CN214101244U - Photovoltaic support on greenhouse structure - Google Patents

Abstract

The utility model discloses a photovoltaic support on a greenhouse structure, which comprises a plurality of groups of upright rod assemblies, a plurality of diagonal support rods, a plurality of purlins, a plurality of photovoltaic plates and a locking assembly, wherein the lower parts of two sides of each photovoltaic plate are provided with a first right angle part; and second right-angle parts are arranged on two sides of the upper end of the purline. The utility model discloses a photovoltaic board is through being equipped with first right-angle portion, is equipped with second right-angle portion on the purlin, and first right-angle portion and second right-angle portion are fixed through locking subassembly locking for the installer can install the photovoltaic board on the purlin through screwing up the closure bolt soon below the photovoltaic support, need not set up the pallet construction; moreover, the installation position of the locking assembly can be any position in the length direction of the photovoltaic panel, and the aligning installation hole is not needed; the photovoltaic support is safe and convenient to mount.

Description

Photovoltaic support on greenhouse structure

Technical Field

The utility model relates to a technical field of photovoltaic support especially relates to a photovoltaic support on big-arch shelter structure.

Background

Energy problems become a focus of common attention of all countries, on one hand, energy sources such as petroleum and coal are increasingly exhausted, on the other hand, fossil use brings about a large amount of pollution and greenhouse gas emission, and solar energy is increasingly paid more attention as a sustainable and pollution-free green energy source.

Along with the large-scale development over the years, the land resource is in short supply, and the photovoltaic support has become a development trend of being dual-purpose one ground, so that a plurality of photovoltaic supports with greenhouse structures are generated, the upper end can generate electricity, the lower end can be used for cultivation and planting, and the like.

The working environment of photovoltaic support installation is generally abominable, the installation work volume is big, in the installation, generally install photovoltaic support earlier structurally at the big-arch shelter, then install the photovoltaic board on the photovoltaic support again, during the installation, need construct in the photovoltaic board top through the pallet, so, lead to the installation of photovoltaic support to have danger, and, the counterpoint installation hole site is extremely inconvenient, makes the installation of photovoltaic support extremely inconvenient again.

In view of this, the present designer is deeply conceived in view of many deletions and inconveniences that are caused by the above-mentioned photovoltaic supporting structure design that is not perfect, and actively studies, improves, tries to make and develops the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an install safe, convenient structurally last photovoltaic support of big-arch shelter.

In order to achieve the above purpose, the solution of the present invention is:

a photovoltaic support on a greenhouse structure comprises a plurality of groups of vertical rod assemblies, wherein the vertical rod assemblies are arranged in rows at equal intervals, and the lower ends of the vertical rod assemblies are arranged at the upper end of the greenhouse structure; the two inclined supporting rods arranged in pairs are respectively and obliquely arranged on two sides of the upper end of each group of vertical rod components, and the plurality of inclined supporting rods positioned on the same side form an inclined supporting rod component; the purlines are arranged on each group of inclined strut assemblies from top to bottom at equal intervals; the photovoltaic panels are arranged on the purlines; the lower parts of two sides of the photovoltaic panel are provided with first right-angle parts; two sides of the upper end of the purline are provided with second right-angle parts; the photovoltaic panel is arranged on two adjacent purlins, and two first right-angle parts on the photovoltaic panel are respectively pressed on two opposite second right-angle parts of the two purlins; the photovoltaic support further comprises a locking assembly, and the locking assembly comprises an upper pressing plate, a lower pressing plate and a locking bolt; first right-angle portion and second right-angle portion are arranged in between last compressed particleboard and the compressed particleboard down, the closure bolt passes down behind the compressed particleboard and the spiro union of last compressed particleboard by supreme down for it is fixed with first right-angle portion, second right-angle portion, last compressed particleboard and compressed particleboard locking down.

Go up the compressed particleboard's one end lower part and be equipped with the bar post, the one end upper portion that pushes down the plywood is equipped with the bar groove, it passes through bar post activity joint in the bar inslot to go up the compressed particleboard.

One end, facing the purlines, of the lower pressing plate is provided with a sinking table, the upper end face of the sinking table is provided with a first waveform anti-skid portion, and the lower end face of the second right-angle portion is provided with a second waveform anti-skid portion matched with the first waveform anti-skid portion.

