CN217282843U - Strutting arrangement is used in installation of photovoltaic power generation board - Google Patents

Abstract

The utility model relates to a supporting device for installing a photovoltaic power generation plate, which comprises a photovoltaic plate installing frame and first aluminum profiles, wherein the first aluminum profiles are arranged at the edges of the front end and the rear end of a photovoltaic plate, and the lower sides of the first aluminum profiles are respectively in an inverted L shape and are inwards provided with installing plates; the drainage mechanism comprises a drainage groove arranged between two adjacent first aluminum profiles and a water guide groove arranged between two adjacent second aluminum profiles, the mounting plates are respectively supported and connected in the drainage groove, and the drainage grooves cross and are communicated above the water guide grooves; the supporting frame comprises a fixed rod arranged at the bottom of the drainage groove and a fixed cross beam arranged at the bottom of the fixed rod and the water guide groove; the fastening mechanism comprises a group of pressing plates symmetrically arranged on two sides of the drainage groove, the inner side of each pressing plate is provided with the side wall of the drainage groove and extends to be pressed on the mounting plate, and the outer sides of the pressing plates are respectively locked and connected to the fixing rods. The utility model discloses the structure is simple and easy, installs convenient labour saving and time saving, on the basis of high-efficient drainage, effectively ensures to support steadiness and security.

Description

Strutting arrangement is used in installation of photovoltaic power generation board

Technical Field

The utility model relates to a photovoltaic power generation board technical field specifically indicates a strutting arrangement is used in installation of photovoltaic power generation board.

Background

Photovoltaic power generation is a technology for directly converting light energy into electric energy by utilizing the photovoltaic effect of a semiconductor interface. Photovoltaic panels are usually installed on a support provided on the roof, which is not the same as the installation on the ground, but on the roof of a factory building, which has very strict requirements for waterproofing. Support among the correlation technique contains the splint spare of installing on the photovoltaic board top, wears to be equipped with the bolt on the splint spare, and the mounting is installed downwards to the bolt, and mounting fixed mounting is on water drainage tank, and water drainage tank installs on the crossbeam. The drainage channel arranged at the lower end of the support can be connected with and arranged on the photovoltaic panel and can drain water, and the drainage channel not only has a drainage function but also is a support component of the support.

In the installation process, firstly, a cross beam is installed and crosses over the arranged drainage grooves, fixing parts are required to be installed downwards by bolts in advance, the bolts penetrate through the lower portions of the clamping plates and are fixed to form the prefabricating mechanisms, two adjacent photovoltaic panels are fixed, the prefabricating mechanisms are installed in gaps between the adjacent photovoltaic panels, the clamping plates are arranged above the photovoltaic panels and are connected and fixed with the drainage grooves, and in the period, operators are required to continuously support and position the photovoltaic panels, so that the installation process is complicated, time-consuming and labor-consuming; and the drainage channel easily leads to warping because of the rainwater increases, and influences the steadiness that the support connection supported, brings the potential safety hazard to the installation of photovoltaic board.

Consequently, design a section on the basis of guaranteeing high-efficient drainage of catchmenting, through changing and simplifying the structure, reach labour saving and time saving installation, and the photovoltaic power generation board installation of effectively reinforcing photovoltaic board installation steadiness and security is with strutting arrangement the utility model discloses a research purpose.

Disclosure of Invention

To the problem that above-mentioned prior art exists, the utility model provides a strutting arrangement is used in installation of photovoltaic power generation board, this strutting arrangement is used in installation of photovoltaic power generation board can effectively solve the problem that above-mentioned prior art exists.

