KR102312583B1 - Power Supply Apparatus for Apartment House - Google Patents

Abstract

The present invention may provide a power supply apparatus for an apartment house, which includes: a solar cell panel (130); a support frame (120) connected with and supported by the solar cell panel (130); and a fixing frame (110) installed on a body unit and connected to the support frame (120). The body unit includes: a predetermined main body (10); first and second insertion panels (410, 510) installed at a lower end of the main body (10); a central fixation body (610) installed on a base (B) and positioned between the first and second insertion panels (410, 510); a fixation body (710) at one side installed on the base (B) and positioned to be placed between the central fixation body (610) and the first insertion panel (410); and a fixation body (810) at the other side installed on the base (B) and positioned to be placed between the central fixation body (610) and the second insertion panel (510), wherein the first insertion panel (410) is pressed and supported through the central fixation body (610) and the fixation body (710) at one side, and the second insertion panel (510) is pressed and supported through the central fixation body (610) and the fixation body (810) at the other side.

Description

Power Supply Apparatus for Apartment House

The present invention relates to a power supply device for apartment houses in the field of electric technology, and more particularly, to provide a constant power supply device using solar power to improve power generation efficiency, but the stable structure and fixing power of the power supply device itself It relates to a power supply for an apartment house that is installed to have resistance to natural disasters or various negative factors through the

In the case of the existing technology, it is installed with a fixed angle, so the improvement of the structural stability of the power supply means itself and maintenance and repair, etc. there was

Korean Patent Registration No. 10-1608925

The present invention provides a constant power supply device using solar power to improve power generation efficiency, but is installed to have resistance to natural disasters or various negative factors through the stable structure and fixing power of the power supply device itself An object of the present invention is to provide an apartment house power supply.

The problems of the present invention are not limited to the problems mentioned above, and other problems not mentioned will be clearly understood by those skilled in the art from the following description.

The present invention relates to a power supply device for an apartment complex. solar panel 130; a support frame 120 connected and supported with the solar cell panel 130; and a fixed frame 110 installed on the body unit and connected to the support frame 120 , wherein the body unit includes a predetermined main body 10 and a first installed at the lower end of the main body 10 . , 2 insertion panels (410, 510), is installed on the base (B), the central fixture 610 positioned between the first and second insertion panels (410, 510), and installed on the base (B) and a one-way fixture 710 positioned to be placed between the central fixture 610 and the first insert panel 410, and the central fixture 610 and the second insert panel installed on the base B. It includes the other fixture (810) positioned to be placed between (510), the first insertion panel 410 is supported by pressing through the central fixture 610 and the one-way fixture 710, the The second insert panel 510 is supported by pressure through the central fixture 610 and the other fixture 810, and the one-way fixture 710 slides on the base portion B to form the first The insertion panel 410 is pushed toward the central fixture 610, and the other fixture 810 slides on the base B to move the second insert panel 510 toward the central fixture 610. Pushing, the central fixed body 610, the first-1-1 movable module 612 installed on the upper portion of the predetermined first body portion 611, and the first- The first-second movable module 614 connected based on the first connector 613 and the first-second movable module 614 connected based on the 1-2 connector 615 to the other side of the first-first movable module 612 . A third movable module 616, a 1-1 movable panel 6141 installed under the 1-2 movable module 614, and a 1-th movable panel 6141 installed below the 1-3 movable module 616 2 movable panel 6161, a plurality of 1-1 pattern structures (T11) installed in the outer height direction of the 1-1 movable panel 6141 and inserted and pressed into the first insertion panel 410; A plurality of first and second movable panels 6161 are installed in the outer height direction, and are inserted and pressed into the second insertion panel 510 . It provides an apartment house power supply including a 1-2-th pattern structure (T12).

According to the present invention as described above, there are one or more of the following effects.

The present invention provides a constant power supply device using solar power to improve power generation efficiency, but through the stable structure and fixing power of the power supply device itself, a cavity installed to have resistance to natural disasters or various negative factors A home power supply can be provided.

