KR101127276B1 - Installable member to door frame to equip solar cell and door frame system including the same - Google Patents

Abstract

Disclosed is a window frame mounting member capable of attaching a solar cell to a window frame, and a window system including the same. The window frame mounting member is installed in a window frame having a plurality of protrusions for guiding opening and closing of the window and a groove formed between the plurality of protrusions, and is accommodated in the groove and coupled with the window frame along a longitudinal direction of the groove. A coupling part; An inclined portion inclined at a predetermined angle with respect to the protruding direction of the protrusion; And a connection part connecting the coupling part and the inclined part and surrounding at least one of the plurality of protrusions.

Description

INSTALLABLE MEMBER TO DOOR FRAME TO EQUIP SOLAR CELL AND DOOR FRAME SYSTEM INCLUDING THE SAME}

The present invention relates to a window frame installation member and a window system including the same, which can be installed in a solar cell, and more particularly, to a window frame installation member and a window system including the same, which are easily mounted on the window frame to utilize solar energy.

Recently, due to environmental problems caused by excessive use of fossil fuels, technologies that are used by renewable energy such as solar, wind, and geothermal are rapidly being developed.

Among them, a technology for utilizing the solar energy incident on the windows forming the exterior of the building is also being developed. In particular, a glass window in which a solar cell is interposed between two glass windows by changing the glass structure has been developed.

However, these windows are difficult to manufacture, and the yield is not only low, but also more than three times more expensive than ordinary windows, so that it is difficult to employ them in a general home or building.

Therefore, there is an urgent need for a method that can utilize sunlight while maintaining the existing glass window.

In addition, the general home will also require a technology that can utilize the solar light at low cost.

It is an object of the present invention to provide a window frame installation member that can utilize solar energy and a window system including the same.

Another object of the present invention is to provide a window frame installation member and a window system including the same, which can be easily installed on a window frame of an existing building.

Still another object of the present invention is to provide a window frame installation member that can be firmly mounted on an existing building window frame, and a window system including the same.

The object of the present invention is a window frame mounting member installed in a window frame having a plurality of protrusions for guiding opening and closing of a window and a groove formed between the plurality of protrusions, the length of the groove being received in the groove. A coupling part coupled to the window frame along a direction; An inclined portion inclined at a predetermined angle with respect to the protruding direction of the protrusion; It can be achieved by the window frame installation member comprising a connecting portion connecting the engaging portion and the inclined portion and surrounding at least one of the plurality of protrusions.

The inclined portion may include: a first inclined portion inclined at a first angle with respect to the protruding direction of the protrusion along at least one of a width direction and a longitudinal direction; It may include a second inclined portion inclined at a second angle different from the first angle with respect to the protruding direction of the protrusion in at least one of the width direction and the longitudinal direction.

In addition, the second inclined portion may be disposed farther from the coupling portion than the first inclined portion, and the second angle may be larger than the first angle.

In addition, according to the present invention, there is provided a window system comprising: a window frame having a plurality of guide protrusions for guiding opening and closing of a window and a groove formed between the plurality of protrusions; Window frame mounting member according to any one of claims 1 to 3; It can also be achieved by a window system comprising a door that can be opened and closed along the connecting portion in contact with the connecting portion of the window frame installation member.

Here, the solar cell is provided on the inclined portion of the window frame installation member; It may be further driven by the electrical energy produced by the solar cell and may further include a ventilation fan for ventilating the interior and exterior of the door.

According to the window frame installation member and the window system including the same for utilizing the solar energy configured as described above has the following effects.

First, the use of solar energy, an infinite energy source, can reduce the use of existing fossil fuel. It can cover about 10-20% of the power used in a typical home or building.

Second, it can be easily installed in the window frame of the existing building and can significantly reduce the installation cost and manufacturing cost.

Third, even if used in high-rise buildings can be mounted firmly.