The technical scheme of the utility model is that:

strutting arrangement is used in installation of photovoltaic power generation board, include

The photovoltaic panel mounting frame comprises a group of first aluminum profiles symmetrically arranged at the edges of the front end and the rear end of a photovoltaic panel, the lower sides of the first aluminum profiles are respectively in an inverted L shape and are inwards provided with corresponding mounting plates, and the first aluminum profiles between two adjacent photovoltaic panels are respectively mutually attached; the photovoltaic panel mounting frame further comprises a group of second aluminum profiles symmetrically arranged at the edges of the left side and the right side of the photovoltaic panel, and the second aluminum profiles between two adjacent photovoltaic panels are respectively attached to each other;

the drainage mechanism comprises a drainage groove arranged between two adjacent first aluminum profiles, and the mounting plates are respectively supported and connected in the drainage groove; the drainage mechanism further comprises a water chute arranged between two adjacent second aluminum profiles, the upper end of the water chute is provided with a notch for installing the drainage chute, and the drainage chute is arranged above the water chute in a crossing manner through an embedding notch and communicated with the water chute;

the supporting frame comprises a plurality of fixing rods which are arranged at the bottom of the drainage channel at intervals and used for supporting the drainage channel, the lower end faces of the fixing rods and the lower end face of the water guide channel are positioned on the same horizontal plane, and a plurality of fixing cross beams which are simultaneously used for supporting the fixing rods and the water guide channel are arranged at the bottoms of the fixing rods and the water guide channel at intervals;

the fastening mechanism is used for limiting and fixing the first aluminum profile, the fastening mechanism comprises a set of pressing plates symmetrically arranged on two sides of the drainage groove, the side wall of the drainage groove is abducted in the inner side of each pressing plate, the pressing plates extend to be pressed on the mounting plate of the corresponding first aluminum profile, and the outer sides of the pressing plates are respectively connected to the corresponding fixing rods in a locking mode.

The inboard of compressed particleboard goes up the concave corresponding groove of stepping down respectively, the inboard in groove of stepping down inwards extends respectively and is equipped with corresponding nip portion, through step down the groove with the water drainage tank cooperation will nip portion lock respectively in the both sides of water drainage tank, nip portion compresses tightly respectively on the mounting panel of corresponding first aluminium alloy, the outside of compressed particleboard is lock connected to corresponding dead lever respectively, and its outside end is buckled downwards respectively and is equipped with corresponding butt portion.

Be equipped with a set of locking hole on the pressfitting board respectively, through corresponding U-shaped screw rod with the cooperation of locking hole will the outside of pressfitting board compresses tightly on corresponding dead lever, the rod end joint of U-shaped screw rod arrives the downside and the through connection of dead lever have a corresponding locking plate, the rod end of U-shaped screw rod extends to the downside and the corresponding lock nut of fixedly connected with of locking plate.

The upside of first aluminium alloy is equipped with corresponding photovoltaic board mounting groove respectively, through photovoltaic board mounting groove will with corresponding photovoltaic board cooperation first aluminium alloy installs the edge at both ends limit around the photovoltaic board respectively.

Drainage mechanism still contains the water collection and drainage tank of installing respectively at the guiding gutter both ends and connecting all guiding gutters, water collection and drainage tank contains the upper end and is the rectangular shape cell body of opening form, the inside upside of rectangular shape cell body is the integrated shaping of shape of falling L and is provided with buckling part, corresponding horizontal pole is installed respectively at the guiding gutter both ends, will through buckling part and horizontal pole cooperation lock joint the water collection and drainage tank installs respectively on the horizontal pole at guiding gutter both ends, the outside upper portion integrated shaping of rectangular shape cell body leans out to be connected with the reinforcing plate, the top integrated shaping of reinforcing plate turns over upwards to turn over and is equipped with corresponding first turnover portion.

The top end of the first turnover part is inwards turned over in an inverted L shape to form a corresponding second turnover part, and the top end of the second turnover part is higher than the top end of the buckling part.

The two sides of the strip-shaped groove body are respectively and fixedly connected with corresponding fixed sealing plates in a sealing mode, the two ends of the buckling part and the two ends of the reinforcing plate are fixedly connected to the fixed sealing plates in a sealing mode, the bottom of the strip-shaped groove body is provided with at least one corresponding drain hole, and a corresponding drain pipe is arranged at the position, facing the drain hole, of the drain hole in a sealing mode.

And corresponding fixing rods are arranged on two side edges of the water chute.

