CN211557194U - Photovoltaic support and photovoltaic module structure of arranging - Google Patents

Abstract

The utility model discloses a photovoltaic support and photovoltaic module structure of arranging for double horizontal installation photovoltaic module, include: the photovoltaic main beam is in a long-tube structure and is horizontally arranged; the main purlines are connected with the photovoltaic main beams through anchor ears; the vice purlin includes: the lower wing, the upper wing and the web plate are positioned between the adjacent main purlines, wherein the lower wing is arranged at the upper end of the photovoltaic main beam in a lapping mode, two ends of the lower wing extend to form hoop connecting parts, and hoop connecting holes are formed in the hoop connecting parts and connected with two ends of a hoop; two ends of the upper wing are provided with photovoltaic module connecting holes to be connected with the photovoltaic modules; the upper wing and the lower wing are connected through a web plate, and the upper wing is higher than the lower wing. The scheme can realize the transverse double-row arrangement mode of the photovoltaic module, and is simple, effective and controllable in cost.

Description

Photovoltaic support and photovoltaic module structure of arranging

Technical Field

The utility model relates to a photovoltaic module installs the technical field of arranging, indicates a photovoltaic support and photovoltaic module structure of arranging especially.

Background

The design of component arrangement in a photovoltaic power station is very important, and good component arrangement has a lot of differences on the whole installation capacity, the installation difficulty, the long-term generated energy and the guarantee investment income. In general, the common arrangements are mainly classified into the following four types: vertical single row, horizontal single row, vertical double row and horizontal double row. Among the arrangement modes of the vertical single row and the vertical double row, the long edges of the photovoltaic modules are fixed through conventional purlin structures, and installation is achieved. However, in the horizontal double-row scheme, the long edge of the photovoltaic module cannot be well fixed by the traditional photovoltaic support purline structure, and the problem of instable installation and the like can be caused if only the short edge is fixed. Therefore, whether a photovoltaic support structure which is scientific and reasonable in structure and applicable to a horizontal double-row arrangement mode of photovoltaic modules is designed or not is always the problem which is expected to be solved by common technicians in the field, and the photovoltaic modules are firmly installed and operate reliably.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a photovoltaic support and photovoltaic module structure of arranging realizes photovoltaic module's horizontal double mode of arranging, and simple effective, and the cost is controllable.

The utility model provides a technical scheme as follows:

the utility model provides a photovoltaic support for double horizontal installation photovoltaic module, its characterized in that includes:

the photovoltaic main beam is in a long-tube structure and is horizontally arranged;

the main purlines are connected with the photovoltaic main beams through anchor ears;

a secondary purlin, the secondary purlin comprising: the lower wing, the upper wing and the web plate are positioned between the adjacent main purlines; wherein the content of the first and second substances,

two ends of the lower wing extend beyond the photovoltaic main beam along the vertical direction of the photovoltaic main beam to form hoop connecting parts, and the hoop connecting parts are connected with two ends of a hoop through connecting pieces; the two ends of the upper wing are connected with the photovoltaic module through the connecting assembly; the upper wing and the lower wing are connected through the web, and the upper wing is higher than the lower wing.

This scheme encloses through setting up photovoltaic girder, main purlin and angle billet and establishes formation photovoltaic module installation frame to install vice purlin on the photovoltaic girder, make two long limits of photovoltaic module can be connected with vice purlin and angle billet respectively, thereby the installation is fixed in the installation frame, and then has realized photovoltaic module's horizontal double arrangement.

Further preferably, the scheme further comprises: the angle steel bars are connected with the ends of the main purlines, and the main purlines and the angle steel bars enclose the rectangular photovoltaic module mounting frame.

This scheme can enclose the photovoltaic module installation frame of establishing formation rectangle through setting up the angle billet and cooperating with main purlin, increases the stability and the firmness of installing photovoltaic module.

Further preferably, the hoop connecting part and the lower wing are spliced to form a plane, the upper wing and the lower wing are arranged in parallel, and the web is connected with the upper wing and the lower wing respectively, so that the upper wing, the lower wing and the web form a Z-shaped structure.