In addition, electricity may be supplied through solar power generation or unused electricity may be accumulated in a battery to be utilized in the evening when solar power generation is impossible.

In addition, according to the movement path of the sun, it can be rotated in conjunction with each hour or season so that the optimal power generation efficiency is possible, so that the power generation efficiency can be improved through the optimal solar power generation.

In addition, when a wind such as a typhoon blows, damage to the solar cell panel can be prevented in advance by separating the support frame from the fixed frame and arranging the support frame together with the solar cell panel in an indoor space.

1 is a configuration diagram schematically showing a regular power supply using solar power generation according to an embodiment of the present invention.
FIG. 2 is a view showing the fixed frame of FIG. 1 .
FIG. 3 is a view showing the support frame of FIG. 1 .
4 to 5 are diagrams showing the configurations of a regular power supply using solar power according to another embodiment of the present invention.

Hereinafter, preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, the terms or words used in the present specification and claims should not be construed as being limited to conventional or dictionary meanings, and the inventor appropriately defines the concept of the term in order to best describe his invention. Based on the principle that can be done, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

1 is a configuration diagram schematically showing a regular power supply device using solar power according to an embodiment of the present invention. As shown in FIG. 1 , a regular power supply device using solar power according to an embodiment of the present invention includes a photovoltaic power generation device 100 that generates electricity through photovoltaic power generation, and the photovoltaic power generation device 100 . ) and a battery 200 for charging by receiving electricity produced from it, and an electric device 300 connected to the battery 200 and operated by receiving the charged electricity, and the solar power generation device 100 The fixed frame 110 is installed in the vertical direction on the installation surface (A) and has a polygonal inner surface, and is detachable from the fixed frame 110 and is external to correspond to the polygonal shape of the fixed frame 110 . The surface has a polygonal shape and includes a support frame 120 for supporting the solar cell module 130 .

Here, the solar power generation device 100 is fixed on the installation surface (A) and maintains the set elevation angle so that the azimuth is adjusted along the movement path of the sun. Here, the installation surface is described as an example of a roof, a roof, or a wall surface of a building, and the installation surface A is not limited thereto.

In addition, it goes without saying that the number of solar panels may be changed according to the size of the installed photovoltaic device 100 . The fixing frame 110 is fixed to the installation surface A through a fixing means 140 .

The support frame 120 is inserted into the inner space of the fixed frame 110 to be fixed. The battery 200 is not limited to a lithium ion battery, and a nickel metal hydride battery (NiMH) or the like may be applied. In addition, a separate overcharge protection circuit (not shown) may be mounted to prevent over-charging of the battery 200 .

In addition, a charge/discharge indicator 210 is configured on one surface of the battery 200, and the charge/discharge indicator 210 shows red when the battery 200 is being charged, and is converted to green when charging is completed. The user can visually confirm that charging is complete. The charging/discharging indicator 210 is configured in a scale form so that the user can not only know the charge/discharge state step by step, but also visually check the amount of discharge when using the power charged in the battery 200. 200) can be checked.

The usage time of the battery 200 is affected by the temperature, and when the temperature drops below zero or becomes 40 degrees or more, the battery life can be further extended by not forcibly charging and discharging. For example, in a battery, when heat is generated, the resistance increases as the temperature of the electrolyte inside increases. As the battery life is rapidly shortened due to the evaporation of the electrolyte, when the temperature rises more than 40 degrees Celsius, charging and discharging of the battery is automatically stopped to extend the life of the battery.

The photovoltaic device 100 includes a plurality of solar cells to convert sunlight into electrical energy. In this case, the solar cell is mainly made of silicon and a composite material. Specifically, the solar cell is used by bonding a P-type semiconductor and an N-type semiconductor, and uses the photoelectric effect of generating electricity by receiving sunlight. In this way, when a large-area P-N junction diode is manufactured, the electromotive force generated at both ends of the P-N junction diode can be connected to an external circuit, so that sunlight can be easily converted into electrical energy. Such a solar cell is manufactured in units of a plurality of cells, and the voltage from one cell is very small, about 0.5V, compared to several V to several tens or hundreds of volts (V) or more. Solar cells can be connected in series or parallel to produce very high electrical energy. The fixing means 140 is fixed through an anchor bolt to fix the fixing frame 110 to the installation surface (A).

