KR20180131748A - Blind slat assembly having ability of solar generation and blind including the same - Google Patents

Abstract

The present invention relates to blind slat assembly for photovoltaic generation and a blind including the same, provided on one side of a blind slat with a solar cell to generate photovoltaic power, in which the solar cell is assembled to facilitate a replacement or a maintenance. To this end, the blind slat assembly according to the present invention includes: a slat frame (110) formed therein with a seating groove (111); at least a pair of solar cell panels (120) assembled along the longitudinal direction in the seating groove (111); a connection terminal (130) assembled between the pair of solar cell panels (120) to connect positive and negative electrodes (123) of the solar cell panel (120) in series or in parallel; and a side cover (150) for fixing the solar cell panel (120) assembled and seated on both sides of the slat frame (110). In addition, the blind provided with the blind slat assembly for photovoltaic generation further includes a fixed frame (10) fixed on a ceiling or an upper portion of a window frame, and a blind slat assembly (100) spaced apart from a lower portion of the fixed frame (10) by a lift string (20) and a tilting string (30).

Description

[0001] DESCRIPTION [0002] Blind wing assemblies for solar power generation and blinds containing same [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a blind for a solar power generation, and more particularly, to a blind wing assembly for a photovoltaic power generation capable of generating solar power by providing a solar cell on one side of a blind wing, and a blind including the same.

Recently, due to environmental pollution and fossil energy depletion issues, the development of environmentally friendly alternative energy sources and the diversification of future energy sources are emerging as international issues.

Under such circumstances, solar cells utilizing solar energy are attracting attention as a potential alternative energy source for the future. Also, as the solar cells are becoming less expensive, the world market size is rapidly increasing.

According to this trend, a solar power generation blind capable of generating electricity using sunlight during the daytime has been previously filed in Korean Registered Patent No. 10-1364497 (publication date: 2014.04.03).

Specifically, a blind slat for manufacturing a conventional solar photovoltaic blind includes a wing frame having a mounting groove for mounting a solar cell and having a lead wire connected to a solar cell terminal, A transparent reinforcing film for protecting the solar cell mounted on the cover, and a wire connector for electrically connecting the lead wire and the lead wire.

However, since the conventional blind blades for solar power generation as described above are manufactured as an integral type in which a solar cell and a transparent reinforcing film are sequentially laminated on a wing frame for laminating and then laminated, the blind wing There is a problem that replacement or repair is not easy.

The present invention has been conceived to solve the above-mentioned problems, and it is an object of the present invention to provide a solar cell capable of performing solar power generation by providing a solar cell on one side of a blind wing, And a blind including the blind wing assembly.

In order to accomplish the above object, according to the present invention, there is provided a blind wing assembly for a photovoltaic power generation, comprising: a blade frame having a mounting groove; At least a pair of solar cell panels assembled along the longitudinal direction in the seating groove; A connection terminal assembled between the pair of solar cell panels to connect the (+) and (-) electrodes in series or in parallel; And a side cover for fixing the solar cell panel assembled and installed on both sides of the wing frame.

In addition, the blind including the blind wing assembly for photovoltaic power generation according to the present invention includes: a fixed frame fixed on the ceiling or above the window frame; And the blind wing assembly installed below the fixed frame and spaced apart from each other through a lift line and a tilting bar.

According to the present invention, the solar panel can be provided by providing the solar panel on one side of the blind wing, and the solar panel can be constructed in a prefabricated manner through the structure including the middle cover and the side cover, It has the advantage of easy replacement and maintenance.

1 is a perspective view of a blind wing assembly for a solar power generation according to the present invention,
Fig. 2 is an exploded perspective view of Fig. 1,
3 (a) and 3 (b) are a plan view and a bottom view of the solar cell panel according to the present invention,
4 is a perspective view showing a connection terminal according to the present invention,
5 is a view showing a wiring structure of a blind wing assembly according to the present invention,
6 is an exploded perspective view showing a connection structure of a connection terminal and an intermediate cover according to the present invention,
FIG. 7 is a perspective view showing the coupling state of FIG. 6,
8 is a front view of a blind wing assembly according to the present invention,
Fig. 9 is a sectional view taken along the line II in Fig. 8,
10 is a front view of a blind for solar power generation according to the present invention,
11 is a partial detail view showing a structure of a lifting bar and a tilting bar for connecting the blind wing assembly according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings, the same reference numerals as in the drawings denote the same elements in the drawings, unless they are indicated on other drawings.

FIG. 1 is a perspective view of a blind wing assembly for a photovoltaic power generation according to the present invention, and FIG. 2 is an exploded perspective view of FIG.

Referring to FIG. 1, a blind wing assembly 100 for a photovoltaic power generation according to a preferred embodiment of the present invention includes a wing frame 110, a solar cell panel 120, a connection terminal 130, a side cover 150 ).

