KR101315272B1 - Windows with solar cells - Google Patents

Abstract

PURPOSE: A window system having a solar cell panel is provided to mutually slide a grounding plate and a contact terminal part, thereby freely opening a window, and to separate the window from a window frame, thereby replacing only the old window. CONSTITUTION: A window system includes a window frame (100), a window (200), a solar cell panel (300), a grounding plate (400), and a contact terminal part (500). The window has a first window and a second window, and the solar cell panel is installed between the first window and the second window. The grounding plate at the inner upper side of the window frame is longitudinally extended from the window frame. The contact terminal part includes a first body (510), a first contact plate (520), and a first elastic member (530). An electric current flows in the solar cell panel and the grounding plate through the contact terminal part at the window. The contact terminal part and the grounding plate are in contact with each other, and mutually slide.

Description

Windows with solar cells {Windows with solar cells}

The present invention relates to a window provided with a solar panel is installed in the opening of the building, and more particularly, by installing the solar panel on the glass window of the window installed on the wall or roof of the building can be used to self-produce power through the solar panel The present invention relates to a window provided with a solar panel that can be opened and closed by sliding a window installed on a window frame.

In general, windows are installed in the openings of buildings for the purpose of insulation, sound insulation, and view, as well as for mining or ventilation in aboveground buildings such as single-family houses, apartments, and buildings. Various types of such windows have been developed in the past, and Korean Utility Model Model Publication No. 20-0382106 shows an example of a general window system installed on an exterior wall of a building in detail.

Meanwhile, in recent years, solar energy has been spotlighted as environmentally friendly energy. Solar energy refers to energy using solar cells that convert the light energy of the sun into electrical energy using the photoelectric effect. Such solar energy is being developed in various fields because of the advantage that the energy can be infinitely supplied from the light supplied from the sun, and the use of solar power generation facilities that can generate electric power using solar energy is becoming more and more common. have.

The solar cell using the solar energy is attracting attention as a new alternative energy source of the future because it uses no-fossil and infinite energy source of solar light without using fossil fuels such as coal and petroleum. It is used to obtain the generated electric power of automobiles and the like.

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 (+) and a negative (-) polarity. The cells are connected in series / parallel to generate the voltage and current required by the user, and the user can use the power generated by the solar cell.

This configuration has conventionally developed a window that can be installed in the window and the solar cell as described above to supply electrical energy from the solar cell. However, the windows installed with the conventional solar cells were used only for fixed windows fixed to the opening of the building so that the windows cannot be opened. This is a problem that can not ventilate the room because the window can not be opened due to the solar cell installed in the window.

To solve this problem, windows have been developed to install solar cells on windows and open windows. However, when the wires connected to solar cells are disconnected, the entire windows must be replaced. There is a disadvantage that can not open the window due to the dust or foreign matter accumulated on the window frame because it can not be separated from the window frame is a situation that can be used gradually decrease.

1.Korean Patent Publication No. 10-2007-0052083 (No. 21, 2007) 2. Sliding door assembly having a solar cell of Korea Patent Publication No. 10-2013-0006817 (2013.01.18) 3. Sliding door assembly with Korean Patent Publication No. 10-2012-0053119 (2012.05.25)

The present invention has been made to solve the above problems, by installing a solar panel in the windows installed in the opening of the building can be used to supply the electrical energy delivered from the solar panel to the room, open the window to the indoor An object of the present invention is to provide a window provided with a solar panel that can be ventilated.

Window with a solar panel of the present invention comprises a window frame 100 is fixedly installed along the circumferential surface of the opening of the building; A window 200 that is fitted to slide left and right in the window frame 100 and has a first glass window 210 in contact with the outside of the building and a second glass window 220 in contact with the inside of the building; A solar panel 300 formed between the first glass window 210 and the second glass window 220 and converting solar energy into electrical energy; A ground plate 400 extending in the longitudinal direction of the window frame 100 and installed on an inner upper surface of the window frame 100 and made of an electrically conductive material; And a contact terminal part 500 installed on the window 200 to allow the solar panel 300 and the ground plate 400 to be energized so as to slide in contact with the ground plate 400. It is characterized by including.

In the present invention, the contact terminal portion 500 includes: a first body 510 fixed to an upper surface of the window 200; A first contact plate 520 on which one side is rotatably coupled to one side of the first body 510 and the other side is in contact with the ground plate 400; The first contact plate is formed between the first contact plate 520 and the first body 510 so that the other side of the first contact plate 520 may be in contact with the ground plate 400. And a first elastic member 530 that elastically supports the plate 520 in the direction of the ground plate 400.

