CN211923275U - Building integrated photovoltaic support system - Google Patents

Abstract

The utility model relates to a building integrated photovoltaic support system, which comprises a plurality of support mechanisms which are arranged on corresponding building crossbeams side by side, wherein each support mechanism comprises a fixture fixing piece, two sides of the bottom of the fixture fixing piece are respectively connected with a corresponding water drainage tank downwards through a corresponding support platform, the top of each water drainage tank is respectively arranged outwards in an inclined manner to form a corresponding water discharging support plate, the outer end of each water discharging support plate is respectively connected with a corresponding support reinforcing plate downwards, and the outer sides of the support reinforcing plates are respectively and transversely provided with corresponding mounting plates; a plurality of corresponding water chutes are respectively erected between two adjacent supporting mechanisms at equal intervals, at least one locking clamp is respectively arranged on the clamp fixing piece between the two adjacent water chutes in a fixing mode, each locking clamp comprises a supporting piece and a locking piece, and the bottoms of the supporting pieces and the locking pieces are respectively turned outwards to form corresponding supporting portions. The utility model discloses can effectively promote holding power and stretching resistance by a wide margin on the basis that the structure is simplified.

Description

Building integrated photovoltaic support system

Technical Field

The utility model relates to a building integration photovoltaic mounting system, its mainly used support of solar photovoltaic panel.

Background

With the continuous development of science and technology, the utilization and application of green energy resources by human beings are continuously improved, and solar energy is one of the most widely applied green new energy resources at present. The solar photovoltaic building is a solar photovoltaic power generation system which is installed while the building is designed and constructed and is perfectly combined with the building. As one of the main components of a building, a solar photovoltaic building is required to have not only a power generation function but also, above all, to be usable as a building member.

The existing solar photovoltaic building mainly comprises a photovoltaic bracket system arranged at the top of the building, a solar photovoltaic panel arranged on the photovoltaic bracket system and the like. In order to ensure that the solar photovoltaic building has the power generation function and the function of being used as a building component at the same time, the most important technical problems are that: 1) the photovoltaic bracket system is designed to facilitate drainage and prevent water leakage of buildings; 2) the photovoltaic bracket system has enough installation stability and ensures that the solar photovoltaic building has enough supporting force and enough tensile force at the same time.

In order to facilitate drainage, the conventional photovoltaic support system generally comprises a plurality of supporting mechanisms which are arranged on a cross beam of a building side by side, drainage grooves are required on two sides of each supporting mechanism, a clamp used for locking a photovoltaic panel is arranged on each supporting mechanism, the bottom of each clamp is clamped on each supporting mechanism, and the top of each clamp is clamped on the solar photovoltaic panel. The solar photovoltaic panel is installed by matching the water guide grooves erected between two adjacent supporting mechanisms with corresponding clamps. The water permeating into the transverse gaps of the solar photovoltaic panel is effectively drained into the drainage grooves of the supporting mechanism through the arrangement of the water guide grooves, and the water drained into the water guide grooves and the water permeating into the longitudinal gaps of the solar photovoltaic panel are effectively drained through the drainage grooves of the supporting mechanism.

In order to have sufficient supporting force and tensile resistance, the existing double-sided belt drainage supporting mechanism is generally divided into a bottom mounting part for stable mounting and a top connecting part for stable connecting clamps, and a drainage channel for guiding water and drainage is additionally provided. And bottom installation part, top coupling part and drainage tank part between independent design respectively, do not possess the effect of mutually supporting, support the atress promptly and bear by bottom installation part completely, the stretching resistance of coupling fixture part is born by top coupling part completely, drainage tank only possesses the drainage function. Therefore, the existing supporting mechanism not only has a complex structure and high manufacturing cost, but also is difficult to effectively improve the supporting stress capability and the tensile stress capability.

Consequently, satisfying under the prerequisite of drainage performance, structural design and the change through supporting mechanism to and carry out the improvement of adaptability to locking clamp, design a section can enough effectively simplify the structure, effectively reduce the cost, and on the basis that the structure is simplified, can also effectively promote the building integration photovoltaic mounting system of holding power and stretching resistance by a wide margin and be the utility model discloses a research and development purpose.