The utility model has the advantages that:

1) the utility model discloses an install in photovoltaic board edge all around, utilize the downside of first aluminium alloy to be respectively the mounting panel support that the shape of falling L inwards set up and connect in the water drainage tank, rethread dead lever supports the water drainage tank, utilize lock joint mechanism fixed spacing water drainage tank and photovoltaic board installing frame at last; for traditional basin support, the utility model discloses the structure is simpler and easier, installs more convenient, labour saving and time saving, and need not to utilize water drainage tank to support the photovoltaic board, effectively solves the problem that traditional structure water drainage tank warp and causes, effectively ensures to support steadiness and security.

2) The lower sides of the first aluminum profiles of the utility model are respectively in an inverted L shape and are inwards provided with mounting plates which are respectively supported and connected in the drainage grooves, the pressing plates of the fastening mechanisms are respectively fastened at the two sides of the drainage grooves by the matching of the abdicating grooves arranged on the upper concave and the drainage grooves, and are tightly pressed on the mounting plates of the corresponding first aluminum profiles, and the outer sides of the pressing plates are respectively locked and connected to the corresponding fixed rods; the photovoltaic panel is installed and connected by the photovoltaic panel installation frame, the first aluminum profile is fixed by the fastening mechanism in a pressing mode, and the left and right movement of the fastening mechanism is limited by the drainage groove; the drainage groove only drains water and does not support the photovoltaic panel, so that the deformation problem of the traditional structure can be avoided, and the service life of the drainage groove is ensured; and the drainage channel can promote the fixed action of fastening device to the photovoltaic board installing frame, improves the security performance of photovoltaic board installation.

3) The utility model discloses a photovoltaic board utilizes the photovoltaic board installing frame to connect the installation, between the adjacent first aluminium alloy and between the adjacent second aluminium alloy all can laminate the setting each other respectively to make two adjacent photovoltaic boards connect inseparabler, the installation is more firm, need not to install corresponding sealing strip.

4) The utility model utilizes the cooperation of the drainage channel and the water chute to conduct diversion and drainage, the water collecting and drainage channels are also arranged at the two ends of the water chute, and the drainage channel, the water chute and the water collecting and drainage channels are mutually matched to collect and discharge rainwater, thereby being beneficial to timely, rapid and efficient continuous diversion and drainage of rainwater and achieving the efficient drainage effect; the water collecting and draining groove is integrally and structurally formed by multiple folds, and is provided with the strip-shaped groove body, the buckling part, the reinforcing plate and the first folding part, so that the overall rigidity of the water collecting and draining groove is enhanced, the compressive strength is improved, the deformation of the strip-shaped groove body is effectively reduced, and the service life of the water collecting and draining groove is ensured; the reinforcing plate and the first folding part that add can increase the volume of catchment water drainage tank again, improve the effect of catchmenting.

Drawings

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

Fig. 2 is a main view partial cutaway view of the utility model.

Fig. 3 is a side view of the partial section of the present invention.

Fig. 4 is an exploded view of the fastening mechanism.

Fig. 5 is a schematic view showing the structure of the water collecting and discharging groove with a fixed closing plate removed.

Fig. 6 is a schematic structural view of a first aluminum profile.

Detailed Description

To facilitate understanding for those skilled in the art, the structure of the present invention will now be described in further detail with reference to the following examples, in which:

referring to FIGS. 1 to 6, a supporting device for photovoltaic power generation panel installation includes