1 is a schematic perspective view of a window system provided with a window frame mounting member according to a first embodiment of the present invention;
2 is a schematic cross-sectional view taken along the line II-II of FIG. 1;
3 is a schematic cross-sectional view taken along line III-III of FIG. 1,
4 is a schematic perspective view of an upper window frame mounting member provided on the upper side of FIG. 1;
5 is a schematic perspective view of a lower window frame mounting member provided at a lower side of FIG. 1;
6A and 6B are schematic perspective and cross-sectional views of the window frame mounting member according to the second embodiment of the present invention, respectively;
7 is a schematic cross-sectional view in a state where a solar cell is installed on the window frame mounting member of FIG. 6A,
8 is a schematic perspective view of a window frame mounting member according to a third embodiment of the present invention;
9 is a schematic cross-sectional view taken along the line VII-VII of FIG. 8, FIG.
10 is a schematic cross-sectional view taken along the line VII-VII of FIG. 8, FIG.
FIG. 11 is a schematic cross-sectional view illustrating another modified embodiment of the insertion groove formed in the upper window frame installation member of FIG. 4.

Hereinafter, with reference to the accompanying drawings will be described in detail a window frame installation member and a window system including the same for utilizing the solar energy according to a preferred embodiment of the present invention.

Window system (1) according to the first embodiment of the present invention, as shown in Figures 1 to 3, the window frame 10 is installed on the building outer wall (W); A plurality of windows (20, 30, 40) installed in the window frame (10) to be opened and closed; It includes a window frame installation member (100, 200) installed in the window frame (10).

For reference, Figure 1 is a schematic perspective view of the window system 1 according to the present invention from the outside of the building outer wall (W).

Here, the plurality of windows 20, 30, 40 are merely examples, and the number and shape of the windows 20, 30, and 40 may be changed in various ways. In addition, in the drawings, the window frame mounting members 100 and 200 are installed on both upper and lower sides as an example, but in some cases, may be installed only on the upper side or the lower side. In addition, if necessary, the window frame mounting members 100 and 200 may be installed on any one of the left and right sides instead of the upper and lower sides. Of course, it may be installed in all four corners.

The window frame 10 includes a plurality of protrusions 14, 15, and 16 for guiding the movement of the plurality of windows 20, 30, and 40 so that the plurality of windows 20, 30, and 40 move open and close. And a groove 18 formed between the plurality of protrusions 14, 15, and 16.

The window frame 10 may further include a foreign matter inflow prevention jaw 17 for preventing rain water or foreign substances introduced from the outside from being introduced into the room.

The window frame 10 includes a plurality of first hollow layers 11 adjacent to the outer wall W; A third layer hollow 13 formed in the plurality of protrusions 14, 15, 16 and the foreign material inflow prevention jaw 17; And a second layer hollow 12 disposed between the third layer hollow and the first layer hollow.

The second layer hollow 12 may be a passage for connecting the electricity produced from the solar cell 300 to be installed in the window frame installation member 100 to be described later, to the room.

The plurality of windows 20, 30, and 40 may be arranged in the order of the first window 20, the second window 30, and the third window 40 from the outside.

The first window 20 may be a window in which a insect screen is embedded.

The second window 30 and the third window 40 may be ordinary glass windows.

The window frame 10 may be fixed to the outer wall (W) by the fastener (S2). Inside the first layer hollow 11 through which the fastener S2 passes, a “ㅁ” shaped reinforcement for increasing strength may be accommodated. Of course, the shape of the reinforcing material can be changed to various shapes, such as "c" or "L".

As shown in FIG. 2, the window system 1 includes protrusions 15 and 16 positioned inside the plurality of protrusions 14, 15 and 16 and the second and third windows 30 and 40. It may further include a ventilation grille (53, 55) installed between).

The ventilation grille 53 is disposed between the third window 40 and the protrusion 16. The ventilation grille 53 serves to communicate indoor air with a space between the first window 10.