Disclosure of Invention

To the technical problem that above-mentioned prior art exists, the utility model provides a building integration photovoltaic mounting system, this building integration photovoltaic mounting system can effectively solve the technical problem that above-mentioned prior art exists.

The technical scheme of the utility model is that:

a building integrated photovoltaic support system comprises a plurality of support mechanisms which are arranged on corresponding building cross beams side by side, wherein each support mechanism comprises a fixture fixing piece, two sides in the middle of each fixture fixing piece are respectively arranged in an outward protruding mode, two sides in the bottom of each fixture fixing piece are respectively connected with corresponding drainage grooves downwards through corresponding support platforms, the tops of the drainage grooves are respectively arranged in an outward inclining mode to form corresponding drainage support plates, the outer ends of the drainage support plates are respectively connected with corresponding support reinforcing plates downwards, corresponding mounting plates are respectively and transversely arranged on the outer sides of the support reinforcing plates, the height of each mounting plate is flush with the bottom of each drainage groove, and the mounting plates are locked and installed on the building cross beams through corresponding locking connecting pieces; a plurality of corresponding water chutes are respectively erected between two adjacent supporting mechanisms at equal intervals, two ends of each water chute are respectively clamped between the joints of the corresponding water discharging supporting plate and the corresponding supporting reinforcing plate, at least one locking clamp is respectively arranged between the two adjacent water chutes of the clamp fixing piece and the clamp fixing piece, each locking clamp comprises a supporting piece and a locking piece, the middle parts of two sides of each supporting piece and the middle part of each locking piece are respectively clamped on the protruding parts of the clamp fixing piece, the bottoms of the supporting pieces and the bottoms of the locking pieces are respectively turned outwards to form corresponding supporting parts, and the supporting parts of the supporting pieces and the locking pieces are respectively supported and connected on the supporting surface of the supporting platform; and corresponding solar photovoltaic panels are respectively fixed in the spaces formed by the two adjacent water guide grooves and the locking clamps between the two adjacent water guide grooves.

The fixture fixing part, the supporting platform, the water drainage groove, the water discharging supporting plate and the supporting reinforcing plate are integrally formed between the mounting plates.

The solar photovoltaic panel locking fixture is characterized in that connecting plates used for supporting a solar photovoltaic panel are respectively and outwards arranged on two sides of the top of a supporting piece of the locking fixture, the upper end faces of the connecting plates are all arranged to be in a sawtooth shape, corresponding clamping grooves are respectively and upwards arranged in the middle of the top of the supporting piece, and the tops of the two side walls of each clamping groove are respectively arranged to be in a T shape.

The supporting piece, the connecting plate and the clamping groove are integrally formed.

The solar photovoltaic panel clamping device is characterized in that corresponding U-shaped fasteners are respectively installed in the clamping grooves in a locking mode through corresponding locking bolts, the top ends of the two sides of each U-shaped fastener are respectively turned outwards to form clamping blocks used for fastening a solar photovoltaic panel, the bottoms of the clamping blocks are arranged to be in a sawtooth shape, and corresponding clamping convex edges are respectively and inwards arranged at the middle positions of the two side walls of each U-shaped fastener.

The U-shaped fastener is respectively buckled with a corresponding cover plate, two sides of the cover plate respectively extend to the outer sides of the clamping blocks, and the bottom of the cover plate is effectively clamped on the clamping convex edges through corresponding clamping plates.

The connecting seam between two adjacent solar photovoltaic panels is connected with corresponding T-shaped strips in an adhesive manner.

The joint of the water discharging supporting plate and the supporting reinforcing plate is arc-shaped.

The locking connecting piece is a plurality of locking screws arranged at equal intervals.

The utility model has the advantages that:

the utility model discloses under the prerequisite that satisfies drainage performance, structural design and change through supporting mechanism to and carry out the improvement of adaptability to locking clamp, can effectively realize simplifying the structure and effectively reduce the cost, and on the basis that the structure is simplified, can also effectively promote holding power and stretching resistance by a wide margin.