The configuration of the present invention will be described in detail as follows.

First, the wing frame 110 constitutes a main frame of the blind wing assembly. A seating groove 111 is provided on one side of the wing frame 110, as shown in FIG. 2, so that the solar panel 120 can be disposed.

The wing frame 110 is made of aluminum or synthetic resin. Preferably, the wing frame 110 is formed of an aluminum material that can improve durability and reduce weight.

At least one pair of the solar panels 120 are arranged in the longitudinal direction along the longitudinal direction within the seating groove 111 of the wing frame 110.

3 (a), the solar cell panel 120 includes a plurality of solar cells 121 disposed on a PCB (printed circuit board) substrate to which electrode lines are connected, ethylene-vinyl acetate) resin and a transparent film. 3 (b), a (+) (-) electrode 123 of a back contact type is formed on one side of the bottom surface of the solar cell panel 120, Respectively.

The solar cell panel 120 having such a configuration is disposed at an intermediate point in the seating groove 111 so that the (+) and (-) electrodes 123 face each other with a connecting terminal 130 interposed therebetween.

4, the connection terminal 130 is connected to the positive (+) and negative (-) electrodes 123 of the solar cell panel 120, which are assembled between the pair of solar cell panels 120, (Parallel in the present invention). The connection terminal 130 may be a PCB (printed circuit board) substrate.

The connection terminal 130 can be fixed to the fitting groove 113 of the mounting groove 111 by fitting both sides thereof or by a separate fastening member.

Electrode connecting portions 131 are provided on both sides of the upper surface of the connection terminal 130 so that the (+) and (-) electrodes 123 provided on the bottom surface of the solar cell panel 120 can be connected to each other.

The connection terminal 130 is provided with an external connection connector 133 so that a plurality of blind wing assemblies 100 spaced downward from the fixing frame 10 can be electrically connected to each other.

5, the external connection connector 133 includes a first connection part 133a for connecting the (+) pole of the solar cell panel 120 to the (-) pole of the blind wing assembly 100 disposed at the lower side, A second connecting portion 133b for connecting the negative (-) pole of the solar cell panel 120 to the (+) pole of the upper blind wing assembly 100, and a second connecting portion 133b for connecting the And a third connection portion 133c that connects the final electrode of the first electrode 100 through the plurality of blind wing assemblies 100 arranged on the upper side and connects the final electrode of the final electrode of the first electrode 100 to the upper electrode (fixed body).

In this case, the electrode connection between the external connection connectors 133 provided in the blind wing assembly 100 can use an FPCB (flexible printed circuit board) wire 135 which is flexible in folding and unfolding.

6, the connecting terminal 130 covers and hides the connecting portion between the (+) (-) electrode 123 and the electrode connecting portion 131 of the solar cell panel 120, and the solar cell panel 120 The intermediate cover 140 is engaged. The intermediate cover 140 may be made of acrylic styrene acrylonitrile (ASA) or aluminum. However, the present invention is not limited thereto, and various materials can be applied.

A concrete connection structure of the intermediate cover 140 will be described below. A cylindrical columnar portion 132 is provided at the center of the ring-shaped electrode connection portion 131, and a solar cell panel 120 has an engaging groove portion 125a (refer to FIG. 2) for enclosing the outer circumferential surface of the protruding portion 132 when assembled.

The upper end of the coupling groove 125a is formed with a stepped groove 125b having a larger diameter than the coupling groove 125a so as to fix the solar cell panel 120 when the intermediate cover 140 is coupled.

On both sides of the intermediate cover 140, a coupling portion 141 having a shape corresponding to the stepped groove portion 125b is provided. In the coupling portion 141, a coupling member is fastened to the coupling hole 132a of the projection 132 A through hole 141a is provided.

The coupling part 141 of the intermediate cover 140 is fastened to the coupling hole 132a through the through hole 141a in a state where the coupling part 141 of the intermediate cover 140 is assembled in the stepped groove part 125b of the solar cell panel 120, The intermediate cover 140 can be firmly assembled as shown in FIG.

Referring to FIG. 8, the side cover 150 serves to fix both side ends of the solar cell panel 120 assembled on both sides of the wing frame 110. Preferably, the side cover 150 is made of acrylic styrene acrylonitrile (ASA) or aluminum. However, the present invention is not limited thereto, and various materials can be applied.

9, the side cover 150 is provided with fitting portions 151 on both sides so as to be fitted and fixed in the fitting groove portion 113 in the mounting groove 111. As shown in FIG.

10 and 11, the blind 1 for a photovoltaic power generation including the blind wing assembly 100 according to the present invention having the above-described structure is mounted on a fixed frame 10 And a blind wing assembly 100 spaced apart from the fixed frame 10 by a lift rope 20 and a tilting bar 30.