Although the electric device 300 is described as an embodiment of the television, the present invention is not limited thereto, and any home appliance such as a radio, a refrigerator, or a computer may be used. At this time, the refrigerator may store medicines needed in the tropics.

FIG. 2 is a view showing the fixed frame of FIG. 1 , and FIG. 3 is a view showing the support frame of FIG. 1 . As shown in FIG. 2 , the fixed frame 110 is formed of a holding pipe having a polygonal internal space, and the supporting frame 120 has a polygonal outer shape of the fixed frame 110 as shown in FIG. 3 . It is composed of a holding pipe having a polygonal shape corresponding to the shape. Since the holding pipe 210 is fixed to the ground, it is made of aluminum or an alloy thereof to prevent corrosion such as moisture.

The support frame 120 is inserted into and fixed to the inside of the fixing frame 110, and since the inside and the outside are each formed in a polygonal shape, there is no need for a separate fixing means and it is possible to prevent the flow in advance.

The solar cell panel is in a state of being fixed to the installation surface (A) of the fixing frame (110), and the support frame (120) is inserted into the fixing frame (110) fixed to the installation surface (A) at various angles. By adjusting the direction of 130 to be the optimal position for sunlight, it is possible to further improve the solar power generation efficiency.

The internal space of the support frame 120 is formed to have a larger diameter than that of the support frame 120 so that the support frame 120 can be easily attached to and detached from the fixing frame 110 . On the other hand, although it is described that the inner space of the fixed frame 110 has a polygonal shape, it is not limited thereto, and the exterior of the fixing frame 110 is configured in a polygonal shape and the internal shape of the support frame 120 is in a polygonal shape. The support frame 120 may be fixed by inserting the support frame 120 to surround the fixing frame 110 .

In addition, the polygons formed in the fixed frame 110 and the support frame 120 may be configured in various shapes such as hexagons or octagons, and may be configured in more shapes for fine direction control. One or a plurality of solar cell panels 130 are installed on the upper surface of the support frame 120 and provide a function of supporting them. The number of solar cell panels 130 installed is set according to the power generation scale.

Meanwhile, an inverter (not shown) is additionally configured at the output terminal of the battery 200 so that the electric device 300 may operate with AC power. In addition, when the battery 200 cannot be charged because the solar power generation device 100 fails to generate normally due to weather conditions, the electric device 300 operates by receiving external commercial power or the battery 200. may receive and store the commercial power for use.

Although the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

4 to 5 are diagrams showing the configurations of a regular power supply using solar power according to another embodiment of the present invention. Hereinafter, based on the above-described content, the description will be focused on parts having technical characteristics.

4 to 5, in the apartment house power supply. solar panel 130; a support frame 120 connected and supported with the solar cell panel 130; and a fixed frame 110 installed on the body unit and connected to the support frame 120 . Here, the body unit includes a predetermined main body 10, first and second insertion panels 410 and 510 installed at the lower end of the main body 10, and the first and second insertion panels 410 and 510 installed on the base B. 2 A central fixture 610 positioned between the insert panels 410 and 510, and a one-way height that is installed on the base B and positioned to be placed between the central fixture 610 and the first insert panel 410 It may include a body 710 and the other fixture 810 installed on the base B and positioned to be placed between the central fixture 610 and the second insertion panel 510 .

