CN219471378U - Overhauling channel of roof solar equipment - Google Patents

Abstract

The utility model discloses an overhaul channel of roof solar equipment, belonging to the technical field of building construction; the overhaul channel is arranged on the roof steel structure, so that solar equipment overhauling staff can overhaul the solar equipment on the steel structure support conveniently, and the overhaul channel is safe and efficient; the overhaul channel is simple in structure and convenient to install, and the material is common in construction sites and has strong practicability.

Description

Overhauling channel of roof solar equipment

Technical Field

The utility model belongs to the technical field of building construction, and particularly relates to an overhaul channel of roof solar equipment.

Background

At present, green building technology has become one of the hot trends in the construction field, and solar energy is a clean energy source, which is more and more favored by people, so that more and more building roofs are provided with solar equipment. However, solar devices are typically mounted on steel structural supports of roofs, and when the solar device is damaged, it is inconvenient for service personnel to service the solar device. Therefore, there is a need to develop an access way for roof solar plants.

Disclosure of Invention

The utility model aims to: aiming at the defects of the prior art, the utility model provides a maintenance channel of roof solar equipment; the overhaul channel is arranged on the roof steel structure, so that solar equipment overhauling staff can overhaul the solar equipment on the steel structure support conveniently, and the overhaul channel is safe and efficient; the overhaul channel is simple in structure and convenient to install, and the material is common in construction sites and has strong practicability.

The technical scheme is as follows: the overhaul channel of the roof solar equipment comprises an overhaul channel which is arranged around the solar equipment in a circle;

the overhaul channel comprises a plurality of transverse flat irons, a plurality of longitudinal flat irons and an anti-skid structure; the plurality of transverse flat irons are arranged in a through length mode, the transverse flat irons are vertically arranged on the roof steel structure, the longitudinal flat irons are fixed above the transverse flat irons, and the anti-skid structure is fixed above the transverse flat irons.

Preferably, the roof steel structure comprises a steel column and a steel beam connected with the top of the steel column through bolts, and transverse flat irons are fixed on the steel beam.

Preferably, the sections of the steel column and the steel beam are I-shaped.

Preferably, the number of the transverse flat irons is not less than 6, and the interval between two adjacent transverse flat irons is 100mm.

Preferably, the longitudinal flat iron is fixedly connected with all the transverse flat irons, and one longitudinal flat iron is arranged on each 300mm of the transverse flat iron.

Preferably, the anti-skid structure comprises a plurality of corrugated cylindrical stainless steel which are longitudinally arranged, and two adjacent corrugated cylindrical stainless steel are separated by 100mm.

Preferably, the contact surfaces between the transverse flat iron and the longitudinal flat iron, between the transverse flat iron and the anti-skid structure and between the transverse flat iron and the roof steel structure are all connected by full welding.

Preferably, the outer layers of the transverse flat iron, the longitudinal flat iron and the anti-skid structure are all provided with an anti-rust layer.

The beneficial effects are that:

the overhaul channel is arranged on the roof steel structure, so that overhaul of solar equipment is facilitated for solar equipment overhauling staff on the steel structure support, and the overhaul channel is safe and efficient; the overhaul channel is simple in structure and convenient to install, and the material is common in construction sites and has strong practicability.

Drawings

Fig. 1 is a schematic view of the structure of a roof steel structure support according to the present utility model.

Fig. 2 is a top view of an inspection channel of a roof solar plant according to the utility model.

Fig. 3 is a schematic structural view of an inspection channel of the roof solar device according to the present utility model.

Fig. 4 is a schematic cross-sectional view of an inspection channel of a roof solar plant according to the utility model.

Reference numerals:

11-steel columns, 12-steel beams, 2-maintenance channels, 31-transverse flat irons, 32-longitudinal flat irons, 33-corrugated cylindrical stainless steel and 4-solar equipment.

Detailed Description

The technical scheme of the utility model is described in detail below through the drawings, but the protection scope of the utility model is not limited to the embodiments.

