KR102313697B1 - How to install solar power generation facilities - Google Patents

Abstract

The present invention relates to a method for installing a solar power generation facility. The method comprises the steps of: attaching and fixing a building basic frame (1) with a bolt (8) in a state on the top of a building main frame; filling the inner part of the building basic frame (1) with an insulating material; raising a photovoltaic panel (PV MODULE) (4) on both edges of a fixing component (12); and fixing the photovoltaic panel (4) by coupling a bolt (7) to a pressing fixing component accessory (5). According to the present invention, building energy saving and energy usage rationalization are possible.

Description

How to install solar power generation facilities

The present invention relates to a method of installing solar energy utilization facilities in a building to obtain solar energy. In detail, the building basic frame that can be the frame for fixing solar energy facilities, the external finishing material fixing parts and exclusive sockets designed to be mutually suitable in combination with it, and the exclusive sandwich panel (THE FRAME AND THE SANDWICH PANEL FOR BUILDING INTEGRATED) PHOTOVOLTAIC AND THERMAL), etc., it relates to the method of installing solar power facilities and solar power generation facilities in buildings (THE EFFECTIVE METHOD OF INSTALLING PHOTOVOLTAIC AND THERMAL IN BUILDING). In more detail, it is designed to be a building frame for the roof or wall of a building and to be able to securely install a solar panel (PV MODULE) that enables the production of electricity, hot and cold water, and solar heat utilization facilities on the outside of the building. A new type of sandwich panel (SANDWICH PANEL) and color sheet iron plate (iron, alloy, plastic, PE, PP) designed to be installed together with the building base frame (FRAME) and this frame to perform the function of insulation and waterproofing of the building. , FRP, various resins, etc.), and fixing parts and materials that fix them to this building base frame, install the building base frame in new and existing buildings, and then attach the exterior finishing material to complete the building. Then, it relates to a method of installing a solar energy utilization facility.

The biggest feature of this installation method is that first, when installing and fixing the solar power facility, it can be fixed by tightening it without making a hole or any other drilling or penetrating action in the external finishing material for bonding; Second, the building frame performs the function of forming the original building and combining external finishing materials, and at the same time, it is possible to install solar energy using facilities simply and simply. Third, by doing so, it is possible to completely block waterproofing and ingress of rainwater into the building, and it is possible to install solar energy utilization facilities simply and at low cost.

Currently, solar power generation facilities as an eco-friendly energy are increasing day by day, and when considering the problems of depletion of fossil fuels and environmental pollution, the development of eco-friendly energy and expansion of facilities is considered to be a natural and right thing to do. In particular, the value of energy produced by using the sun, which is a free and infinite energy source, cannot be fully explained in terms of its importance and utility, no matter how written or verbal it is.

The two main methods of using solar energy can be divided into a method using sunlight and a method using solar heat, and depending on the installation location, there are two methods, and it can be divided into a method of installing in a natural object and a method of installing in an artificial object.

The method of using solar heat is currently a common method of producing hot water by heat exchange, which has good energy efficiency, but its use is limited. It has the advantage of being easy to use by changing it into a circle, so it is being used more and more.

And now, it is almost common and large-scale to build and generate solar power plants on natural objects, which is stable and can be installed on a large scale in a limited area to generate electricity to supply electricity to the national or regional power grid, and is easy to manage as a business type. I think it's because it's commercially viable. Photovoltaic power generation facilities (PVIB, BIPV), which are typically installed in buildings, are relatively small, but can be easily accessed by ordinary individuals, so that many people can participate in the use of solar energy and enjoy benefits. Although it is encouraged because the ripple effect that surpasses the large-scale development of a specific company can be achieved when all citizens or local residents are combined, the current situation is still in its infancy compared to the number of buildings in the entire country or region. It is considered to be the most desirable action to protect the environment and conserve resources. One of the advantages is that it is possible to effectively manage pollutants.

The present invention relates to a solar energy utilization facility implemented in a building, and when a photovoltaic power generation facility is installed in a building, the original purpose of energy use is achieved without harming the original function and aesthetic elements of the building, and the lifespan of the building suggest a way to extend the In particular, as the most important advantage, it saves the installation cost of solar energy-using facilities, so that owners of old buildings who want to re-waterproof their roofs or who want to build new buildings can install them without any government subsidy. It is also the purpose of the present invention to explosively increase the use of solar energy.

