KR100907085B1 - Solar cell assembly - Google Patents

Abstract

Disclosed is a self-weighted solar cell assembly which can be easily installed in a building having a relatively large rooftop such as a school or a public office, and which can be installed firmly without damaging the rooftop surface of the building. The photovoltaic cell assembly of the present invention includes main supports disposed on a rooftop floor of a building and connected to both ends along a longitudinal direction, pillars coupled to the main supports, and light collecting plates coupled to the pillars.

Solar cell, Power plate, Condensing plate, Cell, Support

Description

Solar cell assembly

The present invention relates to a photovoltaic cell assembly, and more particularly, a self-weight solar cell that can be easily installed in a building having a relatively large rooftop such as a school or a public office, and can be installed firmly without damaging the building. It relates to an optical cell assembly.

With the beginning of the 20th century, there is a growing awareness and concern about eco-friendly renewable energy, along with regulations on the risk of depletion of fossil fuels and the Climate Change Convention due to environmental issues. Photovoltaic power generation, which can be used permanently for short periods of construction, is in the spotlight as an alternative energy source. This increase in interest has led to the growth of the industry, which has been growing year after year.

These solar cell power generation facilities can be divided into two types according to the installation space and area. The first method is to select a new land to form a solar panel (solar solar panel) in the form of a solar farm or a solar parasol, and the other is to collect a panel on an existing structure or structure such as a building. It is attached or installed. The former has the burden of excavating new land spaces in forests, hills, and coasts, and the issue of permits to change land use for development projects is not an easy task. However, as in the latter, the installation of a light collecting plate on a window, a rooftop, or a building exterior wall of an existing building or a new building is of great interest in that it can utilize a space that can be thrown away meaninglessly.

In the related art, in order to install a light collecting plate, an anchor is fixed to the rooftop of a building and the frame is fixed to the frame by bolts, etc., and then the light collecting plate is fixed to the frame. This conventional technique installs a solar cell assembly while damaging the floor surface of the roof of a building. Therefore, if the waterproof construction on the roof is damaged, additional management costs may increase due to leakage. In addition, such a solar cell assembly installation operation is inconvenient, there is a problem that the installation cost is increased and the work maneuver is also increased.

Accordingly, the present invention has been proposed to solve the above problems, and an object of the present invention is to easily install a light collecting plate (also called a solar cell power generation plate, or a module array) on the roof of a building, and maneuver and install it. The present invention provides a photovoltaic cell assembly that can reduce costs and, in particular, prevent damage to a waterproofing facility by not damaging a rooftop floor.

In order to achieve the object as described above, the present invention is disposed on the roof bottom surface of the building and the main supports are coupled to both ends along the longitudinal direction, the pillars are coupled to the main supports, coupled to the pillars Provided is a solar cell assembly comprising light collecting plates.

Preferably, the main support further includes auxiliary supports alternately connected to the main supports along the longitudinal direction of the main supports.

The main supports are preferably connected to each other by fastening members.

Preferably, the main supports are coupled to each other at both ends thereof.

Both ends of the main supports are preferably coupled to each other in the longitudinal direction to the concave-convex structure.

The main supports and the pillars are preferably coupled by a fastening member.

The main support and the auxiliary support, the portions adjacent to each other is fixed by the fastening member, the fastening member is made of a bolt fixed to the upward direction, it is preferable to be coupled to the upper side of the main support and the auxiliary support. Do.

In the present invention, the pillars are installed on the main supports, the light collecting plates are installed on the pillars, and the auxiliary supports are longitudinally coupled to the above-described main supports to raise the main supports and the auxiliary supports on the roof surface. Since the photovoltaic cell assembly is fixed by the weight, the installation work is easy and the work man-hour can be reduced.

In addition, the installation work of such a solar cell assembly has an effect that can be safely installed without damaging the bottom surface of the roof is waterproof.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view for explaining an embodiment of the present invention, Figure 2 is a side view for explaining an embodiment of the present invention, a state in which the solar cell assembly is installed. The solar cell assembly includes main supports 1 and 3 disposed on the bottom surface of the roof, auxiliary supports 5 and 7 coupled to the main supports 1 and 3 in the longitudinal direction, and main supports ( Pillars 9 fixed to 1, 3, and a light collecting plate 11 (also referred to as a solar panel) coupled to the pillars 9.

Main support (1, 3) is preferably arranged at a predetermined distance from each other. The main supports 1, 3 are preferably arranged side by side with each other. The main supports 1 and 3 are for installing the solar cell assembly by its own weight and may be made of a material such as metal or concrete having a certain weight. Main support (1, 3) is preferably made of a bar (bar) having a predetermined length. And the main support (1, 3), as shown in Figures 2 and 3, is provided with a connecting portion (1a) for connecting with the auxiliary support (5, 7) neighboring at one end. This connection portion 1a is provided with a space portion 1b such that one end of the auxiliary supports 5 and 7 can be inserted into the bottom surface side of the rooftop. And the connection part (1a) may be provided with a fastening hole (1c) for fastening the bolt. The fastening hole 1c is preferably disposed upwards with respect to the bottom surface of the rooftop. And the main support (1, 3) may be coupled to the fastening members (1d) such as bolts on the opposite side provided with a connecting portion (1a). These fastening members 1d are also preferably disposed to face upward with respect to the bottom surface of the roof. In addition, the main supports 1 and 3 may be provided with fastening members 1e such as bolts for fastening the pillars 9 at the center thereof.

