CN217461643U - Photovoltaic bicycle shed with modular power generation function - Google Patents

Abstract

The utility model discloses a photovoltaic bicycle shed with modularized power generation, which comprises a plurality of combined upright posts; the combined upright post is fixed on the base; the combined upright post comprises an upright post bracket; the upright post bracket comprises a bottom post, a middle post and a top post; a plurality of cross braces and purlins are connected between the adjacent combined upright columns; a photovoltaic assembly is fixed at the upper end of the purline; the photovoltaic module comprises a plurality of photovoltaic panels; an assembly long pressing strip and a longitudinal water guide part are connected between every two adjacent photovoltaic panels which are longitudinally distributed; and a transverse water guide component is connected between two adjacent photovoltaic panels which are transversely distributed. The shed support of the utility model uses high-strength steel, which can effectively reduce the steel usage amount of the whole shed; each shed can be formed by combining a plurality of modules, the single-side shed and the double-side sheds can be selected at will, and the length of the transverse shed can be increased and decreased freely; all connections of the car shed support are connected by bolts, so that the car shed support is more quickly disassembled; set up horizontal and vertical water guide part between the photovoltaic module, waterproof performance is excellent.

Description

Photovoltaic bicycle shed with modular power generation function

Technical Field

The utility model relates to a photovoltaic bicycle shed of modularization electricity generation belongs to photovoltaic bicycle shed equipment technical field.

Background

The photovoltaic bicycle shed is a bicycle shed provided with a photovoltaic panel, and solar energy can be converted into electric energy through the photovoltaic panel arranged on the photovoltaic bicycle shed, so that charging of an electric carrier, lighting or integration into a power grid are realized. The existing photovoltaic car shed support is basically a low-strength large-section welded steel support, is large in steel consumption and high in manufacturing cost, and cannot be detached and moved after being installed and used.

SUMMERY OF THE UTILITY MODEL

Problem to above-mentioned prior art exists, the utility model provides a photovoltaic bicycle shed of modularization electricity generation to solve above-mentioned technical problem.

In order to realize the purpose, the utility model discloses a technical scheme is: a photovoltaic shed with modularized power generation comprises a plurality of combined upright columns; the combined upright post is fixed on the base; the combined upright column comprises a left upright column bracket and a right upright column bracket; the upright post bracket comprises a bottom post, a middle post and a top post; the bottom strut and the top strut are positioned between the middle struts and are vertically connected, and the bottom strut, the middle struts and the top struts are integrally connected; a plurality of cross braces and purlins are connected between the adjacent combined upright columns; a photovoltaic assembly is fixed at the upper end of the purline; the photovoltaic assembly includes a plurality of photovoltaic panels; an assembly long pressing strip and a longitudinal water guide part are connected between every two adjacent photovoltaic panels which are longitudinally distributed; and a transverse water guide component is connected between two adjacent photovoltaic panels which are transversely distributed.

Furthermore, a reinforcing rod is arranged at the connecting end of the middle strut and the bottom strut; an inclined supporting rod is fixedly connected between the middle supporting column and the top supporting column; and two ends of the oblique supporting rod are fixed on the middle supporting column and the top supporting column through bolts.

Furthermore, the left and right upright post supports are distributed in a central symmetry manner.

Furthermore, the number of the cross braces is two, one cross brace at the upper end is fixed between the left middle support and the right middle support, and one cross brace at the lower end is fixed between the left bottom support and the right bottom support.

Further, the assembly long pressing strip is a longitudinal gap which penetrates through the whole photovoltaic panel and covers the whole photovoltaic panel; the longitudinal water guide component comprises a first transverse water guide U-shaped groove positioned at the bottoms of the two sides of the photovoltaic panel.

Furthermore, the transverse water guide component comprises a filling part for filling a transverse gap between adjacent photovoltaic panels and a transverse water guide U-shaped groove II positioned at the lower ends of the left photovoltaic panel and the right photovoltaic panel.

