CN218933566U - Double-glass assembly photovoltaic integrated awning - Google Patents

Abstract

The utility model discloses a double-glass assembly photovoltaic integrated awning, and belongs to the field of civil engineering of gas stations. Including main part steel construction module, eaves face packaging module, post packaging module and electric module, main part steel construction module includes the girder steel, steel column and purlin, girder steel fixed mounting is on the top of steel column, purlin fixed mounting is on the girder steel, eaves face packaging module passes through the skeleton to be installed on the boundary beam of awning, post packaging module passes through the skeleton to be installed on the steel column, electric module includes voltage regulator device, the spool, lighting device, camera and electron show board, voltage regulator device passes through the spool and is connected with lighting device, camera and electron show board electricity, dual glass subassembly photovoltaic integration awning still includes photovoltaic roofing module, the purlin is cross fixed mounting on the girder steel, form the fretwork net that supplies photovoltaic roofing module to install, photovoltaic roofing module installs on the fretwork net and with purlin fixed connection, photovoltaic roofing module and electric module electricity are connected. The utility model is convenient for maintenance and can realize light transmission design.

Description

Double-glass assembly photovoltaic integrated awning

Technical Field

The utility model relates to a double-glass assembly photovoltaic integrated awning, and belongs to the field of civil engineering of gas stations.

Background

The existing awning of the gas station is divided into a plurality of parts such as civil engineering, steel structure installation, decoration and packaging, electric and automatic control, and the like, and the parts are processed, manufactured and constructed by different construction units respectively, so that the flow is complex, the construction period is long, and the economic benefit is poor.

The existing BIPV uses a steel purline arranged on a steel structure awning beam as a supporting member, a layer of color steel plate is paved on the purline, the color steel plate is connected in a mode of pasting a photovoltaic module, or the BIPV photovoltaic module with a backboard is adopted, and the steel structure awning is additionally provided with the pasted photovoltaic module or the photovoltaic module with the backboard on the basis of the original color steel plate. Complicated installation, time consumption and low efficiency.

Disclosure of Invention

The utility model provides a double-glass assembly photovoltaic integrated awning, which aims to solve the problem that the installation in the prior art is time-consuming and labor-consuming.

The utility model provides a two glass subassembly photovoltaic integration awning, including main part steel construction module, eaves face packaging module, post packaging module and electric module, main part steel construction module includes the girder steel, steel column and purlin, girder steel fixed mounting is on the top of steel column, purlin fixed mounting is on the girder steel, eaves face packaging module passes through the skeleton to be installed on the boundary beam of awning, post packaging module passes through the skeleton to be installed on the steel column, electric module includes voltage regulator, the spool, lighting device, camera and electron show board, voltage regulator passes through the spool and is connected with lighting device, camera and electron show board electricity, two glass subassembly photovoltaic integration awning still includes photovoltaic roofing module, the purlin is cross fixed mounting on the girder steel, form the fretwork net that supplies photovoltaic roofing module to install, photovoltaic roofing module installs on the fretwork net and with purlin fixed connection, photovoltaic roofing module and electric module are connected.

Further, the photovoltaic roofing module is a BIPV double-glass assembly roof board, and the BIPV double-glass assembly roof board is an integrated board formed by laminating two glass layers, two EVA layers and battery pieces, wherein the battery pieces, the two EVA layers and the two glass layers are sequentially and symmetrically arranged from inside to outside.

Further, the purlin includes main purlin and vice purlin, and the both sides of main purlin are through stainless steel bolt symmetry fixed mounting has horizontal galvanized U type groove, and galvanized U type groove nestification is in vice purlin, and vice purlin passes through stainless steel screw and galvanized U type groove fixed connection, and then sets up with main purlin relatively perpendicularly.

