CN216552755U - A waterproof mounting structure for laying photovoltaic board - Google Patents

Abstract

The utility model discloses a waterproof mounting structure for laying a photovoltaic panel, which comprises a photovoltaic bracket and a first waterproof assembly, wherein the first waterproof assembly is laid on a roof; the connecting assembly fixes the first waterproof assembly on the photovoltaic bracket; and the second waterproof assembly is provided with a second waterproof piece, and the adjacent part of the first waterproof piece is covered with the second waterproof piece for plugging a gap between the first waterproof pieces. The photovoltaic bracket structure is convenient to install and low in installation difficulty by means of a traditional photovoltaic bracket structure; the first waterproof piece and the second waterproof piece are laid below the lower photovoltaic panel to form a seamless waterproof layer, seamless coverage of the laying position of the photovoltaic panel is achieved, and the waterproof effect is good; and first waterproof and second waterproof all are located the below of photovoltaic board, guarantee the heat dissipation of photovoltaic board.

Description

A waterproof mounting structure for laying photovoltaic board

Technical Field

The utility model relates to the field of roof waterproofing, in particular to a waterproof mounting structure for laying a photovoltaic panel.

Background

Building Integrated PV (i.e., BIPV) is a technology for integrating solar power (photovoltaic) products into buildings, which is suitable for most buildings, such as flat roofs, pitched roofs, curtain walls, skylights, etc. When applying BIPV technology to roofs, it is common to lay a plurality of photovoltaic panels on the roof using photovoltaic panel supports. When photovoltaic panels are installed, tight connections are not made between the photovoltaic panels and the support, and the installation of the photovoltaic panel support can destroy the water resistance of the roof. Therefore, installation of photovoltaic panels on roofs usually requires corresponding waterproofing measures.

At present, the waterproof measures adopted during the installation of the photovoltaic panel mainly comprise the following measures:

the utility model provides a photovoltaic support that waterproof scheme is that joint gap department installation drainage was used, this kind of guiding gutter adopt W type aluminium alloy to constitute mostly, need a plurality of auxiliary fixtures to connect during the installation, and there is the risk of leaking water in the junction, compares in the traditional photovoltaic support that constitutes by C type channel-section steel, and the W type aluminium type support mounting degree of difficulty is big.

Another waterproof measure is to fill a sealing strip at the joint and then seal with a sealant. But the condition of rainwater drippage is very easy to appear after the sealant is aged, indoor drippage is easy to cause, the wind resistance of the bonding mode is poor, and if a certain block of assembly in the middle is damaged, the maintenance and the replacement are difficult.

The waterproof measure that the third kind is commonly used is at the waterproof apron of photovoltaic board subassembly top installation, need punch the installation when the installation, and the bolt hole is beaten partially easily, leads to fixed unstability, needs the installation of doing over again, and the installation effectiveness is low.

Disclosure of Invention

In view of the above, the utility model provides a waterproof mounting structure for laying a photovoltaic panel, which is simple and convenient to assemble and disassemble and convenient for later maintenance and repair by means of the structure of a traditional photovoltaic bracket.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the waterproof mounting structure for laying the photovoltaic panel comprises a photovoltaic bracket with a plurality of longitudinal beams and cross beams, and further comprises

The first waterproof assembly is provided with a plurality of first waterproof pieces arranged along the length direction of the longitudinal beams, and one first waterproof piece is arranged between every two adjacent longitudinal beams, so that the first waterproof assembly is laid above the roof;

the connecting assembly fixes each first waterproof piece on the photovoltaic bracket;

the second waterproof assembly is provided with a plurality of second waterproof pieces arranged along the length direction of the longitudinal beam, and the adjacent positions of every two first waterproof pieces are covered with one second waterproof piece for plugging gaps between the first waterproof pieces.

The beneficial effects are that: the longitudinal beams and the cross beams of the photovoltaic support are still C-shaped channel steel, so that the photovoltaic support is convenient to mount; lay first waterproof component on the photovoltaic support to lay the second waterproof piece with the gap department of first waterproof piece, realized photovoltaic board and laid the seamless cover of position, water-proof effects is good.

Further, the first and second flashing members are both a tarpaulin or a waterproof membrane. As a further improvement, the first waterproof part and the second waterproof part are both made of waterproof films. The waterproof film is made of a material with good weather resistance, such as a polytetrafluoroethylene film, a PVC film or a composite film material.

