CN218771870U - Solar panel mounting structure with roof daylighting area - Google Patents

Abstract

The utility model provides a solar panel mounting structure with roof daylighting area, which comprises a bracket, solar panel group, the daylighting area, a plurality of parallel and interval distribution rigid couplings of support are at the roof truss upside, there are a plurality of solar panel groups at support upside rigid coupling, and a plurality of solar panel groups all are on a parallel with support upper surface and set up, a plurality of solar panel groups are the matrix distribution at the support upside, and every solar panel group all includes a plurality of solar panel that are the matrix distribution, all be equipped with a daylighting area between per two adjacent solar panel groups, every daylighting area all includes the glass subassembly that a plurality of rigid couplings set up in support upside and on a parallel with the support upper surface, every two adjacent glass subassemblies are all aligned the concatenation together head and the tail. The utility model discloses beneficial effect: the solar panel is directly laid on the upper side of the roof truss to be used as a roof while generating electricity, so that the cost for building the roof is saved; one or more lighting bands are arranged on the roof formed by laying the solar panels, so that the lighting energy is saved.

Description

Solar panel mounting structure with roof daylighting area

Technical Field

The utility model belongs to solar panel erection equipment field especially relates to a solar panel mounting structure with roof daylighting area.

Background

Solar panels absorb sunlight to convert light energy into electrical energy, and thus, are increasingly widely used. Solar panel lays the use on the roof by a large scale, can replace on the factory building originally through laying the condition that various steel sheet used as the roof, directly lays one deck solar panel on the roof truss of factory building promptly, both can realize energy conversion, saves various steel sheet cost again. Because the roof is paved with the solar panel, the sunlight cannot shine into the factory building from the roof. And in great factory building, even be equipped with the glass window on the wall lateral wall and carry out the printing opacity, light also can be not enough in the factory building, still need open the light in order to satisfy personnel work in the factory building, uses the light for a long time, especially uses in large-scale factory building, and long-term accumulation, also can produce a lot of charges of electricity, and this just leads to the fact the waste of energy and cost very easily.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses aim at overcoming the weak point of the above-mentioned problem in the prior art, provide a solar panel mounting structure with roof daylighting area.

In order to achieve the above purpose, the technical scheme of the utility model is realized like this:

the utility model provides a solar panel mounting structure with roof daylighting area, which comprises a bracket, solar panel group, the daylighting area, a plurality of parallel and interval distribution rigid couplings of support are at the roof truss upside, there are a plurality of solar panel groups at support upside rigid coupling, and a plurality of solar panel groups all are on a parallel with support upper surface setting, a plurality of solar panel groups are the matrix distribution at the support upside, and every solar panel group all includes a plurality of solar panel that are the matrix distribution, all be equipped with a daylighting area between per two adjacent solar panel groups, every daylighting area all includes the glass subassembly that a plurality of rigid couplings set up in support upside and on a parallel with support upper surface, the equal head and the tail of per two adjacent glass subassemblies aligns the concatenation together.

Furthermore, the glass assembly comprises glass and a frame, wherein the glass is fixedly embedded in the frame, and a layer of explosion-proof film is attached to the surface of the glass.

Furthermore, the supports incline downwards along the roof truss, the solar panel and/or the glass component connected with the left support and the right support at the outermost side are fixedly connected to the corresponding connecting frames through a plurality of side pressing blocks, and the left side and the right side of the solar panel and/or the glass component between the left support and the right support at the outermost side are fixedly connected to the corresponding supports through a plurality of middle pressing blocks.

Furthermore, the extending direction of the lighting strip is consistent with the length direction of the support, and the bottom of each row of solar panels and/or glass components is provided with one support.

Furthermore, a strip-shaped pressing plate is clamped between every two adjacent pressing blocks along the length direction of the support, and the pressing plates are lapped on the corresponding solar panel and/or the corresponding frame.

Further, the clamp plate includes the sand grip and is located sand grip bottom both sides and integrated into one piece's horizontal bar, has all offered the outside draw-in groove of opening at the both ends of every horizontal bar, and well briquetting is for falling a few font structures, and the centre is U type piece, and the equal level in U type piece both sides top is outwards extended and is equipped with the crimping edge, and the both sides wall difference joint of U type piece is in the draw-in groove that corresponds, and the crimping of well briquetting is along the crimping at the horizontal bar upside.

Furthermore, the support is a M-shaped waterproof frame, a middle supporting plate is lapped at the position of a pressing block in the upper surface connection of the support, the middle pressing block is fixedly connected to the middle of the upper side of the middle supporting plate through bolts, an edge supporting plate is lapped at the position of a pressing block in the upper surface connection of the support, and the edge pressing block is fixedly connected to the upper side of the edge supporting plate through bolts.

