CN216312997U - Mounting structure of various steel tile photovoltaic power plant - Google Patents

Abstract

The utility model relates to an installation structure of a color steel tile photovoltaic power station, which comprises a photovoltaic unit, an installation plate, color steel tiles and U-shaped purlins, wherein the photovoltaic unit comprises a semi-flexible photovoltaic plate, a buckle short frame and a damping rubber strip, the buckle short frame is symmetrically arranged on one pair of edges of the semi-flexible photovoltaic plate, the other pair of edges of the semi-flexible photovoltaic plate are symmetrically provided with wind pressure resistant purlins, the damping rubber strip is arranged on the back surface of the semi-flexible photovoltaic plate, the opposite edges of the semi-flexible photovoltaic plate, which are provided with the buckle short frame, are fixed on the installation plate through pressing block bolts, the other opposite edges of the semi-flexible photovoltaic plate are glued with the wind pressure resistant purlins, and the installation plate and the wind pressure resistant purlins are fixed on the U-shaped purlins through bolts. According to the photovoltaic unit fixing device, one pair of sides of the photovoltaic unit is fixed on the mounting plate through the pressing block and the short frame fastening bolt, so that the mounting is firm; another opposite side of photovoltaic unit presses the purlin veneer with the anti-wind, realizes keeping out the wind, and the anti-wind presses the purlin bolt fastening on various steel tile, and glue has not contacted with various steel tile, has prolonged the practical life of glue.

Description

Mounting structure of various steel tile photovoltaic power plant

Technical Field

The utility model relates to the technical field of photovoltaics, in particular to an installation structure of a color steel tile photovoltaic power station.

Background

The color steel tile is a press plate which is formed by rolling and cold-bending a color coated steel plate into various wave patterns. The composite material is suitable for roof, wall and inner and outer wall decoration of industrial and civil buildings, warehouses, special buildings and large-span steel structure houses, has the characteristics of light weight, high strength, rich color, convenient and quick construction, earthquake resistance, fire resistance, rain resistance, long service life, maintenance-free property and the like, and is widely popularized and applied. Along with the development of photovoltaic technology, among the present photovoltaic power plant, various steel tile roof power plant account for about 80%, and semi-flexible solar panel is chooseed for use to its photovoltaic unit of present various steel tile photovoltaic power plant, and semi-flexible solar panel adopts the mode of veneer to be connected with various steel tile, and glue is scribbled and is smeared on various steel tile, and the colored coating time of various steel tile has been of a specified duration can drop, and together with glue drops, leads to joint strength general to produce the potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects and provides an installation structure of a color steel tile photovoltaic power station, wherein one pair of edges of a photovoltaic unit is fixed on an installation plate through a pressing block and a buckle short-frame bolt, and the installation is firm; the other side of the photovoltaic unit is glued with the wind pressure resistant purline to realize wind shielding, the wind pressure resistant purline is fixed on the color steel tile through bolts, and the glue is not in contact with the color steel tile, so that the practical service life of the glue is prolonged; the short frame of buckle sets up the intermediate position at a pair of side, and the half flexible photovoltaic board of pressfitting makes in the middle of the half flexible photovoltaic board bed hedgehopping about the short frame of buckle, is difficult to ponding deposition.

The purpose of the utility model is realized as follows:

the utility model provides a color steel tile photovoltaic power plant's mounting structure, includes photovoltaic unit, mounting panel, color steel tile and U type purlin, photovoltaic unit includes semi-flexible photovoltaic board, the short frame of buckle and shock attenuation adhesive tape, the short frame symmetry of buckle sets up a pair of edge at semi-flexible photovoltaic board, another opposite side symmetry of semi-flexible photovoltaic board is equipped with the anti-wind and presses the purlin, the shock attenuation adhesive tape sets up the back at semi-flexible photovoltaic board, and semi-flexible photovoltaic board has the opposite side of the short frame of buckle to pass through the briquetting bolt fastening on the mounting panel, and another opposite side of semi-flexible photovoltaic board is pressed the purlin veneer with the anti-wind, mounting panel, anti-wind press the purlin bolt fastening on U type purlin.

