CN218479418U - Bicycle shed BIPV system - Google Patents

Abstract

The utility model relates to a bicycle shed BIPV system technical field specifically is a bicycle shed BIPV system, including the bicycle shed, be equipped with the purlin on the bicycle shed, be equipped with main drainage structure on the purlin, and be connected through first self tapping screw between main drainage structure and the purlin, fixed bridging is equipped with on the top of main drainage structure, be connected through second self tapping screw between main drainage structure and the fixed bridging, horizontal basin has been laid to fixed bridging one side, photovoltaic module has been laid to horizontal basin one side. The utility model discloses a mode that main basin and horizontal basin combined together carries out drainage treatment to bicycle shed BIPV system to can improve bicycle shed BIPV system's drainage effect, reduce the problem that the bicycle shed appears leaking, all be equipped with main basin and horizontal basin simultaneously between adjacent photovoltaic module, this kind of mode of the straight drainage of every group of subassembly can avoid the easy overfill of guiding gutter to come out and cause the problem that the bicycle shed leaked, improves drainage efficiency.

Description

Bicycle shed BIPV system

Technical Field

The utility model relates to a bicycle shed BIPV system technical field specifically is a bicycle shed BIPV system.

Background

The solar photovoltaic car shed combines photovoltaic power generation and a car shed roof, which is the simplest one in the combination of photovoltaic and buildings. The novel car shed not only can realize all functions of the traditional car shed, but also can bring power generation benefits to owners. Generally, a steel structure support is adopted, so that the energy-saving device is simple, elegant, fashionable and attractive, is a clean and environment-friendly new energy source, and effectively relieves the social environment and energy pressure. The photovoltaic system who installs and replace the profiled metal sheet on the current steel construction bicycle shed mainly adopts scattered support component at the mode of canopy frame installation, and this kind of mounting means has following problem:

(1) When the scattered support members are assembled, the water leakage of the car shed is easily caused due to construction problems.

(2) The drainage of the car shed adopts a mode that the surface of the component is straight and the drainage of the water guide groove is repeated, and when water leakage is caused due to construction precision, the water guide groove is easy to overflow to cause water leakage of the car shed.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a bicycle shed BIPV system, which solves the problem that the bicycle shed is easy to leak water due to construction problems when the assembly of scattered support members is provided in the background art; the drainage of the car shed adopts a mode that the surface of the component is directly arranged and the drainage of the water guide groove is repeated, and when water leakage is caused due to construction precision, the water guide groove is easy to overflow to cause the water leakage problem of the car shed.

In order to achieve the above object, the utility model provides a following technical scheme: a carport BIPV system comprising:

the bicycle shed is characterized in that purlins are arranged on the bicycle shed, main drainage structures are assembled on the purlins and connected with the purlins through first self-tapping screws, fixed bridges are installed on the top ends of the main drainage structures, the main drainage structures and the fixed bridges are connected through second self-tapping screws, transverse water grooves are paved on one sides of the fixed bridges, photovoltaic modules are paved on one sides of the transverse water grooves, middle pressing blocks are arranged between the adjacent photovoltaic modules, pressing strips are arranged in grooves of the middle pressing blocks, and assembling bolts are assembled in the grooves of the middle pressing blocks.

Preferably, the purlines are C-shaped steel or rectangular steel pipes, can stably support the system, and the main drainage structure is detachably connected with the purlines through first self-tapping screws and is convenient for combining, constructing and assembling the photovoltaic structure and the drainage structure through the purlines and the main drainage structure.

Preferably, the main drainage structure comprises a supporting ridge frame, a main water tank and fixed assembly edges, the main water tank is of a corrugated structure and is formed between adjacent supporting ridge frames, the fixed assembly edges are arranged on one side, far away from the main water tank, of each supporting ridge frame, assembly screw holes are formed in two side walls of each fixed bridge, a fit groove is formed in the bottom end of each fixed bridge, the fixed bridges are matched with the supporting ridge frames through the fit grooves, second self-tapping screws penetrate through the assembly screw holes and penetrate into the supporting ridge frames, stable support of the photovoltaic modules and the transverse water tanks can be achieved through combined assembly of the main drainage structure and the fixed bridges, and drainage and photovoltaic power generation are combined.

