KR102504422B1 - Project type bipv system comprising a transmission window frame - Google Patents

Abstract

The present invention relates to a project openable BIPV system that is installed to replace a window of a building and can perform both a window function and a power generation device function at the same time. The outer frame 10; A project window frame 20 with an open center rotatably coupled to the outer frame 10; A plurality of solar cell units 30 tiltably installed in the project window frame 20; It consists of a first cylinder 40 for rotating the project window frame 20 with respect to the outer frame 10 and a second cylinder 50 for tilting the solar cell unit 30, the project window frame 20 ) The support plate 21 supporting the solar cell unit 30 in a tiltable manner, the side cover 22 covering the support plate 21 to form a square frame, and the upper and lower parts of the project window frame 20 Consisting of an upper cover 23 and a lower cover forming a, wire duct 24 coupled to the outside of the side cover 22, and a hinge bar 25 coupled to the upper cover 23, the side Wire holes 26 are formed in the cover 22, the upper cover 23, the wire duct 24, and the hinge bar 25, and the electric wire W through which the current generated by the solar cell unit 30 is conducted In the case of the hinge bar 25, it is technically characterized in that it is connected to the outside.

Description

Project openable BIPV system equipped with a window frame for transmission {PROJECT TYPE BIPV SYSTEM COMPRISING A TRANSMISSION WINDOW FRAME}

The present invention relates to a BIPV system (building-integrated photovoltaic power generation system) that is installed on the outer wall of a building to obtain electrical energy, and more particularly, is installed to replace a window of a building to perform both a window function and a generator function at the same time. It is about a project retractable BIPV system that can be used.

With the adoption of the new climate change regime following the Kyoto Protocol in 2015, the main content of which is to reduce greenhouse gases, countries around the world are implementing their own contribution plans. Korea also submitted a goal to reduce greenhouse gas emissions by 37% by 2030 to the United Nations, and as the first climate change response basic plan established in 2016, the 2030 National Greenhouse Gas Reduction Basic Roadmap was established to achieve reduction targets for each sector. was assigned. Accordingly, it plans to expand renewable energy generation to 20% of total generation by 2030, and from 2020, zero-energy buildings are mandatory for public buildings.

It is common for these zero-energy buildings to obtain energy from solar power, wind power, waste, bio, hydropower, etc. Considering the size of power generation facilities, noise, and environmental pollution, solar power accounts for more than half, and this trend in the future are likely to be retained In particular, in the case of homes, there are many difficulties in using wind power or waste, so there is no alternative other than solar power.

Solar power generation methods applied to buildings can be largely divided into BAPV (Building Applied Photovoltaics) and BIPV (Building Integrated Photovoltaic System). Since it has to serve as a building material, there is a problem that it must be customized according to the installation environment, and even if it is installed, there is a problem that power generation efficiency is low due to the influence of sunlight irradiation angle and shadow.

In order to solve this problem, the present applicant invented a window for a photovoltaic power generation system in which the solar panel is tilted while the window is opened and closed in a project method, so that it can be affected as little as possible by the irradiation angle or shade of sunlight, and 'Patent Document 1 ' has a patent.

1 shows a conventional project opening and closing type BIPV system, which includes a first frame 1 installed on an external window frame of a building and a second frame coupled to the first frame 1 ( 3) and a solar cell module 5 composed of a plurality of solar cell units and installed inside the second frame 3, the second frame 3 performs opening and closing of the project method, and the solar cell module The solar cell unit in (5) is tilted to maximize power generation efficiency.

According to the inventor's experience while implementing an actual BIPV system, since this BIPV system is a building material constituting a part of a building, how to protect the electric wire starting from the solar cell unit from the external environment so that there is no major aesthetic problem? , the practical implementation issues were very large, such as how to arrange the lines, how the project window should operate, and how to assemble and install easily.

However, the idea of how to project and tilt the solar cell unit to increase power production efficiency is the key to the conventional project switching type BIPV system. There is a problem that is far from a structure that can be effectively delivered to the system. In the case of another BIPV system, there are many ways to configure the outer wall of a building by being used as a building exterior material, so it is difficult to present a means to solve the problems of the conventional project opening and closing type BIPV system.

KR 10-1922890 B1 (2018. 11. 22.)

The present invention was made to solve the above problems, and the problem to be solved by the present invention is to provide a BIPV system in which wires are provided inside the BIPV window system, the rotation operation of the project window is smooth, and the assembly and installation are easy. will be.

