KR101661955B1 - Window frame applied for BIPV - Google Patents

Abstract

The present invention relates to an apparatus for adjusting the angle of a solar cell window mounted on a building in accordance with the altitude of a sun which changes according to the direction of the sun's progress, The present invention relates to an integrated solar cell window for maximizing solar irradiation efficiency through a means for automatically adjusting an angle adjustment time of a solar cell window according to a different solar movement time according to a season, A panel 100; A panel mounting frame 200 in which the solar cell panel 100 is fixed to an inner space; A window frame 300 on which the panel mounting frame 200 is disposed and on which a transparent window 301 is formed; A vertical bar 400 installed in one side of the window frame 300 on which the transparent window 301 of the window frame 300 is formed; A roller 500 which is slidably moved by the vertical bar 400 and is rotatably fixed to an upper surface of the panel mounting frame 200; One side of which is pivotally connected to the window frame 300 and the other side of which is pivotally connected to the panel mounting frame 200. The roller 500 is slidably moved along the vertical bar 400, A guide link (600) for guiding the frame (200) to be interlocked to be guided to rotate; And a fixing member for fixing the roller (500) fixedly at predetermined intervals of the vertical bar (400), wherein the panel mounting frame (200) is guided to be rotated stepwise Thereby maximizing the irradiation efficiency of the sunlight irradiated to the panel mounting frame 200.

Description

{Window frame applied for BIPV}

The present invention relates to an apparatus for adjusting the angle of a solar cell window mounted on a building in accordance with the altitude of a sun which changes according to the direction of the sun's progress, The present invention relates to a solar cell window integrated with a building, in which solar cell illumination efficiency is maximized through means for automatically adjusting the angle adjustment time of a solar cell window according to a different solar movement time according to a season.

Recently, the use of photovoltaic power generation equipment capable of generating electric power using solar energy has become increasingly popular.

Such solar cells using solar energy do not use fossil fuels such as coal or petroleum, but they are attracting attention as a new alternative energy source of the future because they use pollution-free and infinite energy sources of sunlight. Currently, , Automobiles, and the like.

Generally, photovoltaic generation is a technique of directly producing electricity using a photovoltaic (PV). The solar cell is a semiconductor device that converts light energy into electrical energy using a photoelectric effect and is composed of two semiconductor thin films each having a positive polarity and a negative polarity, cells are connected in series / parallel to generate the voltage and current required by the user, and the user can use the power generated from such a solar cell.

Unlike other alternative energy utilization technologies, such solar power generation systems have a simple system configuration, and recent attempts to apply them to the building field have been actively pursued and are called building integrated PV (BIPV).

The most representative is to combine existing building materials with solar cells to simultaneously exhibit building materials and power generation functions.

Building integrated photovoltaic power generation, ie, BIPV, is applied to the building envelope by building PV modules into building materials.

Such a building integration technology is a more active technology to utilize the existing building envelope from the viewpoint of the concept of protection of external stimuli and utilize it as a tool of generating energy, and it can take part in the supply and demand of the solar cell, A double effect can be expected which reduces the installation cost.

FIG. 1 is a line registration (Patent Registration No. 10-1204421). Conventional building-mounted solar cell windows have a plurality of first support frames 10 arranged in a vertical direction and maintaining a first interval, A plurality of second support frames 20 spaced from each other and arranged in a horizontal direction so as to intersect with the plurality of first support frames 10, 20, a solar cell panel 30 having one side connected to the solar cell panel 30 by a wire 41 and the other side connected to a power supply object (not shown) and a wire And a terminal unit 40 connected to the solar cell panel 41 to apply the electric energy converted by the solar cell panel 30 to the power supply object.

Accordingly, the conventional building-mounted solar cell window converts solar light irradiated from the solar cell panel 30 into electric energy, and supplies the electric power to the terminal unit through the electric wire as a power supply object, And is used as a power source for supplying clean energy.

