CN215934769U - Panel beating support is used in installation of photovoltaic roof - Google Patents

Abstract

The utility model relates to a sheet metal bracket for mounting a photovoltaic roof, which comprises a main steel beam, a mounting buckle and a water chute, wherein the main steel beam is fixedly connected with the mounting buckle; the main steel beam is fixed along the ridge direction of the roof, and a main drainage groove is arranged in the main steel beam; a water chute is arranged between the upper photovoltaic assembly and the lower photovoltaic assembly, the water chute is perpendicular to the main steel beam and is positioned above the main steel beam, and two ends of the water chute are led into the main drainage groove to collect and guide rainwater; a plurality of installation buckles are fixed on the main steel beam at intervals, and installation holes are formed in the installation buckles. The main parts of the utility model can be formed by bending the steel plate by the plate bending machine, the production efficiency is high, the production process is simple, and the cost in all aspects can be effectively reduced while the rain-proof and water guide of the photovoltaic roof is met.

Description

Panel beating support is used in installation of photovoltaic roof

Technical Field

The utility model relates to a special bracket for mounting and fixing photovoltaic components to form a distributed photovoltaic power station.

Background

Along with the reduction of the manufacturing cost of the photovoltaic module, the construction of the distributed photovoltaic power station is widely applied. The photovoltaic module needs to be installed by utilizing the support, then a photovoltaic power station can be formed, and reasonable power generation power is achieved for families or enterprises to use. Early photovoltaic support mostly adopts the aluminium alloy, combines concrete foundation, stand etc. to set up the rectangle frame that the slope set up, then fixes photovoltaic module piece by piece to the frame with the fastener on, forms photovoltaic power plant. However, with the wide application of distributed power stations, the installation base forms of the distributed power stations are different, and it is difficult to install the distributed power stations by using conventional aluminum profile brackets for fixing the base.

In addition, the original support form adopted by installation is large in material consumption and high in construction cost, the construction labor cost is high, the construction efficiency is low, and in order to further reduce the manufacturing and using costs, a special support is necessarily researched and developed aiming at the installation characteristics of a distributed photovoltaic power station.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a sheet metal support for mounting a photovoltaic roof, which can meet the building requirement of the photovoltaic roof, is low in manufacturing, storage and transportation cost and easy to build.

In order to achieve the purpose of the utility model, a sheet metal bracket for mounting a photovoltaic roof is provided, which comprises a main steel beam, a mounting buckle and a water chute;

the main steel beam is fixed along the ridge direction of the roof, and a main drainage groove is arranged in the main steel beam;

a water chute is arranged between the upper photovoltaic assembly and the lower photovoltaic assembly, the water chute is perpendicular to the main steel beam and is positioned above the main steel beam, and two ends of the water chute are led into the main drainage groove to collect and guide rainwater;

a plurality of installation buckles are fixed on the main steel beam at intervals, and installation holes are formed in the installation buckles.

As a further improvement of the utility model, the middle of the main steel beam is provided with a main drainage channel, and two sides of the main steel beam are symmetrically provided with mounting platforms for supporting bevel edges;

the main drainage tank is U-shaped;

the installation platform and the supporting bevel edge on the single side form a 7 shape.

Furthermore, bottom edges are arranged at the bottoms of the two sides of the main steel beam and are lower than the bottom of the main drainage tank, or the bottom edges are flush with the bottom of the main drainage tank;

the installation platform, the supporting bevel edge and the bottom edge on the single side form a Z shape.

Furthermore, the mounting buckle is integrally in a bow shape; the mounting buckle is provided with an upper plane, and two sides of the mounting buckle are provided with fixed bevel edges;

the upper plane is pressed on the mounting platform; the middle of the upper plane is provided with a mounting hole; the mounting hole is positioned above the main drainage groove;

the fixed bevel edge is attached to the outer side of the supporting bevel edge.

Still further, the mounting hole in the mounting buckle is a screw hole.