The present invention easily attaches a solar energy facility to an existing or new building to produce electricity and heat while increasing the value of the building and concomitantly protecting the environment, and solar power generation facilities and a new type of building exterior material business It can contribute to making it possible to enjoy this dramatically developing effect.

Document 1: Korean Intellectual Property Office Publication No. 10-2013-0021004 Document 2: Korean Intellectual Property Office Patent No. 10-1902126

The biggest problem in implementing solar power in a building is the cost problem, the effect it has on the building during installation, and the aesthetic problem of the building exterior. The current situation is that solar power is installed on the building, but the reality is that the building and the solar power are playing separately due to incongruity, and the construction cost of the building and the installation cost of the solar energy use facility are formed respectively. Many people know that solar power is the green energy of the future, but it is not installed because it costs too much. When installing a photovoltaic power generation facility, the cost is largely divided into two types: PV MODULE value and PV MODULE installation value, and the total cost is approximately 50% each. Therefore, it is very meaningful to reduce the installation cost. In addition, the current solar energy utilization facilities do not have a good effect on buildings, provide elements that cause water leakage, and adversely affect the lifespan of buildings. In particular, in the case of a simple warehouse or factory building, that is, in a building using a simple exterior finishing material such as a color sheet steel plate or a sandwich panel, it is vulnerable to rainwater and leakage, which is why installation is reluctant. Therefore, an example of implementing the present invention will be described as an example of implementing the present invention by installing a weak colored sheet steel roof and a roof or exterior wall with a sandwich panel finish.

Therefore, in order to facilitate the installation of facilities for the use of solar energy when constructing a new building, the present invention provides a building base frame that serves as a support for the outer wall or roof of the building and becomes a combination of PV MODULE of future photovoltaic power generation at the time of building construction. You can install the solar energy facility in advance and finish it with a steel plate or sandwich panel on it, and then install the solar energy facility in the future. It is based on enabling you to install . And, for complete waterproofing from the outside, a method was devised to fix the exterior finishing material and the solar panel to the building frame by closely adhering and tightening it without making a hole in the exterior finishing material.

First, solar energy installation cost is significantly reduced with the present invention. In other words, the installation cost is saved by pre-installing a building base frame that can be equipped with fixing parts for fixing external finishing materials that can be installed with solar energy facilities, and the existing finishing materials only have functions of water leakage and waterproofing. It saves more cost than the conventional method. Second, it is possible to realize the aesthetic beauty of the building, which was not seen in the building with solar energy facilities partially installed in the previous building. Due to the architectural basic frame, solar energy facilities can be installed throughout the building, that is, the solar energy utilization facility can also function as the final exterior finishing agent of the building. can Third, the lifespan of the building is extended. Solar energy utilization facilities harmonize with and assimilate the building to form the exterior of the building, thereby protecting the building. Fourth, the installation of solar energy utilization facilities has the effect of fundamentally blocking the leakage of buildings and the inflow of rainwater into buildings. In the spirit and direction of the present invention, which aims to install a solar energy utilization facility without causing penetration or damage to the exterior finishing material, the exterior finishing material of the building is rather protected, and the building constructed with the present invention is more stable and robust. Fifth, incidentally, the sandwich panel of the present invention is made of a structure in which a larger area is tightened to the frame of the roof or wall than the existing screw-piece screw fixing panel in the event of a fire, so it is strongly adhered to it, and is stronger and more stable.

