CN205051629U - Simple and easy type flat roof photovoltaic mounting system - Google Patents

Abstract

The utility model relates to a simple and easy type flat roof photovoltaic mounting system, including grade beam, front column and rear column, the grade beam be equipped with at least two, and parallel arrangement, the front column setting at the front end of every grade beam, the rear column setting in the rear end of every grade beam, the upper surface of front column and rear column be the clinoplain, the upper surface of front column and rear column be used for supporting photovoltaic module, the front end of front column upper surface be equipped with and carry out spacing preceding baffle to the photovoltaic module front end, the rear end of rear column upper surface be equipped with the photovoltaic module rear end carrying out spacing backplate. Compared with the prior art, the utility model discloses advantages such as the system has simple structure, simple to operate, low in production cost is honest and clean, the foundation construction is easy, the reliability is high, increase generated energy.

Description

Simple type flat roof photovoltaic bracket system

Technical field

The utility model relates to a kind of photovoltaic bracket, especially relates to a kind of simple type flat roof photovoltaic bracket system.

Background technology

Solar energy power generating is using solar photovoltaic assembly as power conversion device, and solar energy is converted to electric energy, and solar energy is used widely as a kind of novel energy.Solar photovoltaic bracket system, as the support of photovoltaic module and fixture, is used in solar photovoltaic power plant in a large number.Wherein, flat roof is installed fixed angle photovoltaic bracket and is tentatively started application as a kind of novel photovoltaic fixed support, is according to photovoltaic design, based on existing timbering material, carries out cutting assembling, to reach the object of fixed light photovoltaic assembly temporarily.

Its shortcoming of installation of common flat roof photovoltaic bracket is: do not have unified photovoltaic bracket installation code, supporting structure is complicated, particularly coupling part, spliced by a lot of bar material and connector and assemble, its structural soundness is not strong, and production cost is high, processing and installation difficulty, the project construction cycle is long, poor reliability, is assembled with a lot of area for improvement for flat roof photovoltaic bracket.

Utility model content

The purpose of this utility model be exactly provide that a kind of structure is simple, easy for installation to overcome defect that above-mentioned prior art exists, low production cost, foundation construction is easy, reliability is high, increase the simple type flat roof photovoltaic bracket system of energy output.

The purpose of this utility model can be achieved through the following technical solutions:

A kind of simple type flat roof photovoltaic bracket system, comprise grade beam, front column and rear column, described grade beam is provided with at least two, and be arranged in parallel, described front column is arranged on the front end of every bar grade beam, described rear column is arranged on the rear end of every bar grade beam, described front column and the upper surface of rear column are clinoplain, described front column and the upper surface of rear column are for supporting photovoltaic module, the front end of described front column upper surface is provided with carries out spacing front apron to photovoltaic module front end, the rear end of described rear column upper surface is provided with carries out spacing backboard to photovoltaic module rear end.

Described grade beam is strip structure, offers through slot along its length in the centre of grade beam, and described front column and rear column are all bolted on described through slot.During use, grade beam is fixed on by grade beam holddown groove on the built-in screw on concrete pedestal, or is directly fixed on cement flooring by expansion bolt, stationary positioned on grade beam can also be pressed in pressure block.

Front column and rear column are independently construction unit, can according to the size adjustment spacing of photovoltaic module to adapt to the installation of assembly.

Described front column comprises base plate, supporting bracket and front apron, described base plate is dull and stereotyped, be welded on base plate after described supporting bracket bending, described front apron lower end is welded on base plate, upper end is fixedly connected with supporting bracket, described support plate upper surface is bent to form front column holddown groove, for fixed light photovoltaic assembly, described base plate offers the front column installing hole for being fixed on by front column on grade beam.

Described rear column comprises base plate, supporting bracket and backboard, described base plate is dull and stereotyped, be welded on base plate after described supporting bracket bending, described backboard lower end is welded on base plate, upper end is fixedly connected with supporting bracket, described support plate upper surface is bent to form rear column holddown groove, for fixed light photovoltaic assembly, described base plate offers the rear column installing hole for being fixed on by rear column on grade beam.

Be provided with vertical strengthening ribs plate between described rear column holddown groove and base plate, described supporting bracket and the middle part of backboard are provided with cross reinforcing plate, and described vertical strengthening ribs plate and the right-angled intersection of cross reinforcing plate are arranged.

The upper surface of described front column is identical with the inclination angle of the upper surface of rear column, is 30-45 °.

The upper surface of described front column and the upper surface of rear column are positioned at same plane.