In spite of this advantage, the solar cell panel 30 installed in the window of the conventional building-mounted solar cell has a problem that the solar power generation efficiency is halved because it is fixed to the outer wall of the building.

That is, since the altitude (spatial coordinates) of the sun changes according to the direction of the solar progression in which the sun moves from sunrise to sunset, the incident angle of sunlight irradiated to the solar panel 30 fixed according to the altitude of the sun also changes .

SUMMARY OF THE INVENTION It is an object of the present invention to provide a solar cell module having a solar cell module and a solar cell module, which is provided with means for adjusting the angle of a solar cell window mounted on a building in accordance with the altitude of the sun, Battery windows.

Another object of the present invention is to provide a method and apparatus for automatically adjusting an angle adjusting time of a solar cell window according to a different solar movement time according to a season including a winter season and a summer season, To provide a solar cell window with a built-in building.

In order to accomplish the present invention, a building integrated solar cell window of the present invention comprises: a solar cell panel; A panel mounting frame in which the solar cell panel is fixed to an inner space; A window frame frame on which the panel mounting frame is disposed, the window frame frame having a transparent window formed on one side thereof; A vertical bar installed inside one side of the window frame frame, to which the transparent window of the window frame frame is formed; A roller rotatably fixed to an upper surface of the panel mounting frame, the other side of the roller being slidably mounted on the vertical bar; One side of which is pivotally connected to the window frame frame and the other side of which is pivotally connected to the panel mounting frame so as to guide the panel mounting frame to be rotated when the roller is slid along the vertical bar A guide link; And a fixing member which fixes the roller at predetermined intervals of the vertical bar so as to guide the frame for mounting the panel in a stepwise manner in accordance with the direction of the solar propagation so that the irradiation efficiency of the sunlight irradiated to the panel mounting frame To maximize the efficiency of the system.

The solar cell module according to the present invention may further include a control area in which a part of the window frame frame is cut through and formed; A bushing connected to both ends of the vertical bar so that the vertical bar is rotatably installed inside the window frame frame; A seasonal discriminating lane provided on the outer side of the vertical bar for guiding the season to be distinguished is formed at predetermined intervals on the lower vertical side of the seasonal discriminating lane, Wherein the inclined angle of the solar panel installed on the frame is provided on the side of the angle adjusting accommodating grooves used for adjusting the angle of step and the adjacent side surface of the angle adjusting accommodating groove, And the optimum solar movement time display period for each seasonal time indicating the time when the irradiation efficiency of the sunlight irradiated to the solar cell panel whose inclination angle is adjusted according to the accommodating groove for adjusting the angle is optimal A plurality of seasonal angle adjustment selectors; A part of which is exposed through the control area of the window frame frame and is fixed to the vertical bar so that the vertical bar is guided to be rotated so that the seasonal angle control selection section is displayed through the transparent window of the window frame frame And a steering lever.

According to the present invention, the solar radiation efficiency is maximized through the means of adjusting the angle of the solar cell window mounted on the building according to the altitude of the sun which changes according to the direction of the sun's progress.

The present invention also provides a means for automatically guiding the angle adjustment time of the solar cell window according to the different solar movement time according to the season including the winter season and the summer season, It also has the effect of inducing maximization of solar irradiation efficiency in the near future.

1 is a perspective view of a conventional solar cell module of a building-mounted type,
FIG. 2 is a schematic perspective view showing a window assembly solar cell window according to the present invention,
FIG. 3 is a front view showing the window of a building-integrated type solar cell of the present invention,
FIG. 4 is a horizontal sectional view showing the structure of a solar cell module according to the present invention,
FIG. 5 is a perspective view showing a second embodiment of a fixing member in a structure of a building-integrated type solar cell window according to the present invention,
FIG. 6A is a perspective view showing a vertical bar of the structure of a building-integrated solar cell window according to the present invention,
FIG. 6B is a plan view showing a vertical bar of the structure of a building-integrated solar cell window according to the present invention,
FIGS. 7 to 9 are views showing a state in which the angle of the solar cell window is adjusted for different solar movement times according to the seasons, using the solar cell window of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a configuration and an operation of an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a photovoltaic panel, and more particularly, FIG. 6A is a perspective view showing a vertical bar of the solar cell module of the present invention, FIG. 6B is a perspective view of the vertical bar of the building-integrated solar cell window of the present invention, FIG. FIGS. 7 to 9 are explanatory diagrams showing the vertical bars among the constitution of the building-integrated solar cell window according to the present invention. FIG. This is a state of use in which the angle is adjusted.