Furthermore, the pressing plate is positioned above the water chute with an upward opening in the middle of the bracket.

Further, all be equipped with rubber seal between every adjacent two solar panel or the glass unit in every solar panel or the glass unit, rubber seal includes the rubber strip and is located the occlusion part of both sides about the rubber strip, and the occlusion part left and right sides all outwards extends to set up for the rubber strip symmetry, all press from both sides tight rubber seal's rubber strip between every adjacent two solar panel or the glass unit in being listed as, and the occlusion part pastes tight solar panel or the upper and lower both sides wall edge of glass unit.

Furthermore, the width of the lighting belt is 300mm-700mm.

Compared with the prior art, the utility model discloses following advantage has:

the solar panel mounting structure with the roof lighting strip directly lays the solar panel on the upper side of the roof truss, and the solar panel mounting structure can be used as a roof while generating electricity, so that the cost for building the roof is saved; set up one or more daylighting areas on the roof that solar panel laid and formed, can make the sunlight shine the room on daytime, the energy saving, the energy cost that the indoor electric light illumination of using caused promptly to can also obtain certain reward in can merging the municipal power grid with the energy of saving down.

Drawings

The accompanying drawings, which form a part hereof, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention without undue limitation. In the drawings:

fig. 1 is a schematic view of a solar panel with roof lighting strips according to an embodiment of the present invention;

fig. 2 is a structural cross-sectional view of a rubber sealing member disposed between solar panels according to an embodiment of the present invention;

fig. 3 is a schematic structural view of a pressing plate according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a pressing block mounted on a bracket according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a side pressing block mounted on a bracket according to an embodiment of the present invention;

fig. 6 is a schematic diagram of a middle pressure block structure according to an embodiment of the present invention;

fig. 7 is a schematic structural view of a middle support plate according to an embodiment of the present invention;

FIG. 8 is a schematic view of a structure of a side pressing block according to an embodiment of the present invention;

fig. 9 is a schematic structural view of a side supporting plate according to an embodiment of the present invention.

Description of reference numerals:

1. a solar panel; 2. a glass component; 21. glass; 22. a frame; 3. a support; 31. a water chute; 4. a roof truss; 5. pressing a plate; 51. a convex strip; 52. horizontal strips; 53. a card slot; 6. pressing the blocks; 61. a U-shaped block; 62. crimping edges; 7. pressing the block at the edge; 8. a rubber seal; 81. a rubber strip; 82. a shielding portion; 9. a middle supporting plate; 10. and a side supporting plate.

Detailed Description

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

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

As shown in the figure, a solar panel mounting structure with roof daylighting area, which comprises a bracket 3, 1 group of solar panel, the daylighting area, a plurality of supports 3 parallel and interval distribution rigid couplings are at 4 upsides of roof truss, there are 1 group of a plurality of solar panel at 3 upsides of support rigid couplings, and 1 group of a plurality of solar panel all is on a parallel with 3 upper surfaces of support setting, 1 group of a plurality of solar panel is the matrix distribution at 3 upsides of support, and 1 group of every solar panel all includes a plurality of solar panel 1 that are the matrix distribution, all be equipped with a daylighting area between 1 group of every two adjacent solar panels, every daylighting area all includes the glass 21 subassembly 2 that a plurality of rigid couplings just are on a parallel with 3 upper surfaces of support setting in 3 upsides of support, every two adjacent glass 21 subassemblies 2 all end to end alignment splice are in the same place. In the embodiment, the solar panel 1 is directly paved on the upper side of the roof truss 4, and is used as a roof while generating electricity, so that the cost for constructing the roof is saved; set up one or more daylighting areas on the roof that solar panel 1 laid and form, can make the sunlight shine the room on daytime, the energy saving, the energy cost that the indoor electric light illumination of using caused promptly to can also obtain certain reward in can merging the municipal power grid with the energy of saving.

The glass 21 assembly 2 comprises glass 21 and a frame 22, wherein the glass 21 is fixedly embedded in the frame 22, and an explosion-proof film is attached to the surface of the glass 21, so that the glass 21 is prevented from being broken by hail and other objects. In this embodiment, the frame 22 is made of metal, the explosion-proof membrane is attached to the upper surface of the glass 21, and sealing strips are arranged at the joint between the lower surface of the glass 21 and the frame 22 and the joint between the upper surface of the explosion-proof membrane and the frame 22.