The lower extreme of heavy platform is equipped with a drag hook, be equipped with the barb on the lateral wall at second right angle portion, drag hook and barb joint each other.

And the upper end surface of the purline is provided with a separation column.

The photovoltaic bracket also comprises a sliding lock assembly, and the sliding lock assembly comprises a U-shaped lock block, a sliding lock bolt and a square sliding block; two ends of the lower part of the purline are provided with U-shaped locking pins; the inclined strut is provided with a slider groove; the purlines are arranged on the inclined supporting rods; the square sliding block is in sliding fit in the sliding block groove; the opening on the U-shaped locking block is opposite to the opening of the U-shaped locking pin, and the U-shaped locking block is pressed against the U-shaped locking pin; and the sliding lock bolt penetrates through the U-shaped lock block and then is in threaded connection with the square sliding block.

After the scheme is adopted, the photovoltaic panel is provided with the first right-angle part, the purlines are provided with the second right-angle part, and the first right-angle part and the second right-angle part are locked and fixed through the locking assembly, so that an installer can install the photovoltaic panel on the purlines by screwing the locking bolt below the photovoltaic support without building a stand for construction; moreover, the installation position of the locking assembly can be any position in the length direction of the photovoltaic panel, and the aligning installation hole is not needed; the photovoltaic support is safe and convenient to mount.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of the photovoltaic panel according to the preferred embodiment of the present invention after being removed;

fig. 3 is a side view of the photovoltaic panel after removal of the preferred embodiment of the present invention;

FIG. 4 is a schematic view of the locking assembly of the preferred embodiment of the present invention;

FIG. 5 is a side view of the installation of the locking assembly in the preferred embodiment of the present invention;

fig. 6 is a partially enlarged view of a portion a in fig. 2.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

As shown in fig. 1 to 6, in order to provide a preferred embodiment of a photovoltaic support on a greenhouse structure of the present invention, the photovoltaic support includes a plurality of sets of vertical rod assemblies 1, the sets of vertical rod assemblies 1 are arranged in rows at equal intervals, and the lower ends of the sets of vertical rod assemblies 1 are all installed at the upper end of the greenhouse structure; the two paired inclined support rods 21 are respectively and obliquely arranged on two sides of the upper end of each group of vertical rod components 1, and the inclined support rod components 2 are formed by a plurality of inclined support rods 21 positioned on the same side; a plurality of purlines 3, wherein the purlines 3 are arranged on each group of the oblique strut assemblies 2 at equal intervals from top to bottom; the photovoltaic plates 4 are arranged on the purlines 3; wherein, the lower parts of both sides of the photovoltaic panel 4 are provided with first right-angle parts 41; both sides of the upper end of the purline 3 are provided with second right-angle parts 31; the photovoltaic panel 4 is arranged on two adjacent purlins 3, and two first right-angle parts 41 on the photovoltaic panel 4 are respectively pressed on the second right-angle parts 31 opposite to the two purlins 3; the photovoltaic bracket further comprises a locking assembly 5, wherein the locking assembly 5 comprises an upper pressing plate 51, a lower pressing plate 52 and a locking bolt 53; the first right-angle portion 41 and the second right-angle portion 31 are disposed between the upper press plate 51 and the lower press plate 52, and the locking bolt 53 is screwed with the upper press plate 51 after penetrating through the lower press plate 52 from bottom to top, for locking and fixing the first right-angle portion 41, the second right-angle portion 31, the upper press plate 51, and the lower press plate 52.

In the installation process, the upright component 1 is firstly installed at the upper end of the greenhouse structure; then, the inclined strut component 2 is arranged at the upper end of the upright component 1; then, install purlin 3 on oblique strut subassembly 2, later can carry out the installation of photovoltaic board 4.

In the process of installing the photovoltaic panel 4, an installer can install the photovoltaic panel below the photovoltaic bracket, and the installer firstly vertically penetrates through the gap between the two purlins 3; then, the photovoltaic panel 4 is flatly placed, two ends of the photovoltaic panel 4 are distributed and aligned with the two purlines 3, the photovoltaic panel 4 is placed on the two purlines 3, and a first right angle part 41 on the photovoltaic panel 4 and a second right angle part 31 on the purlines 3 are attached and aligned; then, slightly opening the upper pressing plate 51 and the lower pressing plate 52 in the locking assembly 5, and sleeving the locking assembly 5 on the first right-angle part 41 and the second right-angle part 31; then, an installer can lock and fix the photovoltaic plate 4 on the purline 3 below the photovoltaic bracket by screwing the locking bolt 53; thus, the installation of the photovoltaic panel 4 can be completed; moreover, the installation position of the locking assembly 5 can be any position in the length direction of the photovoltaic panel 4, and alignment installation holes are not needed; one photovoltaic panel 4 is locked and fixed by at least two sets of locking assemblies 5, and in the embodiment, one photovoltaic panel 4 is locked and fixed by four sets of locking assemblies 5.