Further, each mounting edge of the first waterproof member is of a double-layer structure and has a plurality of mounting holes.

The beneficial effects are that: each installation edge of the first waterproof part is of a double-layer structure, so that the edges can be effectively prevented from being torn; the mounting hole is convenient for installation.

Furthermore, each mounting edge of the first waterproof part is provided with a reinforcing member penetrating therein for preventing the mounting edge from being torn.

The beneficial effects are that: wear to establish a reinforcement (can be the steel pipe, also can be the reinforcing bar) in every installation edge, can transmit the point atress of mounting hole department for the reinforcement, and then improved the atress condition of mounting hole department, had and consolidated and anti-tear effect, improved the life-span of first waterproof.

Still further, the connecting assembly comprises a plurality of connectors with the same structure, and the first waterproof member is mounted on the photovoltaic bracket through the plurality of connectors; wherein the connecting piece comprises

The connecting part is of an L-shaped structure and is provided with a vertical section and a horizontal section;

the first hook is arranged at the upper part of the vertical section and is used for hooking the longitudinal beam;

the second crotch sets up the tip of horizontal segment, just the second crotch is used for the first waterproof piece of hook.

The beneficial effects are that: the connecting portion of connecting piece just has first crotch and second crotch for L shape structure, and the mounting means of connecting piece is nimble, has improved the installation effectiveness.

In another embodiment of the present invention, the connection assembly further includes a connection rope inserted into the plurality of installation holes of the first waterproof member, and the connection rope is hooked on the second hook. The beneficial effects are that: wear to establish in the mounting hole earlier with connecting the rope, utilize the installation that the rope was realized first waterproof piece to the second crotch hook, the tension that the tension of the first waterproof piece of the elastic adjustment of accessible connection rope made it be in best tension state.

The waterproof mounting structure further comprises water guide pieces arranged on each first waterproof piece in a pressing mode, the water guide pieces are arranged along the length direction of the first waterproof pieces, and the upper ends of the water guide pieces are connected to the cross beam located above the water guide pieces through elastic pieces. The beneficial effects are that: the water guide piece can guide rainwater on the first waterproof piece from top to bottom, and drainage is facilitated; the water guide piece is pressed on the first waterproof piece, so that the film can be pressed to prevent the film from fluctuating under the influence of factors such as wind and the like; the elastic element has the functions of restraining and resisting vibration.

Further, the water guide is fixed to the first waterproof member by a strap or a cord fastener. The beneficial effects are that: the stability of water guide is improved, and the water guide is prevented from being stressed and swinging transversely on the first waterproof piece.

Furthermore, the waterproof mounting structure further comprises a water chute transversely arranged below the longitudinal beams, and the lower end part of each first waterproof piece extends into the water chute. The beneficial effects are that: the lower end part of the first waterproof piece extends into the water guide groove, so that rainwater is drained in time, and the waterproof effect is ensured.

Furthermore, a plurality of supporting plates which are transversely arranged are hung at the lower end part of the photovoltaic bracket through a plurality of screw rods or lead screws, and the water guide groove is arranged on the supporting plates. Specifically, the lower end of each longitudinal beam is provided with two screw rods or screw rods, the supporting plate is transversely arranged below the longitudinal beam through a plurality of pairs of screw rods or screw rods, so that the water guide groove is positioned below the first waterproof part, rainwater can be conveniently discharged into the water guide groove below the water guide groove, and then the rainwater is discharged.

By adopting the technical scheme, the beneficial effects are as follows:

according to the photovoltaic bracket, the structure of the traditional photovoltaic bracket is fully utilized, the first waterproof piece and the second waterproof piece with the waterproof function are laid on the photovoltaic bracket to form a seamless waterproof layer, and the waterproof effect is good; the first waterproof part can be installed through the connecting part with the hook, the assembly and disassembly are simple and flexible, and the construction difficulty is small; the first waterproof piece and the second waterproof piece after installation are positioned below the photovoltaic panel, so that later maintenance is facilitated; the first waterproof piece and the second waterproof piece are located below the photovoltaic panel, and normal heat dissipation of the photovoltaic panel is guaranteed. Through engineering verification, in rainy days of continuous rainfall 5h (rainfall is 50 mm), the waterproof mounting structure does not have the conditions of rainwater accumulation, leakage or damage and the like, has good waterproof and drainage effects, is popular with users, and has popularization value.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings of the embodiments of the present invention will be briefly described below. Wherein the drawings are only for purposes of illustrating some embodiments of the utility model and are not to be construed as limiting all embodiments of the utility model.

