longitudinally extended along bearing frame,The middle part of bottom plate first end is equipped with first boss,Bottom plate positioned at the part of first boss both sides be the region that supports non-frame photovoltaic module,The outside that one end of the first boss extends lengthwise into bottom plate along bearing frame forms the first lateral extension,The first ladder is formed in the lower end of first lateral extension,The middle part of bottom plate second end is equipped with the second boss being located on the inside of the bottom plate,The upper end of the second boss is formed with the second ladder,In two neighboring support device,After the first end of one of bottom plate is overlapped in the second end of another bottom plate,The first ladder on first lateral extension is embedded on second ladder,Make the overlapping that two adjacent non-frame photovoltaic module ends being mounted in the two neighboring support device are in imbricate.The present invention has the advantages that simple in structure.

Description

The mounting structure of non-frame photovoltaic module

Technical field

The present invention relates to technical field of photovoltaic power generation, and in particular to a kind of mounting structure of non-frame photovoltaic module.

Background technology

The surrounding of photovoltaic module is provided with the frame made by section bar.When roofing is laid with photovoltaic module, need according to room Multiple photovoltaic modulies in a manner that tile stacks are installed, but during installation, are needed by another in the angle of inclination in face Outer stent is installed together the frame of two photovoltaic modulies, and it is very inconvenient to use, and reduces installation effectiveness.And And the leakproof outlet capacity of current frame is weaker, the force of rain makes more greatly, and rainwater readily penetrates through frame and leaks within doors.

The utility model patent of Publication No. CN202925776U discloses a kind of tile type photovoltaic component mounting structure, Structure substantially is：Including fastener and frame；The fastener includes the fixed part of L-shaped and the clamping part of L-shaped, fixed The longitudinal plate in portion is fixedly connected with the transverse plate of clamping part, and the transverse plate of fixed part is fixedly mounted by cushion block and roofing；Clamping The free end of the longitudinal plate in portion is provided with limiting plate, and the transverse plate of the limiting plate and clamping part is located at the same side；The frame Including be made of respectively cuboid mental section right framework, left frame body, upper frame body, the one side of the right framework offers One mounting groove, the bottom surface of right framework offer the first lock slots, and the first lock slots are located at the underface of the first mounting groove, the first peace Tankage is connected by the first mounting hole with the first lock slots, and the top surface of right framework offers at least two first rows being mutually parallel Sink；The one side of the left frame body offers the second mounting groove, and the bottom surface of left frame body offers the second lock slots, the second locking Slot is located at the underface of the second mounting groove, and the second mounting groove is connected by the second mounting hole with the second lock slots, the bottom of left frame body Face is further opened at least two the second rhones being mutually parallel；The one side of the upper frame body offers to install photovoltaic group The third mounting groove of the top edge of part, the bottom surface of upper frame body offer third lock slots, and third lock slots are located at third mounting groove Underface, third mounting groove connected by third mounting hole with third lock slots, and the top surface of upper frame body offers adhesive tape installation Slot is equipped with water blocking adhesive tape in adhesive tape mounting groove, and the water blocking adhesive tape extends to upper frame body upper outer；Each photovoltaic module Right hand edge is mounted in the first mounting groove, and left hand edge is mounted in the second mounting groove, and top edge is mounted in third mounting groove；Certain The inner bottom wall contact of second rhone of the top side wall of the first rhone of one photovoltaic module photovoltaic module adjacent thereto, and Between the inner bottom wall of first rhone and the top side wall of the second rhone have gap, and the left frame body of a certain photovoltaic module with The sky that the one end part that the right framework of its adjacent photovoltaic module connects and composes is formed in the transverse plate of clamping part with limiting plate In, the one end part that the right framework of the left frame body of another photovoltaic module photovoltaic module adjacent thereto connects and composes is in fixed part The space that is formed of transverse plate and cushion block in.

For above-mentioned tile type photovoltaic component mounting structure, it is thus evident that its structure is extremely complex, and while installing also compares It is relatively hard.