Preferably, the upper and lower pressing blocks of the short frame of the buckle are installed firstly, the semi-flexible photovoltaic panel is placed in the short frame of the buckle and is pressed mechanically, and the semi-flexible photovoltaic panel is clamped by the upper and lower pressing blocks after pressing.

Preferably, the mounting panel is fixed on U type purlin through first bolt, the briquetting is fixed on the mounting panel through the second bolt, the purlin is fixed on U type purlin through the third bolt to the anti-wind pressure.

Preferably, the damping rubber strip is equipped with many, many damping rubber strip interval distribution, and the damping rubber strip is parallel with the width direction of various steel tile.

Preferably, the U-shaped purlines are distributed in the length direction of the color steel tile at intervals, and the U-shaped purlines are parallel to the width direction of the color steel tile.

Preferably, the cross-section of the damping rubber strip is square, the damping rubber strip is provided with a pressure cavity, and the damping rubber strip is glued with the semi-flexible photovoltaic panel through glue or double faced adhesive tape.

Preferably, the section of the wind pressure resistant purlin includes the horizontal installation section, the both sides of horizontal installation section are equipped with the hem downwards, the top of horizontal installation section is equipped with vertical spacing section, vertical spacing section divide into rubberizing portion and the portion of punching with the horizontal installation section, rubberizing portion and the long limit veneer of semi-flexible photovoltaic board, the portion of punching passes through the various steel tile back connection U type purlin through the third bolt.

The utility model has the beneficial effects that:

according to the photovoltaic unit fixing device, one pair of sides of the photovoltaic unit is fixed on the mounting plate through the pressing block and the short frame fastening bolt, so that the mounting is firm; the other side of the photovoltaic unit is glued with the wind pressure resistant purline to realize wind shielding, the wind pressure resistant purline is fixed on the color steel tile through bolts, and the glue is not in contact with the color steel tile, so that the practical service life of the glue is prolonged; the short frame of buckle sets up the intermediate position at a pair of side, and the half flexible photovoltaic board of pressfitting makes in the middle of the half flexible photovoltaic board bed hedgehopping about the short frame of buckle, is difficult to ponding deposition.

Drawings

Fig. 1 is a schematic structural view of the present invention (semi-flexible photovoltaic panel is not glued with wind pressure resistant purlin).

Fig. 2 is an enlarged view of an end portion of fig. 1.

Fig. 3 is a partially enlarged view of the middle portion of fig. 1.

Fig. 4 is a left side view of fig. 1 (semi-flexible photovoltaic panel glued to wind pressure resistant purlin).

Fig. 5 is a partially enlarged view of fig. 4.

Fig. 6 is an assembly schematic of the present invention.

Fig. 7 is a structural schematic diagram of the wind pressure resistant purlin.

Fig. 8 is a schematic structural view of the snap short frame.

Fig. 9 is a schematic backside view of a photovoltaic unit.

FIG. 10 is a schematic cross-sectional view of a shock absorbing strip.

Wherein: a photovoltaic unit 1; a semi-flexible photovoltaic panel 1.1; the short frame is buckled by 1.2; pressing the upper block to 1.2.1; pressing the block 1.2.2; 1.3 of a damping rubber strip; a pressurized cavity 1.3.1; a mounting plate 2; color steel tiles 3; a U-shaped purline 4; briquetting 5; a first bolt 6; a second bolt 7; wind pressure resistant purlin 8; a horizontal mounting section 8.1; a gluing part 8.1.1; a punching part 8.1.2; folding edges 8.2; a vertical limiting section 8.3; and a third bolt 9.

