KR102471833B1 - Panel for building materials that can install solar panels - Google Patents

Abstract

The present invention enables the installation of a solar panel on a panel for building materials used as a building frame for a roof or wall of a building, enabling the installation of a solar panel that simultaneously acquires solar energy while completing a building. It relates to panels for building materials.

Description

Panel for building materials that can install solar panels}

The present invention relates to a panel for building materials in which a solar panel can be installed, and more particularly, to a panel for building materials used as a construction frame for a roof or wall of a building to enable installation of a solar panel to complete a building In addition, it relates to a panel for building materials capable of installing a solar panel so that solar energy can be obtained at the same time.

Currently, photovoltaic power generation facilities as eco-friendly energy are increasing day by day, and considering the problems related to the depletion of fossil fuels and environmental pollution, the development of eco-friendly energy and the expansion of facilities are considered natural and correct. In particular, the value of energy produced by using the sun, which is a free and infinite energy source, can never be fully explained in terms of its importance and effectiveness, no matter how much it is expressed in writing and words.

Two large methods of using solar energy can be divided into a method using sunlight and a method using solar heat, and depending on the installation place, two methods can be divided into a method of installing on natural objects and a method of installing on artificial objects.

The method using solar heat is currently a conventional method of producing hot water as a method of heat exchange, which has good energy efficiency but its use is limited, and the method using sunlight generates electricity and sends the energy far away, and other energy It has the advantage of being easy to use by changing it into a circle, so it is being used more and more, and as the science and technology of PV MODULE develops, the energy conversion efficiency increases and it is assumed that it will make up most of the use of solar energy.

And currently, it is almost common and large-scale to build solar power plants on natural objects, which are stable in installation and can be installed on a large scale in a limited area to generate electricity and supply electricity to the national or regional power grid. I guess it's because it's commercially viable. Photovoltaic power generation facilities (PVIB, BIPV) installed on artifacts, typically buildings, are relatively small, but are easily accessible to ordinary individuals, so that many people can participate in the use of solar energy and enjoy the benefits, and a country It is encouraged that the ripple effect that surpasses the large-scale development of a specific company can occur when the entire population or local residents are combined, but the current situation is still in its infancy compared to the number of buildings in the entire country or region. It is a part with many possibilities, and it is considered the most desirable behavior to protect the environment and conserve resources. One of the advantages is that it can 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, it achieves the original purpose of energy use without compromising the original function and aesthetics of the building, and also the life span of the building. suggests a way to extend In particular, the most important advantage is that it saves the installation cost of solar energy utilization facilities, so that the owners of old buildings who want to re-waterproof the roof or those who want to build a new building can install it without burden, without the government's subsidy. It is also the purpose of the present invention to explosively increase solar energy utilization facilities.

The present invention easily attaches a solar energy utilization facility to an existing or new building to produce electricity and heat, while simultaneously increasing the value of the building and protecting the environment incidentally. It can contribute to enjoying the effect of this rapid development.

The biggest problem in realizing solar power in buildings is the problem of cost, the effect on the building during installation, and the aesthetic problem of the exterior of the building. The current situation is that solar light is installed on the building, but in reality, the building and the sunlight are playing separately in mismatch, and the construction cost of the building and the installation cost of solar energy utilization facilities form each. Many people know that solar energy is the green energy of the future, but they are unable to install it because it is too expensive. 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 required cost is approximately 50% each. Therefore, reducing the installation cost is of great significance. In addition, current solar energy utilization facilities do not have a good effect on buildings, provide elements that cause water leakage, and adversely affect the life of buildings. In particular, in the case of simple warehouses or factory buildings, that is, buildings using simple exterior finishing materials such as color sheet steel plates or sandwich panels, this is the reason why they are reluctant to install them because they are vulnerable to rainwater and leakage.

Korean Intellectual Property Office Publication No. 10-2013-0021004 Korean Intellectual Property Office Patent No. 10-1902126

The present invention enables the installation of a solar panel on a panel for building materials used as a building frame for a roof or wall of a building, enabling the installation of a solar panel that simultaneously acquires solar energy while completing a building. It aims to provide panels for building materials.