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural view of the first waterproof member according to the present invention.

Fig. 3 is a connection diagram of the water guide and the cross member according to the present invention.

Fig. 4 is a connection diagram of the connector of the present invention to a stringer.

Fig. 5 is another connection of the connector of the present invention to a stringer.

Fig. 6 is a connection diagram of the gutter and the side member according to the present invention.

Fig. 7 is a schematic structural diagram of another embodiment of the present invention.

Detailed Description

The following describes embodiments of the present invention in detail with reference to the drawings, which are implemented on the premise of the technical solution of the present invention, and detailed embodiments and specific operation procedures are provided, but the scope of the present invention is not limited to the following embodiments.

Implementation mode one

As shown in fig. 1 to 6, the waterproof mounting structure for laying photovoltaic panels of the present invention includes a photovoltaic support having a plurality of longitudinal beams 1.1 and cross beams 1.2, wherein the longitudinal beams 1.1 and the cross beams 1.2 of the photovoltaic support are both made of C-shaped channel steel, which facilitates mounting; wherein the waterproof mounting structure further comprises

The photovoltaic module comprises a first waterproof assembly, a second waterproof assembly and a photovoltaic bracket, wherein the first waterproof assembly is provided with a plurality of first waterproof pieces (namely first waterproof films 2) along the length direction of longitudinal beams 1.1, one first waterproof film 2 is arranged between every two adjacent longitudinal beams 1.1, and the first waterproof films 2 are hung on the photovoltaic bracket;

the connecting assembly fixes each first waterproof film 2 on the photovoltaic bracket; and

the second waterproof assembly is provided with a plurality of second waterproof pieces (namely second waterproof films 3) arranged along the length direction of the longitudinal beam 1.1, the adjacent positions of every two first waterproof films 2 are covered with one second waterproof film 3, the second waterproof films 3 are used for plugging the gap between the two first waterproof films 2, and the first waterproof films 2 and the second waterproof films 3 form a seamless waterproof layer.

As shown in fig. 1, if the lower end of the first waterproof film 2 is far away from the eave, the water chute 8 can be installed below the longitudinal beam 1.1, the lower end of the first waterproof film 2 extends into the water chute 8, and rainwater on the first waterproof film 2 flows into the water chute 8 from top to bottom, so that the rainwater is timely discharged, and the waterproof effect is ensured.

As shown in fig. 2, the first waterproof film 2 is a rectangular structure, the left, right and upper side edges of the first waterproof film are mounting edges, and the edges are folded and processed into a double-layer structure, so that the first waterproof film has a reinforcing effect; each double-layer edge of the first waterproof film 2 is provided with a plurality of mounting holes 2.1 convenient to mount, and the hole edge of each mounting hole 2.1 is subjected to anti-tearing treatment so as to avoid tearing; reinforcing members (namely reinforcing steel bars 2.2) penetrate through the edges of the two layers, so that point stress at the positions of the mounting holes 2.1 can be transmitted to the reinforcing steel bars 2.2, the stress condition is improved, and the mounting holes are further prevented from being torn; the lower edge of the first waterproof film 2 is positioned in the water chute 8, so that water on the first waterproof film 2 smoothly flows into the water chute 8, and rainwater is discharged in time.

As shown in fig. 1-3, a water guide member is uniformly arranged on the upper surface of each first waterproof film 2, the water guide member is a water guide pressure pipe 4 arranged along the length direction of the first waterproof film 2, and the upper end of the water guide pressure pipe 4 is connected with a beam 1.2 positioned above the water guide pressure pipe through an elastic member (i.e., a spring 5); the water guide and pressure pipe 4 is fixed on the first waterproof film 2 through rope buckles arranged on the first waterproof film 2 at intervals, so that the water guide and pressure pipe 4 is prevented from swinging on the first waterproof film 2; the water and pressure guide pipe 4 is pressed on the first waterproof film 2, so that the first waterproof film 2 is positioned below the photovoltaic panel, the heat dissipation performance of the photovoltaic panel is effectively ensured, and fluctuation of the film due to factors such as wind and the like is avoided; the first waterproof film 2 can be pressed to enable the middle part to be low and the left end and the right end to be high, and rainwater is guided into the water guide groove 8 below.