Example 1:

as shown in fig. 1 to 4, the overhaul channel of the roof solar equipment provided by the utility model comprises an overhaul channel 2 which is arranged around the solar equipment 4 in a circle, so that overhaul personnel can conveniently carry out omnibearing overhaul on the solar equipment. The service channel 2 comprises a plurality of transverse flat irons 31, a plurality of longitudinal flat irons 32 and an anti-skid structure. The transverse flat irons 31 are arranged in a full length mode, are vertically arranged on a roof steel structure, are not less than 6, and are spaced by 100mm. The roof steel structure comprises a steel column 11 and a steel beam 12 connected with the top of the steel column 11 through bolts, and a transverse flat iron 31 is fixed on the steel beam 12. The sections of the steel column 11 and the steel beam 12 are I-shaped.

As shown in fig. 1 to 4, the longitudinal flat iron 32 is fixed above the transverse flat iron 31, and the anti-slip structure is fixed above the transverse flat iron. The longitudinal flat iron 32 is fixedly connected with all the transverse flat irons 31, and one longitudinal flat iron 32 is arranged on each 300mm of the transverse flat irons 31. The anti-skid structure comprises a plurality of corrugated cylinder stainless steel 33 which are longitudinally arranged, and two adjacent corrugated cylinder stainless steel 33 are spaced by 100mm. The corrugated cylindrical stainless steel 33 not only has a fixing effect on the transverse flat iron 31, but also has an anti-slip effect to prevent overhaulers from slipping.

In the specific implementation process, the contact surfaces between the transverse flat iron 31 and the longitudinal flat iron 32, between the transverse flat iron 31 and the anti-skid structure and between the transverse flat iron 31 and the roof steel structure are all connected by full-welded joints. The outer layers of the transverse flat iron 31, the longitudinal flat iron 32 and the anti-skid structure are all provided with anti-rust layers.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (8)

1. A service aisle for roof solar installations, characterized by comprising a service aisle (2) arranged around a circle of solar installations (4);

the overhaul channel (2) comprises a plurality of transverse flat irons (31), a plurality of longitudinal flat irons (32) and an anti-skid structure; the plurality of transverse flat irons (31) are arranged in a full length mode, the transverse flat irons (31) are vertically arranged on a roof steel structure, the longitudinal flat irons (32) are fixed above the transverse flat irons (31), and the anti-slip structure is fixed above the transverse flat irons (31).

2. The service aisle of roof solar power plants according to claim 1, characterized in that the roof steel structure comprises steel columns (11) on the roof concrete structure and steel beams (12) bolted to the tops of the steel columns (11), the steel beams (12) being fixed with transverse flat irons (31).

3. The access way of roof solar plant according to claim 2, characterized in that the sections of the steel columns (11) and the steel beams (12) are both i-shaped.

4. The service aisle of roof solar plant according to claim 1, characterized in that said transverse flat irons (31) are not less than 6, between two adjacent transverse flat irons (31) being spaced apart by 100mm.

5. The service aisle of roof solar plant according to claim 1, characterized in that the longitudinal flatbars (32) are fixedly connected to all the transverse flatbars (31), one longitudinal flatbar (32) being arranged on each 300mm of the transverse flatbars (31).

6. The service aisle of roof solar plant according to claim 1, characterized in that the skid-proof construction comprises several corrugated cylindrical stainless steels (33) arranged longitudinally, adjacent two corrugated cylindrical stainless steels (33) being spaced apart by 100mm.

7. The service aisle of roof solar power plant according to claim 1, characterized in that the contact surfaces between the transverse flat iron (31) and the longitudinal flat iron (32), between the transverse flat iron (31) and the anti-slip structure, and between the transverse flat iron (31) and the roof steel structure are all connected by full welding.

8. The access way of roof solar plant according to claim 1, characterized in that the transversal flatiron (31), the longitudinal flatiron (32) and the outer layer of the anti-skid construction are all provided with an anti-rust layer.