As shown in the figure, the building integrated solar cell window of the present invention is roughly divided into a solar cell panel 100, a panel mounting frame 200, and a window frame 300.

First, the solar cell panel 100 is a member that converts sunlight to be irradiated into electric energy. One side of the solar cell panel 100 that performs the function is connected to the solar cell panel 100 by the electric wire 41 and the other side of the solar cell panel 100 is connected by the electric power supply object A terminal portion 110 for applying the electric energy converted by the panel 100 to the power supply object is also included.

The panel mounting frame 200 is a member made of a frame having a rectangular shape so that the solar cell panel 100 can be fixed to the inner space. The handle 210 is attached to the frame at the lower front side, So that the panel frame 200 can be opened and closed in the window frame 300.

The window frame 300 is a member formed of a square frame in which the panel mounting frame 200 is rotatably arranged. The panel frame 200 is guided by the panel mounting frame 200 in a stepwise manner Thereby maximizing the irradiation efficiency of the sunlight irradiated to the panel mounting frame 200.

In order to perform such a function, a vertical bar 400, a roller 500, a guide link 600, and a fixing member are provided inside the window frame 300.

First, the vertical bar 400 is installed inside a vertical side frame where the transparent window 301 of the window frame 300 is formed.

The roller 500 is slidably mounted on the vertical bar 400 and a part of the roller 500 is mounted on the bearing 220 so that the other side of the roller 500 is rotatably mounted on the upper surface of the panel- As shown in FIG.

One side of the guide link 600 is rotatably connected to the window frame 300 and the other side of the guide link 600 is rotatably connected to the panel mounting frame 200, (200) interlocked with the sliding door (400) along the sliding door (400).

The fixing member is a member which fixes the roller 500 at predetermined intervals of the vertical bar 400.

According to the first embodiment, the structure of the fixing member may be formed at predetermined intervals of the vertical bar 400, and the fixing member may be formed at a predetermined interval The angle adjusting receiving grooves 410 used as a reference for adjusting the inclination angle of the solar cell panel 100 installed in the panel mounting frame 200 in steps and the side surface of the roller 500, A receiving space 502 in which an outflow hole 501 is formed on the inner surface of the roller 500, a spring 510 placed in the receiving space 502 of the roller 500, The fixing protrusion 521 is protruded from the front surface and one side of the spring 510 is connected to the rear surface of the fixing protrusion 521 by the elastic force of the spring 510, The fixture 5 exposed through the draw-out hole 501 of the roller 500 20).

The fixing protrusions 521 of the fixture 520 exposed through the extraction hole 501 of the roller 500 by the elastic force of the spring 510 are inserted into the angle adjustment receiving recess 410 of the vertical bar 400 The fixing protrusion 521 of the fixture 520 which has entered the receiving groove 410 for adjusting the angle when the handle 210 installed on the panel mounting frame 200 is opened and closed by applying a force to the handle 210, So that the spring 510 connected to the back surface of the fixing member 520 is elastically compressed and unlocked.

In addition, the structure of the fixing member according to the second embodiment is fixedly installed at predetermined intervals of the vertical bar 400, and the solar cell 100 (100 The fixed side magnets 440 are used as a reference for adjusting the inclination angle of the fixed side magnets 440 and the fixed side magnets 440, And a magnet 530.