A project openable BIPV system equipped with a window frame for transmission according to the present invention includes an outer frame with an open center; A project window frame with an open center rotatably coupled to the outer frame; A plurality of solar cell units tiltably installed in the project window frame; It consists of a first cylinder for rotating the project window frame with respect to the outer frame and a second cylinder for tilting the solar cell unit, and the project window frame covers the support plate for tiltably supporting the solar cell unit, It consists of a side cover forming a square frame, an upper cover and a lower cover forming the upper and lower parts of the project window frame, a wire duct coupled to the outside of the side cover, and a hinge bar coupled to the top of the upper cover. Wire holes are formed in the side cover, the top cover, the wire duct, and the hinge bar, and the electric wire through which the current generated in the solar cell unit 30 is conducted is connected to the outside via the hinge bar.

Project open-closed BIPV system equipped with a window frame for electric power transmission according to the present invention is suitable for home use because the electric wire is provided inside the window frame, so the aesthetics are good.

In addition, since the power generated by the solar cell unit is transmitted to the outside via the hinge bar at the top of the system, there is no sagging of the wiring, and there is a low possibility of problems such as jamming or disconnection of the wire.

1 is a conventional project opening and closing method BIPV system
Figure 2 is a perspective view of a project openable BIPV system equipped with a window frame for transmission according to the present invention
Figure 3 is a partially separated perspective view showing the structure of the project window frame and the coupling relationship with the outer frame
Figure 4 is a schematic diagram showing the path of the wire
5 is an exploded perspective view of the hinge bar
Figure 6 is a side cross-sectional view of the situation in which the project window frame is opened and closed
7 is a central part of a project openable BIPV system equipped with a window frame for transmission according to the present invention
8 to 11 are state diagrams of the use of the project open-closed BIPV system equipped with a window frame for transmission according to the present invention

Hereinafter, a project open/closed BIPV system equipped with a window frame for transmission according to the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view of a project openable BIPV system equipped with a window frame for power transmission according to the present invention. The project openable BIPV system equipped with a window frame for power transmission according to the present invention includes an outer frame 10 with an open center, an outer frame A project window frame 20 with an open center coupled rotatably to (10), a plurality of solar cell units 30 tiltably installed in the project window frame 20, and a project window frame 20 to the outer frame It consists of a first cylinder 40 for rotating with respect to (10) and a second cylinder 50 for tilting the solar cell unit 30.

The outer frame 10 forms the outermost periphery of the project openable BIPV system equipped with the window frame for power transmission according to the present invention and is installed on the wall of the building so that the project openable BIPV system equipped with the window frame for power transmission according to the present invention is installed on the window It is a component that can do its job. The outer frame 10 has a stopper 11 provided along the inner surface of the outer frame 10 to prevent excessive entry into the building when the project window frame 20 is closed. In addition, it is possible to prevent air or water from entering the building by preventing the formation of a gap between the outer frame 10 and the project window frame 20.

The project window frame 20 is a component that is coupled to the upper portion of the outer frame 10 by a hinge and rotates to open and close the project with respect to the outer frame 10 . 3 is a partially separated perspective view showing the structure of the project window frame and the coupling relationship with the outer frame, the project window frame 20 includes a support plate 21 supporting the solar cell unit 30 to be tiltable, and a support plate 21 The upper cover 23 and the lower cover (not shown) forming the upper and lower parts of the side cover 22, the upper and lower parts of the project window frame 20, and the side cover 22 are coupled to the outside of the side cover 22 to cover the It consists of a hinge bar 25 coupled to the wire duct 24 and the upper cover 23. In addition, wire holes 26 are formed in the side cover 22, the top cover 23, the wire duct 24, and the hinge bar 25 so that the current generated in the solar cell unit 30 is transmitted according to the present invention It secures a wire path that is delivered to the inverter (not shown) of the building wall where the project openable BIPV system equipped with a window frame is installed.

Figure 4 is a schematic diagram showing the path of such electric wires, solar cell units 30 are connected in series by electric wires (W), and both ends of the series connection are provided with a window frame for transmission according to the present invention. In order to be connected to the inverter outside of, it is inevitable to be connected to the outside through the outer frame 10 via the wire duct 24 and the hinge bar 25. This is because it is very difficult to place wires below where the project window frame 20 is opened because the project opening and closing type BIPV system equipped with the window frame for power transmission according to the present invention must be able to open and close in a project manner. Of course, it can be placed, but the project method is not aesthetically pleasing because the wire must be stretched as much as the maximum open distance, and the wire is caught between the outer frame 10 and the project window frame 20 during the project opening and closing process, resulting in peeling or disconnection of the sheath there is a problem. Therefore, in the structure capable of opening and closing the project as in the present invention, there is no choice but to connect the wires to the outside through the most non-moving hinge portion. In FIG. 4 , it is shown that the electric wire goes out through the upper part of the hinge bar 25, but it may go out to the side wall of the building through the side of the hinge bar 25. In any case, without passing through the hinge bar 25, the project window frame 20 should stretch as much as the distance between the outer frame 10 and the project window frame 20 generated during project operation. The wire duct 24 has a structure in which a long opening is formed in the longitudinal direction and the opening is blocked with a closing plate 27. After removing the closing plate 27 and wiring wires through the opening, the closing plate It is blocked with (27) so that the inside is not visible to ensure the convenience of wiring and the beauty of the aesthetics.