1 is a three-dimensional view of representative materials and items required according to the present invention.
Figure 2 is a three-dimensional view showing the appearance of the roof exterior of the building completed by the present invention and a photovoltaic power generation facility is mounted;
3 is a three-dimensional view and a detailed view of a state in which a color sheet iron plate is mounted and finished on the building base roof frame of the present invention at the time of construction or building repair work;
4 is a three-dimensional view of a state in which a color sheet iron plate is mounted on the building base roof frame of the present invention and a solar module is installed thereon at the time of construction or building repair work;
5 is an enlarged cross-sectional view and a detailed disassembled cross-sectional view of FIG.
6 is a three-dimensional view of the building exterior finished with a dedicated sandwich panel on the building base roof frame of the present invention and a detailed dismantling view thereof.
7 is a three-dimensional drawing and a detailed view of a state in which a dedicated sandwich panel is mounted on the building foundation frame and a solar energy utilization solar module is mounted thereon;
8 is a detailed disassembled cross-sectional view of FIG.
9 is a cross-sectional view showing the shape and use of the required parts for easy understanding in detail;
10 is a three-dimensional view and a detailed cross-sectional view of a dedicated socket to be used to implement the present invention.
11 is a three-dimensional view and detailed cross-sectional views of the outside of the building using a dedicated socket for the building base frame of the present invention, and the PV MODULE is combined and finished after the color sheet iron plate is mounted.
12 is a three-dimensional view and detailed cross-sectional views of the PV MODULE mounted after the exclusive socket is used in the building base frame of the present invention and finished with a sandwich panel.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the description of the embodiments of the present invention, there is no direct relation to the technical features of the present invention or common knowledge in the technical field to which the present invention belongs. For matters that are obvious to those who have it, a detailed description thereof will be omitted. In addition, the order and method of coupling are described using a cross-sectional dismantling drawing of a three-dimensional view from an angle as an example, so please refer to the cross-sectional dismantling diagram.

1 shows typical required materials and articles used to achieve the object of the present invention in the finishing material (sandwich panel) combined with the thermal insulation agent and the finishing material (color sheet iron plate) without the thermal insulation agent in the completed embodiment of the present invention of FIG. As shown, the present invention is implemented by using and combining these parts. Among the required parts for the finishing material combined with the insulating material and the finishing material without the thermal insulation material, as shown in ① and ⑨ in Fig. 1, it is natural that the long and short building base frame is used. Using zero filling is the preferred construction method for thermal insulation.

In FIG. 2, two embodiments of the present invention, that is, firstly, a solar power generation facility coupled on a finishing material combined with an insulating material, and secondly, a general view of a completed combination of a solar power generation facility coupled on a finishing material without a thermal insulation material is shown It was. As shown in FIG. 2, it is easy to install solar light on the exterior wall of the building, especially the roof, so that more electrical and thermal energy can be obtained than the existing solar energy-using facilities, and the present invention is implemented in a building. It perfectly composes the exterior of the building and plays the role of a finishing material, fully assimilating into the whole of the building, showing practicality and aesthetic stability. In addition, solar energy-using facilities play a secondary role of reinforcing the roof, contributing to extending the lifespan of the building.

Figure 3 shows a state in which the exterior is finished with a color sheet iron plate in the implementation of the building of the present invention. When describing the order of assembly of the main components with reference to the dismantling cross-section, first, secure the building basic frame for the color sheet steel plate to the building main frame with ⑧ bolts or other steel screw pieces or welding, as in this dismantling cross-section. Place the second, ②, color sheet iron plate on it, connect the third and ③ external finishing parts for fixing, and tighten the bolts in ⑥ to complete the connection. And in the third, without using screw pieces, etc., the reason for fixing by tightening the bolts of ⑥ is designed so that the bolts are tightened at an inclined portion that is narrowed down to the bottom of the building foundation frame,- Fig. 9 In the cross-sectional view of the building foundation frame of As you can see (the red oval part), the part for fixing the external finishing material is to perform the role of pressing and tightening the color sheet iron plate to fix it firmly. In addition, it is fixed to the fixing part for the exterior finishing material in the groove part that is also shortened under the building foundation frame, and the exterior finishing material is completely fixed firmly. And ② color sheet steel plate is in the form of two sheets on the left and right. By overlapping each other, they create a structure that is waterproof, that is, rainwater cannot penetrate into the interior of the building. The material of the color sheet steel plate will include steel, copper, and other metal alloys, plastics, vinyl resin, EVA, carbon fiber, and other materials that prevent water leakage when functioning as an exterior wall of a building.