Invention content

The purpose of the present invention is to provide a kind of mounting structures of non-frame photovoltaic module simple in structure.

The technical solution for solving above-mentioned technical problem is as follows：

The mounting structure of non-frame photovoltaic module, including bearing frame, bearing frame is by multiple crossbeams and multiple longeron groups Into, which is characterized in that upper end is fixed on each crossbeam and sets stepped limiting component, is fastened on each longeron multiple For carrying the support device of the non-frame photovoltaic module, support device includes the bottom that both ends are longitudinally extended along bearing frame Plate, the middle part of bottom plate first end are equipped with first boss, and bottom plate is to support non-frame photovoltaic positioned at the part of first boss both sides The region of component, one end of the first boss extend lengthwise into outside formation the first outside extension of bottom plate along bearing frame Portion is formed with the first ladder in the lower end of first lateral extension, and the middle part of bottom plate second end, which is equipped with, to be located on the inside of the bottom plate Second boss, the upper end of the second boss is formed with the second ladder, in two neighboring support device, one of bottom plate After first end is overlapped in the second end of another bottom plate, the first ladder on first lateral extension is embedded in described On two ladders, formed between two neighboring support device it is stepped so that in the two neighboring support device Two adjacent non-frame photovoltaic module ends are in the overlapping of imbricate.

Advantages of the present invention is, by the support device being mounted on longeron and the structure for designing support device, i.e., It may achieve the overlap condition that non-frame photovoltaic module is made to form imbricate, also, support device is substantially instead of original photovoltaic The frame of component upper edge photovoltaic module longitudinal direction installs, while save again non-frame photovoltaic module by support device Material so that cost is reduced.In addition, the support device of the present invention is being longitudinally extended along bearing frame, therefore, It can be pressed in the side of the longitudinal direction of non-frame photovoltaic module comprehensively so that the bearing capacity of non-frame photovoltaic module and resistance to deformation energy Power, while have the characteristics that stability is good.In addition, the mounting structure of the present invention is assembling non-frame photovoltaic module, it is only necessary to will The side of one longitudinal direction of non-frame photovoltaic module cross in the first space being inserted between the first supporting table and the first pressing plate and Another longitudinal side is inserted into the second space that the second supporting table and the first pressing plate are formed, then impose corresponding sealing strip into Row sealing, therefore, not only the structure of its own is simple, and installation process is easy in the extreme.

Description of the drawings

Fig. 1 is the stereogram of the mounting structure of the non-frame photovoltaic module of the present invention；

Fig. 2 is conceals schematic diagram after non-frame photovoltaic module on the basis of Fig. 1；

Fig. 3 is the A portions enlarged drawing in Fig. 1；

Fig. 4 is the stereogram of the support device in the present invention；

Fig. 5 is that the stereogram in another direction of the support device in the present invention (blocks one among support device Point)；

Label in attached drawing, 1 is crossbeam, and 2 be longeron, and 3 be limiting component, and 4 be bottom plate, and 5 be first boss, 5a first Pressing plate, 6 be the first supporting table, and 6a is the first space, and 6b is the first guiding gutter, and 7 be the second supporting table, and 7a is second space, 7b It is the first lateral extension for the second guiding gutter, 8,9 be the first ladder, and 10 be second boss, and 11 be the second ladder, and 12 be vibration damping Item；

Non- frame photovoltaic module 100.

Specific embodiment

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

The mounting structure of non-frame photovoltaic module, including bearing frame, bearing frame is by multiple crossbeams 1 and multiple longerons 2 Composition is fixed with upper end on each crossbeam 1 and sets stepped limiting component 3, and limiting component 3 preferentially uses hollow structure, Non- frame photovoltaic module 100 is supported along the side that bearing frame is laterally extended on the ladder of limiting component 3, and pass through rank Ladder is limited.In this way, every piece of non-frame photovoltaic module 100 is carried out in the longitudinal direction along bearing frame by limiting component 3 It supports and is limited.