In this scheme, vice purlin is the Z word structure, and the position setting of upper limb and lower wing can make the purlin stagger with photovoltaic girder and photovoltaic module's junction to can make photovoltaic module distribute simultaneously in the both sides of photovoltaic girder, the lower wing can cooperate the staple bolt to be connected with the photovoltaic girder, and the clamp splice can be installed to the upper limb, through the long limit of clamp splice centre gripping photovoltaic module, realizes that the installation is fixed.

Further preferably, the middle of the auxiliary purline is arched to form a groove, and the groove can be buckled at the upper end of the photovoltaic main beam.

In the scheme, the auxiliary purlines can be buckled on the photovoltaic main beam, so that the photovoltaic modules are transversely arranged on two sides of the photovoltaic main beam and the installation space is saved.

Further preferably, the hoop connecting holes and the photovoltaic module connecting holes are waist-shaped holes.

This scheme can assemble effectively through setting up waist shape hole, nimble adjustment mounted position.

Further preferably, edges of the upper wing and the lower wing are bent.

The stress structure of vice purlin can be optimized in buckling of upper wing, lower wing edge in this scheme, makes its non-deformable, and is firm stable.

Further preferably, the angle steel bars and the auxiliary purlins are provided with clamping blocks, the lower ends of the clamping blocks are connected with the angle steel bars or the upper wings, and the clamping blocks clamp two long sides of the photovoltaic module respectively.

Carry out the clamping to photovoltaic module through setting up the clamp splice in this scheme, can adopt frameless photovoltaic module, stable in structure and easily installation.

Further preferably, the cross section of the photovoltaic main beam is square, or the cross section of the photovoltaic main beam is D-shaped.

The photovoltaic girder section structure of this scheme can agree with mutually in the structure of staple bolt and vice purlin, and easily installation and stability are good.

Further preferably, the clamp block comprises: the clamping block seat is provided with a clamping groove with an upward opening, the top of the inner wall on the opposite side of the clamping groove is provided with a first clamping hook, the bottom of the pressing block is provided with a second clamping hook matched with the first clamping hook, and the pressing block can be clamped with the clamping block seat through the first clamping hook and the second clamping hook; the bottom of the clamping block seat is fixedly connected with the upper ends of the angle steel bars or the auxiliary purlines; the clamping block seat and the same side of the pressing block extend outwards to form a pair of clamping plates, the photovoltaic module can be clamped by the clamping plates, a rubber pad is arranged on the surface of the clamping plates, which is in contact with the photovoltaic module, and anti-skid grains are arranged on the rubber pad.

In the scheme, the clamping blocks are combined through clamping, so that the clamping device is easy to install; the rubber pad can increase clamping photovoltaic module's stability, and rubber can provide the buffering, protects photovoltaic module.

Further preferably, the staple bolt is semi-annular or flat-plate-shaped, and its both ends are equipped with the staple bolt installation department, the staple bolt installation department can with staple bolt connecting portion pass through threaded connection spare and connect, thereby make the staple bolt can encircle the photovoltaic girder.

Staple bolt structure in this scheme can laminate the photovoltaic girder in square cross-section or D shape cross-section, and the installation degree of agreeing with is high, and stability is good.

A photovoltaic module arrangement, comprising: the photovoltaic support comprises a plurality of photovoltaic assemblies and the photovoltaic support, wherein the photovoltaic assemblies are provided with frames, each frame on the long edge of one side of each photovoltaic assembly is fixedly connected with the angle steel bar through a screw, the frame on the long edge of the other side of each photovoltaic assembly is fixedly connected with the auxiliary purlin through a screw, and the photovoltaic assemblies are arranged on the photovoltaic support in a double-row transverse arrangement mode.

The photovoltaic module structure of arranging of this scheme adopts the photovoltaic module of taking the frame, connects the installation stable, simple and convenient, can realize the double photovoltaic module of arranging.

A photovoltaic module arrangement, comprising: the photovoltaic support comprises a plurality of photovoltaic components and the photovoltaic support, wherein the photovoltaic components are frameless components, and the photovoltaic components are arranged on the photovoltaic support in a double-row transverse arrangement mode.