In FIG. 3, a fixing cap 28 having two protrusions is provided outside the support plate 21 through which one end of the solar cell unit 30 passes, so that the solar cell unit 30 is formed in the support plate 21 through a tilt hole ( (not shown), it is possible to perform a tilt movement while being supported. The two protrusions provided on the fixed cap 28 are connected to the protrusions of the other fixed cap 28 by two links (not shown), respectively, and the two links are raised and lowered, thereby tilting the solar cell unit 30 at the same time. it is made to be

5 is an exploded perspective view of the hinge bar, in which the hinge bar 25 has a wire passage 25-1 formed at the bottom and a hinge bar body 25-2 with a cylindrical shape cut in half in the longitudinal direction at the top. ), the hinge hole member 25-3 formed in the same shape as the groove of the hinge bar body 25-2 and forcibly coupled to the hinge bar body 25-2, the outside of the hinge hole member 25-3 It consists of a cover (25-4) covering the. That is, the hinge bar body 25-2 and the hinge hole member 25-3 are combined to form a cylindrical hollow hinge hole 25-5, and the hinge pin provided in the outer frame 10 (12) is inserted so that the project window frame 20 can hinge with respect to the outer frame 10. In FIG. 3, the hinge pin 12 is shown coupled to the stopper 11. If the stopper 11 protrudes thinly along the inner surface of the outer frame 10, the hinge pin 12 is the outer frame 10 ) may be directly coupled to. In the case of coupling the hinge pin 12 to the stopper 11, only the stopper 11 needs to be separated from the outer frame 10 without removing the outer frame 10 when a problem occurs, so maintenance is easy. there is.

In the present invention, the reason why the hinge hole 25-5 is not integrally formed in the hinge bar body 25-2, but divided into the hinge bar body 25-2 and the hinge hole member 25-3 is a project This is to easily separate the project window frame 20 from the outer frame 10 when a problem occurs in the window frame 20. If the hinge hole 25-5 is integrally formed in the hinge bar body 25-2, when trying to separate the project window frame 20, the outer frame 10 must be separated from the building and the hinge pin 12 pulled out So, it consumes a lot of time and effort. On the other hand, in the case of forming the hinge hole 25-5 as in the present invention, if the cover 25-4 is separated and the hinge hole structure 25-3 is separated, the project window frame 20 is removed from the hinge pin 12. Since it can be removed, construction is simplified. In the case of the cover 25-4, if the shape of the hinge hole structure 25-3 is such that the hinge bar 25 can be made into a bar shape, it may be an unnecessary configuration, but if the cover 25-4 is present, the hinge It is possible to use a material different from the outer frame 10 and the project window frame 20 for the hall structure 25-3, which has an advantage in economics or mechanical strength {In the case of the window frame, a high-gloss material called high gloss is used or An expensive material coated with metal is used, but there is no reason to use such an expensive material for the hinge hole structure (25-3), and such materials have poor workability, so they are combined with the hinge bar body (25-2) to form a hinge hole (25-3). It is not necessary to use it for the purpose of forming 5)}.

3 and 5, the upper outer side of the hinge bar 25 (direction in which the project is opened, that is, the outward direction of the building when the project openable BIPV system equipped with the window frame for transmission according to the present invention is installed in the building) It can be seen that it is round (R), which is to allow the project to be opened and closed while minimizing the distance between the outer frame 10 and the project window frame 20. 6 is a side cross-sectional view showing a situation in which the project window frame is opened and closed. If there is no such round (or cutting), the projected angle must be reduced or the distance between the outer frame 10 and the project window frame 20 must be increased. If the distance between the outer frame 10 and the project window frame 20 increases, the aesthetics are not good and the insulation effect is reduced, so it is desirable to narrow the gap as much as possible. solved this by doing

In the current development process, a certain distance (2 ~ 3 mm) occurs between the outer frame 10 and the project window frame 20 due to design and manufacturing problems. If the round (R) portion is concentric, the project window can be opened and closed while the upper side round (R) portion of the hinge bar 25 is in contact with the inner side of the outer frame 10.