Figure 4 shows a three-dimensional view combining PV MODULE on the color sheet iron plate finish of Figure 3, and Figure 5 shows a cross-sectional view and a disassembled cross-sectional view of the three-dimensional view of Fig. 4 . As shown in the dismantling sectional view of FIG. 5, the order of coupling of the solar panel is first, on both sides of the protruding part of the fixing part for the color sheet iron plate finished ③ the color sheet iron plate, the second ④ PV MODULE are raised respectively, and the third, ⑤ for the solar panel Install the accessory of the pressing part, and fourthly, attach it to the ③ fixing part with the bolt of ⑦, and fix the PV module firmly to complete it. As can be seen in the cross-sectional view of Fig. 5 in Fig. 4, if we look at the red oval display part, it can be seen that the lower part of the fixing part is designed to press the color sheet iron plate. ⑤ Make sure that the upper part of the solar panel fixing accessory part is not too thick to prevent shadows on the solar panel. ⑦ the head of the bolt ⑤ Take care when making the bolt hole of the fixing accessory so that the shadow of the bolt head does not affect the photovoltaic power generation. do not give

Figure 6 relates to a form of installing a solar energy utilization facility after finishing with an exterior finishing material having a built-in insulating material. it's about The installation sequence of the components of the present invention is first, fixing the building main frame to the building main frame with ⑨ the building foundation frame exclusively for the sandwich panel with ⑧ bolts, second, putting the ⑩ sandwich panel on it, and the third, ③ attaching the fixing parts and then attaching the ⑥ bolts Secure the sandwich panel to the building frame by tightening it with At this time, the material of the sandwich panel insulation material is urethane, styrofoam, etc., and all insulation and fire protection materials are applied. All the materials that make it up are included. ⑩ As shown in FIGS. 1 and 9, the sandwich panel overlaps the edges of the two sandwich panels on the building foundation frame, and one by one covers the other, thereby preventing rainwater leakage at the source and firmly bonding. In the dismantling sectional view, the part marked with an oval of the fixing part for the sandwich panel presses the sandwich panel down as the ⑥ bolts are combined to make it more firmly fixed to the building foundation frame and at the same time eliminates the occurrence of play and gives the sandwich panel a sense of tightness. will be firmly coupled.

7 is a three-dimensional view and an enlarged cross-sectional view of the PV MODULE installed on the external finishing material of the exclusive sandwich panel of the present invention of FIG. 6 . FIG. 8 is an exploded cross-sectional view of the three-dimensional view of FIG. 7 . As shown in the dismantling sectional view of Fig. 8, the order of assembly of the main components is on top of the sandwich panel finished, first ③ on the fixing parts for sandwich panel, ④ PV MODULE, and second, ⑤ the pressing fixing parts for solar panel accessories. After mounting, the third, ⑦ bolts are used to bind to ③ the fixing parts for sandwich panel, and ⑤ the pressing parts for solar panels and accessories are firmly tightening the PV module and fixing it by pressing and fixing the solar panel.

9 is a view showing a cross-sectional view for easy understanding of the combination, function, and appearance of main parts and components mainly used in the present invention. ⑨,① The arrows in the cross section of the building foundation frame indicate the positions of the bolts and bolt holes when fixing the external finishing material. It is designed so that the fixing force is directed downward while being fixed to the ground.

⑩The edge of each end of the sandwich panel has the same shape as the circle indicated by the arrow and overlaps it and is combined with the ⑨ building foundation frame. ② The edges of each end of the color sheet steel plate are marked with arrows and the same shape as the circle marked part is applied and overlapped with ① combined with the building base frame.

Figure 10 shows the ⑪ exclusive socket on the ② color sheet iron plate or ⑩ sandwich panel when fixing the external finishing material of the color sheet iron plate or sandwich panel of ② and ⑩ to the building base frame of ① and ⑨ ③ when fixing it with a fixing part for the external finishing material. ⑫ a simplified three-dimensional drawing that completed the present invention by combining ⑫ external finishing material fixing parts on it, ⑪ a three-dimensional drawing of a dedicated socket, and a cross-sectional view of a dedicated socket and a cross-sectional view of a fixing part for an external finishing material. The purpose of using the exclusive socket is to increase the adhesion between the external finishing material and the external finishing material fixing parts, to further ensure the stability of construction, and to block the cause of rainwater leakage. In addition, it is possible to increase the insulation effect by using a material that has a non-combustible and heat-resistant (cold-proof) function.