And the auxiliary support (5, 7) has a connecting portion (5a) of the same shape as the main support (1, 3) described above on one side, to be fitted in the space (1b) of the connecting portion (1a) described on the other side It has a structure that can The connection portion 5a of the auxiliary supports 5 and 7 is provided with a space portion 5b to the extent that one end of the main supports 1 and 3 can be inserted into the bottom surface side of the roof. And the connecting portion 5a of the auxiliary support may be provided with a fastening hole 5c for fastening the bolt. The fastening holes 5c of the auxiliary support are preferably disposed upwards with respect to the bottom surface of the roof. The auxiliary supports 5 and 7 may be coupled to fastening members 5d such as bolts on the opposite side provided with the connecting portion 5a. These fastening members 5d are also preferably disposed to face upward with respect to the bottom surface of the roof.

That is, the main support (1, 3) and the auxiliary support (5, 7) is made of the same structure, but the main support (1, 3) to the fastening member (1e) for fixing the pillars (9) further It is to include. The pillar portions 9 may be fixed in the vertical direction by fastening members 1e such as bolts provided on the main supports 3 and 5. The light collecting plates 11 are fixed to the pillars 9 by fastening members such as bolts while facing the sun.

Referring to the process of installing the solar cell assembly according to an embodiment of the present invention made in this way as follows.

First, the main supports (1, 3) are arranged side by side so that a certain distance apart. Of course, it is placed on the floor of the roof of the building. And the auxiliary support (5, 7) and the above-described main support (1, 3) are alternately arranged in the longitudinal direction and arranged continuously with each other. In other words, one end of the support 1a of the auxiliary supports 5 and 7 is not inserted into the space 1b of the connection 1a of the main supports 1 and 3. In this case, the fastening members 5b such as bolts provided to the auxiliary supports 5 and 7 are inserted into the fastening holes 1c of the main supports 1 and 3. Then tighten with a nut. The auxiliary supports 5 and 7 and the other main supports 1 and 3 are continuously disposed in the longitudinal direction in the same way as the main supports 1 and 3 and the auxiliary supports 5 and 7 are connected. Connect.

Then, the pillars 9 are fixed to the main supports 1 and 3 by using the fastening member 1e. Subsequently, the light collecting plates 11 are fixed to the pillar parts 9 using fastening members or the like. The main weights of the photovoltaic cell assembly including the main supports 1 and 3 and the auxiliary supports 5 and 7 are fixed to the bottom surface of the building roof. Such a solar cell assembly is preferably maintained to a weight that can be enough to withstand the external wind, even if fixed by its own weight. In particular, it is possible to reduce the operation cost and man-hours because it is not necessary to fix the anchor on the floor of the roof of the building or to install a solar cell assembly such as concrete curing.

4 and 5 illustrate a state in which the main support 21 and the auxiliary support 23 in which the pillar 9 is installed in the drawing corresponding to FIG. 3 are illustrated in order to explain another embodiment of the present invention. This embodiment forms a structure in which the main support 21 and the auxiliary support 23 are alternately coupled to each other or coupled to each other by an uneven portion when connected in the longitudinal direction. In another embodiment of the present invention, the structure in which the main support 21 and the auxiliary support 23 are coupled to each other by the fastening member is the same as that of the above-described embodiment, and thus will be replaced with the description. Another embodiment of the present invention describes a structure in which the main support 21 and the auxiliary support 23 are coupled in various ways, the operation and effect of the present invention is the same as the above-described embodiment.

In the embodiments of the present invention, the main support and the auxiliary support are alternately arranged to form a configuration made in succession, but is not limited to this, it is not limited to this, the main support is arranged in succession, to install a pillar on the main support, It is also possible to fix the light collecting plate on the pillars.

1 is a perspective view for explaining an embodiment of the present invention.

2 is a side view for explaining an embodiment of the present invention.

3 is a view illustrating in detail the main part of FIG. 2 to describe an embodiment of the present invention.

4 to 5 are diagrams corresponding to FIG. 3 to describe other embodiments of the present invention.

Claims (7)

Main supports disposed on the rooftop of the building and having both ends connected to each other along a length direction; Pillar parts coupled to the main supports; Concentrating plates coupled to the pillars, The main supports are A photovoltaic cell assembly in which both ends face each other in a longitudinal direction and are fitted into an uneven structure. The method according to claim 1, And a plurality of auxiliary supports between the main supports alternately connected to the main supports along the longitudinal direction of the main supports. The method according to claim 1, The main support is a solar cell assembly is connected to each other by fastening members. The method according to claim 1, The main supports are Both ends of the photovoltaic cell assembly is coupled to each other. delete The method according to claim 1, And the main supports and the pillars are coupled by a fastening member. The method according to claim 2, The main support and the auxiliary support A photovoltaic cell assembly having bolts fixed upwardly.

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