Furthermore, the middle part of the upper plane extends downwards to form a screw hole body, and the screw hole is positioned in the screw hole body.

As a further improvement of the utility model, the water chute is provided with a water chute, and both sides of the water chute are respectively provided with a lower hem and an upper hem; the folded edge of the lower folded edge is folded towards the inner side of the water guide ditch.

Furthermore, the upper folded edge is folded towards the outer side of the water guide ditch.

Furthermore, two ends of the water chute are positioned above the main drainage chute.

Furthermore, two ends of the water chute are turned downwards, and two end parts of the water chute extend into the main drainage tank.

According to the sheet metal bracket for mounting the photovoltaic roof, the main components can be formed by bending the steel plate through the plate folding machine, the production efficiency is high, the production process is simple, the size can be flexibly adjusted according to the requirement, a special die is not needed, if the sheet metal bracket is applied to southern rainy areas, a thicker steel plate is adopted, the corrosion resistance is improved, the sizes of the main drainage channel and the water guide channel are correspondingly increased, and the drainage quantity is increased; and when the solar water heater is applied to northern and western rainless areas, the sizes of the main drainage channel and the water guiding ditch can be reduced, and the material consumption is further saved. The main parts of the sheet metal bracket for mounting the photovoltaic roof can be stacked, stored and transported, so that the transportation and storage cost can be saved.

The sheet metal bracket for mounting the photovoltaic roof can effectively reduce the cost in all aspects while meeting the rainproof and water guiding requirements of the photovoltaic roof.

Drawings

FIG. 1 is a schematic view of the use and installation of a sheet metal bracket for photovoltaic roof installation according to the present invention;

FIG. 2 is a schematic overall structure diagram of the sheet metal bracket for photovoltaic roof installation according to the present invention;

FIG. 3 is a schematic view of the overall structure of the main steel beam of the present invention;

FIG. 4 is a cross-sectional view of a main steel beam of the present invention;

FIG. 5 is a schematic view of the overall structure of the mounting clip of the present invention;

FIG. 6 is a cross-sectional schematic view of the mounting clip of the present invention;

FIG. 7 is a schematic view of the present invention showing the connection between the mounting buckle and the main steel beam;

FIG. 8 is a schematic view of the overall structure of the flume of the present invention;

FIG. 9 is a schematic cross-sectional view of the flume of the present invention;

fig. 10 is an enlarged partial view of the installation of the present invention.

Detailed Description

The utility model is further described below with reference to the following figures and specific examples.

As shown in fig. 1 and 2, the utility model is a schematic view of an overall structure of a sheet metal bracket for photovoltaic roof installation; the photovoltaic module mounting structure is applied to building of structures such as roofs, a main steel beam 1 is mainly adopted as a main structure, a plurality of main steel beams 1 are fixed according to the mounting distance of a photovoltaic module, a plurality of mounting buckles 2 are fixed on the main steel beams 1 at intervals and mounted in the mounting buckles 2 through screws, pressing codes and nuts, and the pressing codes press the photovoltaic module on the main steel beams 1 from the upper part of the photovoltaic module to realize mounting.

When the photovoltaic modules form the connected power station, the power station has the function of a roof, and in order to strengthen the roof function, the connected photovoltaic module system needs to be subjected to waterproof treatment, so that the roof has a waterproof function; here, because photovoltaic module's installation is not tight silk joint each other, can realize surface waterproof, the event needs set up the water guide structure in photovoltaic module below, leads away the water that leaks down on photovoltaic module surface, makes whole photovoltaic system can not fall into water downwards, realizes good roof drainage function.

Therefore, the main steel beam 1 is fixed along the ridge direction of the roof, and a main drainage groove is arranged in the main steel beam 1; between adjacent photovoltaic module from top to bottom, still be equipped with guiding gutter 3, guiding gutter 3 perpendicular to main girder steel 1, and be located the top of main girder steel 1 will be along the rainwater collection that upper photovoltaic module leaked down, then transversely arrange into the main drainage groove of main girder steel.