Further, the integrated awning of double glass assembly photovoltaic still includes panel and purlin connected node, panel and purlin connected node include that aluminum alloy attaches frame, aluminum alloy briquetting, hold-down screw and buffer pad, aluminum alloy attaches the frame and is U type groove, symmetry and set up relatively on the upper surface of main purlin, aluminum alloy briquetting sets up the lower limb of the aluminum alloy that sets up at the symmetry attaches the frame, hold-down screw passes the upper surface spiro union of aluminum alloy briquetting and main purlin, and then attach the frame with aluminum alloy through the aluminum alloy briquetting and compress tightly on the upper surface of main purlin, blotter fixed connection is on the upper surface of the upper limb of the frame that aluminum alloy attaches, the edge fixed connection of photovoltaic roofing module is on the blotter.

Further, foam bars are placed in gaps between two adjacent photovoltaic roofing modules, the gaps are divided into upper and lower spaces by the foam bars, weather-proof glue is injected into the upper spaces, and the surface of the weather-proof glue is flush with the upper surface of the photovoltaic roofing modules.

Further, the lower extreme fixedly connected with steel sheet of main purlin, the lower fixed surface of steel sheet is connected with the purlin support, and the lower extreme fixedly connected with of purlin support is on the girder steel.

Further, the purlin support is a purlin support with adjustable height.

Further, the double-glass assembly photovoltaic integrated awning further comprises a steel gutter, the steel gutter is a U-shaped groove, two ends of the steel gutter are fixedly connected to the connecting nodes of two adjacent panels and the purlines, and a photovoltaic roof module is not arranged between the connecting nodes of the two adjacent panels connected with the steel gutter and the purlines.

Further, in two adjacent panels and purlin connected node, every panel and purlin connected node do not be equipped with the aluminum alloy and attach the frame towards one side of steel gutter, and the both sides of steel gutter are integrated into one piece's L type piece steel, and under the aluminum alloy briquetting in two adjacent panels and the purlin connected node was inserted to the bottom of L type piece steel, hold-down screw passed the upper surface spiro union of aluminum alloy briquetting and L type piece steel and main purlin.

Further, the steel gutter is arranged in the middle of the double-glass assembly photovoltaic integrated awning.

The utility model has the beneficial effects that: according to the double-glass assembly photovoltaic integrated awning disclosed by the utility model, the BIPV double-glass assembly roof integrated plate is designed without a back plate, the integrated plate glass has strong corrosion resistance, water vapor cannot enter, snail lines cannot be generated, and no delamination is caused, so that the maintenance is convenient, and the maintenance period is long; and the integrated plate has high power generation efficiency, reduces installation cost compared with the prior art, can realize light transmission design, and can simultaneously have the purposes of roof drainage, fire prevention and the like.

Drawings

FIG. 1 is a schematic view of a BIPV dual-glass assembly roof panel;

FIG. 2 shows the primary and secondary purlin connection nodes;

FIG. 3 is a steel gutter connection node;

FIG. 4 is a BIPV dual-glass assembly roof panel and purlin connection node;

FIG. 5 is a beam-column connection node;

fig. 6 is a purlin bracket structure.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the utility model provides a double-glass-assembly photovoltaic integrated awning, which comprises a main steel structure module, an eave surface packaging module, a column packaging module and an electric module, wherein the main steel structure module comprises a steel beam, a steel column and purlines, the steel beam is fixedly arranged at the top end of the steel column, the purlines are fixedly arranged on the steel beam, the eave surface packaging module is arranged on a boundary beam of the awning through a framework, the column packaging module is arranged on the steel column through the framework, the electric module comprises a voltage stabilizing device, a wire tube, a lighting device, a camera and an electronic display board, the voltage stabilizing device is electrically connected with the lighting device, the camera and the electronic display board through the wire tube, the double-glass-assembly photovoltaic integrated awning further comprises a photovoltaic roofing module, the purlines are fixedly arranged on the steel beam in a cross shape to form a hollowed-out grid for the photovoltaic roofing module to be arranged, the photovoltaic roofing module is arranged on the hollowed-out grid and is fixedly connected with the purlines, and the photovoltaic roofing module is electrically connected with the electric module.

Specifically, the photovoltaic roof module which is not adopted in the civil engineering field of the gas station, namely the BIPV double-glass assembly roof panel, is adopted in the utility model, and the hollowed-out grid formed by splicing purlines corresponds to the photovoltaic roof module, so that the photovoltaic roof module can be directly paved on the purline structure, and the installation is convenient. The electric module can stabilize the voltage of the electric energy generated by the photovoltaic roofing module and output the electric energy to each electronic element on the awning, including a lighting device, a camera, an electronic display board and the like, which is the prior art.