Multiple support devices for being used to carry the non-frame photovoltaic module, support device are fastened on each longeron 2 Including the bottom plate 4 that both ends are longitudinally extended along bearing frame, the middle part of 4 first end of bottom plate is equipped with first boss 5, first boss 5 The first pressing plate 5a being laterally extended along bearing frame is respectively equipped on the two side on top, bottom plate 4 is located at 5 both sides of first boss Part be the region for supporting non-frame photovoltaic module 100, on the area equipped with the first supporting table 6 and the second supporting table 7, One supporting table 6 and the second being longitudinally extended respectively along bearing frame of supporting table 7.Between first supporting table 6 and first boss 5 The spacing being smaller than between the second supporting table 7 and first boss 5, and the first supporting table 6 and the second supporting table 7 are located at the respectively Therefore the underface of one pressing plate 5a, forms between the first supporting table 6 and the first pressing plate 5a and accommodates non-frame photovoltaic module 100 It first space 6a of the side being longitudinally extended along bearing frame and is formed between the second supporting table 7 and the first pressing plate 5a Accommodate the second space 7a for the side that non-frame photovoltaic module 100 is longitudinally extended along bearing frame, it is thus evident that the first space 6a Volume be less than second space 7a volume.

Based on above-mentioned design, two sides being longitudinally extended along bearing frame of non-frame photovoltaic module 100 are embedding Enter when on the bottom plate 4 on two neighboring longeron 2, i.e. longitudinally prolonging along bearing frame by non-frame photovoltaic module 100 The side stretched is embedded into the first space 6a on one bottom plate 4, and by the same non-frame photovoltaic module 100 When being embedded into the second space 7a on another described bottom plate along another side that bearing frame is longitudinally extended, can be with First another one side of non-frame photovoltaic module 100 is embedded into second space 7a.In this way, by non-frame photovoltaic group A side described in part 100 be embedded into the first space 6a into, the effect of resigning can be formed by second space 7a, because This, is conducive to that rapidly non-frame photovoltaic module 100 is embedded on the bottom plate 4 on two neighboring longeron 2.

The outside that one end of the first boss 5 extends lengthwise into bottom plate 4 along bearing frame forms the first outside extension Portion 8 is formed with the first ladder 9 in the lower end of first lateral extension 8, and the middle part of 4 second end of bottom plate, which is equipped with, is located at the bottom plate 4 The second boss 10 of inside, the upper end of the second boss are formed with the second ladder 11, the first end and second end on each bottom plate 4 It is two opposite ends on the bottom plate 4, and first end and second end is bottom plate 4 respectively at the end of bearing frame longitudinal direction Portion.In two neighboring support device in same upper longitudinal beam 2, the first end of one of bottom plate overlaps the of another bottom plate After on two ends, the first ladder 9 on first lateral extension 8 is embedded on second ladder 11, makes two neighboring branch Formed between support arrangement it is stepped so that two adjacent non-frame photovoltaic groups in the two neighboring support device 100 end of part is in the overlapping of imbricate.It is integrally inclined after being mounted on bearing frame due to non-frame photovoltaic module 100 State, therefore, when there is water to reach on the surface of non-frame photovoltaic module 100, water along non-frame photovoltaic module 100 table Face is flowed, since two neighboring non-100 end of frame photovoltaic module is in the overlapping of imbricate, water is non-from lastblock When frame photovoltaic module 100 flows to next piece of non-frame photovoltaic module 100, water will not be from two pieces of non-frame photovoltaic modulies 100 The gap location of overlapping penetrates into the back of non-frame photovoltaic module 100.The other end of the first boss 5 and the one of second boss 10 After end is longitudinally extended each along bearing frame and it is combined into one.It is respectively equipped on the two side on 10 top of second boss along carrying The second pressing plate 10a that frame is laterally extended.

