CN109039234B - Flexible photovoltaic panel fixing device and mounting method for light steel structure building roof - Google Patents

Abstract

The invention relates to a flexible photovoltaic panel fixing device and a mounting method for a light steel structure building roof, which comprises the following steps: fixing device includes the welt, the welt both sides are equipped with rather than the vertically hem, the width of welt equals the inboard interval of two sets of light steel structure turn-ups, make both sides hem and the inseparable laminating of the inside wall of two sets of turn-ups, fixing device still includes fixture, the fixture is improved level and is equipped with two at least through-holes, the through-hole interpolation is equipped with the bolt, the spiro union is equipped with the nut on the bolt, fixture includes first fixture and second fixture, the both sides of turn-ups are located to first fixture and second fixture branch, and reliably fix welt and turn-ups through the hem. According to the flexible photovoltaic panel fixing device and the mounting method for the light steel structure building roof, the construction efficiency and the lining plate firmness degree are improved, and the material cost is greatly reduced.

Description

Flexible photovoltaic panel fixing device and mounting method for light steel structure building roof

Technical Field

The invention relates to the technical field of photovoltaic power generation, in particular to a flexible photovoltaic panel fixing device and an installation method for a light steel structure building roof.

Background

Energy problems have become an important research subject of concern in China and even the world, and at present, the demand of energy is increasingly tense, and the discovery and use of new energy and renewable energy become well-being of all mankind. China also combines the national situation of China to vigorously promote related projects of new energy, including new energy automobiles, energy conservation of industrial enterprises and photovoltaic power generation.

Most of the photovoltaic power generation projects are that the photovoltaic board is laid on the roof surface of the light steel structure building of the industrial enterprise for power generation at present, but the following defects still exist in the actual construction:

1. the consumption of construction materials is large;

2. the construction difficulty is high, and the construction period is long;

3. once construction, recovery can not be carried out.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides a flexible photovoltaic panel fixing device and a mounting method for a light steel structure building roof, which reduce the quantity and types of construction materials on the basis of ensuring reliable and firm lining plates, thereby reducing the difficulty of actual construction, accelerating the construction progress, and simultaneously realizing faster mounting and dismounting of the fixing method.

The technical scheme adopted by the invention is as follows:

a flexible photovoltaic board fixing device of light steel structure building roof:

fixing device includes the rectangle welt, the photovoltaic board subsides are applied on the face of welt, and the long limit direction in both sides of welt is provided with rather than vertically hem, and when the welt was placed in light steel construction's horizontal ridge, the hem of welt was closely laminated with light steel construction turn-up's inside wall, and the welt bottom surface closely laminates with the horizontal ridge of light steel construction turn-up bottom. The fixing device further comprises a plurality of fixtures, wherein the fixtures comprise a first fixture and a second fixture, and the first fixture and the second fixture are used for clamping the folded edge and the curled edge.

The first fixture comprises a lower support plate which is vertically arranged, a first compression end which is perpendicular to the lower support plate is arranged on the side wall of the bottom of the lower support plate, a connecting plate which is inclined towards the first compression end is fixedly arranged at the top end of the lower support plate, an upper support plate which is parallel to the lower support plate is fixedly arranged at the top end of the connecting plate, the side wall of the upper support plate, which faces the first compression end, is coplanar with the vertical side wall of the first compression end, and a bulge which is perpendicular to the upper support plate is arranged on one side, facing the first compression end, of the top of the upper.

The second fixture comprises a supporting plate which is vertically arranged, a second pressing end which is perpendicular to the supporting plate is arranged on one side, facing the first fixture, of the bottom of the supporting plate, the vertical height of the second pressing end is equal to that of the first pressing end, an upper flat plate and a lower flat plate which are perpendicular to the supporting plate are respectively arranged on one side, facing the first fixture, of the top of the supporting plate from top to bottom, and the upper flat plate, the lower flat plate and the supporting plate form a groove which is in an コ -shaped structure.