This system also comprises assembly briquetting, described photovoltaic module is supported on the upper surface of front column and rear column, described assembly briquetting comprises integrated mounting groove and pressing plate, described pressing plate is located at the side of mounting groove, photovoltaic module pushed down by described pressing plate, described mounting groove and front column or rear column are bolted, and when assembly briquetting is installed, mounting groove and front column holddown groove or rear column holddown groove are bolted.

Described front column and the width of rear column meet places two adjacent photovoltaic modulies simultaneously.

Compared with prior art, the utility model has the following advantages and beneficial effect:

1, support only needs grade beam, front column and rear column to be assembled the installation that just can complete assembly support, convenience quick for installation.

2, front column and rear column have structurally gathered baffle plate, the spacing function with supporting, so the firm problem of assembly can effectively be ensured.

3, front column and rear column have done widening treatment, just can placed adjacent two assemblies on such one group of pillar, substantially increase the utilance of support.

Accompanying drawing explanation

Fig. 1 is simple type of the present utility model flat roof photovoltaic bracket system structural representation;

Fig. 2 is the structural representation of grade beam;

Fig. 3 is the structural representation of front column;

Fig. 4 is the structural representation of rear column;

Fig. 5 is structural representation after mounting system installation photovoltaic component of the present utility model;

Fig. 6 is photovoltaic module and front column mounting structure enlarged diagram;

Fig. 7 is photovoltaic module and rear column mounting structure enlarged diagram;

Fig. 8 is the structural representation installing many group photovoltaic modulies.

Number in the figure: 1. grade beam, 2. grade beam holddown groove, 3. front column, 4. front column installing hole, 5. front column holddown groove, 6. front apron, 7. rear column, 8. rear column installing hole, 9. rear column holddown groove, 10. backboard, 11. base plates, 12. supporting brackets, 13. vertical strengthening ribs plates, 14. cross reinforcing plates, 15. photovoltaic modulies, 16. assembly briquettings, 17. mounting grooves, 18. pressing plates.

Embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.

Embodiment

A kind of simple type flat roof photovoltaic bracket system, as Fig. 1, shown in Fig. 5, comprise grade beam 1, front column 3 and rear column 7, grade beam 1 is provided with at least two, and be arranged in parallel, front column 3 is arranged on the front end of every bar grade beam 1, rear column 7 is arranged on the rear end of every bar grade beam 1, front column 3 is clinoplain with the upper surface of rear column 7, the upper surface of front column 3 and rear column 7 is for supporting photovoltaic module 15, the front end of front column 3 upper surface is provided with carries out spacing front apron 6 to photovoltaic module 15 front end, the rear end of rear column 7 upper surface is provided with carries out spacing backboard 10 to photovoltaic module 15 rear end.

As shown in Figure 2, grade beam 1 is strip structure, offers through slot along its length in the centre of grade beam 1, and front column 3 and rear column 7 are all bolted on through slot.During use, grade beam 1 is fixed on by grade beam holddown groove 2 on the built-in screw on concrete pedestal, or is directly fixed on cement flooring by expansion bolt, stationary positioned on grade beam 1 can also be pressed in pressure block.

Front column 3 and rear column 7 are independently construction unit, can according to the size adjustment spacing of photovoltaic module 15 to adapt to the installation of assembly.

As shown in Figure 3, front column 3 comprises base plate 11, supporting bracket 12 and front apron 6, base plate 11 is dull and stereotyped, supporting bracket 12 is welded on base plate 11 after bending, front apron 6 lower end is welded on base plate 11, and upper end is fixedly connected with supporting bracket 12, and supporting bracket 12 upper surface is bent to form front column holddown groove 5, for fixed light photovoltaic assembly 15, base plate 11 offers the front column installing hole 4 for being fixed on by front column 3 on grade beam 1.

As shown in Figure 4, rear column 7 comprises base plate 11, supporting bracket 12 and backboard 10, base plate 11 is dull and stereotyped, supporting bracket 12 is welded on base plate 11 after bending, backboard 10 lower end is welded on base plate 11, and upper end is fixedly connected with supporting bracket 12, and supporting bracket 12 upper surface is bent to form rear column holddown groove 9, for fixed light photovoltaic assembly 15, base plate 11 offers the rear column installing hole 8 for being fixed on by rear column 7 on grade beam 1.Be provided with vertical strengthening ribs plate 13 between rear column holddown groove 9 and base plate 11, supporting bracket 12 is provided with cross reinforcing plate 14 with the middle part of backboard 10, and vertical strengthening ribs plate 13 and cross reinforcing plate 14 right-angled intersection are arranged.