As shown in fig. 1 and 4-5, the connecting assembly comprises a plurality of connecting pieces 6 with the same structure, and three mounting edges of each first waterproof membrane 2 are mounted on the longitudinal beams 1.1 at two sides and the cross beam 1.2 at the upper side through the plurality of connecting pieces 6; the connecting piece 6 comprises a connecting part 6.1 in an L-shaped structure, and the connecting part 6.1 is provided with a vertical section and a horizontal section; the connecting piece 6 also comprises a first hook 6.2 arranged at the upper part of the vertical section, and the first hook 6.2 is hooked on the longitudinal beam 1.1 or the cross beam 1.2; the connecting piece 6 further comprises a second hook 6.3, the second hook 6.3 is arranged at the end of the horizontal section, and the second hook 6.3 penetrates through the mounting hole 2.1 to hang the first waterproof film 2 on the longitudinal beam 1.1 or the cross beam 1.2.

When in installation, the connecting piece 6 and the longitudinal beam 1.1 (or the cross beam 1.2) have various connection modes, and the installation of the connecting piece 6 on the longitudinal beam 1.1 is taken as an example for specific explanation: as shown in fig. 4, the connecting portion 6.1 of the connecting member 6 is attached to the outer side of the longitudinal beam 1.1, the first hook 6.2 of the connecting member 6 is hung on the top of one side wing of the longitudinal beam 1.1, and the second hook 6.3 is located below the longitudinal beam 1.1 for hooking the first waterproof film 2; as shown in fig. 5, the connecting portion 6.1 of the connecting member 6 may also pass through the longitudinal beam 1.1, the first hook 6.2 is hooked on the upper portion of one side wing of the longitudinal beam 1.1, and the second hook 6.3 passes through the mounting hole 2.1 and is hooked on the first waterproof film 2. The connecting piece 6 is flexible in mounting mode and convenient to mount.

In actual installation, the first waterproof film 2 and the second waterproof film 3 are made of materials with good weather resistance, such as polytetrafluoroethylene films, PVC films or composite films; the water guide piece is made of a plastic pipe with good weather resistance, and the weather resistance requirement is met.

As shown in fig. 1 and 6, the water chute 8 is transversely suspended below the lower end of each longitudinal beam 1.1, specifically, the lower end of each longitudinal beam 1.1 is provided with a pair of screw rods 8.1, the support plate 8.2 is transversely arranged below the longitudinal beam 1.1 through a plurality of pairs of screw rods 8.1, the water chute 8 is located on the support plate 8.2, and the plurality of pairs of screw rods 8.1 have a limiting effect, so that the water chute is prevented from swinging back and forth.

The waterproof mounting structure is mounted as follows:

firstly, mounting upright posts and longitudinal beams 1.1 of a photovoltaic bracket on a roof at intervals (the longitudinal beams 1.1 are obliquely mounted from top to bottom);

after the longitudinal beams 1.1 are installed, erecting and installing a first waterproof film 3 on each longitudinal beam 1.1, then installing a cross beam 1.2 at the upper end of each longitudinal beam 1.1, and compressing a second waterproof film 3 by using the cross beam 1.2;

a first waterproof film 2 is arranged between every two longitudinal beams 1.1, the edges of the left side and the right side of the first waterproof film 2 are laid between the two longitudinal beams 1.1 through a plurality of connecting pieces 6, and the upper mounting edge of the first waterproof film 2 is hooked on the upper cross beam 1.2 through the plurality of connecting pieces 6; adjusting the edge of the second waterproof film 3 to spread over the first waterproof film 2;

after the first waterproof film 2 is installed, a water guide and pressure pipe 4 is installed above the first waterproof film 2, the upper end of the water guide and pressure pipe 4 is installed on the upper cross beam 1.2 through a spring 5, the water guide and pressure pipe 4 is fixed on the first waterproof film 2 through a rope buckle, and the water guide and pressure pipe 4 is pressed on the first waterproof film 2, so that the first waterproof film 2 is hung below the photovoltaic support; meanwhile, the water guide and pressure pipe 4 enables the middle part of the first waterproof film 2 to be low, the left end part and the right end part of the first waterproof film 2 to be higher than the upper part of the first waterproof film 2 and the lower part of the first waterproof film to be low, so that rainwater flows into a water guide groove below along the water guide and pressure pipe 4 to realize drainage. The first waterproof films 2 are all positioned below the photovoltaic panel, so that the heat dissipation performance of the photovoltaic panel can be guaranteed, and later maintenance is facilitated.