In the present invention, the first contact plate 520 is energized with the first contact plate 520, the other side of the first contact plate 520 so that the outer surface is in contact with the ground plate 400 to rotate. It is characterized in that the rotary roller 521 is provided on.

In the present invention, a moving groove 511 is formed in the first body 510 along the longitudinal direction of the first body 510, and the head 541 is located outside the first body 510. And a rotating bar 542 extending from the head 541 to penetrate the first body 510 and integrally rotate with the head 541 to be positioned inside the moving groove 511. 540 is formed, the first elastic member 530 is fixed to the rotating rod 542, the first contact plate 520 in contact with the ground plate 400 when the head 541 is rotated It characterized in that the elastic member holder 550 is moved in the front and rear direction along the rotating rod 542 so that the height of the other side of the) is adjusted.

In the present invention, the contact terminal 500 includes a second body 560 fixed to the upper surface of the window 200; A second contact plate 570 having an upper surface contacting the ground plate 400 and having fastening holes 571 formed therebetween, respectively; One side is in contact with the bottom surface of the second contact plate 570 and the other side is in contact with the top surface of the second body 560 so that the second contact plate 570 may remain in contact with the ground plate 400. A second elastic member 580 which contacts and elastically supports the second contact plate 570 in the direction of the ground plate 400; The second contact plate 570 elastically supported by the second elastic member 580 is prevented from escaping upward, and when the external force is transmitted to the upper surface of the second contact plate 570, the second contact A fixing pin 590 inserted into each of the fastening holes 571 of the second contact plate 570 and fixed to the second body 560 to guide the plate 570 to move downward. Characterized in that.

Window provided with the solar panel of the present invention by installing a solar panel that converts the solar energy into electrical energy in the glass window of the window installed in the opening of the building, by using the electrical energy converted from the solar panel in the building for energy use You can save money.

In addition, the present invention by installing a ground plate along the longitudinal direction of the window frame, and by installing a contact terminal for connecting the ground plate of the solar panel and the window frame in the window, the ground plate and the contact terminal is mutually sliding to open the window freely. And, by installing the window to be detachable from the window frame has the advantage of replacing the old window only when the replacement of the window is necessary due to the aging of the solar panel and the advantage of removing the foreign matter accumulated on the window frame.

In addition, the present invention has a storage battery that can store the electrical energy produced from the solar panel can use the electrical energy according to the needs of the user.

1 is a front view showing a window installed with a solar panel according to an embodiment of the present invention.
Figure 2 is a partially cut perspective view showing a state in which the contact terminal portion of the present invention in contact with the ground plate.
Figure 3 is a cross-sectional view of the window frame and the window cut vertically of the present invention.
4 is a perspective view showing a contact terminal portion of the present invention.
Figure 5 is a side view showing a method of operation of the contact terminal portion of the present invention.
Figure 6 is a perspective view of the rotary roller is installed on the contact plate of the present invention.
7 is a perspective view showing another operation method of the contact terminal portion of the present invention.
8 is a perspective view showing another embodiment in which a rotating roller is installed on the contact plate of the present invention.
9 is a perspective view showing a first embodiment of the contact terminal portion of the present invention.
10 is a perspective view showing a second embodiment of the contact terminal portion of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

1 is a front view showing a window installed with a solar panel according to an embodiment of the present invention, Figure 2 is a partial cutaway perspective view showing a contact terminal portion of the present invention in contact with the ground plate, Figure 3 is a window frame of the present invention 4 is a perspective view showing the contact terminal portion of the present invention, Figure 5 is a side view showing the operation method of the contact terminal portion of the present invention, Figure 6 is a contact roller of the present invention Figure 7 is a perspective view showing the installation, Figure 7 is a perspective view showing another operating method of the contact terminal of the present invention, Figure 8 is a perspective view showing another embodiment in which the rotary roller is installed on the contact plate of the present invention, Figure 9 is a view of the present invention 10 is a perspective view showing Embodiment 1 of a contact terminal portion, and FIG. 10 is a perspective view showing Embodiment 2 of a contact terminal portion of the present invention.

Referring to Figure 1 the window provided with a solar cell of the present invention has a window frame (100). The window frame 100 is fixedly installed along the circumferential surface of the opening of the building. That is, the window frame 100 has a frame shape and is installed in a rectangular frame shape along the inner circumferential surface of the opening.

