CN221531350U - Lightweight roof photovoltaic panel mounting structure - Google Patents

Abstract

The utility model discloses a lightweight roof photovoltaic panel mounting structure, which is characterized in that a buckling sleeve is buckled on a protruding part during mounting, and two sides of the buckling sleeve and two sides of the protruding part are fixedly connected through a plurality of automatic screws; the connecting cover plate is fixed on the buckling sleeve through four countersunk bolts, so that two adjacent brackets can be arranged on the two adjacent connecting cover plates; then, adjusting the mounting position of the bracket so that a plurality of bolts and nuts penetrate through the second waist-shaped holes of the connecting cover plate and the first waist-shaped holes of the bracket to be mounted and fixed, wherein the second waist-shaped holes are arranged on the parts protruding out of the buckling sleeve, and the buckling sleeve cannot influence the mounting of the bolts and nuts; finally, the method has the effect of improving the installation efficiency of the photovoltaic panel on the lightweight roof.

Description

Lightweight roof photovoltaic panel mounting structure

Technical Field

The utility model relates to the technical field of photovoltaic panel installation construction, in particular to a lightweight roof photovoltaic panel installation structure.

Background

Along with the progress of society and the development of science and technology, the country strongly develops energy-saving and land-saving houses and buildings so as to relieve the contradiction between energy and economic and social development in China, and the country has to stand on the premise of improving the energy utilization efficiency, and the energy saving of the buildings is important and is unprecedented. For example, in the solar photovoltaic power generation industry, solar power generation is a well-known renewable green energy source and is also an industry with important national support, but for enterprises with steel structure plants, a green photovoltaic building mode which is generated by combining the solar power generation with steel structure buildings and is more environment-friendly and energy-saving is a real future technological development trend. At present, the technical route for realizing the green photovoltaic building is mainly divided into BAPV and BIPV. The spacing between the brackets for BIPV is often fixed for mounting the photovoltaic panel.

The existing lightweight roof is usually made of color steel tiles, the color steel tiles are corrugated, and the brackets interfere during installation, so that the installation of the photovoltaic panels is difficult to meet. For example, the application publication number is CN111173203A, and the Chinese patent with the application publication date of 2020, 5 and 9 discloses an integrated steel structure roof photovoltaic connecting device, and a telescopic support in a shape like a Chinese character 'ji' is adopted to fix a support on a roof color steel tile, so that the problem that a BIPV support cannot be installed due to the fact that the section of the color steel tile is wavy is solved.

But the support of the shape of a Chinese character 'ji' is fixed on the color steel tile through bolts, and positioning and installation are carried out after the position of each support is required to be measured during installation, so that the BIPV bracket can be installed on the support of the shape of a Chinese character 'ji', and the installation efficiency is lower.

Disclosure of utility model

The utility model aims to provide a lightweight roof photovoltaic panel mounting structure, which has the function of improving the photovoltaic panel mounting efficiency on a lightweight roof.

The technical aim of the utility model is realized by the following technical scheme: the utility model provides a lightweight roof photovoltaic board mounting structure, includes the various steel tile that constitutes the lightweight roofing, a plurality of support that distributes side by side on various steel tile, a plurality of photovoltaic board of installing between adjacent support, be provided with a plurality of protruding portions that are isosceles trapezoid on the various steel tile, the lock is provided with the lock cover on the protruding portion of various steel tile, be provided with self-tapping screw between lock cover both sides and the protruding portion both sides, lock cover top relative sliding connection has the cover board that covers the lock cover and be the shape of falling "U", the connecting cover board both ends extend towards the direction that is close to each other and are used for contradicting and detach the place part of protruding portion on various steel tile;

Four threaded holes are formed in the top of the buckling sleeve, two rows of countersunk holes which are distributed in an arrangement mode are formed in the connecting cover plate, the four threaded holes correspond to the four countersunk holes, and countersunk bolts which are embedded in the countersunk holes and then are connected in the threaded holes in a threaded mode are arranged between the connecting cover plate and the buckling sleeve;

The part that both ends outstanding lock cover front and back around the connection apron set up the second waist type hole that extends along its length direction, the support is "W" type, both ends are provided with the first waist type hole of two corresponding waist type grooves respectively around the support, be provided with a plurality of bolt and nut that pass first waist type hole and second waist type hole and connect between support and the connection apron.

The utility model is further provided with: the inner side of the buckling sleeve is provided with a rubber buffer pad, two sides of the buckling sleeve are respectively provided with a through hole for installing a self-tapping screw, and the self-tapping screw penetrates through the rubber buffer pad during installation.