A shielding member 330 may be installed inside the window frame 300 to shield the window frame 300 when the panel 200 is rotated.

The detailed configuration of the shielding member 330 provided in this manner is similar to that of the shielding member 330 except that the screen for shielding 331, the wind-up roll 332 for winding one side of the shielding screen 331, 332. The spring 333 guides the spring 333 so as to be guided by the spring 333.

In addition, according to the solar battery window of the present invention, according to the season including the winter season and the summer season, in which the solar traveling time varies according to the direction of the solar propagation, It is also possible to provide a function of guiding the angle of the solar cell window to be adjustable.

In order to perform such a function, the steering area 302, the bushing 310, the seasonal angle adjustment selection unit, and the steering lever 320 are mounted in an added configuration.

The manipulation area 302 is a space through which a part of the window frame 300 is cut and formed so that a part of the manipulation lever 320 to be described later is exposed and the manipulated lever 320 It is a space that you can provide.

The bushing 310 is connected to both ends of the vertical bar 400 so that the vertical bar 400 is rotatably installed inside the window frame 300.

In addition, the seasonal angle adjustment selection unit is provided on the outer side of the vertical bar 400, and includes seasonal identification arrays 420a, 420b, and 420c for guiding the seasons to be distinguished, seasonal identification arrays 420a, 420b, and 420c And the angle of inclination of the solar cell panel 100 installed in the panel mounting frame 200 is adjusted in accordance with the predetermined interval, 410b and 410c and adjacent side surfaces of the angle adjusting receiving grooves 410a, 410b and 410c so that the average of the seasonal identification indicators 420a, 420b and 420c The time when the solar cell 100 irradiated with the solar cell 100 whose inclination angle is adjusted according to the angle adjustment receiving grooves 410a, 410b, Optimum solar travel time per hour Sinan consists of twos (430a, 430b, 430c) is one, can be divided at about 2 to 4 depending on the season.

Referring to FIG. 6, it can be seen that the number of angular adjustment selectors for each season is divided into three periods, that is, a winter season and a summer and spring season. At this time, spring and autumn seasons can be provided separately in spring and autumn.

In addition, although the number of the angular adjustment receiving grooves 410a, 410b, 410c is also expressed as four, it is also possible to provide subdivision in units of one hour.

The process of adjusting the angle of the solar cell window according to the different solar movement time according to the seasons using the building integrated solar cell window according to the present invention will be described as follows.

7, when the season is winter season, the building occupant operates the control lever 320 provided in the window frame 300 to control the angle of the seasonal angle adjustment selecting unit displayed in the vertical bar 400 The position of the vertical bar 400 is selected such that the seasonal angle adjustment selecting unit of the winter season in which the angle of the solar cell panel 100 attached to the panel mounting frame 200 is guided by the sun moving time of the winter season is selected.

Thereafter, the building occupant refers to the time displayed in the seasonal time optimal sun movement time display field 430a displayed in the seasonal angle adjustment selection unit corresponding to the winter season of the vertical bar 400, When the handle 210 of the panel mounting frame 200 is held and operated so that the roller 500 can be vertically moved by the fixing member so that the roller 500 can be fixed to the corresponding angle adjusting receiving groove 410a to provide.

At this time, since the sunrise time of the sun is late in the morning of the winter, the angle of the solar cell panel 100 attached to the panel mounting frame 200 can be adjusted at the smallest rotation angle at 7:30 in the morning.

Although not shown in the drawing, when the sun moving time is elapsed at 8:30 am, which is the current time, the building occupant holds the handle 210 of the panel mounting frame 200 and fixes the fixing force (elastic force or magnetic force) By moving the roller 500 so that the roller 500 can vertically move to the angle adjusting receiving groove 410a corresponding to the second seasonal optimal sun movement time indicating row 430a of the winter season corresponding to the elapsed current time, The angle of the solar cell panel 100 attached to the panel mounting frame 200 can be adjusted in accordance with the solar movement time in the winter season so that the solar cell illumination efficiency during the winter season can be maximized.