1 and 3, the window frame 100 is fitted so that the window 200 slides left and right. At least one window 200 may be provided in the window frame 100. The window 200 includes a first glass window 210 in contact with the outside of the building and a second glass window 220 in contact with the inside of the building, and the first glass window 210 and the second glass window 220 are spaced at regular intervals. do. In addition, the window 200 includes a window frame 230 that fixes the first glass window 210 and the second glass window 220 along edges of the first glass window 210 and the second glass window 220.

Referring to FIG. 3, a solar panel 300 is formed between the first glass window 210 and the glass window 220. The solar panel 300 generates a DC current when directly converting sunlight into electrical energy. Such a DC current can be converted into an AC current through the control unit 600 described later.

1 and 2, a ground plate 400 is formed on an inner upper surface of the window frame 100. The ground plate 400 extends along the longitudinal direction of the window frame 100 and is formed of an electrically conductive material. That is, the ground plate 400 is formed of a conductor that allows current to flow well according to electrical properties such as silver, copper, iron, and aluminum. In addition, the ground plate 400 may include a storage battery capable of storing the converted electrical energy from the solar panel 300, and a power inverter for converting the DC current into an AC current so that the converted electrical energy may be used in an electrical product. It may be connected to the control unit 600 including. In this case, the controller 600 may be connected to various electrical appliances 700.

Referring to FIGS. 1 and 2, a contact terminal 500 is formed to electrically connect the solar panel 300 and the ground plate 400 so that the solar panel 300 and the ground plate 400 are electrically energized with each other. become. The contact terminal part 500 may be installed on the upper surface of the window 200 to slide in the window frame 100 integrally with the window 200. In this case, the contact terminal part 500 keeps in contact with the ground plate 400 installed in the window frame 100 and slides integrally with the window 200.

3 and 4, the contact terminal unit 500 includes a first body 510. The first body 510 is fixedly installed on the upper surface of the window 200. The first body 510 may be formed in a plate shape having a predetermined thickness and may be inserted into and fixed to an upper surface of the window 200. The hinge part 512 is formed at one side of the first body 510.

3 and 4, a first contact plate 520 is formed to be rotatably coupled to the hinge portion 512 of the first body 510. The first contact plate 520 may be fastened to the first body 510 in a vertical direction. The first contact plate 520 may be connected to the solar panel 300 and an electric wire, and the solar panel 300 and the ground plate 400 are energized with each other through the first contact plate 520. That is, the first contact plate 520 is formed in a plate shape having a predetermined thickness, and the first contact plate 520 is fastened so that one side is rotatably rotated in the vertical direction to the hinge portion 512 of the first body 510. When rotated upward, the other side of the first contact plate 520 is in contact with the ground plate 400.

Referring to FIG. 4, a first elastic member 530 is formed between the first contact plate 520 and the first body 510. One side of the first elastic member 530 contacts the bottom surface of the first contact plate 520 and the other side contacts the other side of the first body 510. The first elastic member 530 has a first contact plate 520 such that the other side of the first contact plate 520 contacts the ground plate 400 so that the solar panel 300 and the ground plate 400 are electrically energized with each other. Is elastically supported in the direction of the ground plate (400). That is, the first elastic member 530 rotates the first contact plate 520 upward so that the other side of the first contact plate 520 contacts the ground plate 400. In this case, the first elastic member 530 may be formed to be inclined at a predetermined angle to be perpendicular to the bottom surface of the first contact plate 520.

Referring to FIG. 5, when the window 200 is lifted upward, the first contact plate 520 rotates downward and the first elastic member 530 is compressed. As the bottom of the lifted window 200 is spaced apart from the bottom of the window frame 100, a gap having a predetermined width occurs between the bottom of the window 200 and the bottom of the window frame 100. At this time, the window 200 may be inclined at an angle to remove the window 200 from the window frame 100. Therefore, in order to clean the window frame 100 or replace the solar panel 300 installed in the window 200, when lifting the window 200 from the window frame 100 to lift the window 200 in the upward direction window frame 100 Remove the window (200).

Referring to FIG. 6, a rotating roller 521 is provided on the other side of the first contact plate 520. The rotary roller 521 is formed to be energized with the first contact plate 520 and is formed of the same material as the first contact plate 520. In addition, the rotary roller 521 may be installed to be rotatable on the first contact plate 520 and may be formed in a cylindrical shape in which the outer surface is in contact with the ground plate 400. Therefore, when the rotary roller 521 rotates when the window 200 is opened or closed, the rotary roller 521 and the ground plate 400 remain in contact with each other, and accordingly, the solar panel 300 and the ground plate ( 400) is mutually energized.

Referring to FIG. 7A, a moving groove 511 is formed in the first body 510. The moving groove 511 may be formed along the longitudinal direction of the first body 510 and may pass through the first body 510 in the vertical direction.