The photovoltaic panel mounting frame comprises a group of first aluminum profiles 1 symmetrically arranged at the edges of the front end and the rear end of a photovoltaic panel 3, the lower sides of the first aluminum profiles 1 are respectively in an inverted L shape and are inwards provided with corresponding mounting plates 101, and the first aluminum profiles 1 between two adjacent photovoltaic panels 3 are respectively mutually attached; the photovoltaic panel mounting frame further comprises a group of second aluminum profiles 2 symmetrically arranged at the edges of the left side and the right side of the photovoltaic panel 3, and the second aluminum profiles 2 between two adjacent photovoltaic panels 3 are respectively mutually attached; the adjacent first aluminum profiles 1 and the adjacent second aluminum profiles 2 can be respectively and mutually attached, so that the two adjacent photovoltaic panels 3 are more tightly connected and more stably installed without installing corresponding sealing strips;

the drainage mechanism comprises a drainage groove 4 arranged between two adjacent first aluminum profiles 1, and the mounting plates 101 are respectively connected in the drainage groove 4 in a supporting manner; the drainage mechanism further comprises a water chute 5 arranged between two adjacent second aluminum profiles 2, a notch for installing the drainage groove 4 is formed in the upper end of the water chute 5, and the drainage groove 4 is arranged above the water chute 5 in a crossing mode through an embedded notch and communicated with the water chute 5; the drainage channel 4 is matched with the water chute 5 to conduct diversion and drainage;

the supporting frame comprises a plurality of fixing rods 6 which are arranged at the bottom of the water drainage tank 4 at intervals and used for supporting the water drainage tank 4, the lower end surfaces of the fixing rods 6 and the lower end surface of the water guide tank 5 are positioned on the same horizontal plane, and a plurality of fixing cross beams 7 which are used for supporting the fixing rods 6 and the water guide tank 5 at the same time are arranged at the bottoms of the fixing rods 6 and the water guide tank 5 at intervals;

the fastening mechanism is used for limiting and fixing the first aluminum profiles 1 and comprises a group of pressing plates 8 symmetrically arranged on two sides of the drainage groove 4, the inner sides of the pressing plates 8 give way to the side wall of the drainage groove 4 and extend and press the side wall on the corresponding mounting plate 101 of the first aluminum profile 1, and the outer sides of the pressing plates are respectively connected to the corresponding fixing rods 6 in a locking manner; the photovoltaic panel mounting frame is used for mounting and connecting a photovoltaic panel 3, the first aluminum profile 1 is fixed by pressing through the fastening mechanism, and the left and right movement of the fastening mechanism is limited by the drainage groove 4; the drainage groove 4 only drains water and does not support the photovoltaic panel 3, so that the deformation problem of the traditional structure can be avoided, and the service life of the drainage groove 4 is ensured; and the water drainage tank 4 can promote the fixed action of the fastening mechanism to the photovoltaic panel installing frame, and the safety performance of the installation of the photovoltaic panel 3 is improved.

The inboard of pressed close board 8 goes up the concave corresponding groove 801 that gives way respectively, the inboard of the groove 801 that gives way inwards extends respectively and is equipped with corresponding nip portion 802, through the groove 801 that gives way with the cooperation of water drainage tank 4 will nip portion 802 respectively in the both sides of water drainage tank 4, nip portion 802 compresses tightly respectively on corresponding first aluminium alloy 1's mounting panel 101, the outside of pressed close board 8 is lock connected to respectively on corresponding dead lever 6, and its outside end is buckled downwards respectively and is equipped with corresponding butt portion 803.

Be equipped with a set of locking hole 804 on the pressfitting board 8 respectively, through corresponding U-shaped screw rod 10 with the cooperation of locking hole 804 will the outside of pressfitting board 8 compresses tightly on corresponding dead lever 6, the rod end joint of U-shaped screw rod 10 arrives the downside of dead lever 6 and through connection have a corresponding locking plate 11, the rod end of U-shaped screw rod 10 extends to the downside of locking plate 11 and the corresponding lock nut 12 of fixedly connected with.

The upside of first aluminium alloy 1 is equipped with corresponding photovoltaic board mounting groove 102 respectively, through photovoltaic board mounting groove 102 will with corresponding photovoltaic board 3 cooperation first aluminium alloy 1 installs respectively in the edge of photovoltaic board 3 front and back both ends limit.