The photovoltaic module structure of arranging of this scheme adopts frameless's photovoltaic module, and the cooperation clamp splice is installed fixedly, connects that the installation is stable, simple and convenient, can realize double photovoltaic module of arranging.

The scheme has at least one of the following beneficial effects:

1. according to the scheme, the photovoltaic components are transversely arranged in double rows on two sides of the photovoltaic main beam by arranging the main purlines, the angle steel bars and the auxiliary purlines;

2. the auxiliary purline is of a Z-shaped structure, can be matched with the clamping block to clamp the photovoltaic module, and is stable in structure and easy to install;

3. the auxiliary purline of the scheme is provided with the groove, can be buckled on the photovoltaic main beam, and is firm to mount, compact in structure and free of occupying mounting space.

Drawings

The invention will be described in further detail with reference to the following drawings and embodiments:

fig. 1 is a schematic structural view of a secondary purlin of the present invention;

FIG. 2 is an assembly view of the secondary purlin of the present invention;

fig. 3 is a schematic structural view of another secondary purlin of the present invention;

FIG. 4 is an assembly view of another purlin of the present invention;

FIG. 5 is a schematic structural view of the clamping block of the present invention;

fig. 6 is a schematic structural diagram of the photovoltaic module arrangement structure of the present invention.

The reference numbers illustrate:

1. the photovoltaic main beam comprises a photovoltaic main beam, 2 main purlines, 3 angle steel bars, 4 auxiliary purlines, 41 lower wings, 411 hoop connecting parts, 412 hoop connecting holes, 413 edges, 42 upper wings, 421 photovoltaic module connecting holes, 422 edges, 43 webs, 44 arches, 5 photovoltaic modules, 6 hoops, 7 clamping blocks, 71 clamping block seats, 711 clamping grooves, 712 first clamping hooks, 713 clamping plates, 72 pressing blocks, 721 second clamping hooks, 722 clamping plates, 73 rubber pads.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

As a specific example, as shown in fig. 1 to 4, a photovoltaic rack for double row lateral mounting of photovoltaic modules 5 comprises: photovoltaic girder 1, a plurality of main purlins 2, angle billet 3 and vice purlin 4. The photovoltaic main beam 1 is of a long tubular structure and is horizontally arranged; the main purlines 2 are connected with the photovoltaic main beam 1 through anchor ears 6; the angle steel bars 3 are connected with the ends of the main purlines 2, the photovoltaic main beam 1, the main purlines 2 and the angle steel bars 3 enclose an installation frame of a rectangular photovoltaic module 5, so that the photovoltaic modules 5 are transversely distributed on two sides of the photovoltaic main beam 1 side by side, and the installation frame is enclosed on the peripheral sides of the photovoltaic modules 5; the secondary purlin 4 includes: the lower wing 41, the upper wing 42 and the web 43 are positioned between the adjacent main purlins 2 to connect the photovoltaic module 5 and the photovoltaic main beam 1, wherein the lower wing 41 is overlapped at the upper end of the photovoltaic main beam 1, two ends of the lower wing 41 extend beyond the photovoltaic main beam 1 to form a hoop connecting part 411, a hoop connecting hole 412 is formed in the hoop connecting part 411, and the hoop connecting part 411 is connected with two ends of a hoop 6 through a connecting piece; the two ends of the upper wing 42 are provided with photovoltaic module connecting holes 421, and can be connected with the photovoltaic module 1 through connecting components such as screws and clamping blocks 7; the upper wing 42 and the lower wing 41 are connected by a web 43, and the upper wing 42 is disposed higher than the lower wing 41. In this embodiment, the photovoltaic main beam 1, the main purlins 2 and the angle steel bars 3 enclose a mounting frame forming a rectangle for mounting the photovoltaic module 5. The width of rectangle installation frame corresponds with photovoltaic module 5's width to two long limits that can make photovoltaic module 5 carry out fixed connection with photovoltaic girder 1 and angle billet 3 respectively. In this embodiment, one long side of the photovoltaic module 5 is directly connected to the angle steel bar 3, and the other long side is connected to the photovoltaic main beam 1 through the secondary purlin 4. Wherein the both ends of photovoltaic girder 1 lower wing 41 are equipped with staple bolt connecting portion 411, can be connected with the both ends of staple bolt 6 to lower wing 41 can hoop the outside of locating photovoltaic girder 1 with staple bolt 5, makes lower wing 41 take and fixes in the upper end of photovoltaic girder 1. The upper wing 42 is connected with the upper wing 42 through the web 43, and the two ends of the upper wing 42 are respectively provided with the photovoltaic module connecting holes 421, so that the two ends of the upper wing 42 can be respectively connected with the long edges of the two photovoltaic modules 5, and the photovoltaic modules 5 are transversely arranged on two sides of the photovoltaic main beam 1 in a double-row mode.