Referring to FIG. 7A, a height adjusting part 540 is formed to be rotatable through the first body 510. The height adjusting part 540 includes a head 541 positioned outside the first body 510 and a rotating rod 542 extending from the head 541 and penetrating the first body 510. Therefore, the rotating rod 542 may be located inside the moving groove 511. The head 541 and the rotating rod 542 are integrally formed. As the head 541 rotates, the rotating rod 542 rotates in the same manner. A thread may be formed on an outer circumferential surface of the rotating rod 542.

Referring to FIG. 7A, an elastic member holder 550 fastened to the rotating rod 542 is formed. The first elastic member 530 is fixed to the upper surface of the elastic member holder 550, and an insertion hole 551 into which the rotating rod 542 is inserted is formed. That is, the rotating rod 542 is inserted into the insertion hole 551 so that the elastic member holder 550 is fastened to the rotating rod 542. At this time, the insertion hole 551 penetrates the elastic member holder 550, and an inner circumferential surface of the insertion hole 551 is formed with a screw thread corresponding to the screw thread formed on the rotating rod 542. Therefore, when the head 541 rotates, the elastic member fixing member 550 fastened to the rotating rod 542 is guided to the moving groove 511 and is moved forward and backward due to the thread formed on the rotating rod 542 and the thread formed on the insertion hole 551. Can be moved.

Referring to FIG. 7B, when the head 541 rotates in the clockwise direction, the elastic member holder 550 moves forward and the height of the other side of the first contact plate 520 is lowered, and vice versa. ) Rotates in the counterclockwise direction, the elastic member holder 550 moves to the rear to increase the height of the bullet side of the first contact plate 520. Therefore, when the gap generated between the upper surface of the window 200 and the ground plate 400 of the window frame 100 is different, the solar panel 300 and the ground plate 400 installed in the window 200 due to the manipulation of the head 541. ) Can be energized.

Referring to FIG. 8, the contact terminal part 500 may be formed of the contact terminal part 500 having the same configuration as that of FIG. 7, and a rotating roller 521 may be provided on the other side of the first contact plate 520. The rotary roller 521 has the same shape, configuration, and effect as the rotary roller 521 described above.

Example 1

9, the contact terminal part 500 includes a second body 560. The second body 560 is fixedly installed on the upper surface of the window 200. The second body 560 may be formed in a plate shape having a predetermined thickness and may be inserted into and fixed to the upper surface of the window 200.

A second contact plate 570 is formed at an upper side of the second body 560 so that an upper surface thereof contacts the ground plate 400. The center of the second contact plate 570 protrudes upwards, and fastening holes 571 are formed in both side ends thereof. The second contact plate 570 is formed in a thin plate shape and the material is formed of an electric insulator.

Referring to FIG. 9, one side contacts the bottom surface of the second contact plate 570 and the other side contacts the top surface of the second body 560 to elastically support the second contact plate 570 in the direction of the ground plate 400. The second elastic member 580 is formed. That is, the second elastic member 580 elastically supports the second contact plate 570 in an upward direction in the direction of the ground plate 400 so that the second contact plate 570 may remain in contact with the ground plate 400. do.

At this time, the fixing pin 590 is inserted into the fastening hole 571 formed on both sides of the second contact plate 570 and fixed to the second body 560. The fixing pin 590 is formed in a rod shape having a predetermined length and maintains contact with the second contact plate 570. A fixing pin head 591 having a diameter larger than the diameter of the fastening hole 571 is formed above the fixing pin 590 and is elastically supported by the second elastic member 580 due to the fixing pin head 591. 2 prevents the contact plate 570 from being separated in the upward direction. The fixing pin 590 is formed for the purpose of guiding the movement of the second elastic member 580 when the external force is applied to the upper surface of the second contact plate 570 and the second contact plate 570 moves downward. do.

Meanwhile, the fixing pin 590 may include a first pin 592 having a hollow inside and a second pin 593 inserted into the first pin 592 such that the outer surface is in close contact with the inner surface of the first pin 592. Can be. That is, since the second pin 593 is inserted into the first pin 592, the moving distance of the second contact plate 570 moving downward may be increased.

Example 2

Referring to FIG. 10, the contact terminal part 500 includes a third body 501. The third body 501 is fixedly installed on the upper surface of the window 200. The third body 501 may be formed in a plate shape having a constant thickness. A contact plate housing 503 is provided on an upper surface of the third body 501, and a contact ball 502 is formed in the contact plate housing 503 to be in contact with the ground plate 400. The contact ball 502 is elastically supported by the third elastic member 504, one side of which is in contact with the outer surface of the contact ball 502 and the other side of which is in contact with the top surface of the third body 501.