11 is a three-dimensional view showing a state in which the PV MODULE is mounted on the exterior wall or roof of a building finished with color sheet iron using the exclusive socket of the present invention, and a cross-sectional view and a cross-sectional view showing the dismantling thereof. The main component assembly work sequence is, first, ① fixing the building base frame exclusively for color sheet steel plate to the building main frame with ⑧ bolts, second, ② overlapping the edges of the color sheet steel plate, and installing ⑪ exclusive socket on it. After mounting, press the upper portion of the color sheet iron plate 2 with the pressing portions 11a extending on both sides of the exclusive socket 11 (red circle marked portion), and then, of the dedicated socket 11 Install the fixing parts on top, ⑥ fasten them with bolts, ② fix the color sheet steel plate firmly to the building foundation frame, 5th, ④ PV MODULE ③ put the edges on the fixing parts, and sixthly, ⑤ press fixing parts for solar panel Place the accessories on both sides of the solar panel and fix it firmly to the ③ fixing parts with the 7th, ⑦ bolts to complete.

12 is a three-dimensional view showing a PV module installed on an exterior wall or roof of a building finished with a sandwich panel using the exclusive socket of the present invention, and a cross-sectional view and a dismantling cross-sectional view thereof. The assembly sequence is explained with reference to the dismantling sectional drawing, first, ⑨ the building basic frame for sandwich panel is fixed to the building main frame by tightening ⑧ bolts, and secondly, it is assembled by overlapping the edge of the ⑩ sandwich panel on it, and the third , install the ⑪ exclusive socket on it, and on the fourth, after installing the ③ external finishing material fixing part, tighten it with ⑥ bolts to fix the ⑩ sandwich panel, fifth, ③ on the external finishing material fixing part, ④ the solar panel on the cross-sectional view As above, the sixth, ⑤ solar panel pressing parts accessories are mounted, and seventhly, the ⑦ bolts are tightened to firmly fix the solar panel to complete the assembly of the parts of the present invention.

1: For exterior building finishing materials without insulation (for color sheet steel), building foundation frame
9: For exterior building finish with insulation (for sandwich panel), building foundation frame
3: Fixing parts for fixing building exterior finishing materials
5: Press-fixing part accessory for solar panel (PV MODULE)
6, 7, 8: Various bolts with nailing at the end of the thread
2: Exterior building finishing material with non-fired insulation (color sheet steel plate)
4: Solar energy utilization facility (PV MODULE)
10: Exterior building finish with insulation (sandwich panel)
11: Dedicated socket for fixing external finishing materials
12: Fixing parts for external finishing materials for exclusive sockets

Claims (6)

delete In the method of installing a solar power generation facility,
Attaching and fixing the building base frame (1) for exterior building finishing materials, which is formed to be narrower in width from top to bottom, with bolts (8) in a state on top of the building main frame;
Filling the inner part of the building foundation frame (1) for the exterior building finishing material with an insulating material;
Assembling such that the bent edges of the two color sheet iron plates (2) are superimposed on each other on the building base frame (1) for the external building finishing material filled with the insulating material;
On the bent edge of the color sheet iron plate 2 superimposed on each other, increase the adhesion between the color sheet iron plate 2 and the fixing part 12, block the cause of rainwater leakage, The exclusive socket 11 having a thermal insulation effect is used to cover it, and the color sheet iron plate 2 is pressed with the pressing parts 11a extending on both ends of the exclusive socket 11 to be firmly fixed. step;
covering and fixing a fixing part (12) on the dedicated socket (11) in a wrapped state;
The fixing part 12, the exclusive socket 11, and the bolts 6 are coupled to both sides of the color sheet iron plate 2, but the building foundation for the exterior building finishing material is formed so that the width becomes narrower as it goes from top to bottom. Through the shape of the frame (1), according to the fastening of the bolt (6), the color sheet iron plate (2) superimposed on the building base frame (1) for the exterior building finishing material is strongly adhered and fixed to the outside. step;
Raising a photovoltaic panel (PV MODULE) (4) on both edges of the fixing part (12);
Insert the photovoltaic panel pressing part accessory (5) that presses the solar panel (4) between both edges of the solar panel (4), and the solar panel pressing part accessory (5) ) by pressing the photovoltaic panel 4 in a state where the upper part of the photovoltaic panel pressing part accessory 5 is thinly molded so that the upper part of the photovoltaic panel 4 does not cover the top of the photovoltaic panel 4 so that no shadow occurs. to give;
A method of installing a photovoltaic power generation facility, characterized in that it comprises the step of fixing the photovoltaic panel (4) by coupling the bolt (7) to the press fixing part accessory (5) for the photovoltaic panel. delete delete delete delete

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