Figure 7 shows the central part of the project open-closed BIPV system equipped with a window frame for transmission according to the present invention, two project window frames 20 are provided and a wire duct 24 may be provided between them . In this case, the wire (W) can be arranged as shown in FIG. 4 through the wire duct 24, and the connection between the solar cell units 30 provided in the two project window frames 20 is also possible. That is, when the wire hole 26 is formed in the wire duct 24 as shown in FIG. 7, serial connection between the solar cell units 30 of the project window frame 20 on both sides is possible to output a high voltage. It can be {in the case of FIG. 4, 5 solar cell units 30 are serially connected in each of the two project window frames 20}. A long opening is also formed in the wire duct 24 provided between the two project window frames 20, and the opening is closed with a closing plate 27.

Since the specific configuration of the first cylinder 40 and the second cylinder 50 of the solar cell unit 30 is not the core of the present invention, a detailed description thereof is not provided. However, when the project openable BIPV system equipped with a window frame for transmission according to the present invention includes two project window frames 20, the second cylinder 50 for tilting the solar cell unit 30 is the project window frame It is mentioned that it is provided between (20) and is connected together to the link connecting the solar cell units 30 so that the solar cell units provided in the two project window frames 20 can be tilted at the same time. Let it be.

8 to 11 are use state diagrams of a project open/closed BIPV system equipped with a window frame for transmission according to the present invention, FIG. 8 is a project and no tilt, FIG. 9 is a project only, and FIG. 10 is a tilt 11 shows a projected and tilted state. As described above, the project opening and closing BIPV system equipped with a window frame for transmission according to the present invention takes into account the irradiation direction of sunlight, weather conditions, etc., and adjusts the project and tilt appropriately to generate electricity, ventilate, and secure visibility. .

10 outer frame 11 stopper
12 hinge pin 20 project window frame
21 support plate 22 side cover
23 top cover 24 wire duct
25 Hinge bar 25-1 Wire passage
25-2 Hinge bar body 25-3 Hinge bar structure
25-4 cover 25-5 hinge hole
26 Wire hole 27 Finish plate
28 Fixed cap 30 Solar cell unit
40 1st cylinder 50 2nd cylinder

Claims (5)

An outer frame 10 with an open center;
A project window frame 20 with an open center rotatably coupled to the outer frame 10;
A plurality of solar cell units 30 tiltably installed in the project window frame 20; It consists of a first cylinder 40 for rotating the project window frame 20 with respect to the outer frame 10 and a second cylinder 50 for tilting the solar cell unit 30,
The project window frame 20 includes a support plate 21 supporting the solar cell unit 30 in a tiltable manner, a side cover 22 covering the support plate 21 to form a square frame, and the project window frame ( The upper cover 23 and the lower cover forming the upper and lower parts of 20), the wire duct 24 coupled to the outside of the side cover 22, and the hinge bar 25 coupled to the top of the upper cover 23 Consisting of, wire holes 26 are formed in the side cover 22, the upper cover 23, the wire duct 24, and the hinge bar 25,
An electric wire (W) through which current generated in the solar cell unit 30 is conducted is connected to the outside via the hinge bar 25,
The outer frame 10 is provided with a stopper 11 along its inner surface,
The hinge bar 25 is rounded or chamfered on the outer side of the upper end,
The hinge bar 25 has a wire passage 25-1 formed at the bottom and a hinge bar body 25-2 with a cylindrical column cut in half in the longitudinal direction at the top, and a hinge bar body 25-2. A hinge hole member 25-3 formed in the same shape as the groove of 2) and forcibly coupled to the hinge bar body 25-2, and a cover 25-4 covering the outside of the hinge hole member 25-3 Consisting of, the hinge bar body 25-2 and the hinge hole member 25-3 are combined to form a cylindrical hollow hinge hole 25-5,
A project opening and closing BIPV system with a window frame for transmission, characterized in that the hinge pin 12 provided in the outer frame 10 is inserted into the hinge hole 25-5.
The method of claim 1,
A project openable BIPV system equipped with a window frame for power transmission, characterized in that two project window frames 20 are provided and an electric wire duct 24 is further provided between them.
The method of claim 2,
The second cylinder 50 for tilting the solar cell unit 30 is provided between the project window frames 20, and is connected to a link connecting the solar cell units 30 together to form the two project window frames A project opening and closing type BIPV system equipped with a window frame for transmission, characterized in that the solar cell unit provided in (20) is tilted at the same time. delete delete

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