The utility model discloses during the drainage, along the water that the horizontal gap of solar photovoltaic board permeates in the water drainage tank that supporting mechanism was arranged into through the guiding gutter, along the water that the vertical gap of solar photovoltaic board permeates then directly arrange into supporting mechanism's water drainage tank in, under water drainage tank's effect, effectively realize waterproof drainage operation.

The utility model discloses a supporting mechanism can directly make through cold bending process, and overall structure is simple and easy, be convenient for make, and low cost.

After satisfying the drainage performance and on the basis that the structure is simplified, the utility model discloses the overall structure to supporting mechanism has carried out brand-new design.

Firstly, effectively form the linking between anchor clamps mounting and water drainage tank through supporting platform's setting, supporting platform can effectively provide sufficient support to locking fixture after locking fixture locks at the anchor clamps mounting, and supporting platform outwards forms corresponding thrust respectively after the atress.

And secondly, a water discharging support plate is arranged at the top of the water discharging groove, and the outer ends of the water discharging support plates are respectively connected with corresponding support reinforcing plates downwards. Through the intervention of unloading backup pad and support reinforcing plate, effectively support the face contact of original water drainage tank and guiding gutter and improve into current point contact and support, can prevent in the contact surface of water infiltration water drainage tank and guiding gutter, and can effectively form the water conservancy diversion through the setting of unloading the backup pad, can be more convenient with the water conservancy diversion that the guiding gutter emits toward the water drainage tank in. And after the joint of the water discharging support plate and the support reinforcing plate is stressed, the water discharging support plate can inwards form corresponding thrust.

Finally, the thrust that the backup pad that unloads formed is used in the outside of water drainage tank, and the thrust that supporting platform formed then is used in the inboard of water drainage tank, and the thrust of both sides effectively forms interact and offsets in the water drainage tank bottom to effectively improve supporting mechanism's whole atress ability, effectively promote the supporting effect of supporting mechanism to guiding gutter and solar photovoltaic board by a wide margin, and then effectively ensure that the installation of guiding gutter and solar photovoltaic board is stable.

The utility model discloses a support the outside of reinforcing plate and transversely be provided with corresponding mounting panel respectively, the mounting panel highly with the tank bottom of water drainage tank flushes, and the mounting panel is installed on the building crossbeam through corresponding locking connecting piece locking. The mounting plate and the drainage groove after installation are respectively and fixedly supported on the corresponding building beam, and the two traditional supporting surfaces are improved into four supporting surfaces, so that the supporting stress capacity of the supporting mechanism is effectively and further improved on the basis of convenient installation.

When the utility model discloses a locking clamp receives the drawing force, locking clamp can form pressure to the middle bellying of anchor clamps mounting, and after the middle bellying of anchor clamps mounting received pressure, the bottom of anchor clamps mounting can form outside thrust to supporting platform. Therefore, when the locking clamp is to be separated from the clamp fixing piece, enough breaking force needs to be formed on the clamp fixing piece and the supporting platform at the same time to separate the clamp fixing piece and the supporting platform, so that the tensile resistance of the clamp fixing piece of the supporting mechanism is effectively improved, and the probability that the locking clamp is separated from the supporting mechanism is greatly reduced.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the structure diagram in the construction process of the utility model.

Fig. 3 is a schematic structural diagram of the support mechanism.

Fig. 4 is a schematic structural view of the locking clamp.

Fig. 5 is a schematic structural view of a cover plate fastened on a U-shaped fastener.