Wherein angle billet 3 is optional, and angle billet 3 also can not be installed to this scheme, and photovoltaic module 5's a side is direct through vice purlin 4 and photovoltaic girder 1 fixed connection, realizes photovoltaic module 5's horizontal double arrangement. Install angle steel 3's effect and lie in forming the installation frame with the cooperation of photovoltaic girder 1, provide the support for photovoltaic module 5 respectively from both sides, increase photovoltaic support's stability. The photovoltaic support materials can be saved without installing the angle steel bars 3, the cost is reduced, the installation and construction procedures are simplified, and the installation efficiency is improved.

So far, those skilled in the art can understand that the secondary purlin 4 in the present scheme is actually the key point of the present scheme. In this scheme, vice purlin 4 can cooperate staple bolt 6 to be connected with photovoltaic girder 1 through setting up wing 41 down, sets up wing 42 then can be connected with two photovoltaic module 5's side respectively. The staggered design of the upper wing 42 and the lower wing 41 of the auxiliary purline 4 enables the joints of the auxiliary purline and the photovoltaic main beam 1 and the photovoltaic modules 5 to be located on different planes and not to interfere with each other, so that the photovoltaic modules 5 can be arranged in two rows in the transverse direction by using as few parts as possible, and the structure is reasonable and easy to install.

In another embodiment, as shown in fig. 1, 2 and 5, the hoop connecting portion 411 and the lower wing 41 are combined to form a plane, the upper wing 42 and the lower wing 41 are arranged in parallel, the web 43 is perpendicular to the upper wing 42 and the lower wing 41 respectively to form a Z-shaped structure, and the edges 413 and 422 of the upper wing 42 and the lower wing 41 are bent. The angle steel bars 3 and the auxiliary purlins 4 are provided with clamping blocks 7, the lower ends of the clamping blocks 7 are connected with the angle steel bars 3 or photovoltaic module connecting holes 421 of the upper wings 42, and the clamping blocks 7 respectively clamp two long edges of the photovoltaic module 5. In this embodiment, vice purlin 4 is the Z word structure, and is equipped with the bending at the edge, and this structure wall is thin light from the weight, and section performance is good, and intensity is high, can ensure photovoltaic support's overall stability. In addition, optionally, the auxiliary purlines 4 can also be of a C-shaped structure, the structure also has excellent section performance, and the upper wing and the lower wing can be connected with the photovoltaic module 5 and the photovoltaic main beam 1 respectively. In the embodiment, the clamping blocks 7 are arranged on the auxiliary purlins 4 and the angle steel bars 3 and used for clamping the photovoltaic modules 5 to realize installation. Through setting up clamp splice 7, clamp splice 7 can directly press from both sides the edge of 5 panels at photovoltaic module and fix, and photovoltaic module 5 need not add and establishes the frame, has reduced photovoltaic module 5's manufacturing cost. In an installation site, the assembling and installing mode of the clamping blocks 7 can simplify the installation process on site and increase the installation efficiency. Preferably, a rubber pad 73 for protecting the photovoltaic module 5 is arranged at the contact position of the clamping block 7 and the photovoltaic module 5, and the rubber pad 73 is provided with sawtooth-shaped anti-skid lines for increasing friction force. Further, in this embodiment, the clamp block 7 includes: the clamping block comprises a clamping block seat 71 and a pressing block 72, wherein the clamping block seat 71 is provided with a clamping groove 711 with an upward opening, the top of the inner wall on the opposite side of the clamping groove 711 is provided with a first clamping hook 712, the bottom of the pressing block 72 is provided with a second clamping hook 721 matched with the first clamping hook 712, and the pressing block 72 can be clamped with the clamping block seat 71 through the first clamping hook 712 and the second clamping hook 721; the bottom of the clamp block seat 71 is fixedly connected with the upper ends of the angle steel bars 3 or the auxiliary purlines 4; the clamping block seat 71 and the pressing block 72 extend outwards on the same side to form a pair of clamping plates 713 and 722, the clamping plates 713 and 722 can clamp the photovoltaic module 5, a rubber pad 73 is arranged on the contact surface of the clamping plates 713 and 722 and the photovoltaic module 5, and anti-skid lines are arranged on the rubber pad 73. In this embodiment, the cross-section of the main photovoltaic beam 1 is square, the hoop 6 is a flat strip structure, and the two ends of the hoop are provided with hoop mounting portions, which can be respectively and fixedly connected with the hoop connecting portions 411 through threaded connectors, so that the hoop 6 can encircle the main photovoltaic beam 1. The cross-section of the photovoltaic main beam 1 of the structure can be mutually matched with the shape of the hoop 6, and the structure is easy to install and good in stability.