The bulges are movably inserted into the grooves, so that the first clamping apparatus and the second clamping apparatus form an integral part, at least two groups of through holes are horizontally arranged on the support plate below the upper support plate and the lower flat plate, bolts are inserted into the through holes in a sliding manner, nuts are screwed on the bolts, and the first compression end and the second compression end can reliably compress the lining plate by the locking nuts.

Furthermore, the lining plate is made of a galvanized plate and is used for improving the rust resistance and corrosion resistance of the lining plate.

Further, the bolt and the nut are made of stainless steel materials.

Furthermore, the fixture adopts an injection molding aluminum profile which is easy to process, so that the rigidity strength of the fixture is ensured, the weight is reduced, and the load of constructors is reduced.

Furthermore, the compression end and the compression plate are provided with anti-slip corrugations on end faces used for clamping, and the anti-slip corrugations are used for improving the firmness degree of the fixture.

A method for installing a flexible photovoltaic panel of a light steel structure building roof comprises the following steps:

A. processing the lining plate, wherein the width of the lining plate is taken as the distance between the inner sides of the curled edges of two adjacent groups of light steel structures, and the vertical surface below the curled edge is taken as the height of the folded edge;

B. placing the processed lining plate on a horizontal roof ridge enclosed by adjacent turned edges, and enabling the turned edges and the turned edges, as well as the lining plate and the roof ridge to be tightly attached to each other;

C. respectively placing a first fixture and a second fixture at two sides of two adjacent hems, wherein for the lining plates at the head end and the tail end, one side of the fixture is in contact with the hems, and the other side of the fixture is in direct contact with the hems;

D. screwing down the nut on the bolt inserted in the through hole, and locking the fixture until the lining plate and the turned edge are reliably fixed;

E. the flexible photovoltaic panel body is attached to the center of the surface of the lining plate;

F. after the lining plates are fixed, the bus connectors of the adjacent photovoltaic panel assemblies are connected in series and spliced, and the bus connectors at the first end and the last end are electrically connected with grid-connected components in the photovoltaic electrical cabinet.

Furthermore, the main component of the glue of cyanoacrylate is adopted in the pasting of the flexible photovoltaic panel body, so that the pasting firmness degree of the flexible photovoltaic panel body is enhanced, the colloid is prevented from aging and falling off, the bonding speed is improved, and the construction period is shortened.

Furthermore, in the construction process of locking the fixture and attaching the flexible photovoltaic panel body, a constructor should erect a walking board on the turned edge and construct on the walking board, and the liner plate is forbidden to be stepped during construction.

The flexible photovoltaic panel fixing device and the installation method for the light steel structure building roof have the advantages that:

1. each part of the fixing device is made of a material with strong rust and corrosion resistance, so that the service life is prolonged;

2. the groove-shaped structure of the lining plate prevents the lining plate from being broken during construction and transportation, and ensures the rigidity of the lining plate when the lining plate is placed on a horizontal ridge;

3. due to the structure of the fixture, all stressed parts can better meet the current actual construction environment, the rigidity and the fixing reliability of the fixture are ensured, the material is minimized, and the load of constructors is reduced;

4. the reform of the fixing device greatly improves the construction efficiency and reduces the labor time of outdoor high-altitude operation personnel.

Drawings

In order to more clearly illustrate the embodiments of the present invention, reference will now be made in brief to the accompanying drawings, which are needed in the description, and in which embodiments of the present invention are illustrated.

FIG. 1 is a general schematic view of a flexible photovoltaic panel fixture and method of installation for a light steel structural building rooftop according to an embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view of a flexible photovoltaic panel retaining apparatus and method of installation for a light steel structural building rooftop according to an embodiment of the present invention;

FIG. 3 is a schematic enlarged cross-sectional view of a flexible photovoltaic panel retaining apparatus and method of installation for a light steel structural building rooftop according to an embodiment of the present invention;

FIG. 4 is a schematic view of a fixture for a flexible photovoltaic panel mounting apparatus and method of installation for a light steel structural building rooftop according to an embodiment of the present invention;

fig. 5 is a schematic cross-sectional view of a fixture of a flexible photovoltaic panel fixing device and a mounting method for a light steel structure building roof according to an embodiment of the invention.