Further, the photovoltaic roofing module is a BIPV double-glass assembly roof board, and the BIPV double-glass assembly roof board is an integrated board formed by laminating two glass layers, two EVA layers and battery pieces, wherein the battery pieces, the two EVA layers and the two glass layers are sequentially and symmetrically arranged from inside to outside.

In particular, BIPV dual-glass assembly roof panels have many beneficial effects, such as:

the integrated plate has no frame and does not need to be grounded;

if the photovoltaic accessory of 1500V is matched, the double-glass assembly can bear 1500V system voltage;

the water permeability=0, the heat dispersion is good, sand and dust prevention is polished;

the BIPV double-glass assembly roof integrated plate has better heat conductivity, and the working temperature of the battery piece can be effectively reduced by using glass as the assembly rear cover plate, so that the assembly has higher output efficiency. Glass thermal conductivity=0.98 w/m·k > TPT backsheet thermal conductivity=0.368 w/m·k;

BIPV double glass assembly roofing integrated plate has long service life and super weather resistance. The service life of the double-glass assembly is prolonged by 5 years compared with that of the conventional assembly, the double-glass assembly generates 3.28 percent more electricity in the 0 th to 25 th years compared with that of the conventional assembly, and the double-glass assembly generates 22.09 percent more electricity in the first 30 years compared with that of the conventional assembly;

the BIPV double-glass assembly roof integrated plate full-wave assembly has the advantages that the full-wave assembly is 30-year-old in quality, the attenuation is 2% in the first year, the attenuation is 0.5% year by year later, the assembly power is 86% of the initial power after 25 years, the assembly power is 83.5% of the initial power after 30 years, and the power attenuation degree is low.

Therefore, the BIPV double-glass assembly roof integrated plate has a plurality of advantages as a roof of the gas station, and the integrated plate is convenient to install, easy to maintain and long in maintenance period, and has absolute advantages compared with the existing roof of the gas station in the early installation and the later maintenance.

Further, the purlin includes main purlin and vice purlin, and the both sides of main purlin are through stainless steel bolt symmetry fixed mounting has horizontal galvanized U type groove, and galvanized U type groove nestification is in vice purlin, and vice purlin passes through stainless steel screw and galvanized U type groove fixed connection, and then sets up with main purlin relatively perpendicularly.

Further, the integrated awning of double glass assembly photovoltaic still includes panel and purlin connected node, panel and purlin connected node include that aluminum alloy attaches frame, aluminum alloy briquetting, hold-down screw and buffer pad, aluminum alloy attaches the frame and is U type groove, symmetry and set up relatively on the upper surface of main purlin, aluminum alloy briquetting sets up the lower limb of the aluminum alloy that sets up at the symmetry attaches the frame, hold-down screw passes the upper surface spiro union of aluminum alloy briquetting and main purlin, and then attach the frame with aluminum alloy through the aluminum alloy briquetting and compress tightly on the upper surface of main purlin, blotter fixed connection is on the upper surface of the upper limb of the frame that aluminum alloy attaches, the edge fixed connection of photovoltaic roofing module is on the blotter.

Specifically, in this embodiment, BIPV double glazing assembly roofing intergral template is applied to there is purlin system awning, and rectangular steel pipe is passed through at awning top, lays 5+5 toughened laminated glass BIPV photovoltaic intergral template, omits the various steel sheet of roofing of traditional design, realizes the double-sided electricity generation to reduce cost and shorten the time limit for a project, strengthened generating efficiency, and environmental protection more. The whole installation process is safe and reliable for the construction of the gas station because the gas station is a prefabricated part and has no welding link.

Further, foam bars are placed in gaps between two adjacent photovoltaic roofing modules, the gaps are divided into upper and lower spaces by the foam bars, weather-proof glue is injected into the upper spaces, and the surface of the weather-proof glue is flush with the upper surface of the photovoltaic roofing modules.