The supports 3 are inclined downwards along the roof truss 4, the solar panel 1 and/or the glass 21 component 2 connected with the two supports 3 on the left and right of the outermost side are fixedly connected on the corresponding connecting frames through a plurality of side pressing blocks 7, and the left and right sides of the solar panel 1 and/or the glass 21 component 2 between the two supports 3 on the left and right of the outermost side are fixedly connected on the corresponding supports 3 through a plurality of middle pressing blocks 6. In this embodiment, roof rack 4 also sets up for the slope is downward, and support 3 parallel mount also is the state that the slope set up downwards at roof rack 4 upside, sets up support 3 along roof rack 4 slope is downward, makes things convenient for the drainage, in the time of avoiding the rainwater to hoard support 3 in the time flow into the factory building, and also be convenient for receive solar illumination.

The extending direction of the lighting strip is consistent with the length direction of the support 3, and the bottom of each row of solar panels 1 and/or the bottom of the glass 21 component 2 are provided with the support 3. In this embodiment, the full-length brackets 3 arranged obliquely downward are used to avoid gaps caused by splicing of the brackets 3 in the same row, and further, rain leakage may occur.

A strip-shaped pressing plate 5 is clamped between every two adjacent middle pressing blocks 6 along the length direction of the support 3, and the pressing plates 5 are lapped on the corresponding solar panel 1 and/or the frame 22.

The pressing plate 5 comprises a protruding strip 51 and horizontal strips 52 which are positioned on two sides of the bottom of the protruding strip 51 and are integrally formed, clamping grooves 53 with outward openings are formed in two ends of each horizontal strip 52, the middle pressing block 6 is of an inverted U-shaped structure, the middle pressing block is a U-shaped block 61, the top ends of two sides of the U-shaped block 61 extend outwards horizontally and are provided with crimping edges 62, two side walls of the U-shaped block 61 are respectively clamped in the corresponding clamping grooves 53, and the crimping edges 62 of the middle pressing block 6 are crimped on the upper sides of the horizontal strips 52. In this embodiment, the cross section of the protruding strip 51 is an inverted V-shaped structure, so that rainwater can slide down from both sides.

Support 3 is the waterproof frame of M type, and briquetting 6 department overlap joint has well layer board 9 in support 3 upper surface connection, and well briquetting 6 passes through the bolt rigid coupling in the middle of well layer board 9 upside department, and the border layer board 10 of the overlap joint of 3 upper surface connection border briquetting 7 departments of support, border briquetting 7 pass through the bolt rigid coupling at the border layer board 10 upside. In the embodiment, a connecting table is arranged in the middle of the middle supporting plate 9, inverted-L-shaped hanging lugs are arranged on the outer sides of two ends of the middle supporting plate, each hanging lug is hung on the corresponding outer side wall of the M-shaped waterproof frame and is riveted and fixed together through a rivet, a threaded hole is formed in the middle of the connecting table, and the middle pressing block 6 is fixedly connected to the middle supporting plate 9 through a bolt; the edge supporting plate 10 comprises a supporting block horizontally arranged, a first clamping block and a second clamping block are arranged at the bottom of the supporting block, the top end of the side wall of the M-shaped waterproof frame is clamped between the first clamping block and the second clamping block, a threaded hole is formed in the upper surface of the supporting block, and the edge pressing block 7 is fixedly connected to the upper side of the edge supporting plate 10 through a bolt. In this embodiment, the solar panel 1 and the glass 21 assembly 2 are fixed on the support 3 by using the edge pressing block 7 or the middle pressing block 6, which is a conventional technique that can be grasped by those skilled in the art.

The pressing plate 5 is positioned above the water chute 31 with an upward opening in the middle of the bracket 3, so that rainwater falling through the vicinity of the pressing plate 5 can be conveniently discharged out of the roof along the water chute 31.

All be equipped with rubber seal 8 between every two adjacent solar panel 1 or the glass 21 subassembly 2 in every row of solar panel 1 or the glass 21 subassembly 2, rubber seal 8 includes rubber strip 81 and the shielding portion 82 that is located both sides and integrated into one piece about rubber strip 81, and the shielding portion 82 left and right sides all outwards extends, and set up for rubber strip 81 symmetry, all press from both sides the rubber strip 81 of a rubber seal 8 between two adjacent solar panel 1 or the glass 21 subassembly 2 in every row, and shielding portion 82 hugs closely the upper and lower both sides wall edge of solar panel 1 or the glass 21 subassembly 2, in order to realize the leakproofness between two adjacent solar panel 1 or the glass 21 subassembly 2 in every row, avoid the rainwater to fall into from this place. In this embodiment, the rubber sealing strip may be clamped, abutted, and fixed by the solar panels 1 or the glass 21 assemblies 2 on both sides, or may be bonded and fixed with the solar panels 1 or the glass 21 assemblies 2 on both sides.