The utility model has the advantages that: the car shed is designed in a light weight mode, and the support is made of high-strength steel, so that the steel usage amount of the whole car shed can be effectively reduced; the long supporting base added at the bottom end of the strut can effectively increase the stability of the strut; each shed can be formed by combining a plurality of modules, the single-side shed and the double-side sheds can be selected at will, and the length of the transverse shed can be increased and decreased freely; all parts of the car shed support are not welded, all the parts are connected by bolts, and after the car shed support is installed, anticorrosion measures such as spraying and the like do not need to be taken, so that the car shed can be quickly put into use; the disassembly is quicker without damages such as cutting and the like, and the disassembly can be quickly moved to other places for secondary installation and use; the purlines and the water guide components are made of pre-galvanized aluminum-magnesium high-strength steel plates, and are not required to be subjected to corrosion prevention treatment such as hot galvanizing, so that the purlines and the water guide components are environment-friendly and pollution-free, and have super-strong outdoor weather resistance. Meanwhile, the photovoltaic module also adopts a pre-galvanized aluminum-magnesium frame to replace the traditional aluminum frame, so that the cost is reduced, the potential difference corrosion of the contact electrode of the photovoltaic module and a purline dissimilar material can be avoided, and the service performance of the module is further improved; the water guide part is arranged between the photovoltaic assemblies, rainwater permeating from the assembly gaps is concentrated to the water guide part and drained away after installation, a waterproof function is achieved, a waterproof layer does not need to be made independently, the use of sealing materials (EPDM, structural adhesive and the like) is greatly reduced, the system cost is saved, and the photovoltaic assembly is reliable and excellent in weather resistance.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the stand column support structure of the present invention;

fig. 3 is a schematic structural view of a single-side carport module of the present invention;

fig. 4 is a schematic structural view of the double-sided carport module of the present invention;

fig. 5 is a schematic structural view of the longitudinal gap water guide component of the photovoltaic module of the present invention;

fig. 6 is the utility model discloses a photovoltaic module lateral gap water guide component structure sketch map.

In the figure: 1. the combined vertical column comprises a combined vertical column 11, a bottom pillar 111, a reinforcing rod 12, a middle pillar 13, a top pillar 131, an oblique supporting rod 2, a base 3, a cross brace 4, a purline 5, a photovoltaic module 51, a module long pressing strip 52, a longitudinal water guide component 521, a transverse water guide U-shaped groove I, a transverse water guide component 53, a transverse water guide component 531, a filling part 532 and a transverse water guide U-shaped groove II.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clear, the present invention is further described in detail through the accompanying drawings and embodiments. It should be understood, however, that the description herein of specific embodiments is only intended to illustrate the invention and not to limit the scope of the invention.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs, and the terms used herein in the specification of the present invention are for the purpose of describing particular embodiments only and are not intended to limit the present invention.

The first embodiment is as follows:

referring to fig. 1, 2 and 4, it is a double-sided photovoltaic shed for modular power generation, comprising a plurality of combined columns 1; the combined upright column 1 is fixed on the base 2; the combined upright column 1 comprises a left upright column bracket and a right upright column bracket; the upright post bracket comprises a bottom post 11, a middle post 12 and a top post 13; the bottom strut 11 and the top strut 13 are positioned between the middle struts 12 and are vertically connected, and the bottom strut, the middle struts and the top struts are integrally connected; a plurality of cross braces 3 and purlins 4 are connected between the adjacent combined upright posts 1; a photovoltaic assembly 5 is fixed at the upper end of the purline 4; the photovoltaic module 5 comprises a plurality of photovoltaic panels; an assembly long pressing strip 51 and a longitudinal water guide part 52 are connected between two adjacent photovoltaic panels which are longitudinally distributed; and a transverse water guide part 53 is connected between two adjacent photovoltaic panels which are distributed transversely.

In the preferred embodiment, a reinforcing rod 111 is disposed at the connecting end of the middle pillar 12 and the bottom pillar 11; an inclined support rod 131 is fixedly connected between the middle support column 12 and the top support column 13; both ends of the diagonal support bar 131 are bolted to the middle pillar 12 and the top pillar 13.

Preferably, the left and right upright supports are distributed in a centrosymmetric manner.

In the preferred embodiment, there are two crossbrace 3, one crossbrace 3 near the upper end is fixed between the left and right middle pillars 12, and one crossbrace 3 near the lower end is fixed between the left and right bottom pillars 11.

Referring to fig. 5, in the preferred embodiment, the assembly long batten 51 is a longitudinal gap penetrating and covering the whole photovoltaic panel; the longitudinal water guide part 52 comprises a transverse water guide U-shaped groove I521 positioned at the bottom of two sides of the photovoltaic panel. The utility model discloses use the rectangular shape layering of run-through to replace traditional aluminium briquetting, can block plugs such as dust fallen leaves when compressing tightly the constitution, the below sets up vertical water guide part 52, and the rainwater drainage to the rainwater of infiltration and the inflow of horizontal water guide part 53 is to the bicycle shed both sides.

Referring to fig. 6, in the present embodiment, preferably, the transverse water guiding member 53 includes a filling part 531 for filling a transverse gap between adjacent photovoltaic panels and a transverse water guiding U-shaped groove two 532 at lower ends of the two photovoltaic panels. The transverse water guide member 53 is overlapped on the longitudinal water guide member 52 and fills the transverse assembly gap, and drains the infiltrated rainwater into the longitudinal water guide member 52 while blocking fallen leaves and dust.