The present invention is a panel for building materials capable of installing solar panels, consisting of a body portion having a cross-sectional shape of "∩" and a support portion bent and extended at both ends of the body portion, and installed at a predetermined distance apart from each other. A building foundation frame, a flat plate part covered in the space between the building foundation frames and having a heat insulator on the upper surface, and a fitting part bent at both ends of the flat plate part and fitted into the body of the building foundation frame, Plate for building materials, A body part assembled in a “∩” cross-section shape while being inserted into the outer surface of the fitting part of the building material plate, and a pressing part bent at both ends of the body part and pressurizing the insulation material placed on the flat plate part of the building material plate. , A solar panel installation frame composed of side protrusions protruding on both sides of the body portion and an upper surface protrusion protruding from the upper surface of the body portion, and a bracket in a state in which both ends are raised on the stepped portion formed between the side protrusions of the body portion The fixed solar panel, the body portion of the solar panel installation frame, the fitting portion of the plate for building materials, and the body portion of the building foundation frame, respectively, are connected to each other through fastening holes, in a state passing through the fastening holes The photovoltaic panel is fastened with a nut and is composed of bolts that integrally couple and fix the photovoltaic panel installation frame, the building material plate, and the building foundation frame, and the height of the fitting part of the building material plate is higher than the thickness of the heat insulating material to form the photovoltaic panel. A space is formed between the solar panel placed on the installation frame and the heat insulating material, and the end of the pressing part further forms a bent part to incline downward at a predetermined angle to elastically press and fix the heat insulating material. .

Solar energy installation cost for solar panel installation of the present invention is significantly saved. In other words, by installing a building foundation frame in advance at the time of construction, which can be equipped with fixing parts for fixing the external finishing material capable of installing solar energy facilities, the installation cost is saved, and the external finishing material only needs to function as leak and waterproof, so the existing It is more cost effective than the method. Second, it is possible to realize the aesthetic beauty of a building that could not be seen in buildings with solar energy facilities installed partially on existing buildings. Due to the building foundation frame, solar energy facilities can be installed throughout the building, that is, the solar energy utilization facility can also function as the final exterior finish of the building, giving a sense of unity to the exterior and building of the building to enhance the aesthetics of the building. can Third, it prolongs the life of the building. Solar energy utilization facilities harmonize and assimilate with the building to form the exterior of the building, which also plays a role in 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 solar energy utilization facilities without causing penetration or damage to the exterior finish, the exterior finish of the building is rather protected, and the building constructed with the present invention is more stable and durable. Fifth, incidentally, the sandwich panel of the present invention is made of a structure in which a wider area is screwed to the frame of the roof or wall than the existing screw-piece screw fixing panel in case of fire, so it is strongly adhered to, solid and more stable.

A building foundation frame that can be a fixed frame for solar energy utilization facilities, combined with it, external finishing materials designed to fit each other, exclusive sockets, and dedicated sandwich panels (THE FRAME AND THE SANDWICH PANEL FOR BUILDING INTEGRATED PHOTOVOLTAIC AND THERMAL ), etc., it is about the method of installing solar heat utilization facilities and solar power generation facilities in buildings (THE EFFECTIVE METHOD OF INSTALLING PHOTOVOLTAIC AND THERMAL IN BUILDING). More specifically, it is designed to make it possible to install solar panels (PV MODULE) and solar heat utilization facilities firmly on the outside of the building, which enable the production of electricity and hot and cold water while becoming the architectural frame of the roof or wall of the building. A new type of sandwich panel (SANDWICH PANEL) designed to perform the function of thermal insulation and waterproofing of a building by installing with the FRAME and this frame, and color sheet steel plate (steel, alloy, plastic, PE, PP) , FRP, means a plate made of various resins, etc.), and by using fixing parts and materials that fix them to the building foundation frame, after installing the building foundation frame in new and existing buildings, attach the exterior finish to the building It is about how to install solar energy utilization facilities after completion.

Therefore, the present invention is that it is possible to simply and simply install a solar energy utilization facility while performing the original building formation and external finishing function of the building.

In addition, by doing so, it is possible to completely block waterproofing and rainwater inflow into the building, and it is possible to install solar energy utilization facilities simply and at low cost.

1 is a three-dimensional view showing the configuration of a panel for building materials capable of installing a solar panel.
Figure 2 is an exploded cross-sectional view of Figure 1;
Figure 3 is a combined cross-sectional view of Figure 2;
Figure 4 is an enlarged view of the main part of Figure 3;

On the other hand, panels for building materials capable of installing solar panels to be described below will be described as representative of panels used as finishing materials for building ceilings.