That is, the contact ball 502 may be elastically supported by the third elastic member 504 to be moved up and down through repeated compression and tension of the third elastic member 504. In addition, the contact plate housing 503 guides the vertical movement direction of the contact ball 502, and at the same time prevents the separation from the upward direction by the elastic force by the third elastic member 504. At this time, since the contact ball 502 is formed in a spherical shape is maintained while being in contact with the ground plate 400 is rotated. The contact plate housing 503 is connected to the solar panel 300 described above, and the contact plate housing 503 and the contact ball 502 are moved and rotated up and down while maintaining contact with each other. The ground plate 400 may be energized through the contact plate housing 503 and the contact ball 502.

Therefore, the window provided with the solar cell of the present invention is installed in the solar panel window 200 for converting solar energy into electrical energy, thereby enabling the electrical energy converted from the solar panel 300 to be used in electrical appliances. You can save money.

In addition, the present invention can freely open the window 200, the window 200 in the window frame 100 is installed so that the separation is possible when the replacement of the window 200 due to the aging of the solar panel 300 old window There is an advantage that can only replace (200) and the foreign matter accumulated on the window frame 100 can be removed.

100: window frame 200: window
210: first glass window 220: second glass window
230: window frame 300: solar panel
400: ground plate 500: contact terminal
501: third body 502: contact ball
503: contact plate housing 504: third elastic member
510: first body 511: moving groove
512 hinge portion 520 first contact plate
521: rotating roller 530: first elastic member
540: height adjustment unit 541: head
542: rotating rod 550: elastic member holder
551: insertion hole 560: second body
570: second contact plate 580: second elastic member
590: fixed pin 591: fixed pin head
592: first pin 593: second pin
600: control unit 700: electrical appliances

Claims (5)

Window frame 100 is fixedly installed along the circumferential surface of the opening of the building;
A window 200 that is fitted to slide left and right in the window frame 100 and has a first glass window 210 in contact with the outside of the building and a second glass window 220 in contact with the inside of the building;
A solar panel 300 formed between the first glass window 210 and the second glass window 220 and converting solar energy into electrical energy;
A ground plate 400 extending along the longitudinal direction of the window frame 100 and installed on an inner upper surface of the window frame 100 and made of an electrically conductive material; And
The solar panel 300 and the ground plate 400 are installed in the window 200 so as to be energized and slide while maintaining contact with the ground plate 400, the upper surface of the window 200. A first body 510 fixed to the first body 510; One side is fastened to be rotatable with one side of the first body 510, the other side is provided with a rotating roller 521 is installed so that the outer surface is in contact with the ground plate 400, the rotating roller ( A first contact plate 520 in electrical communication with 521; And a first portion formed between the first contact plate 520 and the first body 510 so that the other side of the first contact plate 520 may be in contact with the ground plate 400. A contact terminal part 500 including a first elastic member 530 that elastically supports the contact plate 520 in the direction of the ground plate 400;
Window provided with a solar panel comprising a.
delete delete The method of claim 1,
A moving groove 511 is formed in the first body 510 along the longitudinal direction of the first body 510, and a head 541 and the head 541 positioned outside the first body 510. A height adjusting part 540 is formed, which includes a rotating rod 542 extending from the first body 510 so as to be located inside the moving groove 511 and integrally rotating with the head 541. ,
The first elastic member 530 is fixed to an upper surface of the rotating rod 542, and when the head 541 rotates, the height of the other side of the first contact plate 520 contacting the ground plate 400 is increased. Window with a solar panel, characterized in that the elastic member holder 550 is formed to move in the front and rear directions along the rotating rod 542 to be adjusted.
The method of claim 1,
The contact terminal 500 is
A second body 560 fixed to an upper surface of the window 200;
A second contact plate 570 having an upper surface contacting the ground plate 400 and having fastening holes 571 formed therebetween, respectively;
One side is in contact with the bottom surface of the second contact plate 570 and the other side is in contact with the top surface of the second body 560 so that the second contact plate 570 may remain in contact with the ground plate 400. A second elastic member 580 which contacts and supports the second contact plate 570 in the direction of the ground plate 400;
The second contact plate 570 elastically supported by the second elastic member 580 is prevented from escaping upward, and when the external force is transmitted to the upper surface of the second contact plate 570, the second contact A fixing pin 590 inserted into each of the fastening holes 571 of the second contact plate 570 to guide the plate 570 to move downward, and fixed to the second body 560;
Window provided with a solar panel comprising a.

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