Referring to FIG. 8, the building occupant operates the control lever 320 provided on the window frame 300 when the seasons are in the spring and autumn seasons, The position of the vertical bar 400 is selected so that the angle of the solar cell panel 100 attached to the frame 200 is selected according to the seasonal change of the spring and autumn seasons.

Thereafter, the occupant of the building refers to the time displayed in the seasonal time optimal sun movement time display column 430b displayed in the seasonal angle adjustment selection unit corresponding to the spring and autumn seasons of the vertical bar 400, When the handle 210 of the panel mounting frame 200 is gripped and operated so that the roller 500 can be vertically moved to the angle adjusting accommodating groove 410b by the fixing member, .

At this time, since the sunrise time of the sun is faster than in the morning at the winter time in the spring and autumn season, the rotation angle of the solar cell panel 100 attached to the panel mounting frame 200 is higher than that at 7:30 in the winter The frame 200 for panel mounting needs to be rotated more than during the winter season so that the solar irradiation efficiency can be maximized.

Although not shown in the figure, when the sun moving time is elapsed at 9:50 am, which is the current time, the occupant of the building holds the handle 210 of the panel mounting frame 200 and fixes the fixing force (elastic force or magnetic force) By moving the roller 500 so that the roller 500 can vertically move to the angle adjusting receiving groove 410b corresponding to the third seasonal time optimal sun moving time indicating column 430b of the spring and autumn seasons corresponding to the current time elapsed The angle of the solar cell panel 100 attached to the panel mounting frame 200 can be adjusted in accordance with the solar movement time of the spring and autumn seasons so as to maximize the solar irradiation efficiency in the spring and autumn seasons.

Referring to FIG. 9, the building occupant operates the control lever 320 provided in the window frame 300 when the season is in the summer, The position of the vertical bar 400 is selected so that the seasonal angle adjustment selecting unit of the summer season in which the angle of the solar cell panel 100 attached to the frame 200 is guided in accordance with the sun moving time of the summer season.

Thereafter, the occupant of the building refers to the time displayed in the season-by-season optimal sun movement time display field 430c displayed in the season-specific angle adjustment selection unit corresponding to the summer of the vertical bar 400, When the handle 210 of the panel mounting frame 200 is held and operated so that the roller 500 can be vertically moved by the fixing member so that the roller 500 can be fixed to the corresponding angle adjusting receiving groove 410c to provide.

At this time, in the case of the morning during the summer season, since the sunrise time of the sun is faster than the morning at the spring and autumn seasons, the solar panel 100 attached to the panel mounting frame 200 corresponding to 7:30 in the morning The angle of rotation must already be set at 6:50 am to maximize solar irradiation efficiency.

Although not shown in the drawings, when the sun moving time is past 9 o'clock in the morning, which is the current time, the occupant of the building holds the handle 210 of the panel mounting frame 200 and holds the force (elastic force or magnetic force) By moving the roller 500 so that the roller 500 can vertically move into the angle adjusting receiving groove 410c corresponding to the third optimal seasonal time-specific sun moving time indicating column 430c of the spring and autumn seasons corresponding to the elapsed current time, The angle of the solar cell panel 100 attached to the panel mounting frame 200 can be adjusted in accordance with the solar movement time so as to maximize the solar irradiation efficiency during the summer season.