The drainage mechanism further comprises water collecting and drainage grooves 9 which are respectively arranged at two ends of the water guide grooves 5 and connected with all the water guide grooves 5, the water collecting and drainage grooves 9 comprise strip-shaped groove bodies 901 with open upper ends, the upper sides of the inner parts of the strip-shaped groove bodies 901 are integrally formed into an inverted L shape and provided with buckling parts 902, two ends of the water guide grooves 5 are respectively provided with corresponding cross rods, and the water collecting and drainage grooves 9 are respectively arranged on the cross rods at two ends of the water guide grooves 5 by the buckling parts 902 and the cross rods in a matched buckling manner; the upper part of the outer side of the elongated groove body 901 is integrally formed and is obliquely connected with a reinforcing plate 903 outwards, and the top end of the reinforcing plate 903 is integrally formed and is upwards folded to form a corresponding first folding part 904; the water collecting and draining groove 9 is integrally formed by a strip-shaped groove body 901, a buckling part 902, a reinforcing plate 903 and a first folding part 904 in a multi-fold mode, so that the overall rigidity of the water collecting and draining groove 9 is enhanced, the compressive strength is improved, the deformation of the strip-shaped groove body 901 is effectively reduced, and the service life of the water collecting and draining groove is ensured; the added reinforcing plate 903 and the first folding part 904 can increase the volume of the water collecting and draining groove 9 and improve the water collecting effect; and when rainwater flows into the elongated groove 901 and splashes outwards, the rainwater can be shielded by the reinforcing plate 903 and guided back into the elongated groove 901 along the reinforcing plate 903, so that the rainwater is effectively prevented from splashing outwards.

The top end of the first folding part 904 is folded inwards in an inverted L shape and provided with a corresponding second folding part 905, and the top end of the second folding part 905 is higher than the top end of the buckling part 902; the first folding part 904 and the second folding part 905 are matched to effectively limit rainwater from overflowing outwards, so that the using effect of the water collecting and draining groove 9 is ensured.

The two sides of the elongated groove body 901 are respectively and fixedly connected with corresponding fixing seal plates 906 in a sealing manner, the two ends of the buckling part 902 and the reinforcing plate 903 are fixedly connected to the fixing seal plates 906 in a sealing manner, and the elongated groove body 901, the buckling part 902 and the reinforcing plate 903 are integrated by using the fixing seal plates 906, so that the rigidity and the stability of the water collecting and draining groove 9 are further enhanced, the deformation is further reduced, and the service life is ensured; at least one corresponding drain hole is formed in the bottom of the elongated groove body 901, and a corresponding drain pipe is arranged in the drain hole downward sealing device, so that rainwater gathered in the elongated groove body 901 can be effectively and timely drained.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a strutting arrangement is used in photovoltaic power generation board installation which characterized in that: comprises that

The photovoltaic panel mounting frame comprises a group of first aluminum profiles (1) symmetrically arranged at the edges of the front end and the rear end of a photovoltaic panel (3), the lower sides of the first aluminum profiles (1) are respectively provided with corresponding mounting plates (101) inwards in an inverted L shape, and the first aluminum profiles (1) between two adjacent photovoltaic panels (3) are respectively mutually attached; the photovoltaic panel mounting frame further comprises a group of second aluminum profiles (2) symmetrically arranged at the edges of the left side and the right side of the photovoltaic panel (3), and the second aluminum profiles (2) between two adjacent photovoltaic panels (3) are respectively attached to each other;

the drainage mechanism comprises drainage grooves (4) arranged between two adjacent first aluminum profiles (1), and the mounting plates (101) are respectively connected in the drainage grooves (4) in a supporting mode; the drainage mechanism further comprises a water guide groove (5) arranged between two adjacent second aluminum profiles (2), a notch used for installing the drainage groove (4) is formed in the upper end of the water guide groove (5), and the drainage groove (4) is arranged above the water guide groove (5) in a crossing mode through being embedded into the notch and communicated with the water guide groove (5);

the supporting frame comprises a plurality of fixing rods (6) which are arranged at the bottom of the water drainage tank (4) at intervals and used for supporting the water drainage tank (4), the lower end faces of the fixing rods (6) and the lower end face of the water guide tank (5) are positioned on the same horizontal plane, and a plurality of fixing cross beams (7) which are used for supporting the fixing rods (6) and the water guide tank (5) at intervals are arranged at the bottoms of the fixing rods (6) and the water guide tank (5);

fastening device for spacing fixed first aluminium alloy (1), fastening device contains press plate (8) that a set of symmetry set up in water drainage tank (4) both sides, the inboard lateral wall of water drainage tank (4) of stepping down of press plate (8) extends and compresses tightly on mounting panel (101) of corresponding first aluminium alloy (1), and its outside is lock joint respectively to corresponding dead lever (6).