The specific structure of the main steel beam 1 is, as shown in fig. 3 and 4, a main drainage channel 11 is arranged in the middle, and mounting platforms 12, supporting bevel edges 13 and bottom edges 14 are symmetrically arranged on two sides; the main drainage tank 11 is U-shaped, and a single-side mounting platform 12, a supporting bevel edge 13 and a bottom edge 14 form a Z shape; the main steel beam 1 can be formed by bending a steel plate through a plate bending machine, and can be vertically overlapped and stacked, so that the transportation and storage space is saved; the length can be increased by vertically overlapping, and the main drainage channels 11 can be mutually connected in an inclined way; the mounting platform 12 can be used for supporting a photovoltaic module; by providing the bottom side 14, a fixing plane can be formed at the bottom, and the main steel beam 1 can be fixed by clamping the bottom side 14 with a fastener without damaging the wall surface of the main drainage channel 11.

The specific structure of the mounting buckle 2 is as shown in fig. 5 and 6, the whole body is in a bow shape, the mounting buckle is provided with an upper plane 21, a mounting hole 22 is arranged in the middle, and two sides are provided with fixed bevel edges 23; the mounting buckle 2 can be formed by stamping a metal plate, is fixed on the main steel beam 1 according to the spacing requirement of mounting pressing codes on a construction site, can be fixed on the site in a welding or gluing mode, and is matched with the supporting bevel edge 13 by arranging the fixing bevel edge 23, so that the contact surface is increased, the bonding strength is improved, and meanwhile, good positioning and limiting are carried out; alternatively, the mounting buckle 2 can be screwed on the mounting platform 12 through the upper plane 21 or screwed on the support bevel 13 through the fixing bevel 23 by self-tapping screws, so that simple field assembly and construction can be realized. Mounting screws for pressing codes can penetrate through the mounting holes 22 and then are fixed by combining nuts, and the mounting holes 22 can be prefabricated into threaded holes for direct use; when the mounting hole 22 is a threaded hole, in order to increase the thread combination length, the mounting hole 22 may be made into a longer threaded hole in a form of punching and flanging, or the mounting buckle 2 may be integrally made by machining, and a threaded hole body 24 is formed in the middle of the upper plane 21 and extends downward to increase the length of the threaded hole.

The combination of the mounting buckle 2 and the main steel beam 1 is shown in fig. 7.

The water chute 3, as shown in fig. 8 and 9, has a water guiding channel 31, and the top of the two side vertical surfaces are provided with folded edges, namely a lower folded edge 32 and an upper folded edge 33; the lower folded edge 32 is folded towards the inner side of the water guide ditch 31, and the upper folded edge 33 is folded towards the outer side of the water guide ditch 31; the water chute 3 can also be formed by bending a steel plate through a plate bending machine, and can be partially overlapped and stacked vertically, so that the transportation and storage space is saved. As shown in fig. 10, for an installation schematic view, the lower folded edge 32 is used for hooking into a frame of a photovoltaic module below, so as to perform lower limit on water flow and prevent water flow from overflowing; the upper folded edge 33 is folded outwards, so that the space of the top of the water guiding groove 31 is not further reduced, and the water guiding groove 3 is convenient to install in the frames of the upper photovoltaic assembly and the lower photovoltaic assembly. The hem is arranged for increasing strength, and meanwhile, sharp parts such as burrs are prevented from being formed in the vertical direction, and the photovoltaic module is scratched on the back plate in the installation process. The water chute 3 is pressed between the photovoltaic module and the mounting platform 12, preferably, the end part of the water chute 3 extends to the position right above the main drainage trough 11, so that received water can be effectively drained into the main drainage trough 11, and the edge leakage is reduced; when the water guide groove is installed, the end part of the water guide groove 3 can be bent downwards and hooked into a part of the main drainage groove 11, and the water is further prevented from leaking along the edge.