The ventilation grille 55 is disposed between the second window 30 and the protrusion 15 to communicate indoor air with outdoor air outside the first window 10.

Here, the ventilation grille 55 installed in the second window 30 may be omitted in some cases.

Here, the ventilation grills 53 and 55 may also serve to guide the movement of the second window 30 and the third window 40.

The window system 1 may further include a ventilation fan 51 for forcibly ventilating indoor air and outdoor air through the ventilation grills 53 and 55.

The ventilation fan 51 may be used regardless of its structure and shape as long as it is capable of forced air blowing in a predetermined direction. In some cases, as shown in the figure, the ventilation fan 51 may be a transverse fan that is arranged along the circumference of the longitudinally long blades to blow wind in the transverse direction with respect to the axial direction.

On the other hand, the window frame mounting member 100, 200 according to the first embodiment of the present invention, as shown in Figures 1 to 5, the upper window frame mounting member 100 is installed on the upper side, and is installed on the lower side It may include a lower window frame installation member 200. Here, as described above, any one of the plurality of window frame mounting members 100 and 200 may be omitted.

The upper window frame installation member 100 may be made of any one material of metal such as aluminum, stainless steel, or plastic such as PVC. Of course, metals and plastics may be used in combination. In addition, such a material is just an example and may be variously changed.

The window frame installation member 100 may be manufactured integrally. For example, when the window frame installation member 100 is a plastic resin, it may be provided by extrusion molding. If the window frame installation member 100 is made of metal, it may be manufactured by sheet metal.

The lower window frame mounting member 200 may also be manufactured in the same manner as the upper window frame mounting member 100. In some cases, a material and a manufacturing method of the upper and lower window frame installation members 100 and 200 may be different. For example, the upper window frame mounting member 100 is made of sheet metal of aluminum metal, while the lower window frame mounting member 200 may be extruded from a plastic resin.

On the other hand, the upper window frame installation member 100, as shown in Figure 1, 2 and 4, is accommodated in the groove 18 of the window frame 10 along the longitudinal direction of the groove 18 A coupling part 110 coupled to the window frame 10; An inclined portion 130 inclined at a predetermined angle with respect to the protruding direction of the protrusion 14 of the window frame 10; The coupling unit 110 and the inclined portion 130 includes a connecting portion 120 surrounding at least one of the plurality of protrusions 14, 15, and 16.

Here, the groove 18 may be formed in plural between the plurality of protrusions 14, 15, and 16, as shown in FIG. 2. In this case, the coupling part 110 may be accommodated in only one of the plurality of grooves 18 or in all of the plurality of grooves.

The coupling part 110 may include a groove contact piece 111 in contact with the groove 18 and a protrusion contact piece 113 in contact with the adjacent protrusion 15. Here, in some cases, the protrusion contact piece 113 may be omitted.

The connecting portion 120 is connected to the groove contact piece 111 and the first connecting piece 121 facing the inner surface of the protrusion 14; A second connecting piece 123 connected to the first connecting piece 121 and facing the top of the protrusion 14; The third connection piece 125 connects the second connection piece 123 and the inclined part 130 and faces the outer surface of the protrusion 14.

The inclined portion 130 is inclined at a predetermined angle with respect to the protruding direction of the protrusion 14 of the window frame 10. Here, as shown in the drawing, the inclined portion 130 may be inclined at a predetermined angle with respect to the protruding direction, or inclined angle with respect to the protruding direction along the width direction of the inclined portion 130 in some cases. It may vary.

Here, the angle θ between the inclined portion 130 and the third connecting piece 125 parallel to the protruding direction may be in a range of 40 degrees to 70 degrees.

Here, although the angle between the inclined portion 130 and the connecting portion 120 (exactly the third connecting piece 125) is shown as being fixed, in some cases the inclined portion ( 130 may be provided to be rotatable with respect to the connecting portion 120.