Specifically, the BIPV double-glass assembly roof integrated plate has strong glass corrosion resistance, water vapor cannot enter, snail lines are not generated, and delamination is not caused. However, the side of the roof integrated plate of the BIPV dual-glass assembly is still easy to erode, so in this embodiment, a foam rod is placed in the gap between two adjacent photovoltaic roof modules, the mechanical structure below the foam rod is isolated, and then the weather-resistant glue is injected into the upper space.

The weather-resistant adhesive is a sealant with no obvious change of various physical and chemical properties after being subjected to an artificial accelerated weather aging test. When in use, the glue is extruded into the joint to be sealed from the sealing glue cylinder by using a glue extruding gun, and the sealing glue absorbs moisture in the air at room temperature. The adhesive has excellent weather aging resistance, excellent high and low temperature resistance, excellent cohesiveness and good compatibility with other neutral silicone adhesives.

Therefore, the BIPV double-glass assembly roof integrated plates on two sides can be adhered together by using weather-proof adhesive, and the water vapor erosion of the side surfaces can be sealed, so that the maintenance period is greatly prolonged.

Further, the lower extreme fixedly connected with steel sheet of main purlin, the lower fixed surface of steel sheet is connected with the purlin support, and the lower extreme fixedly connected with of purlin support is on the girder steel.

Further, the purlin support is a purlin support with adjustable height.

Specifically, the awning area of the gas station is large, bearing certain rainwater can greatly increase bearing load, and the gas station has certain collapse danger. The awning has an active drainage function, and the height-adjustable purlin support is adjusted to enable one side of the awning to be lifted, so that gradient active drainage is formed, and safety accidents are avoided. Such adjustable height purlin tows are prior art and the specific structure and principles are not shown in the drawings of the specification.

Further, the double-glass assembly photovoltaic integrated awning further comprises a steel gutter, the steel gutter is a U-shaped groove, two ends of the steel gutter are fixedly connected to the connecting nodes of two adjacent panels and the purlines, and a photovoltaic roof module is not arranged between the connecting nodes of the two adjacent panels connected with the steel gutter and the purlines.

Further, in two adjacent panels and purlin connected node, every panel and purlin connected node do not be equipped with the aluminum alloy and attach the frame towards one side of steel gutter, and the both sides of steel gutter are integrated into one piece's L type piece steel, and under the aluminum alloy briquetting in two adjacent panels and the purlin connected node was inserted to the bottom of L type piece steel, hold-down screw passed the upper surface spiro union of aluminum alloy briquetting and L type piece steel and main purlin.

Further, the steel gutter is arranged in the middle of the double-glass assembly photovoltaic integrated awning.

Specifically, in this embodiment, the steel gutter is arranged in the center of the whole awning, and is convenient for collecting and discharging rainwater. In other embodiments, it may also be mounted on the awning side, the mounting position being the case.

In this embodiment, the steel gutter is connected with the panel and the purlin connected node, but direct installation steel gutter when installing the panel, and need not additionally set up installation position and structure, the installation position of steel gutter is nimble, can select in arbitrary two adjacent panels and purlin connected node.

According to the double-glass assembly photovoltaic integrated awning disclosed by the utility model, the BIPV double-glass assembly roof integrated plate is designed without a back plate, the integrated plate glass has strong corrosion resistance, water vapor cannot enter, snail lines cannot be generated, and no delamination is caused, so that the maintenance is convenient, and the maintenance period is long; and the integrated plate has high power generation efficiency, reduces installation cost compared with the prior art, can realize light transmission design, and can simultaneously have the purposes of roof drainage, fire prevention and the like.

Claims (10)

1. The utility model provides a dual glass assembly photovoltaic integration awning, includes main part steel construction module, eaves face packaging module, post packaging module and electric module, main part steel construction module includes girder steel, steel column and purlin, girder steel fixed mounting is in the top of steel column, purlin fixed mounting is on the girder steel, eaves face packaging module passes through the skeleton and installs on the boundary beam of awning, post packaging module passes through the skeleton and installs on the steel column, electric module includes voltage regulator, spool, lighting device, camera and electron show board, voltage regulator passes through the spool with lighting device, camera and electron show board electricity are connected, a serial communication port, dual glass assembly photovoltaic integration awning still includes photovoltaic roofing module, and the purlin is cross fixed mounting on the girder steel, forms the confession photovoltaic roofing module installs the fretwork net, photovoltaic roofing module installs on the fretwork net and with purlin fixed connection, photovoltaic roofing module is connected with electric module electricity.