In yet another embodiment, as shown in fig. 3 and 4, the secondary purlins 4 are arched at their middle portions 44 to form a groove, which can be fastened to the upper end of the photovoltaic main beam 1. The hoop connecting holes 412 and the photovoltaic module connecting holes 421 are all waist-shaped holes. Photovoltaic module 5 is equipped with the frame, and the frame on the long limit of photovoltaic module 5 one side passes through screw and angle bar 3 fixed connection, and the frame on the long limit of photovoltaic module 5 opposite side passes through screw and photovoltaic module connecting hole 421 fixed connection on vice purlin 4. In this embodiment, the auxiliary purlines 4 can be buckled on the photovoltaic main beam 1, so that the upper wings 42 are close to the photovoltaic main beam 1 as much as possible, and the upper wings 42 are directly connected with the frame of the long edge of one side of the photovoltaic module 5 through screws, so that the installation structure is compact, and the photovoltaic modules 5 are arranged closely. Wherein preferably, staple bolt connecting hole 412 and photovoltaic module connecting hole 421 are waist shape hole, and when the mutual position between each part is difficult to reach ideal position or the position between each part needs the adjustment, waist shape hole can carry out adaptation and adjustment well, increases the flexibility of installation, has also reduced the required precision of part production when assembling. In this embodiment, the cross-section of the photovoltaic main beam 1 is D-shaped, the hoop 6 is a semi-annular structure, and two ends of the hoop are provided with hoop mounting portions, which can be fixedly connected with the hoop connecting portion 411 through a threaded connector, so that the hoop 6 can encircle the photovoltaic main beam 1. The cross-section of the photovoltaic main beam 1 of the structure can be mutually matched with the shape of the hoop 6, and the structure is easy to install and good in stability.

In this embodiment, optionally, the frameless photovoltaic module 5 may also be fixed by the clamping blocks 7. The clamp block 7 includes: the clamping block comprises a clamping block seat 71 and a pressing block 72, wherein the clamping block seat 71 is provided with a clamping groove 711 with an upward opening, the top of the inner wall on the opposite side of the clamping groove 711 is provided with a first clamping hook 712, the bottom of the pressing block 72 is provided with a second clamping hook 721 matched with the first clamping hook 712, and the pressing block 72 can be clamped with the clamping block seat 71 through the first clamping hook 712 and the second clamping hook 721; the bottom of the clamp block seat 71 is fixedly connected with the upper ends of the angle steel bars 3 or the auxiliary purlines 4; the same sides of the clamping block seat 71 and the pressing block 72 extend outwards to form a pair of clamping plates 713 and 722, and the photovoltaic module 5 is clamped between the clamping plates 713 and 722.

This scheme still relates to a photovoltaic module structure of arranging, as shown in fig. 6, includes: a plurality of photovoltaic module 5 and foretell photovoltaic support, photovoltaic module are equipped with the frame, and the frame on the long limit of 5 one sides of each photovoltaic module passes through screw and 3 fixed connection of angle billet, and the frame on the long limit of 5 photovoltaic module opposite sides passes through screw and 4 fixed connection of vice purlin, and the double horizontal arrangement of photovoltaic module 5 is installed on photovoltaic support.