The width of the lighting belt is 300mm-700mm. In this embodiment, the area of the roof to be paved is about 400 square meters.

The working process of the embodiment is as follows:

the solar panel 1 is laid on the upper side of the roof truss 4, so that the solar panel is used for absorbing solar illumination to generate electricity on one hand, and is used as a roof on the other hand, and the cost for building the roof is saved; set up one or more daylighting areas on the roof that solar panel 1 laid and form, can make the sunlight shine the room on daytime, the energy saving, the energy cost that the indoor electric light illumination of using caused promptly to can also obtain certain reward in can merging the municipal power grid with the energy of saving.

When laying, the installation of solar panel 1 and glass 21 subassembly 2 on support 3 all adopts limit briquetting 7 or median briquetting 6 to fix to set up the rubber seal strip between every two adjacent solar panel 1 or glass 21 subassembly 2 in every solar panel 1 or glass 21 subassembly 2 and carry out the gap seal, avoid the rainwater to fall into indoor.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a solar panel mounting structure with roof daylighting area, includes support, solar panel group, and a plurality of supports are parallel and interval distribution rigid coupling is at the roof truss upside, has a plurality of solar panel group at support upside rigid coupling, and a plurality of solar panel group all are on a parallel with support upper surface setting, and a plurality of solar panel group are the matrix distribution at the support upside, and every solar panel group all includes a plurality of solar panel that are the matrix distribution, its characterized in that: still include the daylighting area, all be equipped with a daylighting area between every two adjacent solar panel group, every daylighting area all includes the glass subassembly that a plurality of rigid couplings set up in support upside and be on a parallel with the support upper surface, and every two adjacent glass subassemblies are all aligned the concatenation together end to end.

2. The solar panel installation structure with roof lighting strips of claim 1, wherein: the glass component comprises glass and a frame, wherein the glass is fixedly embedded in the frame, and a layer of explosion-proof film is attached to the surface of the glass.

3. The solar panel installation structure with roof lighting strips of claim 2, wherein: the supports incline downwards along the roof truss, the solar panel and/or the glass component connected with the left support and the right support at the outermost side are fixedly connected to the corresponding connecting frames through a plurality of side pressing blocks, and the left side and the right side of the solar panel and/or the glass component between the left support and the right support at the outermost side are fixedly connected to the corresponding supports through a plurality of middle pressing blocks.

4. The solar panel installation structure with roof lighting strips of claim 1, wherein: the extending direction of the lighting belt is consistent with the length direction of the support, and the bottom of each row of solar panels and/or glass components is provided with one support.

5. The solar panel installation structure with roof lighting strips of claim 3, wherein: all joint a bar clamp plate between every two adjacent briquetting along support length direction, the clamp plate overlap joint is on the solar panel and/or the frame that correspond.

6. The solar panel installation structure with roof lighting strips of claim 5, wherein: the clamp plate includes the sand grip and is located sand grip bottom both sides and integrated into one piece's horizontal bar, all sets up the outside draw-in groove of opening at the both ends of every horizontal bar, and well briquetting is for falling a few font structures, and the centre is U type piece, and U type piece both sides top is the outside crimping edge that extends of equal level, and the both sides wall difference joint of U type piece is in the draw-in groove that corresponds, and the crimping of well briquetting is along the crimping at the horizontal bar upside.

7. The solar panel installation structure with roof lighting strips of claim 3, wherein: the support is the waterproof frame of M type, and briquetting department overlap joint has well layer board in support upper surface connection, and well briquetting passes through bolt rigid coupling in the middle of well layer board upside, and the limit layer board has in support upper surface connection limit briquetting department overlap joint, and the limit briquetting passes through bolt rigid coupling at limit layer board upside.

8. The solar panel installation structure with roof lighting strips of claim 7, wherein: the pressing plate is positioned above the water chute with an upward opening in the middle of the bracket.

9. The solar panel installation structure with roof lighting strips of claim 1, wherein: all be equipped with rubber seal between every two adjacent solar panel or the glass unit in every solar panel or the glass unit, rubber seal includes the rubber strip and is located the shielding part of both sides about the rubber strip, and the shielding part left and right sides all outwards extends to for the rubber strip symmetry sets up, all presss from both sides tight rubber seal's rubber strip between two adjacent solar panel or the glass unit in every row, and the shielding part pastes tight solar panel or the last both sides wall edge of glass unit.

10. The solar panel installation structure with roof lighting strips of claim 1, wherein: the width of the lighting belt is 300mm-700mm.

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