The utility model is characterized in that the photovoltaic plate 4 of the utility model is provided with a first right angle part 41, the purlin 3 is provided with a second right angle part 31, the first right angle part 41 and the second right angle part 31 are locked and fixed by a locking component 5, so that an installer can install the photovoltaic plate 4 on the purlin 3 by screwing a locking bolt 53 under a photovoltaic bracket without erecting a stand for construction; moreover, the installation position of the locking assembly 5 can be any position in the length direction of the photovoltaic panel 4, and alignment installation holes are not needed; the photovoltaic support is safe and convenient to mount.

The lower part of one end of the upper pressing plate 51 is provided with a strip-shaped column 511, the upper part of one end of the lower pressing plate 52 is provided with a strip-shaped groove 521, and the upper pressing plate 51 is movably clamped in the strip-shaped groove 521 through the strip-shaped column 511.

The utility model discloses an go up compressed particleboard 51 through bar post 511 activity joint in bar groove 521, go up compressed particleboard 51 and can open slightly the activity down between the compressed particleboard 52, so that cover closure subassembly 5 on first straight angle portion 41 and second straight angle portion 31, and bar groove 521 can play limiting displacement to bar post 511, avoid revolving the in-process of twisting closure bolt 53, go up compressed particleboard 51 and shift, hinder the installation of photovoltaic support, further make things convenient for the installation of photovoltaic support.

A sinking platform 522 is arranged at one end of the lower pressing plate 52 facing the purline 3, a first wave-shaped anti-skid part 5221 is arranged on the upper end surface of the sinking platform 522, and a second wave-shaped anti-skid part 311 matched with the first wave-shaped anti-skid part 5221 is arranged on the lower end surface of the second right-angle part 31.

Through being equipped with first wave form antiskid 5221 and the second wave form antiskid 311 of matched with, increased the frictional force between plywood 52 and the second right-angle portion 31 down for locking subassembly 5 can be firm locking fixed first right-angle portion 41 and second right-angle portion 31, make the installation of photovoltaic support more firm, stable.

The lower end of the sinking platform 522 is provided with a hook 5222, the side wall of the second right angle portion 31 is provided with a barb 312, and the hook 5222 and the barb 312 are mutually clamped.

Through being equipped with matched with drag hook 5222 and barb 312, at the in-process of locking closure subassembly 5, the lower compressed particleboard 52 through the barb 312 that the second right angle portion 31 was colluded firmly to drag hook 5222, avoids lower compressed particleboard 52 to break away from second right angle portion 31, and then makes the fixed first right angle portion 41 of locking that closure subassembly 5 can be firm and second right angle portion 31 for the installation of photovoltaic support is more firm, stable.

The purlin 3 is provided with a separation column 32 on the upper end surface. Through being equipped with the column 32, when the installation photovoltaic, can arrange photovoltaic board 4 in on the column 32 earlier, installer need not to hold photovoltaic board 4 constantly, and then liberate installer's both hands to conveniently install locking component 5, further make things convenient for the installation of photovoltaic support. Moreover, the photovoltaic panels 4 can be aligned quickly through the separation columns 32, and the separation columns 32 can also separate the two photovoltaic panels 4, so that the two photovoltaic panels 4 are prevented from being damaged by collision, and the photovoltaic panels 4 are protected.

The photovoltaic bracket further comprises a sliding lock assembly 6, wherein the sliding lock assembly 6 comprises a U-shaped lock block 61, a sliding lock bolt 62 and a square sliding block 63; both ends of the lower part of the purline 3 are provided with U-shaped locking pins 33; the inclined strut 21 is provided with a slide block slot 211; the purline 3 is arranged on the inclined strut 21; the square slider 63 is a sliding fit in the slider slot 211; the opening on the U-shaped locking block 61 is opposite to the opening of the U-shaped locking pin 33, and the U-shaped locking block 61 is pressed against the U-shaped locking pin 33; the sliding lock bolt 62 passes through the U-shaped lock block 61 and then is in threaded connection with the square sliding block 63.