In the figure:

1. a fixture, 11, a first fixture, 12, a second fixture, 13, a bolt, 14, a nut,

111. a first pressing end 112, a lower support plate 113, a connecting plate 114, an upper support plate 115 and a bulge,

121. a second compression end 122, a support plate 123, a groove 124, a lower flat plate 125, an upper flat plate,

2. and (3) curling, 3) lining, 31 and folding.

Detailed Description

In order to clearly and clearly illustrate the specific implementation objects and the implementation modes of the invention, the technical scheme of the invention is completely described below, and the described examples are a part of the examples of the invention, but not all the examples. All other embodiments based on the described embodiments of the invention are within the scope of the invention without making creative efforts.

The invention relates to a flexible photovoltaic panel fixing device for a light steel structure building roof, which comprises the following components in part by weight:

as shown in fig. 1, fixing device includes rectangle welt 3, and welt 3 adopts the galvanized sheet material that rust-resistant corrosion resistance is strong, the photovoltaic board pastes on the face of welt 3, and the pasting of flexible photovoltaic board adopts the glue that the principal ingredients is cyanoacrylate for strengthen the firm degree that flexible photovoltaic board body pasted and apply, prevents that the colloid from ageing to drop, improves bonding speed, shortens construction cycle. As shown in fig. 2, the long side directions of the two sides of the lining plate 3 are provided with the folding edges 31 perpendicular to the lining plate 3, the width of the lining plate 3 is equal to the distance between the inner sides of the two adjacent groups of light steel structure turned edges 2, when the lining plate 3 is placed on the horizontal ridge of the light steel structure, the folding edges 31 of the lining plate 3 are tightly attached to the inner side walls of the light steel structure turned edges 2, and the bottom surface of the lining plate 3 is tightly attached to the horizontal ridge at the bottom end of the light steel structure. The groove structure of the lining plate 3 can improve the rigidity of the lining plate 3 arranged on the ridge, and can effectively prevent the lining plate 3 from being broken when being carried during construction.

The fixing device further comprises a plurality of fixtures 1, as shown in fig. 1, each lining plate 3 is provided with six fixtures 1 for fixing, the fixtures 1 are made of injection-molded aluminum profiles which are easy to process, the rigidity strength of the fixtures is guaranteed, meanwhile, the weight is reduced, and the load of constructors is reduced, as shown in fig. 4, each fixture 1 comprises a first fixture 11 and a second fixture 12, and the first fixture 11 and the second fixture 12 are used for clamping two sides of the turned edge 2.

As shown in fig. 5, the first fixture 11 includes a lower support plate 112 vertically disposed, a first pressing end 111 perpendicular to the lower support plate 112 is disposed on a bottom side wall of the lower support plate 112, a connecting plate 113 inclined toward the first pressing end 111 is fixedly disposed at a top end of the lower support plate 112, an upper support plate 114 parallel to the lower support plate 112 is fixedly disposed at a top end of the connecting plate 113, a side wall of the upper support plate 114 facing the first pressing end 111 is coplanar with a vertical side wall of the first pressing end 111, and a protrusion 115 perpendicular to the upper support plate 114 is disposed on a side of a top of the upper support plate 114 facing the first pressing end 111.

The second fixture 12 comprises a vertically arranged support plate 122, a second compression end 121 perpendicular to the support plate 122 is arranged on one side, facing the first fixture 11, of the bottom of the support plate 122, the vertical height of the second compression end 121 is equal to that of the first compression end 111, an upper flat plate 125 and a lower flat plate 124 perpendicular to the support plate 122 are respectively arranged on one side, facing the first fixture 11, of the top of the support plate 122 from top to bottom, and the upper flat plate 125, the lower flat plate 124 and the support plate 122 form a groove 123 in an コ -shaped structure.