Detailed Description

To facilitate understanding of those skilled in the art, the structure of the present invention will now be described in further detail with reference to the following examples:

referring to fig. 1-5, a building integrated photovoltaic support system comprises a plurality of support mechanisms 1 mounted on a corresponding building beam side by side, wherein each support mechanism 1 comprises a clamp fixing member 101, two middle sides of each clamp fixing member 101 are respectively arranged to protrude outwards, two bottom sides of each clamp fixing member 101 are respectively connected with a corresponding drainage groove 103 downwards through a corresponding support platform 102, the tops of the drainage grooves 103 are respectively arranged to incline outwards to form corresponding drainage support plates 104, the outer ends of the drainage support plates 104 are respectively connected with corresponding support reinforcing plates 105 downwards, the outer sides of the support reinforcing plates 105 are respectively provided with corresponding mounting plates 106 transversely, the heights of the mounting plates 106 are flush with the bottoms of the drainage grooves 103, and the mounting plates 106 are locked and mounted on the building beam through corresponding locking connectors 2; a plurality of corresponding water chutes 3 are respectively erected between two adjacent supporting mechanisms 1 at equal intervals, two ends of each water chute 3 are respectively clamped between the joints of the corresponding water discharging supporting plate 104 and the corresponding supporting reinforcing plate 105, two locking clamps 4 are respectively fixed between the two adjacent water chutes 3 by the clamp fixing member 101, each locking clamp 4 comprises a supporting member 401 and a locking member 402, the middle parts of two sides of each supporting member 401 and the middle part of each locking member 402 are respectively clamped on the protruding parts of the clamp fixing member 101, the bottoms of each supporting member 401 and the bottom of each locking member 402 are respectively turned outwards to form corresponding supporting parts 403, and the supporting parts 403 of each supporting member 401 and the corresponding locking member 402 are respectively supported and connected on the supporting surface of the supporting platform 102; corresponding solar photovoltaic panels 5 are respectively fixed in the spaces formed by the two adjacent water chutes 3 and the locking clamps 4 between the two adjacent water chutes 3.

The fixture fixing part 101, the supporting platform 102, the drainage channel 103, the water discharging supporting plate 104, the supporting reinforcing plate 105 and the mounting plate 106 are integrally formed.

The solar photovoltaic panel locking fixture is characterized in that two sides of the top of a support part 401 of the locking fixture 4 are respectively and outwards provided with a connecting plate 6 used for supporting a solar photovoltaic panel 5, the upper end face of each connecting plate 6 is arranged to be a saw-toothed shape, the middle position of the top of the support part 401 is respectively and upwards provided with a corresponding clamping groove 7, and the tops of the two side walls of each clamping groove 7 are respectively arranged to be T-shaped.

The supporting piece 401, the connecting plate 6 and the clamping groove 7 are integrally formed.

The solar photovoltaic panel fastening device is characterized in that corresponding U-shaped fasteners 8 are respectively installed in the clamping grooves 7 through corresponding locking bolts in a locking mode, the top ends of the two sides of each U-shaped fastener 8 are respectively turned outwards to form clamping blocks 9 used for fastening the solar photovoltaic panel 5, the bottoms of the clamping blocks 9 are arranged to be in a sawtooth shape, and corresponding clamping convex edges 10 are respectively and inwards arranged at the middle positions of the two side walls of the U-shaped fasteners 8.

Corresponding cover plates 11 are buckled on the U-shaped fasteners 8 respectively, two sides of each cover plate 11 extend to the outer sides of the clamping blocks 9 respectively, and the bottoms of the cover plates 11 are effectively clamped on the clamping convex edges 10 through corresponding clamping plates 12.

The connecting seam between two adjacent solar photovoltaic panels 5 is respectively connected with a corresponding T-shaped strip 13 in an adhesive manner.

The junction of the water discharge support plate 104 and the support reinforcing plate 105 is arranged in an arc shape.

The locking connecting piece 2 is a plurality of locking screws arranged at equal intervals.

The utility model discloses under the prerequisite that satisfies drainage performance, through the structural design and the change of supporting mechanism 1 to and carry out the improvement of adaptability to locking clamp 4, can enough effectively simplify the structure, effectively reduce the cost, and on the basis that the structure is simplified, can also effectively promote holding power and stretching resistance by a wide margin.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (9)