2. A photovoltaic power generation panel installation support device as claimed in claim 1, wherein: the inboard of pressfitting board (8) is gone up the concave corresponding groove of stepping down (801) that is equipped with respectively, the inboard of groove of stepping down (801) inwards extends respectively and is equipped with corresponding nip (802), through groove of stepping down (801) with water drainage tank (4) cooperation will nip respectively in nip (802) both sides in water drainage tank (4), nip (802) compresses tightly respectively on mounting panel (101) of corresponding first aluminium alloy (1), the outside of pressfitting board (8) is lock connection respectively on corresponding dead lever (6), and its outside end is buckled downwards respectively and is equipped with corresponding butt portion (803).

3. A photovoltaic power generation panel installation support device according to claim 2, characterized in that: be equipped with a set of locking hole (804) on pressfitting board (8) respectively, through corresponding U-shaped screw rod (10) with locking hole (804) cooperation will the outside of pressfitting board (8) compresses tightly on corresponding dead lever (6), the rod end portion joint of U-shaped screw rod (10) is received the downside of dead lever (6) and through connection have a corresponding locking plate (11), the rod end portion of U-shaped screw rod (10) extends to the downside and the corresponding lock nut (12) of fixedly connected with of locking plate (11).

4. A photovoltaic panel installation support apparatus as claimed in claim 1, wherein: the upside of first aluminium alloy (1) is equipped with corresponding photovoltaic board mounting groove (102) respectively, through photovoltaic board mounting groove (102) will with corresponding photovoltaic board (3) cooperation first aluminium alloy (1) device respectively in photovoltaic board (3) front and back both ends edge.

5. A photovoltaic power generation panel installation support device as claimed in claim 1, wherein: drainage mechanism still contains water collection and drainage tank (9) of installing respectively at guiding gutter (5) both ends and connecting all guiding gutters (5), water collection and drainage tank (9) contain upper end for rectangular shape cell body (901) of open form, the inside upside of rectangular shape cell body (901) is the integrated shaping of falling L shape and is provided with buckling part (902), corresponding horizontal pole is installed respectively at guiding gutter (5) both ends, will through buckling part (902) and horizontal pole cooperation lock joint water collection and drainage tank (9) install respectively on the horizontal pole at guiding gutter (5) both ends, the outside upper portion integrated shaping of rectangular shape cell body (901) leans out to be connected with reinforcing plate (903), the top integrated shaping of reinforcing plate (903) is turned over and is equipped with corresponding first turnover portion (904) that turns over.

6. A photovoltaic power generation panel installation support device as claimed in claim 5, wherein: the top of first folded section (904) is inwards to be the book of falling L shape and turns over and be equipped with corresponding second folded section (905), the top height of second folded section (905) is higher than the top height of buckling part (902).

7. A support device for photovoltaic panel installation according to claim 6, further comprising: the two sides of the elongated slot body (901) are respectively and fixedly connected with corresponding fixed sealing plates (906) in a sealing mode, the two ends of the buckling part (902) and the two ends of the reinforcing plate (903) are fixedly connected to the fixed sealing plates (906) in a sealing mode, the bottom of the elongated slot body (901) is provided with at least one corresponding drainage hole, and a downward sealing device for the drainage hole is provided with a corresponding drainage pipe.

8. A photovoltaic power generation panel installation support device as claimed in claim 1, wherein: and corresponding fixing rods (6) are arranged on two side edges of the water chute (5).

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