In this case, the lifting rope 20 is inserted into and connected to the insertion hole 101 of the blind wing assembly 100, thereby raising and lowering the blind wing assembly 100.

The tilting bar 30 is formed in a ladder shape supporting the upper and lower surfaces of the blind wing assembly 100 or at least the bottom surface of the blind wing assembly 100, Thereby causing the assembly 100 to perform a tilting operation.

The lifting rope 20 and the tilting rods 30 are generally applied to existing blinds, and a specific operation principle thereof will be omitted.

The blind 1 may include a power storage unit (not shown) that is electrically connected to the solar cell panel 120 and stores electrical energy generated through the solar cell panel 120.

The blind 1 may further include an inverter (not shown) electrically connected to the solar cell panel 120 to convert DC energy generated through the solar cell panel 120 into AC energy.

The power storage unit and the inverter may be provided in the fixed frame 10 constituting the blind 1, or may be provided in a separate structure on one side of the blind 1.

The solar panel 120 is installed on the side of the blind wing assembly 100 and the solar panel 120 is mounted on the side cover 150 ), It is easy to replace and maintain.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

1: blind for solar power generation 10:
20: lift line 30: tilting line
100: blind wing assembly 101: insertion hole
110: wing frame 111: seat groove
113: fitting groove portion 120: solar cell panel
121: solar cell 123: electrode
125a: engagement groove portion 125b:
130: connection terminal 131: electrode connection portion
132: projecting portion 132a: fastening hole
133: external connection connector 133a: first connection part
133b: second connection portion 133c: third connection portion
135: FPCB wire 140: middle cover
141: engaging portion 141a: through hole
150: side cover 151:

Claims (10)

A wing frame 110 provided with a seating groove 111;
At least a pair of solar cell panels (120) assembled along the longitudinal direction in the seating groove (111);
A connection terminal 130 assembled between the pair of solar cell panels 120 to connect the (+) and (-) electrodes 123 of the solar cell panel 120 in series or in parallel; And
And a side cover (150) for fixing the solar cell panel (120) assembled and mounted on both sides of the wing frame (110).
The method according to claim 1,
The connection terminal (130)
An electrode connecting portion 131 to which the (+) and (-) electrodes 123 provided on the bottom surface of the solar cell panel 120 are connected; And
And an external connection connector (133) to be electrically connected between the plurality of blind wing assemblies arranged one above the other.
3. The method of claim 2,
The external connection connector 133,
A first connection part 133a for connecting the (+) pole of the solar cell panel 120 to the (-) pole of the blind wing assembly disposed at the lower side;
A second connection portion 133b for connecting the (-) pole of the solar cell panel 120 to the (+) pole of the blind wing assembly disposed above; And
And a third connection portion (133c) for connecting the final electrode of the blind wing assembly disposed at the bottom end to the top side through a plurality of blind wing assemblies arranged on the upper side.
3. The method of claim 2,
In the connection terminal 130,
And an intermediate cover 140 covering and covering the connection portion of the (+) and (-) electrodes 123 between the solar cell panels 120 and fixing the solar cell panel 120, Blind wing assembly.
5. The method of claim 4,
A cylindrical protrusion 132 is formed in the electrode connection part 131,
One end of the solar cell panel 120 connected to the electrode connection part 131 is formed with a coupling groove 125a for enclosing the outer circumferential surface of the protrusion 132 during assembly,
A stepped groove 125b having a diameter larger than that of the coupling groove 125a may be formed at an upper portion of the coupling groove 125a so as to fix the solar cell panel 120 when the intermediate cover 140 is coupled to the coupling groove 125a Blind wing assembly for solar power generation.
5. The method of claim 4,
The intermediate cover (140)
Wherein a through hole (141a) is formed in the fastening hole (132a) of the connection terminal (130) so as to be fixed by a fastening member.
The method according to claim 1,
The side cover (150)
And a fitting portion (151) is provided on both sides of the fitting groove (113) in the seating groove (111) so as to be fitted into the fitting groove (113).
A fixed frame (10) fixed on the ceiling or above the frame of the window frame; And
The blind wing assembly (100) according to any one of claims 1 to 7, wherein the blind wing assembly (100) is installed on the lower side of the fixed frame (10) via a lift line (20) and a tilting bar (30) Blinds for rooms.
9. The method of claim 8,
The blind,
And a power storage unit electrically connected to the solar cell panel (120) to store electric energy generated through the solar cell panel (120).
9. The method of claim 8,
The blind,
And an inverter electrically connected to the solar cell panel (120) to convert DC energy generated through the solar cell panel (120) into AC energy.

Images