Meanwhile, the window system 1 further includes a solar cell 300 installed at the inclination part 130 to convert external light (mainly sunlight) into electrical energy.

The solar cell 300 may be formed of any one of single crystal silicon and amorphous silicon.

The solar cell 300 may be in the form of one module to which a plurality of unit solar cells are connected. Since the solar cell 300 is known, a detailed description thereof will be omitted.

The solar cell 300 is installed on the inclined portion 130 of the upper window frame installation member 100. Installation method may be coupled to the inclined portion 130 by a variety of known coupling methods such as fasteners, adhesives.

Here, as shown in FIG. 2, insertion grooves 150 into which both side ends of the solar cell 300 are inserted may be formed in the inclined portion 130. The solar cell 300 is installed on the inclined portion 130 by inserting both ends of the solar cell 300 into the insertion groove 150 and then filling the insertion groove 150 with an epoxy adhesive E. Can be. Of course, the solar cell installation method is only one example and may be variously changed.

Here, the insertion groove 150 may be provided so that the width thereof becomes wider from the surface to the core. The insertion groove 150 may be formed by mechanical processing or chemical etching. In some cases, when the window frame installation member 100 is extruded from a plastic resin, the insertion groove 150 may be formed from the extrusion time. In this case, a separate insertion groove 150 forming process may not be necessary.

On the other hand, the insertion groove 150, as shown in Figure 11, may be replaced by a sheet metal or extrusion molded insertion groove 150a.

On the other hand, the upper window frame installation member 100 is coupled to the window frame 10 by a fastener (S1), as shown in FIG. The fastener S1 is fastened toward the groove 18 of the window frame 10 at the coupling part 110, precisely the groove contact piece 111.

The reinforcement 19 may be inserted into the first layer hollow 11 of the window frame 10 through which the fastener S1 passes. The reinforcing material 19 may be made of a metal material such as aluminum or steel or stainless steel.

Looking at the coupling method of the upper window frame installation member 100 is not only coupled to the window frame 10 by the fastener (S1), the window frame installation member 100 is the window frame 10 and the first It is sandwiched between one window 20.

That is, the upper window frame installation member 100 is doublely restrained by the fastener S1 and the first window 20.

Accordingly, even if the window frame installation member 100 is installed on the window frame 10 of a high-rise building exposed to an external environment such as strong wind and rain of an upper floor, it may be firmly supported.

In addition, when the window frame mounting member 100 is to be installed, the connection part 120 and the coupling part 130 are inserted into the outer protrusions 14 and the grooves 18 of the window frame 10, respectively, indoors. The coupling portion 130 may be fastened to the window frame 10 by the fastener S1. Accordingly, when installing the window frame installation member 100, even if the installation does not go outside the building can be done in the room.

In addition, since the ventilation fan 51 can be driven by the electric energy produced from the solar cell 300 without a separate power source, it is not only energy-saving but also environmentally friendly. The electric energy produced from the solar cell 300 may be connected to the ventilation fan 51 through an electric wire L passing through the second layer hollow 12 of the window frame 10.

Here, the driving of the ventilation fan 51 is just an example. That is, the driving target to be driven using the electric energy produced from the solar cell 300 may be variously changed.

Here, although the electrical energy to be produced is proportionally variable according to the area of the solar cell 300, when the upper window frame installation member 100 is installed on the veranda window frame based on the apartment, approximately one day (24 hours) It can produce about 60W of electrical energy.

In addition to the upper and lower window frame installation member 100, when installed in the left and right and increasing the area can produce a significant amount of electricity.

The window system 1 may further include a capacitor (not shown) for storing the produced electrical energy. The ventilation fan 51 may be driven in the rain or at night from the energy stored in the capacitor.

When the worker goes out of the building to install the window frame installation member 100, not only the work efficiency is lowered, but there is a risk of falling accidents, in the case of the present invention because the installation work is possible in the room all the problems Can be solved.