Preferably, the top end face of the pressing strip is of an arc-shaped structure, rainwater can be drained from a drainage structure communicated with the pressing strip through the arc-shaped face, and the pressing strip is clamped in the groove of the middle pressing block, so that the pressing strip and the middle pressing block can be conveniently assembled together.

Preferably, a first screw hole is formed in the groove of the middle pressing block, a second screw hole is formed in the middle position of the fixed bridge, the middle pressing block is detachably connected with the fixed bridge through an assembling bolt, the first screw hole and the second screw hole, and the photovoltaic assembly and the transverse water tank are conveniently supported and clamped through the assembly of the middle pressing block and the fixed bridge.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses a mode that main basin and horizontal basin combined together carries out drainage treatment to bicycle shed BIPV system to can improve bicycle shed BIPV system's drainage effect, reduce the problem that the bicycle shed appears leaking, all be equipped with main basin and horizontal basin simultaneously between adjacent photovoltaic module, this kind of mode of the straight drainage of every group of subassembly can avoid the easy overflow of guiding gutter to come out and cause the problem that the bicycle shed leaked, improves drainage efficiency.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection structure of the fixed bridge and the middle pressure block of the present invention;

FIG. 3 is a schematic view of the main drainage structure of the present invention;

fig. 4 is a schematic view of the structure of the joint of the middle pressing block of the present invention.

In the figure: 1. a carport; 2. a purlin; 3. a first tapping screw; 4. a primary drainage structure; 401. supporting the spine; 402. a main water tank; 403. fixing the matching edge; 5. fixedly bridging; 501. assembling a screw hole; 502. fitting the groove; 6. a second tapping screw; 7. a transverse water tank; 8. a photovoltaic module; 9. assembling a bolt; 10. pressing the blocks in a medium manner; 11. and (7) pressing strips.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, a carport BIPV system includes: carport 1, be equipped with purlin 2 on the carport 1, be equipped with main drainage structures 4 on the purlin 2, and be connected through first self-tapping screw 3 between main drainage structures 4 and the purlin 2, fixed bridging 5 is equipped with on the top of main drainage structures 4, be connected through second self-tapping screw 6 between main drainage structures 4 and the fixed bridging 5, horizontal basin 7 has been laid to fixed bridging 5 one side, carry out drainage treatment to carport BIPV system through the mode that main basin 402 combines together with horizontal basin 7, thereby can improve the drainage effect of carport BIPV system, reduce the problem that carport 1 appears leaking, photovoltaic module 8 has been laid to horizontal basin 7 one side, all be equipped with main basin 402 and horizontal basin 7 between adjacent photovoltaic module 8 simultaneously, this kind of mode of every group of subassembly straight drainage, can avoid the easy overflow of aqueduct to come out and cause the problem of carport of leaking of carport, improve drainage efficiency, be equipped with well briquetting 10 between adjacent photovoltaic module 8, be equipped with in the inslot of well briquetting 10, assembly bolt 9 is equipped with in the groove of well briquetting 10, assembly bolt 9, purlin 2 is equipped with the construction of being convenient for the main drainage structures and can dismantle the purlin 2 and support the purlin 2, the main drainage structures through first self-tapping screw 2, the construction of the main drainage structures, the detachable drainage structures of purlin 4 and can be convenient for the purlin 2, the main drainage structures, the purlin 2, the structure.

As shown in fig. 1 to 3, a carport BIPV system includes: the main drainage structure 4 comprises supporting ridge frames 401, main water grooves 402 and fixing assembly edges 403, a corrugated-structure main water groove 402 is formed between every two adjacent supporting ridge frames 401, rainwater at each position can be collected through the corrugated-structure main water groove 402, uniform drainage treatment can be conducted on the main water groove 402, the fixing assembly edges 403 are arranged on one sides of the supporting ridge frames 401 and far away from the main water groove 402, the main drainage structure 4 can be stably installed on the purline 2 through the fixing assembly edges 403, assembly screw holes 501 are formed in two side walls of each fixing bridge 5, a fixing joining groove 502 is formed in the bottom end of each fixing bridge 5, the fixing bridges 5 are matched with the supporting ridge frames 401 through the joining grooves 502, and therefore the supporting ridge frames 401 can stably support the fixing bridges 5, second self-tapping screws 6 penetrate through the assembly screw holes 501 and penetrate into the supporting ridge frames 401, stable support of the photovoltaic modules 8 and the transverse water grooves 7 can be achieved through combination and assembly of the main drainage and the fixing bridges 5, and photovoltaic power generation are combined.