10: first support frame 20: second support frame
[0001] The present invention relates to solar cell panels,
41,111: Wire 200: Frame for panel mounting
210: handle 220: bearing
300: window frame frame 301: transparent window
302: steering zone 310: bushing
320: Steering lever 330: Shielding member
331: screen for screening 332: winding roll
333: spring-loaded spring 400: vertical rod
410, 410a, 410b, 410c:
420a, 420b, 420c: Seasonal identification I
430a, 430b, 430c: display of the optimum solar movement time by season
440: fixed side magnet for angle adjustment 500: roller
501: drawer 502: accommodation space
510: spring 520: fastener
521: Fixing projection 530: Moving side magnet
600: Guide link

Claims (6)

A solar cell panel (100);
A panel mounting frame 200 in which the solar cell panel 100 is fixed to an inner space;
A window frame 300 on which the panel mounting frame 200 is disposed and on which a transparent window 301 is formed;
A vertical bar 400 installed in one side of the window frame 300 on which the transparent window 301 of the window frame 300 is formed;
A roller 500 which is slidably moved by the vertical bar 400 and is rotatably fixed to an upper surface of the panel mounting frame 200;
One side of which is pivotally connected to the window frame 300 and the other side of which is pivotally connected to the panel mounting frame 200. The roller 500 is slidably moved along the vertical bar 400, A guide link (600) for guiding the frame (200) to be interlocked to be guided to rotate;
And a fixing member for fixing the roller (500) fixedly at predetermined intervals of the vertical bar (400) so that the panel mounting frame (200) The irradiation efficiency of the sunlight irradiated to the mounting frame 200 is maximized,
The fixing member is formed at predetermined intervals of the vertical bar 400. The fixing member may be provided at a predetermined interval so that the angle of inclination of the solar cell panel 100 installed in the panel- The angle adjusting receiving grooves 410 used as the angle adjusting grooves 410; An accommodating space 502 formed inside the side surface of the roller 500 and having a through hole 501 formed in the inner surface of the roller 500; A spring 510 placed in the receiving space 502 of the roller 500; A fixing protrusion 521 protrudes from the front surface of the roller 500 and is connected to one side of the spring 510 on the rear surface of the roller 500. Due to the elastic force of the spring 510, And a fixture (520) exposing the fixing protrusion (521) through the drawing hole (501) of the roller (500).
delete The method according to claim 1,
The fixing member is fixedly installed at predetermined intervals of the vertical bar 400 and the inclination angle of the solar cell panel 100 installed in the panel mounting frame 200 is adjusted in steps according to the predetermined interval Fixed side magnets 440 used as a reference;
And a movable magnet (530) fixed to the inner surface of the roller (500) and having a pole opposite to the stationary magnets (440).
The method according to claim 1,
A manipulation area 302 through which a part of the window frame 300 is cut and formed;
A bushing 310 connected to both ends of the vertical bar 400 so that the vertical bar 400 is rotatably installed inside the window frame 300;
The seasonal identification arrays 420a, 420b, and 420c are provided on the outer side of the vertical bar 400 to guide the season so that the seasonal identification arrays 420a, 420b, The angular adjustment accommodating grooves 410a, 410b, and 410c used as references for adjusting the inclination angle of the solar cell panel 100 installed in the panel mounting frame 200 according to the predetermined interval, 410b and 410c and adjacent angles of the angle adjusting receiving grooves 410a, 410b and 410c, and the average sun moving time according to the corresponding season displayed on the seasonal identification arrays 420a, 420b and 420c is displayed And the optimum solar movement time display period for each season, which indicates the time when the irradiation efficiency of the sunlight irradiated to the solar cell panel 100 whose inclination angle is adjusted according to the angle adjusting accommodating grooves 410a, 410b, (430a, 430b, 430c) A plurality of seasonal angle adjustment selection units;
The vertical bar 400 is partially fixed to the vertical bar 400 and is partially exposed through the control area 302 of the window frame 300 to guide the vertical bar 400 to rotate, And a control lever (320) for allowing a selection part to be seen through the transparent window (301) of the window frame frame (300).
The method according to claim 1,
And a shielding member (330) for shielding the window frame (300) when the panel mounting frame (200) is rotated to open the window frame frame (300) .
6. The method of claim 5,
The shielding member 330 includes a shielding screen 331;
A winding roll 332 for winding one side of the shielding screen 331;
And a winding spring (333) for guiding the shielding screen (331) to be wound around the winding roll (332).

Images