On the other hand, the lower window frame installation member 200, as shown in Figures 1, 3 and 5, is accommodated in the groove 18 of the window frame 10 along the longitudinal direction of the groove 18 A coupling part 210 coupled to the window frame 10; An inclined portion 230 inclined at a predetermined angle with respect to the protruding direction of the protrusion 14 of the window frame 10; The coupling part 210 and the inclined part 230 may be connected to each other and include a connection part 220 surrounding at least one of the plurality of protrusions 14, 15, and 16.

The coupling part 210 may include a groove contact piece 211 that contacts the groove 18 and a protrusion contact piece 213 that contacts the adjacent protrusion 15. Here, in some cases, the protrusion contact piece 213 may be omitted.

The connection part 220 is connected to the groove contact piece 211 and the first connection piece 221 facing the inner surface of the protrusion 14; A second connecting piece 223 connected to the first connecting piece 221 and facing the top of the protrusion 14; And a third connecting piece 225 connecting the second connecting piece 223 and the inclined part 230 to face the outer surface of the protrusion 14.

The inclined portion 230 is inclined at a predetermined angle with respect to the protruding direction of the protrusion 14 of the window frame 10, similarly to that of the upper window frame mounting member 100. Here, as shown in the drawing, the inclined portion 230 may be inclined at a predetermined angle with respect to the protruding direction, or inclined angle with respect to the protruding direction along the width direction of the inclined portion 230 in some cases. It may vary.

Here, the angle φ between the inclined portion 230 and the extension line of the third connecting piece 225 parallel to the protruding direction may be in a range of 40 degrees to 70 degrees.

The inclination angle of the inclined portion 230 of the lower window frame installation member 200 may be the same as the inclination angle of the inclined portion 130 of the upper window frame installation member 100.

Here, the sealant (B) is filled in the gap (A) between the outer wall (W) and the window frame 10 to prevent foreign matters such as external rainwater from entering.

Since the inclined portion 230 of the lower window frame installation member 200 is installed above the gap A to prevent the gap A from being directly exposed, foreign substances such as rainwater are further prevented from entering the room. can do. This is because rainwater flows down the inclined portion 230 and is not directly transmitted to the gap A.

Insertion groove 250 for installing the solar cell 400 may also be formed in the inclined portion 230, and the insertion groove 250 may include the 150 of the upper window frame installation member 100. Since it is the same, duplicate description will be omitted.

For reference, the lower window frame mounting member 200 and the upper window frame mounting member 100 correspond to the protrusions 14, 15, and 16 of the window frame 100 because the former is downward and the latter is upward. Shapes of the coupling parts 110 and 210 and the connection parts 120 and 220 are changed, and the inclination parts 130 and 230 supporting the solar cells 300 and 400 are commonly provided.

The solar cell 400 may be made of silicon of the same type as the solar cell 300 installed in the upper window frame installation member 100.

In some cases, the solar cell 300 installed on the upper side may be formed of single crystal silicon, and the solar cell 400 installed on the lower side may be formed of amorphous silicon. Of course, this is only one example, and various solar cells may be used regardless of its shape and method as long as it can convert solar energy into electrical energy.

Meanwhile, hereinafter, the window frame installation member 100a according to the second embodiment of the present invention will be described with reference to FIGS. 6A, 6B, and 7. Here, the following window frame installation member 100a is described with respect to the upper window frame installation member is installed on the upper side, the contents described below can also be applied to the lower window frame installation member 200 described above to be installed below.

The window frame installation member (100a) is the coupling portion 110; The connection part 120 and the inclination part 140 are included.

The inclined portion 140 may include a first inclined portion inclined at a first angle θ1 with respect to the protruding direction P of the protrusion (14 in FIG. 2) along the width direction of the inclined portion 140 ( 141); A second inclined portion 143 inclined at a second angle θ2 different from the first angle θ1 with respect to the protruding direction P of the protrusion (14 in FIG. 2) along the width direction.