Second embodiment

The present embodiment differs from the first embodiment in that: this embodiment waterproof mounting structure still include and connect rope 7, connect the one end of rope 7 and fix in longeron 1.1 one end, then pass mounting hole 2.1 and second couple in turn, connect the other end of rope 7 and fix on longeron 1.1 or crossbeam 1.2. Namely, the first waterproof membrane 2 is installed between the two longitudinal beams 1.1 by the connecting rope 7, and the tension of the first waterproof membrane 2 can be adjusted to be in an optimal tension state by the tightness of the connecting rope 7, as shown in fig. 7.

The above embodiments are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same or similar parts among the embodiments are referred to each other.

It is noted that, in the description of the present invention, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

In the description of the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "connected" when they are used are to be construed broadly, e.g., as meaning a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; either directly or indirectly through intervening media, or may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art from specific situations.

Finally, it should be emphasized that the above-described embodiments are merely preferred embodiments of the present invention, and not limitative of the present invention, and although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and equivalents may be made to the embodiments described in the foregoing without inventive faculty, or that equivalents may be substituted for elements thereof. Therefore, any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. The utility model provides a waterproof mounting structure for laying photovoltaic board, includes the photovoltaic support that has a plurality of longerons and crossbeam, its characterized in that: also comprises

The first waterproof assembly is provided with a plurality of first waterproof pieces arranged along the length direction of the longitudinal beams, and one first waterproof piece is arranged between every two adjacent longitudinal beams, so that the first waterproof assembly is laid above the roof;

the connecting assembly fixes each first waterproof piece on the photovoltaic bracket; and

the second waterproof assembly is provided with a plurality of second waterproof pieces arranged along the length direction of the longitudinal beam, and the adjacent positions of every two first waterproof pieces are covered with one second waterproof piece for plugging gaps between the first waterproof pieces.

2. The waterproof mounting structure for laying photovoltaic panels according to claim 1, characterized in that: the first waterproof piece and the second waterproof piece are both waterproof cloth or waterproof films.

3. The waterproof mounting structure for laying photovoltaic panels according to claim 1, characterized in that: each mounting edge of the first waterproof member is of a double-layer structure and is provided with a plurality of mounting holes.

4. The waterproof mounting structure for laying photovoltaic panels according to claim 3, characterized in that: and reinforcing members for preventing the tearing of the mounting edges are arranged in each mounting edge of the first waterproof piece in a penetrating manner.

5. The watertight mounting structure for laying a photovoltaic panel as claimed in claim 3, characterized in that: the connecting assembly comprises a plurality of connecting pieces with the same structure, and the first waterproof piece is installed on the photovoltaic bracket through the plurality of connecting pieces; wherein the connecting piece comprises

The connecting part is of an L-shaped structure and is provided with a vertical section and a horizontal section;

the first hook is arranged at the upper part of the vertical section and is used for hooking the longitudinal beam;

the second crotch sets up the tip of horizontal segment, just the second crotch is used for the first waterproof piece of hook.

6. The waterproof mounting structure for laying photovoltaic panels according to claim 5, characterized in that: the connecting assembly further comprises a plurality of connecting ropes arranged in the mounting holes in a penetrating mode, and the connecting ropes are hooked on the second hooks.

7. The waterproof mounting structure for laying photovoltaic panels according to claim 1, characterized in that: the waterproof mounting structure further comprises water guide pieces arranged on each first waterproof piece in a pressing mode, the water guide pieces are arranged along the length direction of the first waterproof pieces, and the upper ends of the water guide pieces are connected to the cross beam located above the water guide pieces through elastic pieces.

8. The waterproof mounting structure for laying photovoltaic panels according to claim 7, characterized in that: the water guide piece is fixed on the first waterproof piece through a binding band or a rope fastener.

9. The waterproof mounting structure for laying photovoltaic panels according to claim 1, characterized in that: the waterproof mounting structure further comprises water chutes transversely arranged below the longitudinal beams, and the lower end part of each first waterproof part extends into the water chutes.

10. The waterproof mounting structure for laying photovoltaic panels according to claim 9, characterized in that: the lower end of the photovoltaic support is provided with a plurality of transversely arranged supporting plates in a hanging mode through a plurality of screw rods or screw rods, and the water guide grooves are formed in the supporting plates.

Images