The utility model is further provided with: the length of the connecting cover plate is equal to the distance between the two protruding parts.

The utility model is further provided with: the front end and the rear end of the connecting cover plate are provided with limiting parts extending along the length direction of the connecting cover plate, and the front side and the rear side of the support are abutted between the two limiting parts.

In summary, the beneficial effects of the utility model are as follows:

1. When the automatic fastening device is installed, the fastening sleeve is fastened on the protruding part, and two sides of the fastening sleeve and two sides of the protruding part are fixedly connected through a plurality of automatic screws; the connecting cover plate is fixed on the buckling sleeve through four countersunk bolts, so that two adjacent brackets can be arranged on the two adjacent connecting cover plates; then, adjusting the mounting position of the bracket so that a plurality of bolts and nuts penetrate through the second waist-shaped holes of the connecting cover plate and the first waist-shaped holes of the bracket to be mounted and fixed, wherein the second waist-shaped holes are arranged on the parts protruding out of the buckling sleeve, and the buckling sleeve cannot influence the mounting of the bolts and nuts; finally, the installation efficiency of the photovoltaic panel on the lightweight roof is improved;

2. the inner side of the buckling sleeve is provided with a rubber buffer cushion, so that the buckling sleeve has good buffer effect in the installation process;

3. The limiting parts extending along the length direction of the connecting cover plate are arranged at the front end and the rear end of the connecting cover plate, and the front side and the rear side of the bracket are abutted between the two limiting parts.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of a partial structure of the present utility model;

FIG. 3 is an enlarged view of a portion of FIG. 2 at A;

fig. 4 is a partial enlarged view of fig. 1 at B.

Reference numerals: 1. color steel tile; 11. a protruding portion; 2. a bracket; 21. a first waist-shaped hole; 3. a photovoltaic panel; 4. a buckling sleeve; 41. a threaded hole; 42. a through hole; 43. a rubber cushion pad; 5. self-tapping screw; 6. connecting a cover plate; 61. a countersunk hole; 62. a second waist-shaped hole; 63. a limit part; 7. a bolt and a nut; 8. countersunk bolts.

Detailed Description

The present utility model will be described in further detail with reference to the accompanying drawings.

Examples: the utility model provides a lightweight roof photovoltaic board mounting structure, includes color steel tile 1, a plurality of support 2 that distribute side by side on color steel tile 1, a plurality of photovoltaic board 3 of installing between adjacent support 2 of constituteing the lightweight roofing, the arrangement is provided with a plurality of protruding portions 11 that are isosceles trapezoid on the color steel tile 1.

As shown in fig. 1 to 3, a buckling sleeve 4 is buckled on the protruding part 11 of the color steel tile 1, and self-tapping screws 5 are arranged between two sides of the buckling sleeve 4 and two sides of the protruding part 11. The inner side of the buckling sleeve 4 is provided with a rubber buffer pad 43, and two sides of the buckling sleeve 4 are respectively provided with a through hole 42 for installing the self-tapping screw 5, and the self-tapping screw 5 penetrates through the rubber buffer pad 43 when installed.

As shown in fig. 2 and 3, the top of the buckling sleeve 4 is relatively and slidably connected with a connecting cover plate 6 which covers the buckling sleeve 4 and is in an inverted U shape, and two ends of the connecting cover plate 6 extend towards directions close to each other and are used for abutting against the color steel tile 1 to remove the part where the protruding part 11 is located. Meanwhile, four threaded holes 41 are formed in the top of the buckling sleeve 4, two rows of countersunk holes 61 which are distributed in an arrangement mode are formed in the connecting cover plate 6, the four threaded holes 41 correspond to the four countersunk holes 61, and countersunk bolts 8 which are embedded in the countersunk holes 61 and then are connected in the threaded holes 41 in a threaded mode are arranged between the connecting cover plate 6 and the buckling sleeve 4. The length of the connecting cover plate 6 is additionally equal to the distance between the two projections 11.

As shown in fig. 1, 3 and 4, the front and rear ends of the connecting cover plate 6 are provided with second waist-shaped holes 62 extending along the length direction thereof at the front and rear ends of the buckling sleeve 4, the bracket 2 is W-shaped, the front and rear ends of the bracket 2 are respectively provided with a first waist-shaped hole 21 corresponding to the waist-shaped groove, and a plurality of bolts and nuts 7 penetrating through the first waist-shaped holes 21 and the second waist-shaped holes 62 for connection are arranged between the bracket 2 and the connecting cover plate 6. The front and rear ends of the connecting cover plate 6 are provided with limiting parts 63 extending along the length direction of the connecting cover plate, and the front and rear sides of the bracket 2 are abutted between the two limiting parts 63.