During installation, the purlines 3 can move up and down on the oblique supporting rods 21 to adjust positions so as to ensure that the photovoltaic panels 4 can be smoothly installed on the purlines 3, then the sliding lock bolts 62 are slid to be close to the purlines 3, so that the U-shaped lock blocks 61 are pressed against the U-shaped lock feet 33 of the purlines 3, and then the purlines 3 are locked and fixed on the oblique supporting rods 21 by screwing the sliding lock bolts 62; therefore, the problem that the photovoltaic panel 4 cannot be normally installed on the purline 3 due to installation deviation can be avoided, and the photovoltaic support is further convenient to install.

The foregoing description of the specific exemplary embodiments of the invention has been presented for the purposes of illustration and description and is not intended to limit the invention to the precise forms disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain certain principles of the invention and its practical application, to thereby enable others skilled in the art to make and use various exemplary embodiments of the invention and various alternatives and modifications as may be suited to the particular use contemplated and contemplated by those skilled in the art without departing from the scope of the invention.

Claims (6)

1. Photovoltaic support on big-arch shelter structure, photovoltaic support includes

The vertical rod assemblies are arranged in rows at equal intervals, and the lower ends of the vertical rod assemblies are arranged at the upper end of the greenhouse structure;

the two inclined supporting rods arranged in pairs are respectively and obliquely arranged on two sides of the upper end of each group of vertical rod components, and the plurality of inclined supporting rods positioned on the same side form an inclined supporting rod component;

the purlines are arranged on each group of inclined strut assemblies from top to bottom at equal intervals;

the photovoltaic panels are arranged on the purlines;

the method is characterized in that:

the lower parts of two sides of the photovoltaic panel are provided with first right-angle parts; two sides of the upper end of the purline are provided with second right-angle parts; the photovoltaic panel is arranged on two adjacent purlins, and two first right-angle parts on the photovoltaic panel are respectively pressed on two opposite second right-angle parts of the two purlins; the photovoltaic support further comprises a locking assembly, and the locking assembly comprises an upper pressing plate, a lower pressing plate and a locking bolt; first right-angle portion and second right-angle portion are arranged in between last compressed particleboard and the compressed particleboard down, the closure bolt passes down behind the compressed particleboard and the spiro union of last compressed particleboard by supreme down for it is fixed with first right-angle portion, second right-angle portion, last compressed particleboard and compressed particleboard locking down.

2. The photovoltaic support on greenhouse structure of claim 1, wherein: go up the compressed particleboard's one end lower part and be equipped with the bar post, the one end upper portion that pushes down the plywood is equipped with the bar groove, it passes through bar post activity joint in the bar inslot to go up the compressed particleboard.

3. The photovoltaic support on greenhouse structure of claim 1, wherein: one end, facing the purlines, of the lower pressing plate is provided with a sinking table, the upper end face of the sinking table is provided with a first waveform anti-skid portion, and the lower end face of the second right-angle portion is provided with a second waveform anti-skid portion matched with the first waveform anti-skid portion.

4. The photovoltaic support on greenhouse structure of claim 3, wherein: the lower extreme of heavy platform is equipped with a drag hook, be equipped with the barb on the lateral wall at second right angle portion, drag hook and barb joint each other.

5. The photovoltaic support on greenhouse structure of claim 1, wherein: and the upper end surface of the purline is provided with a separation column.

6. The photovoltaic support on greenhouse structure of claim 1, wherein: the photovoltaic bracket also comprises a sliding lock assembly, and the sliding lock assembly comprises a U-shaped lock block, a sliding lock bolt and a square sliding block; two ends of the lower part of the purline are provided with U-shaped locking pins; the inclined strut is provided with a slider groove; the purlines are arranged on the inclined supporting rods; the square sliding block is in sliding fit in the sliding block groove; the opening on the U-shaped locking block is opposite to the opening of the U-shaped locking pin, and the U-shaped locking block is pressed against the U-shaped locking pin; and the sliding lock bolt penetrates through the U-shaped lock block and then is in threaded connection with the square sliding block.

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