The main components of the sheet metal bracket for mounting the photovoltaic roof can be formed by bending the steel plate by the plate folding machine, the production efficiency is high, the production process is simple, the size can be flexibly adjusted according to the requirement, a special die is not needed, if the sheet metal bracket is applied to southern rainy areas, a thicker steel plate is adopted, the corrosion resistance is improved, the sizes of the main drainage channel 11 and the water guide channel 31 are correspondingly increased, and the drainage quantity is increased; when the solar water heater is applied to northern and western regions with little rain, the sizes of the main drainage tank 11 and the water guiding ditch 31 can be reduced, and the material consumption is further saved. The main parts of the sheet metal bracket for mounting the photovoltaic roof can be stacked, stored and transported, so that the transportation and storage cost can be saved.

The sheet metal bracket for mounting the photovoltaic roof can effectively reduce the cost in all aspects while meeting the rainproof and water guiding requirements of the photovoltaic roof.

While the preferred embodiments of the present invention have been described in detail, it will be understood by those skilled in the art that the utility model is not limited to the embodiments disclosed, but is capable of various modifications and substitutions without departing from the spirit of the utility model.

Claims (10)

1. The sheet metal support for mounting the photovoltaic roof is characterized by comprising a main steel beam, a mounting buckle and a water guide groove;

the main steel beam is fixed along the ridge direction of the roof, and a main drainage groove is arranged in the main steel beam;

a water chute is arranged between the upper photovoltaic assembly and the lower photovoltaic assembly, the water chute is perpendicular to the main steel beam and is positioned above the main steel beam, and two ends of the water chute are led into the main drainage groove to collect and guide rainwater;

a plurality of installation buckles are fixed on the main steel beam at intervals, and installation holes are formed in the installation buckles.

2. The sheet metal bracket for photovoltaic roof installation according to claim 1, wherein the main steel beam is provided with a main drainage groove in the middle, and mounting platforms for supporting inclined edges are symmetrically arranged on two sides of the main steel beam;

the main drainage tank is U-shaped;

the installation platform and the supporting bevel edge on the single side form a 7 shape.

3. The sheet metal bracket for photovoltaic roof installation according to claim 2, wherein bottom edges are arranged at the bottoms of the two sides of the main steel beam, and the bottom edges are lower than the bottom of the main drainage channel or are flush with the bottom of the main drainage channel;

the installation platform, the supporting bevel edge and the bottom edge on the single side form a Z shape.

4. The sheet metal bracket for photovoltaic roof installation according to claim 2, wherein the mounting buckle is integrally in a shape of a bow; the mounting buckle is provided with an upper plane, and two sides of the mounting buckle are provided with fixed bevel edges;

the upper plane is pressed on the mounting platform; the middle of the upper plane is provided with a mounting hole; the mounting hole is positioned above the main drainage groove;

the fixed bevel edge is attached to the outer side of the supporting bevel edge.

5. The sheet metal bracket for photovoltaic roof installation according to claim 4, wherein the mounting hole in the mounting buckle is a screw hole.

6. The sheet metal bracket for photovoltaic roof installation according to claim 5, wherein the middle of the upper plane extends downwards to form a screw hole body, and the screw hole is located in the screw hole body.

7. The sheet metal bracket for photovoltaic roof installation according to claim 1, wherein the water chute is provided with a water chute, and both sides of the water chute are respectively provided with a lower folded edge and an upper folded edge; the folded edge of the lower folded edge is folded towards the inner side of the water guide ditch.

8. The sheet metal bracket for photovoltaic roof installation according to claim 7, wherein the upper flange is folded over to the outside of the water guide gutter.

9. The sheet metal bracket for photovoltaic roof installation according to claim 7, wherein both ends of the water chute are located above the main drainage channel.

10. The sheet metal bracket for photovoltaic roof installation according to claim 9, wherein both ends of the water chute are turned over downward, and both end portions of the water chute extend into the main drainage channel.

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