1 is a three-dimensional view showing the configuration of a panel for building materials in which a solar panel can be installed, FIG. 2 is an exploded cross-sectional view of FIG. 1, FIG. 3 is a combined cross-sectional view of FIG. 2, and FIG. This is an enlarged drawing of a part.

As shown in FIGS. 1, 2, 3, and 4, the panel for building materials capable of installing the solar panel of the present invention includes a heat insulating material such as a sandwich panel.

The panel 100 for building materials capable of installing a solar panel is composed of a building foundation frame 10, a panel frame 20 for building materials, and a solar panel installation frame 30.

The building foundation frame 10 is a member supporting the panel frame 20 for building materials and the solar panel installation frame 30, and the body portion 12 having a "∩" cross-sectional shape, the body portion 12 It consists of a supporting portion 14 that extends and extends horizontally at both ends.

The inside of the body portion 12 is empty so that the heat insulating material is filled.

A plurality of building foundation frames 10 have the same structure and are installed horizontally at regular intervals according to the ceiling size of the building, and between the building foundation frames 10, an insulating material 26 such as styrofoam is plugged in At this time, the insulator 26 is supported on the supporting portion 14 of each building foundation frame 10 with both ends raised.

The plate 20 for building materials is a plate that covers and finishes the space between the building foundation frames 10, and is bent at both ends of the flat plate part 22 on which the insulating material 26 is placed on the upper surface and the flat plate part 22. It is formed and consists of a fitting portion 24 fitted to the outer surface of the body portion 12 of both building foundation frames 10.

At this time, the flat plate part 22 of the plate 20 for building materials is supported while being raised on the support part 14 provided on both sides of the body part 12 of the building foundation frame 10.

In addition, the height of the fitting portion 24 of the plate 20 for building materials is preferably formed higher than the thickness of the heat insulating material 26, which provides ventilation between the heat insulating material 26 and the solar panel 50 to be described later. A space 52 is formed so that heat generated from the solar panel 50 can be cooled.

The solar panel installation frame 30 is a frame that is assembled to the fitting portion 24 of the plate 20 for building materials and supports the solar panel 50 .

The solar panel installation frame 30 is composed of a body portion 32 assembled in a state of being inserted into the outer surface of the fitting portion 24 of the plate 20 for building materials in the form of a "∩" cross section.

Side protrusions 34 protrude from both sides of the body portion 32, and upper surface protrusions 38 protrude from the upper surface of the body portion 32. A stepped portion 39 is formed between the side protrusion 34 and the top protrusion 38 of the body portion 32, and both ends of the solar panel 50 are supported on the stepped portion 39 while being raised. do.

When the solar panel 50 is mounted on the step 39 of the solar panel installation frame 30 and bolted to the bracket 40, the panel 100 for building materials is basically used as a ceiling finishing material for the building. Of course, even if separate solar energy facilities are not separately constructed on the ceiling finishing material, solar energy can be obtained by directly installing the solar panel 50.

The building foundation frame 10, the plate 20 for building materials, and the solar panel installation frame 30 have fastening holes 60, 62, 64 through which they are connected to each other, and these fastening holes 60, 62 , 64) are fastened with bolts 66 and nuts 68, and the building foundation frame 10, the plate 20 for building materials, and the solar panel installation frame 30 are integrally connected to withstand extreme weather conditions such as typhoons. It can firmly protect the ceiling finishing material.

In addition, the insulating material 50 is placed on the upper surface of the flat plate of the plate 20 for building materials. Unlike conventional sandwich panels, this structure is different from conventional sandwich panels, for example, in the event of a fire, the insulating material 50 is ignited by flames inside the building. Even if burned by the fire, the flat plate portion 22 of the plate 20 for metallic building materials is not easily damaged by the flame and continues to be supported by the building foundation frame, so that the ceiling collapses due to fire and prevents dangerous accidents. can

At both ends of the body portion 32 of the solar panel installation frame 30, a pressing portion 40 is formed by bending, and the pressing portion 40 attaches the solar panel installation frame 30 to the plate 20 for building materials. After being raised, it is possible to prevent separation of the insulation material 26 by pressing both ends of the upper surface of the insulation material 50 of the plate 20 for building materials. At this time, the end of the pressing part 40 further forms a bent part 42 so as to incline downward at a predetermined angle, and presses the heat insulator 26 more elastically by the self-tension force of the metallic solar panel installation frame 30 Insulation can be firmly fixed.