1. A building integrated photovoltaic support system comprises a plurality of supporting mechanisms (1) which are arranged on corresponding building cross beams side by side, and is characterized in that:

the supporting mechanism (1) comprises a fixture fixing part (101), two sides of the middle of the fixture fixing part (101) are respectively arranged in an outward protruding mode, two sides of the bottom of the fixture fixing part (101) are respectively connected with corresponding water drainage grooves (103) downwards through corresponding supporting platforms (102), the tops of the water drainage grooves (103) are respectively arranged in an outward inclined mode to form corresponding water discharging supporting plates (104), the outer ends of the water discharging supporting plates (104) are respectively connected with corresponding supporting reinforcing plates (105) downwards, the outer sides of the supporting reinforcing plates (105) are respectively and transversely provided with corresponding mounting plates (106), the heights of the mounting plates (106) are flush with the groove bottoms of the water drainage grooves (103), and the mounting plates (106) are locked and mounted on a building beam through corresponding locking connecting parts (2);

a plurality of corresponding water chutes (3) are respectively arranged between two adjacent supporting mechanisms (1) at equal intervals, two ends of the water chute (3) are respectively clamped between the joints of the corresponding water discharging support plates (104) and the support reinforcing plates (105), at least one locking clamp (4) is respectively arranged between two adjacent water chutes (3) of the clamp fixing piece (101), the locking clamp (4) comprises a support (401) and a retaining member (402), the middle parts of the two sides of the supporting piece (401) and the locking piece (402) are respectively clamped on the convex part of the clamp fixing piece (101), the bottoms of the supporting piece (401) and the locking piece (402) are respectively turned outwards to form corresponding supporting parts (403), the supporting parts (403) of the supporting part (401) and the retaining part (402) are respectively supported and connected on the supporting surface of the supporting platform (102);

corresponding solar photovoltaic panels (5) are respectively fixed in the spaces formed by the two adjacent water guide grooves (3) and the locking clamps (4) between the two adjacent water guide grooves (3).

2. The building integrated photovoltaic support system of claim 1, wherein: the fixture comprises a fixture fixing piece (101), a supporting platform (102), a water drainage groove (103), a water discharging supporting plate (104), a supporting reinforcing plate (105) and a mounting plate (106), wherein the fixture fixing piece, the supporting platform, the water drainage groove, the water discharging supporting plate and the supporting reinforcing plate are integrally formed.

3. The building integrated photovoltaic support system of claim 1, wherein: support piece (401) top both sides of locking clamp (4) are equipped with connecting plate (6) that are used for supporting solar photovoltaic board (5) respectively outwards, the up end of connecting plate (6) all sets to the cockscomb structure, upwards is equipped with corresponding draw-in groove (7) respectively on support piece (401) top intermediate position, the both sides wall top of draw-in groove (7) sets to the T shape respectively.

4. The building integrated photovoltaic support system of claim 3, wherein: the supporting piece (401), the connecting plate (6) and the clamping groove (7) are integrally formed.

5. The building integrated photovoltaic support system of claim 4, wherein: install corresponding U type fastener (8) through corresponding locking bolt locking in draw-in groove (7) respectively, the both sides top of U type fastener (8) is respectively outwards turned over and is rolled over the fixture block (9) that form and be used for straining solar photovoltaic board (5), the cockscomb structure is set to the bottom of fixture block (9), inwards be provided with corresponding protruding edge of chucking (10) respectively on the intermediate position of the both sides wall of U type fastener (8).

6. The building integrated photovoltaic support system of claim 5, wherein: the U-shaped fastener (8) is respectively buckled with a corresponding cover plate (11), the two sides of the cover plate (11) respectively extend to the outer sides of the clamping blocks (9), and the bottom of the cover plate (11) is effectively clamped on the clamping convex edges (10) through corresponding clamping plates (12).

7. The building integrated photovoltaic support system of claim 1, wherein: the connecting seam between two adjacent solar photovoltaic panels (5) is respectively connected with a corresponding T-shaped strip (13) in an adhesive manner.

8. The building integrated photovoltaic support system of claim 1, wherein: the joint of the water discharging support plate (104) and the support reinforcing plate (105) is arranged to be arc-shaped.

9. The building integrated photovoltaic support system of claim 1, wherein: the locking connecting piece (2) is a plurality of locking screws arranged at equal intervals.

Images