The second inclined portion 143 is disposed farther from the coupling portion 110 than the first inclined portion 141, and the second angle θ2 is greater than the first angle θ1. Can be.

Depending on the type of the solar cell or the installation site (latitude change, the influence of the surrounding buildings), the angle of incidence of sunlight for optimal efficiency may be different, so considering the plurality of inclined portions (141, 143) of different angles ) Can be prepared.

Here, in the second embodiment, the inclination portion 140 that is varied in two stages of the first and second angles θ1 and θ2 along the width direction is illustrated. It may also include wealth.

For reference, FIG. 7 illustrates a form in which a plurality of solar cells 300 are attached to the first and second inclined portions 141 and 143 of the window frame installation member 100a.

The plurality of solar cells 300 may be formed of the same type of silicon, or may be provided of different types of silicon.

Meanwhile, hereinafter, the window frame installation member 100b according to the third embodiment of the present invention will be described with reference to FIGS. 8 to 10.

Window frame installation member (100b) according to the third embodiment is the coupling portion 110; The connection part 120 and the inclination part 160 are included.

The inclined portion 160 may include a first inclined portion inclined at a first angle θ3 with respect to the protruding direction P of the protrusion (14 in FIG. 2) along the longitudinal direction of the inclined portion 160 ( 161; And a second inclined portion 163 inclined at a second angle θ4 different from the first angle θ3 with respect to the protruding direction P of the protrusion part 14 of FIG. 2 along the longitudinal direction. .

Since the angle of incidence of sunlight for optimal efficiency may vary depending on the type of solar cell or the place where it is installed (latitude change, influence of surrounding buildings), a plurality of inclined portions 161 and 163 having different angles are considered. Can be prepared.

On the other hand, in the above described the solar cell 300, 400 is mounted on the window frame installation member (100, 100a, 100b, 200) as an example, in some cases blades for power generation using wind power (not shown) It may be installed on the inclined portion (130, 140, 160, 230).

On the other hand, the above embodiments are merely exemplary, and those skilled in the art may have various modifications and other equivalent embodiments therefrom.

Accordingly, the true scope of protection of the present invention should be determined by the technical idea of the invention described in the following claims.

1: Window system 10: Window frame
20: first window 30: second window
100, 100a, 100b, 200: window frame mounting member
110, 210: coupling portion 120, 220: coupling portion
130, 230, 140, 160: slope
141, 161: first inclined part 143, 163: second inclined part

Claims (5)

In the window frame mounting member provided in the window frame having a plurality of protrusions for guiding the opening and closing movement of the window and the groove formed between the plurality of protrusions,
A coupling part accommodated in the groove and coupled to the window frame along a longitudinal direction of the groove;
An inclined portion inclined at a predetermined angle with respect to the protruding direction of the protrusion;
And a connecting portion connecting the coupling portion and the inclined portion and surrounding at least one of the plurality of protrusions. The method of claim 1,
The inclined portion,
A first inclined portion inclined at a first angle with respect to the protruding direction of the protrusion in at least one of a width direction and a longitudinal direction;
And a second inclined portion inclined at a second angle different from the first angle with respect to the protruding direction of the protrusion along at least one of the width direction and the longitudinal direction. The method of claim 2,
The second inclined portion is disposed farther from the coupling portion than the first inclined portion,
And said second angle is greater than said first angle. In the window system,
A window frame having a plurality of guide protrusions for guiding opening and closing of the window and a groove formed between the plurality of protrusions;
A window frame mounting member according to any one of claims 1 to 3;
And a door capable of opening and closing along the connection part in contact with the connection part of the window frame installation member. The method of claim 4, wherein
A solar cell installed on the inclined portion of the window frame mounting member;
And a ventilation fan driven by electrical energy produced by the solar cell and configured to ventilate the interior and exterior of the door.

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