Example two:

referring to fig. 3, the single-side photovoltaic shed for modular power generation is arranged on one side of the double-side shed, and the vertical sides of the double-side shed are additionally provided with weather-proof plates like assembly parts.

The utility model discloses during the installation, at first fix composite column 1 to the concrete subaerial, lengthened base 2 can increase the stability of pillar effectively, and 1 fixed back installation stull 3 of composite column and purlin 4 install waterproof component and photovoltaic module 5 on purlin 4 again, install devices such as dc-to-ac converter and energy storage at last.

The utility model discloses the advantage:

1. this bicycle shed adopts the lightweight design, and the stand support uses high strength steel, can effectively reduce the steel use amount of whole bicycle shed. The long supporting base added at the bottom end of the support column can effectively increase the stability of the support column.

2. Modular design, every bicycle shed all can use the combination of a plurality of module to form, unilateral bicycle shed, two side bicycle sheds optional, and horizontal bicycle shed length freely increases and decreases.

3. All parts of the car shed are not welded, all the parts are connected by bolts, and the car shed can be quickly put into use without anticorrosion measures such as spraying and the like after installation; the utility model has the advantages of do not have destruction such as cutting during the dismantlement, dismantle more swiftly, but quick travel is installed again elsewhere and is used.

4. The purlines 4 and the water guide components are made of pre-galvanized aluminum-magnesium high-strength steel plates, and are not required to be subjected to corrosion prevention treatment such as hot galvanizing, so that the environment-friendly water guide plate is environment-friendly and pollution-free, and has super-strong outdoor weather resistance. Meanwhile, the photovoltaic module 5 also adopts a pre-galvanized aluminum-magnesium frame to replace a traditional aluminum frame, so that the cost is reduced, the potential difference corrosion of the photovoltaic module and a purline 4 made of different materials can be avoided, and the service performance of the photovoltaic module is further improved.

5. The water guide part is arranged between the photovoltaic modules 5, rainwater permeating from the module gaps is concentrated to the water guide part to be drained after installation, a waterproof function is achieved, a waterproof layer does not need to be made independently, the use of sealing materials (EPDM, structural adhesive and the like) is greatly reduced, the system cost is saved, and the solar photovoltaic module is reliable and excellent in weather resistance.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and should not be construed as limiting the scope of the present invention, which is intended to cover any modifications, equivalent substitutions or improvements made within the spirit and scope of the present invention.

Claims (6)

1. A photovoltaic shed for modular power generation is characterized by comprising a plurality of combined upright columns (1); the combined upright post (1) is fixed on the base (2); the combined upright post (1) comprises a left upright post bracket and a right upright post bracket; the upright post bracket comprises a bottom post (11), a middle post (12) and a top post (13); the bottom support column (11) and the top support column (13) are positioned between the middle support columns (12) and vertically connected, and the bottom support column, the middle support columns and the top support columns are integrally connected; a plurality of cross braces (3) and purlines (4) are connected between the adjacent combined upright columns (1); a photovoltaic assembly (5) is fixed at the upper end of the purline (4); the photovoltaic module (5) comprises a plurality of photovoltaic panels; an assembly long pressing strip (51) and a longitudinal water guide component (52) are connected between two adjacent photovoltaic panels which are longitudinally distributed; and a transverse water guide component (53) is connected between two adjacent photovoltaic panels which are transversely distributed.

2. A modular power generation photovoltaic shed as claimed in claim 1, characterized in that a stiffener (111) is provided at the connecting end of the middle strut (12) and the bottom strut (11); an inclined support rod (131) is fixedly connected between the middle support column (12) and the top support column (13); two ends of the inclined supporting rod (131) are fixed on the middle supporting column (12) and the top supporting column (13) through bolts.

3. The photovoltaic shed as in claim 1, wherein the left and right upright supports are arranged in a central symmetry.

4. The photovoltaic shed as claimed in claim 1, characterized in that two crossbars (3) are provided, one crossbars (3) at the upper end being fixed between the left and right middle struts (12) and one crossbars (3) at the lower end being fixed between the left and right bottom struts (11).

5. The photovoltaic carport for modular power generation as claimed in claim 1, characterized in that the module long beads (51) are penetratingly-covering the longitudinal gap between the whole photovoltaic panels; the longitudinal water guide component (52) comprises a first transverse water guide U-shaped groove (521) which is positioned at the bottom of the two sides of the photovoltaic panel.

6. The photovoltaic carport for modular power generation as claimed in claim 1, wherein the lateral water guiding member (53) comprises a filling part (531) for filling a lateral gap between adjacent photovoltaic panels and a lateral water guiding U-shaped groove two (532) at the lower end of the two photovoltaic panels.

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