2. The double-glass assembly photovoltaic integrated awning as claimed in claim 1, wherein the photovoltaic roof module is a BIPV double-glass assembly roof panel, the BIPV double-glass assembly roof panel is an integrated plate formed by laminating two glass layers, two EVA layers and a battery piece layer, and the battery piece layer, the two EVA layers and the two glass layers are sequentially and symmetrically arranged from inside to outside.

3. The double-glass assembly photovoltaic integrated awning as claimed in claim 2, wherein the purlines comprise a main purline and an auxiliary purline, wherein transverse galvanized U-shaped grooves are symmetrically and fixedly arranged on two sides of the main purline through stainless steel bolts, the galvanized U-shaped grooves are nested in the auxiliary purline, and the auxiliary purline is fixedly connected with the galvanized U-shaped grooves through stainless steel screws and is further arranged vertically relative to the main purline.

4. The double-glass-assembly photovoltaic integrated awning according to claim 3, further comprising a panel and purline connection node, wherein the panel and purline connection node comprises an aluminum alloy attached frame, an aluminum alloy pressing block, a pressing screw and a buffer pad, the aluminum alloy attached frame is a U-shaped groove and symmetrically and oppositely arranged on the upper surface of the main purline, the aluminum alloy pressing block is arranged on the lower edge of the symmetrically arranged aluminum alloy attached frame, the pressing screw penetrates through the aluminum alloy pressing block to be in threaded connection with the upper surface of the main purline, the aluminum alloy attached frame is further pressed on the upper surface of the main purline through the aluminum alloy pressing block, the buffer pad is fixedly connected to the upper surface of the upper edge of the aluminum alloy attached frame, and the edge of the photovoltaic roof module is fixedly connected to the buffer pad.

5. The double-glass-assembly photovoltaic integrated awning as claimed in claim 4, wherein a foam rod is placed in a gap between two adjacent photovoltaic roofing modules, the foam rod divides the gap into an upper space and a lower space, the upper space is filled with weather-resistant glue, and the surface of the weather-resistant glue is flush with the upper surface of the photovoltaic roofing modules.

6. The double-glass assembly photovoltaic integrated awning as claimed in claim 5, wherein the lower end of the main purline is fixedly connected with a steel plate, the lower surface of the steel plate is fixedly connected with a purlin support, and the lower end of the purlin support is fixedly connected to the steel beam.

7. The dual-glazing assembly photovoltaic integrated awning as claimed in claim 6, wherein the purlin support is a height-adjustable purlin support.

8. The double-glass assembly photovoltaic integrated awning as claimed in claim 4, further comprising a steel gutter, wherein the steel gutter is a U-shaped groove, two ends of the steel gutter are fixedly connected to the connecting nodes of two adjacent panels and purlines, and no photovoltaic roofing module is arranged between the connecting nodes of the two adjacent panels connected with the steel gutter and the purlines.

9. The double-glass-assembly photovoltaic integrated awning according to claim 8, wherein in the two adjacent panel and purline connection nodes, an aluminum alloy auxiliary frame is not arranged on one side of each panel and purline connection node, which faces a steel gutter, the two sides of the steel gutter are all integrally formed L-shaped sheet steel, the bottom ends of the L-shaped sheet steel are inserted under aluminum alloy pressing blocks in the two adjacent panel and purline connection nodes, and the pressing screws penetrate through the aluminum alloy pressing blocks and the bottom ends of the L-shaped sheet steel to be in threaded connection with the upper surface of a main purline.

10. The dual-glass assembly photovoltaic integrated awning as claimed in claim 9, wherein a steel gutter is provided in the middle of the dual-glass assembly photovoltaic integrated awning.

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