As shown in fig. 3 and 4, the protrusion 115 is movably inserted into the groove 123, so that the first fixture 11 and the second fixture 12 are formed as an integral component, at least two sets of through holes are horizontally formed in the support plate 122 below the upper support plate 114 and the lower flat plate 124, the bolts 13 are slidably inserted into the through holes, the nuts 14 are screwed on the bolts 13, and the bolts 13 and the nuts 14 are both made of stainless steel. As shown in fig. 3, the lock nut 14 makes the first compression end 111 and the second compression end 121 reliably compress the lining plate 3, and the end faces of the first compression end 111 and the second compression end 121 for clamping are provided with anti-slip corrugations for improving the crimping firmness of the fixture 1.

In summary, the following will further describe the installation method of the flexible photovoltaic panel fixing device for a light steel structure building roof according to the present invention:

A. processing the lining plate 3, taking the distance between the inner sides of two adjacent groups of light steel structure turned edges 2 as the width of the lining plate 3, and taking the vertical surface below the turned edge 2 as the height of the folded edge 31;

B. placing the processed lining plate 3 on a horizontal ridge between adjacent turned edges 2, so that the turned edges 31 and the turned edges 2, and the lining plate 3 and the ridge are tightly attached to each other;

C. the first fixture 11 and the second fixture 12 are respectively placed on two sides of two adjacent hems 31:

① for the lining board 3 at the head end, the first pressing end 111 is tightly jointed with the turned edge 2 and the horizontal ridge, and the second pressing end 121 is tightly jointed with the bottom board and the folded edge 31 of the lining board 3;

② for the liner 3 at the end, the first pressing end 111 and the bottom plate and the folded edge 31 of the liner 3 are tightly jointed with each other, and the second pressing end 121 and the turned edge 2 and the horizontal ridge are tightly jointed with each other;

D. screwing down the nut 14 on the bolt 13 inserted in the through hole, and locking the fixture 1 until the lining plate 3 and the turned edge 2 are reliably fixed;

E. the flexible photovoltaic panel body is adhered to the central position of the panel surface of the lining plate 3 by adopting glue with cyanoacrylate as a main component, so that the adhering firmness of the flexible photovoltaic panel body is enhanced, the colloid is prevented from aging and falling off, the adhering speed is improved, and the construction period is shortened;

F. and after the lining plate 3 is fixed, the bus connectors of the adjacent photovoltaic panel assemblies are connected in series and spliced, and the bus connectors at the first end and the last end are electrically connected with the grid-connected component in the photovoltaic electrical cabinet.

In the construction process, the locking fixture 1 and the flexible photovoltaic panel body are attached, a constructor should erect the walking board on the turned edge 2 and construct on the walking board, and the liner plate 3 is forbidden to be stepped during construction.

In light of the above, it is therefore evident that the present invention is directed to a flexible photovoltaic panel fixing device and a method for mounting a light steel structure building roof, which are capable of being modified and adapted by persons skilled in the art without departing from the scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. The utility model provides a flexible photovoltaic board fixing device on light steel construction building roof which characterized in that:

the fixing device comprises a rectangular lining plate (3), the photovoltaic plate is pasted on the plate surface of the lining plate (3), the long edge directions of two sides of the lining plate (3) are provided with folded edges (31) vertical to the lining plate, when the lining plate (3) is placed on the horizontal ridge of the light steel structure, the folded edges (31) of the lining plate (3) are tightly pasted with the inner side wall of the turned edge (2) of the light steel structure, the bottom surface of the lining plate (3) is tightly pasted with the horizontal ridge at the bottom end of the turned edge (2) of the light steel structure,

the fixing device also comprises a plurality of fixtures (1), wherein the fixtures (1) comprise a first fixture (11) and a second fixture (12), the first fixture (11) and the second fixture (12) are used for clamping the folded edge (31) and the folded edge (2),

the first fixture (11) comprises a lower support plate (112) which is vertically arranged, a first pressing end (111) which is perpendicular to the lower support plate (112) is arranged on the side wall of the bottom of the lower support plate (112), a connecting plate (113) which is inclined towards the first pressing end (111) is fixedly arranged at the top end of the lower support plate (112), an upper support plate (114) which is parallel to the lower support plate (112) is fixedly arranged at the top end of the connecting plate (113), the side wall of the upper support plate (114) facing the first pressing end (111) is coplanar with the vertical side wall of the first pressing end (111), a bulge (115) which is perpendicular to the upper support plate (114) is arranged on one side of the top of the upper support plate (114) facing the first pressing end (111),