Detailed Description

Referring to fig. 1-10, the utility model relates to an installation structure of a color steel tile photovoltaic power station, comprising a photovoltaic unit 1, an installation plate 2, color steel tiles 3 and U-shaped purlins 4, wherein the photovoltaic unit 1 comprises semi-flexible photovoltaic panels 1.1, snap short frames 1.2 and shock-absorbing rubber strips 1.3, the semi-flexible photovoltaic panels 1.1 are rectangular, the snap short frames 1.2 are symmetrically arranged on short edges of the semi-flexible photovoltaic panels 1.1, each short edge is provided with a plurality of snap short frames 1.2, the shock-absorbing rubber strips 1.3 are arranged on the back of the semi-flexible photovoltaic panels 1.1, the shock-absorbing rubber strips 1.3 are parallel to the short edges of the semi-flexible photovoltaic panels 1.1, the shock-absorbing strips 1.3 are contacted with the top ends of the color steel tiles 3, the upper and lower pressing blocks 1.2.1, 1.2.2.2 of the snap short frames 1.2 are mechanically pressed, the upper and lower pressing blocks 1.2.1, 1.2.2.2 are fixed on the installation plate 2 through pressing blocks, the top ends of the color steel tiles 3, the bottom of various steel tile 3 corresponds mounting panel 2 and is equipped with U type purlin 4, and U type purlin 4 interval distribution is at the length direction of various steel tile, and U type purlin 4 is parallel with the width direction of various steel tile, and mounting panel 2 fixes on U type purlin 4 through first bolt 6, briquetting 5 is fixed on mounting panel 2 through second bolt 7, semi-flexible photovoltaic board 1.1's long limit symmetry is equipped with anti-wind and presses purlin 8, anti-wind presses purlin 8 and sets up on various steel tile 3 tops, anti-wind presses purlin 8 to fix on U type purlin 4 through third bolt 9, semi-flexible photovoltaic board 1.1's long limit and anti-wind press purlin 8 veneer.

Damping rubber strip 1.3 is equipped with many, and interval distribution is at the length direction of semi-flexible photovoltaic board 1.1, and through set up damping rubber strip 1.3 at the 1 back of semi-flexible photovoltaic board and heighten semi-flexible photovoltaic board 1.1, reduces semi-flexible photovoltaic board 1.1 and various steel tile 3's contact, damping rubber strip 1.3 cross-section is squarely, and the size is 12mm x 12mm, and damping rubber strip 1.3 is equipped with pressurized cavity 1.3.1, and damping rubber strip 1.3 passes through glue or double faced adhesive tape and semi-flexible photovoltaic board 1.1 veneer.

The cross section of the wind pressure resistant purlin 8 comprises a horizontal installation section 8.1, two lateral symmetries of the horizontal installation section 8.1 are provided with downward folded edges 8.2, a vertical limiting section 8.3 is arranged above the horizontal installation section 8.1, the vertical limiting section 8.3 divides the horizontal installation section 8.1 into a gluing part 8.1.1 and a punching part 8.1.2, the gluing part 8.1.1 is glued with a long edge of a semi-flexible photovoltaic plate 1.1, and the punching part 8.1.2 penetrates through a color steel tile 3 through a third bolt 9 and then is connected with a U-shaped purlin 4.

The punching part 8.1.2 horizontally extends outwards and is provided with an extending edge, and the strength of the wind pressure resisting purline is enhanced by the extending edge.

Vertical spacing section 8.3 and hem 8.2 combined action keep off the wind outside the photovoltaic unit, lead to wind, prevent that wind from getting into semi-flexible photovoltaic board in, improve photovoltaic power plant's life.

The pressing blocks 5 are divided into edge pressing blocks and middle pressing blocks, the adjacent semi-flexible photovoltaic panels are connected with the mounting plate through the middle pressing blocks in the length direction, and the rest edges are connected with the mounting plate through the edge pressing blocks.

A method for installing a color steel tile photovoltaic power station comprises the following steps:

firstly, an upper rubber pad and a lower rubber pad are assembled, an upper pressing block and a lower pressing block are pre-assembled, after a semi-flexible photovoltaic panel is installed to a proper position, the upper pressing block and the lower pressing block are mechanically pressed, protruding teeth of the upper pressing block are pressed into clamping teeth of the lower pressing block, the semi-flexible photovoltaic panel and a short clamping frame are fixed, a shockproof rubber strip is installed on the back of the semi-flexible photovoltaic panel, assembly of a photovoltaic unit is completed, and then the photovoltaic unit is conveyed to an installation site;

step two, according to the size of the photovoltaic unit, installing an anti-wind pressure purlin and an installation plate above the color steel tile, wherein the anti-wind pressure purlin is installed corresponding to the long edge of the photovoltaic unit, the installation plate is installed corresponding to the short edge of the photovoltaic unit, a U-shaped purlin is installed below the color steel tile, and the installation plate and the anti-wind pressure purlin are connected with the U-shaped purlin through a first bolt and a third bolt after penetrating through the color steel tile;

and step three, fixing the short buckle frame of the short side of the photovoltaic unit with the mounting plate bolt through a pressing block, and gluing the long side of the photovoltaic unit with the wind pressure resistant purline.