First supporting table 6 is equipped with the first guiding gutter 6b being longitudinally extended along bearing frame, is set in the second supporting table 7 There is the second guiding gutter 7b being longitudinally extended along bearing frame.Due to two adjacent two support devices on same longeron End overlaps, and therefore, the first guiding gutter 6b in two adjacent two support devices is interconnected and two adjacent two branch The second guiding gutter 7a on support arrangement is interconnected, and therefore, when rainwater reaches the position of bearing frame topmost, passes through first Guiding gutter 6b and the second guiding gutter 7b, can respectively guide water rain to bearing frame bottom, avoid rainwater accumulation to non-frame Photovoltaic module 100 impacts.

Be equipped with shock absorption bar 12 in first supporting table 6 and the second supporting table 7, the section of the shock absorption bar 12 in I-shaped, First guiding gutter 6b is equipped with the first limiting section of notch being located at, and the second supporting table 7 is equipped with is equipped with the second limiting section positioned at notch, A part for shock absorption bar 12 in the first supporting table 6 is located at the upper end of the first supporting table 6, and the other end point is embedded into first After in guiding gutter 6b, shock absorption bar 12 is formed by first limiting section and is limited.Shock absorption bar in the second supporting table 7 12 part is located at the upper end of the second supporting table 7, after the other end point is embedded into the second guiding gutter 7b, is limited by described second Position portion forms shock absorption bar 12 and limits.

Claims (7)

1. the mounting structure of non-frame photovoltaic module, including bearing frame, bearing frame is made of multiple crossbeams and multiple longerons, It is characterized in that, upper end is fixed on each crossbeam sets stepped limiting component, multiple use are fastened on each longeron In the support device for carrying the non-frame photovoltaic module, support device includes the bottom that both ends are longitudinally extended along bearing frame Plate, the middle part of bottom plate first end are equipped with first boss, and bottom plate is to support non-frame photovoltaic positioned at the part of first boss both sides The region of component, one end of the first boss extend lengthwise into outside formation the first outside extension of bottom plate along bearing frame Portion is formed with the first ladder in the lower end of first lateral extension, and the middle part of bottom plate second end, which is equipped with, to be located on the inside of the bottom plate Second boss, the upper end of the second boss is formed with the second ladder, in two neighboring support device, one of bottom plate After first end is overlapped in the second end of another bottom plate, the first ladder on first lateral extension is embedded in described On two ladders, make to be formed between two neighboring support device it is stepped so that in the two neighboring support device Two adjacent non-frame photovoltaic module ends are in the overlapping of imbricate.

2. the mounting structure of non-frame photovoltaic module according to claim 1, which is characterized in that the first boss it is another After one end and one end of second boss are longitudinally extended each along bearing frame and it is combined into one.

3. the mounting structure of non-frame photovoltaic module according to claim 1 or 2, which is characterized in that bottom plate is equipped with position The first supporting table and the second supporting table in the region of the non-frame photovoltaic module of support of the first boss both sides, the first support Platform and the second supporting table being longitudinally extended respectively along bearing frame.

4. the mounting structure of non-frame photovoltaic module according to claim 3, which is characterized in that the first supporting table is equipped with Along the first guiding gutter being longitudinally extended of bearing frame, the second supporting table is equipped be longitudinally extended the along bearing frame Two guiding gutters.

5. the mounting structure of non-frame photovoltaic module according to claim 3, which is characterized in that the first supporting table and first The spacing being smaller than between the second supporting table and first boss between boss.

6. the mounting structure of non-frame photovoltaic module according to claim 3, which is characterized in that the first supporting table and second Shock absorption bar is equipped in supporting table.

7. the mounting structure of non-frame photovoltaic module according to claim 1, which is characterized in that the two of first boss top The first pressing plate being laterally extended along bearing frame is respectively equipped on side wall, edge is respectively equipped on the two side on second boss top and is held Carry the second pressing plate that frame is laterally extended.