In the present embodiment, the upper surface of front column 3 is identical with the inclination angle of the upper surface of rear column 7, is 30-45 °.The upper surface of front column 3 and the upper surface of rear column 7 are positioned at same plane.

As shown in Fig. 5,6,7, this system also comprises assembly briquetting 16, photovoltaic module 15 is supported on the upper surface of front column 3 and rear column 7, assembly briquetting 16 comprises integrated mounting groove 17 and pressing plate 18, pressing plate 18 is located at the side of mounting groove 17, and photovoltaic module 15 pushed down by pressing plate 18, and mounting groove 17 is bolted with front column 3 or rear column 7, when assembly briquetting 16 is installed, mounting groove 17 is bolted with front column holddown groove 5 or rear column holddown groove 9.

As shown in Figure 8, front column 3 meets with the width of rear column 7 and places two adjacent photovoltaic modulies 15 simultaneously.According to the assembly arrangement design of square formation, extend to the left and right sides and fixed light photovoltaic assembly 15 is installed, complete the support installing of whole system and the installation of photovoltaic module 15.

Above-mentioned is can understand for ease of those skilled in the art and use utility model to the description of embodiment.Person skilled in the art obviously easily can make various amendment to these embodiments, and General Principle described herein is applied in other embodiments and need not through performing creative labour.Therefore, the utility model is not limited to above-described embodiment, and those skilled in the art, according to announcement of the present utility model, do not depart from improvement that the utility model category makes and amendment all should within protection range of the present utility model.

Claims (9)

1. a simple type flat roof photovoltaic bracket system, it is characterized in that, comprise grade beam, front column and rear column, described grade beam is provided with at least two, and be arranged in parallel, described front column is arranged on the front end of every bar grade beam, described rear column is arranged on the rear end of every bar grade beam, described front column and the upper surface of rear column are clinoplain, described front column and the upper surface of rear column are for supporting photovoltaic module, the front end of described front column upper surface is provided with carries out spacing front apron to photovoltaic module front end, the rear end of described rear column upper surface is provided with carries out spacing backboard to photovoltaic module rear end.

2. the flat roof of a kind of simple type according to claim 1 photovoltaic bracket system, it is characterized in that, described grade beam is strip structure, offers through slot along its length in the centre of grade beam, and described front column and rear column are all bolted on described through slot.

3. the flat roof of a kind of simple type according to claim 1 photovoltaic bracket system, it is characterized in that, described front column comprises base plate, supporting bracket and front apron, described base plate is dull and stereotyped, be welded on base plate after described supporting bracket bending, described front apron lower end is welded on base plate, upper end is fixedly connected with supporting bracket, described support plate upper surface is bent to form front column holddown groove, for fixed light photovoltaic assembly, described base plate offers the front column installing hole for being fixed on by front column on grade beam.

4. the flat roof of a kind of simple type according to claim 1 photovoltaic bracket system, it is characterized in that, described rear column comprises base plate, supporting bracket and backboard, described base plate is dull and stereotyped, be welded on base plate after described supporting bracket bending, described backboard lower end is welded on base plate, upper end is fixedly connected with supporting bracket, described support plate upper surface is bent to form rear column holddown groove, for fixed light photovoltaic assembly, described base plate offers the rear column installing hole for being fixed on by rear column on grade beam.

5. the flat roof of a kind of simple type according to claim 4 photovoltaic bracket system, it is characterized in that, vertical strengthening ribs plate is provided with between described rear column holddown groove and base plate, described supporting bracket and the middle part of backboard are provided with cross reinforcing plate, and described vertical strengthening ribs plate and the right-angled intersection of cross reinforcing plate are arranged.

6. the flat roof of a kind of simple type according to claim 1 photovoltaic bracket system, it is characterized in that, the upper surface of described front column is identical with the inclination angle of the upper surface of rear column, is 30-45 °.

7. the flat roof of a kind of simple type according to claim 1 photovoltaic bracket system, it is characterized in that, the upper surface of described front column and the upper surface of rear column are positioned at same plane.

8. the flat roof of a kind of simple type according to claim 1 photovoltaic bracket system, it is characterized in that, this system also comprises assembly briquetting, described photovoltaic module is supported on the upper surface of front column and rear column, described assembly briquetting comprises integrated mounting groove and pressing plate, described pressing plate is located at the side of mounting groove, and photovoltaic module pushed down by described pressing plate, and described mounting groove and front column or rear column are bolted.

9. the flat roof of a kind of simple type according to claim 1 photovoltaic bracket system, is characterized in that, described front column and the width of rear column meet places two adjacent photovoltaic modulies simultaneously.