In addition to the above embodiments, the present invention also includes other embodiments, and any technical solutions formed by equivalent transformation or equivalent replacement should fall within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a various steel tile photovoltaic power plant's mounting structure which characterized in that: including photovoltaic unit (1), mounting panel (2), various steel tile (3) and U type purlin (4), photovoltaic unit (1) is including semi-flexible photovoltaic board (1.1), buckle short frame (1.2) and shock attenuation adhesive tape (1.3), buckle short frame (1.2) symmetry sets up a pair of edge at semi-flexible photovoltaic board (1.1), another opposite side symmetry of semi-flexible photovoltaic board (1.1) is equipped with anti-wind pressure purlin (8), shock attenuation adhesive tape (1.3) set up at the back of semi-flexible photovoltaic board (1.1), and semi-flexible photovoltaic board (1.1) has the opposite side of buckle short frame to pass through the briquetting bolt to be fixed on mounting panel (2), and semi-flexible photovoltaic board (1.1) another opposite side glues with anti-wind pressure purlin (8), mounting panel (2), anti-wind pressure purlin (8) bolt fastening are on U type purlin.

2. The mounting structure of various steel tile photovoltaic power plant of claim 1, characterized in that: the upper and lower pressing blocks (1.2.1, 1.2.2) of the short buckle frame (1.2) are firstly installed, the semi-flexible photovoltaic panel (1.1) is placed in the short buckle frame and mechanically pressed, and the semi-flexible photovoltaic panel (1.1) is clamped by the upper and lower pressing blocks (1.2.1, 1.2.2) after pressing.

3. The mounting structure of various steel tile photovoltaic power plant of claim 1, characterized in that: mounting panel (2) are fixed on U type purlin (4) through first bolt (6), briquetting (5) are fixed on mounting panel (2) through second bolt (7), wind-pressure resistant purlin (8) are fixed on U type purlin (4) through third bolt (9).

4. The mounting structure of various steel tile photovoltaic power plant of claim 1, characterized in that: the damping rubber strips (1.3) are arranged in a plurality of rows, the damping rubber strips (1.3) are distributed at intervals, and the damping rubber strips (1.3) are parallel to the width direction of the color steel tile (3).

5. The mounting structure of various steel tile photovoltaic power plant of claim 1, characterized in that: the U-shaped purlines (4) are distributed in the length direction of the color steel tile at intervals, and the U-shaped purlines (4) are parallel to the width direction of the color steel tile.

6. The mounting structure of various steel tile photovoltaic power plant of claim 1, characterized in that: the cross section of the damping rubber strip (1.3) is square, the damping rubber strip (1.3) is provided with a pressure cavity (1.3.1), and the damping rubber strip (1.3) is glued with the semi-flexible photovoltaic panel (1.1) through glue or double faced adhesive tape.

7. The mounting structure of various steel tile photovoltaic power plant of claim 1, characterized in that: the cross-section of anti-wind pressure purlin (8) includes horizontal installation section (8.1), the bilateral symmetry of horizontal installation section (8.1) is equipped with decurrent hem (8.2), the top of horizontal installation section (8.1) is equipped with vertical spacing (8.3), vertical spacing (8.3) divide into horizontal installation section (8.1) rubberizing portion (8.1.1) and portion of punching (8.1.2), rubberizing portion (8.1.1) corresponds the limit veneer with semi-flexible photovoltaic board (1.1), and portion of punching (8.1.2) passes various steel tile (3) back connection U type purlin (4) through third bolt (9).

Images