the second fixture (12) comprises a support plate (122) which is vertically arranged, a second pressing end (121) which is perpendicular to the support plate (122) is arranged on one side, facing the first fixture (11), of the bottom of the support plate (122), the vertical height of the second pressing end (121) is equal to that of the first pressing end (111), an upper flat plate (125) and a lower flat plate (124) which are perpendicular to the support plate (122) are respectively arranged on one side, facing the first fixture (11), of the top of the support plate (122) from top to bottom, the upper flat plate (125), the lower flat plate (124) and the support plate (122) form a groove (123) with an コ -shaped structure,

the bulges (115) are movably inserted into the grooves (123), so that the first fixture (11) and the second fixture (12) form an integral part, at least two groups of through holes are horizontally formed in the support plate (122) below the upper support plate (114) and the lower flat plate (124), bolts (13) are inserted in the through holes in a sliding mode, nuts (14) are arranged on the bolts (13) in a threaded mode, and the first compression end head (111) and the second compression end head (121) are enabled to compress the lining plate (3) reliably through the locking nuts (14).

2. The flexible photovoltaic panel fixing device for a light steel structure building roof as claimed in claim 1, wherein:

the lining plate (3) is made of a galvanized plate and is used for improving the rust resistance and corrosion resistance of the lining plate (3).

3. The flexible photovoltaic panel fixing device for a light steel structure building roof as claimed in claim 1, wherein:

the bolt (13) and the nut (14) are made of stainless steel materials.

4. The flexible photovoltaic panel fixing device for a light steel structure building roof as claimed in claim 1, wherein:

the fixture (1) is made of an injection molding aluminum profile which is easy to process, so that the rigidity and the strength of the fixture are guaranteed, the weight is reduced, and the load of construction personnel is reduced.

5. The flexible photovoltaic panel fixing device for a light steel structure building roof as claimed in claim 1, wherein:

the anti-skid corrugations are arranged on the end faces, used for clamping, of the first pressing end head (111) and the second pressing end head (121) and used for improving the crimping firmness of the fixture (1).

6. A method of installing a flexible photovoltaic panel for a light steel structural building roof according to any one of claims 1 to 5, wherein:

A. processing the lining plate (3), taking the distance between the inner sides of two adjacent groups of light steel structure turned edges (2) as the width of the lining plate (3), and taking the vertical surface below the turned edges (2) as the height of the folded edge (31);

B. placing the processed lining plate (3) on a horizontal ridge enclosed by adjacent turned edges (2) to enable the turned edges (31) and the turned edges (2) and the lining plate (3) and the ridge to be tightly attached to each other;

C. respectively placing a first fixture (11) and a second fixture (12) at two sides of two adjacent folded edges (31), wherein for the lining plates (3) at the head end and the tail end, one side of the fixture (1) is in contact with the folded edges (31), and the other side is in direct contact with the curled edges (2);

D. screwing down a nut (14) on a bolt (13) inserted in the through hole, and locking the fixture (1) until the lining plate (3) and the turned edge (2) are reliably fixed;

E. the flexible photovoltaic panel body is pasted on the center of the panel surface of the lining panel (3);

F. and after the lining plate (3) is fixed, the bus connectors of the adjacent photovoltaic panel assemblies are connected in series and spliced, and the bus connectors at the first end and the last end are electrically connected with grid-connected components in the photovoltaic electrical cabinet.

7. The method of claim 6, wherein the method comprises the steps of:

the flexible photovoltaic panel body is adhered by glue with cyanoacrylate as a main component, so that the adhering firmness of the flexible photovoltaic panel body is enhanced, the colloid is prevented from aging and falling off, the adhering speed is increased, and the construction period is shortened.

8. The method of claim 6, wherein the method comprises the steps of:

in the construction process of locking the fixture (1) and pasting the flexible photovoltaic panel body, constructors should erect a walking board on the turned edge (2) and construct on the walking board, and the stepping on the lining board (3) is forbidden during construction.

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