As shown in fig. 1 and 4, a carport BIPV system includes: the top end face of the pressing strip 11 is of an arc-shaped structure, rainwater can be drained from a drainage structure through the pressing strip 11 due to the arc-shaped face, the pressing strip 11 is clamped in a groove of the middle pressing block 10, the pressing strip 11 and the middle pressing block 10 are conveniently assembled together, a first screw hole is formed in the groove of the middle pressing block 10, a second screw hole is formed in the middle of the fixed bridge 5, the middle pressing block 10 is detachably connected with the fixed bridge 5 through an assembling bolt 9, the first screw hole and the second screw hole, and the photovoltaic module 8 and the transverse water tank 7 are conveniently supported and clamped through the assembling of the middle pressing block 10 and the fixed bridge 5.

It should be noted that, the bicycle shed BIPV system of this application, when using, with main drainage structures 4 with first self-tapping screw 3 fixed to C shaped steel purlin 2, through assembling screw 501 with fixed bridging 5 with second self-tapping screw 6 fixed to the support ridge 401 on main drainage structures 4, can guarantee the stability of being connected through the matching of agreeing with groove 502 and support ridge 401, after the assembly, lay horizontal basin 7 earlier, lay photovoltaic module 8 again, pass well briquetting 10 with construction bolt 9, so lock well briquetting 10 on fixed bridging 5 and play the fixed action, can adopt the beautiful seam strip of pasting to prevent water between the subassembly frame again.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A carport BIPV system, comprising:

carport (1), be equipped with purlin (2) on carport (1), be equipped with main drainage structures (4) on purlin (2), and be connected through first self-tapping screw (3) between main drainage structures (4) and purlin (2), fixed bridging (5) are equipped with on the top of main drainage structures (4), be connected through second self-tapping screw (6) between main drainage structures (4) and fixed bridging (5), horizontal basin (7) have been laid to fixed bridging (5) one side, photovoltaic module (8) have been laid to horizontal basin (7) one side, be equipped with well briquetting (10) between adjacent photovoltaic module (8), in the inslot depression bar (11) of well briquetting (10), in the inslot of well briquetting (10) is equipped with assembly bolt (9).

2. The carport BIPV system as claimed in claim 1, characterized in that the purlins (2) are C-section steel or rectangular steel pipes, and the main drainage structures (4) are detachably connected with the purlins (2) by first tapping screws (3).

3. A carport BIPV system according to claim 1, characterized in that the primary drainage structure (4) is formed by support ridges (401), primary water channels (402), and fixing attachment edges (403), wherein a corrugated primary water channel (402) is formed between adjacent support ridges (401), and the fixing attachment edges (403) are provided on the support ridges (401) on the side away from the primary water channel (402).

4. The carport BIPV system as claimed in claim 1, wherein the two side walls of the fixed bridge (5) are provided with assembling screw holes (501), and the bottom end of the fixed bridge (5) is provided with a fitting groove (502).

5. A carport BIPV system as claimed in claim 4, characterised in that the fixing bridges (5) are mutually matched with the supporting ridge (401) through fitting grooves (502), and second self-tapping screws (6) pass through the fitting screw holes (501) and penetrate into the supporting ridge (401).

6. The bicycle shed BIPV system as claimed in claim 1, wherein the top end face of the batten (11) is of an arc structure, and the batten (11) is clamped in the groove of the middle pressing block (10).

7. The carport BIPV system as claimed in claim 1, wherein the groove of the middle pressing block (10) is provided with a first screw hole, the middle position of the fixed bridge (5) is provided with a second screw hole, and the middle pressing block (10) is detachably connected with the fixed bridge (5) through the assembling bolt (9), the first screw hole and the second screw hole.

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