The implementation effect is as follows: when in installation, the buckling sleeve 4 is buckled on the protruding part 11, and the two sides of the buckling sleeve 4 are fixedly connected with the two sides of the protruding part 11 through a plurality of automatic screws; the connecting cover plate 6 is fixed on the buckling sleeve 4 through four countersunk bolts, so that two adjacent brackets 2 can be installed on two adjacent connecting cover plates 6; then, the mounting position of the bracket 2 is adjusted, so that a plurality of bolt nuts 7 penetrate through the second waist-shaped holes 62 of the connecting cover plate 6 and the first waist-shaped holes 21 of the bracket 2 to be mounted and fixed, the second waist-shaped holes 62 are arranged on the parts protruding out of the buckling sleeve 4, and the buckling sleeve 4 cannot influence the mounting of the bolt nuts 7 at the moment; finally, the installation efficiency of the photovoltaic panel 3 on the lightweight roof is improved.

A rubber cushion pad 43 is provided inside the snap-fit sleeve 4 so that the snap-fit sleeve 4 has a good cushioning effect during installation. The limiting parts 63 extending along the length direction of the connecting cover plate 6 are arranged at the front end and the rear end of the connecting cover plate 6, and the front side and the rear side of the support 2 are abutted between the two limiting parts 63, so that the support 2 cannot slide down when being installed due to the fact that some light-weight roofs are inclined, and the support 2 is convenient to install and fix.

The present embodiment is only for explanation of the present utility model and is not to be construed as limiting the present utility model, and modifications to the present embodiment, which may not creatively contribute to the present utility model as required by those skilled in the art after reading the present specification, are all protected by patent laws within the scope of claims of the present utility model.

Claims (4)

1. The utility model provides a lightweight roof photovoltaic board mounting structure, includes color steel tile (1) that constitutes the lightweight roofing, a plurality of support (2) that distribute side by side on color steel tile (1), a plurality of photovoltaic board (3) of installing between adjacent support (2), the arrangement is provided with a plurality of protruding portions (11) that are isosceles trapezoid on color steel tile (1), its characterized in that: the color steel tile (1) is characterized in that a buckling sleeve (4) is buckled on a protruding part (11) of the color steel tile (1), self-tapping screws (5) are arranged between two sides of the buckling sleeve (4) and two sides of the protruding part (11), a connecting cover plate (6) which covers the buckling sleeve (4) and is in an inverted U shape is connected to the top of the buckling sleeve (4) in a sliding manner, and two ends of the connecting cover plate (6) extend towards directions close to each other and are used for abutting against the color steel tile (1) to remove the part of the protruding part (11);

four threaded holes (41) are formed in the top of the buckling sleeve (4), two rows of counter sunk holes (61) which are distributed in an arrangement mode are formed in the connecting cover plate (6), the four threaded holes (41) correspond to the four counter sunk holes (61), and counter sunk bolts (8) which are embedded in the counter sunk holes (61) and then are in threaded connection with the threaded holes (41) are arranged between the connecting cover plate (6) and the buckling sleeve (4);

The part that both ends outstanding lock cover (4) around connecting apron (6) set up along its length direction second waist type hole (62) that extend, support (2) are "W" type, both ends are provided with first waist type hole (21) of two corresponding waist type grooves respectively around support (2), be provided with a plurality of bolt and nut (7) that pass first waist type hole (21) and second waist type hole (62) and connect between support (2) and connecting apron (6).

2. The lightweight rooftop photovoltaic panel mounting structure of claim 1, wherein: the inner side of the buckling sleeve (4) is provided with a rubber buffer pad (43), two sides of the buckling sleeve (4) are respectively provided with a through hole (42) for installing a self-tapping screw (5), and the self-tapping screw (5) penetrates through the rubber buffer pad (43) during installation.

3. A lightweight rooftop photovoltaic panel mounting structure as defined in claim 2, wherein: the length of the connecting cover plate (6) is equal to the distance between the two protruding parts (11).

4. The lightweight rooftop photovoltaic panel mounting structure of claim 1, wherein: limiting parts (63) extending along the length direction of the connecting cover plate (6) are arranged at the front end and the rear end of the connecting cover plate, and the front side and the rear side of the bracket (2) are abutted between the two limiting parts (63).