This scheme still relates to a photovoltaic module structure of arranging, as shown in fig. 6, includes: the photovoltaic modules 5 are frameless components, and the photovoltaic modules 5 are arranged on the photovoltaic support in a double-row transverse arrangement mode.

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 (11)

1. The utility model provides a photovoltaic support for double horizontal installation photovoltaic module, its characterized in that includes:

the photovoltaic main beam is in a long-tube structure and is horizontally arranged;

the main purlines are connected with the photovoltaic main beams through anchor ears;

a secondary purlin, the secondary purlin comprising: the lower wing, the upper wing and the web plate are positioned between the adjacent main purlines; wherein the content of the first and second substances,

two ends of the lower wing extend beyond the photovoltaic main beam along the vertical direction of the photovoltaic main beam to form hoop connecting parts, and the hoop connecting parts are connected with two ends of a hoop through connecting pieces; the two ends of the upper wing are connected with the photovoltaic module through the connecting assembly; the upper wing and the lower wing are connected through the web, and the upper wing is higher than the lower wing.

2. The photovoltaic rack of claim 1, further comprising: the angle steel bars are connected with the ends of the main purlines, and the main purlines and the angle steel bars enclose the rectangular photovoltaic module mounting frame.

3. The photovoltaic bracket according to claim 1 or 2, wherein the hoop connecting part and the lower wing are spliced to form a plane, the upper wing and the lower wing are arranged in parallel, and the web is connected with the upper wing and the lower wing respectively, so that the upper wing, the lower wing and the web form a zigzag structure.

4. A photovoltaic support according to claim 1 or claim 2, wherein the secondary purlins are arched to form a channel which is snap-fitted over the upper ends of the primary photovoltaic beams.

5. A photovoltaic support according to claim 1 or claim 2, wherein the edges of the upper and lower wings are bent.

6. The photovoltaic bracket according to claim 2, wherein the angle steel bars and the secondary purlins are provided with clamping blocks, the lower ends of the clamping blocks are connected with the angle steel bars or the upper wings, and the clamping blocks are used for clamping two long sides of the photovoltaic module.

7. The photovoltaic bracket of claim 1 or 2, wherein the cross section of the photovoltaic main beam is square, or the cross section of the photovoltaic main beam is D-shaped.

8. The photovoltaic rack of claim 6, wherein the clamp block comprises: the clamping block seat is provided with a clamping groove with an upward opening, the top of the inner wall on the opposite side of the clamping groove is provided with a first clamping hook, the bottom of the pressing block is provided with a second clamping hook matched with the first clamping hook, and the pressing block can be clamped with the clamping block seat through the first clamping hook and the second clamping hook; the bottom of the clamping block seat is fixedly connected with the upper ends of the angle steel bars or the auxiliary purlines; the clamping block seat and the same side of the pressing block extend outwards to form a pair of clamping plates for clamping the photovoltaic module, a rubber pad is arranged on the surface, in contact with the photovoltaic module, of each clamping plate, and anti-skid grains are arranged on the rubber pad.

9. The photovoltaic bracket according to claim 1 or 2, wherein the anchor ear is semi-annular or flat, and anchor ear mounting portions are disposed at two ends of the anchor ear, and the anchor ear mounting portions can be connected with the anchor ear connecting portions through threaded connectors, so that the anchor ear can encircle the photovoltaic main beam.

10. A photovoltaic module arrangement, comprising: the photovoltaic support comprises a plurality of photovoltaic assemblies and the photovoltaic support as claimed in any one of claims 1 to 5, 7 and 9, wherein the photovoltaic assemblies are provided with frames, the frame of the long edge of one side of each photovoltaic assembly is fixedly connected with the auxiliary purline through screws, and the photovoltaic assemblies are arranged on the photovoltaic support in a double-row transverse arrangement mode.

11. A photovoltaic module arrangement, comprising: a plurality of photovoltaic modules and a photovoltaic support as claimed in any one of claims 1 to 9, said photovoltaic modules being frameless, said photovoltaic modules being mounted in a double row transverse arrangement on said photovoltaic support.

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