When constructing the ceiling of a building through the panel 100 for building materials capable of installing solar panels of the present invention having the above configuration, first, the spacing between the building foundation frames is adjusted according to the width of the insulation material of the plate 20 for building materials. Build the building foundation frame one by one while maintaining it.

Next, after placing the building material plate 20 between the building foundation frames 10, the body portion 12 of the building foundation frame 10 above the fitting portion 22 of the building material plate 20 After being inserted into the plate 20 for building materials, the insulating material 26 is placed on the upper surface of the flat plate part 22.

Next, when the body portion 32 of the solar panel installation frame 30 is inserted onto the fitting portion 22 of the building material plate 20 on which the insulation material 26 is placed, the pressing portion of the body portion 32 ( 40) presses and fixes the insulating material 26 placed on the flat plate portion 22 of the plate 20 for building materials.

Subsequently, after inserting the bolts 66 into the fastening holes 60, 62, and 64 provided in the photovoltaic panel installation frame 30, the plate 20 for building materials, and the building foundation frame 10, the nuts 68 The ceiling of the building is constructed using the panel 100 for building materials.

Next, when the assembly of the solar panel installation frame 30, the building material plate 20, and the building foundation frame 10 is completed through bolts and nuts, to the body portion 32 of the solar panel installation frame 30 After putting both ends of the solar panel on the provided stepped part, the solar panel 50 is fixed to the upper surface projection 38 of the body part 32 with the bracket 80, and the construction is completed.

In this way, when the ceiling of a building is constructed with the panel for building materials of the present invention, in addition to the basic function of the finishing material for finishing the ceiling, the solar panel can be installed immediately without installing a separate solar energy facility on the ceiling finishing material. energy can be obtained.

10: building foundation frame 12: body portion
14: supporting portion 20: plate for building materials
22: flat part 24: fitting part
26: insulation 30: solar panel installation frame
32: body part 40: pressing part
42: bent portion 50: solar panel
60, 62, 64: fastening hole 66: bolt
68: nut

Claims (1)

In the panel for building materials capable of installing the solar panel 50,
A body portion 12 having a "∩"cross-section;
A plurality of building foundation frames 10 composed of supporting parts 14 bent and extended at both ends of the body part 12 and installed at a predetermined distance apart from each other;
A flat plate part 22 covered in the space between the building foundation frames 10 and having a heat insulating material 26 on the upper surface;
Plate 20 for building materials formed by bending at both ends of the flat plate part 22 and composed of fitting parts 24 each fitted into the body part 12 of the building foundation frame 10;
A body portion 32 assembled in a state of being inserted into the outer surface of the fitting portion 24 of the plate 20 for building materials in the form of a "∩" cross section;
Pressing parts 40 bent at both ends of the body part 32 and pressurizing the insulating material 26 placed on the flat plate part 22 of the plate 20 for building materials;
Side protrusions 34 protruding from both sides of the body portion 32, respectively;
A solar panel installation frame 30 composed of upper surface protrusions 38 protruding from the upper surface of the body portion 32;
A solar panel 50 fixed with a bracket in a state in which both ends are raised on the stepped portion 39 formed between the side protrusion 34 and the upper surface protrusion 38 of the body portion 32;
The body portion 32 of the solar panel installation frame 30, the fitting portion 24 of the plate 20 for building materials, and the body portion 12 of the building base frame 10 are connected to each other, respectively. through fastening holes (62, 64, 66);
The nut 68 is fastened while penetrating the fastening holes 62, 64, and 66, and the solar panel installation frame 30, the plate 20 for building materials, and the building foundation frame 10 are integrally combined and fixed. It consists of a bolt 66;
The height of the fitting part 24 of the plate 20 for building materials is formed higher than the thickness of the heat insulating material 26 so that the solar panel 50 mounted on the solar panel installation frame 30 and the heat insulating material ( 26) to form a space 52 between them;
The end of the pressing part 40 further forms a bent part 42 so as to be inclined downward at a predetermined angle, so that the heat insulating material 26 is elastically pressurized and fixed. panel.

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