The first insert panel 410 is supported by pressing through the central fixture 610 and the one-way fixture 710, and the second insert panel 510 includes the central fixture 610 and the other fixture ( (810)) is supported under pressure, and the one-way fixture 710 slides on the base B to push the first insert panel 410 toward the central fixture 610, and the other fixture ( (810)) slides on the base (B) to push the second insertion panel 510 toward the central fixture 610, and the central fixture 610 is a predetermined first body part 611 upper part a 1-1 movable module 612 installed in the , the 1-3 movable module 616 connected to the other side of the 1-1 movable module 612 based on the 1-2 connector 615, and the 1-2 movable module 614 under the The 1-1 movable panel 6141 installed, the 1-2 movable panel 6161 installed below the 1-3 movable module 616, and the outer side of the 1-1 movable panel 6141 A plurality of first-first pattern structures (T11) installed in a height direction and inserted and pressed by the first inserting panel 410, and a plurality of first-first pattern structures (T11) installed in a height direction outside of the 1-2 first movable panel (6161), the It may include a 1-2-th pattern structure T12 inserted and pressed into the second insertion panel 510 .

In addition, the one-way fixed body 710 includes a 2-1-th movable module 712 installed on an upper portion of a predetermined second body 711 and a second-second to one side of the 2-1-th movable module 712 . The second-second movable module 714 connected based on the first connector 713 and the second-second movable module 714 connected to the other side of the second-first movable module 712 based on the second second connector 715 . A third movable module 716, a 2-1 movable panel 7141 installed under the 2-2 movable module 714, and a 2-th movable panel 7141 installed below the 2-3 movable module 716 A second movable panel 7161 and a plurality of second pattern structures T2 installed in the outer height direction of the 2-1 movable panel 7141 and inserted and pressed into the first insertion panel 410 may be included. have.

The other fixed body 810 includes a 3-1 movable module 812 installed on an upper portion of a predetermined third body 811, and a third to one side of the 3-1 movable module 812. The third 3-2 movable module 814 connected based on the -1 connector 813 and the third connected based on the 3-2 connector 815 to the other side of the 3-1 movable module 812 -The third movable module 816, the 3-1 movable panel 8141 installed below the 3-2 movable module 814, and the third movable module 816 installed below the 3-3 movable module 816 -2 movable panel 8161 and a third pattern structure T3 installed in the outer height direction of the 3-1 movable panel 8141 and inserted and pressed into the second insertion panel 510 can

On the other hand, the 1-2 movable module 614 flows based on the 1-1 connector 613 of the 1-1 movable module 612 and enters the inside of the first insertion panel 410 . is pressed, and the 1-3 movable module 616 flows based on the 1-2 connector 615 of the 1-1 movable module 612 to the inside of the second insertion panel 510 . Entered and pressed, the 2-2 movable module 714 flows based on the 2-1 connector 713 of the 2-1 movable module 712, and the inside of the first insertion panel 410 is entered and pressed, and the 3-2 movable module 814 flows based on the 3-1 connector 813 of the 3-1 movable module 812, and the second insertion panel 510 You can go inside and press it.

Here, the apartment house power supply device includes a first vertical support 910 provided on the outermost upper part of one side of the base B, and a first horizontal support 911 provided horizontally in the first vertical support 910 . ), a first side panel body 912 interlocked with the first horizontal support 911 and pressing in contact with one side of the traditional body 10, and a second vertical provided on the top of the other side of the base (B) A support 1010, a second horizontal support 1011 provided horizontally in the second vertical support 1010, and the second horizontal support 1011 are linked to the second horizontal support 1011 to contact and press the other side of the traditional body 10 It may further include a two-side panel body (1012).

The first side panel body 912 is mounted on the traditional 10 as a first protruding body 913 on the front side, and the first horizontal support 911 is rotationally flowed from the first vertical support 910. , The second side panel body 1012 is mounted on the traditional 10 as a second protruding body 1013 on the front side, and the second horizontal support 1011 is rotated from the second vertical support 1010. Thus, it is possible to generate a fixing force for the traditional (10).

In the driving method of the above-described components, forward and backward movement and rotational movement are made based on a motor, an actuator, and the like, and the shape and size of each component may be variously selected and provided according to the installation site and materials to be implemented. Although the present invention has been described with reference to the embodiments shown in the drawings, which are merely exemplary, those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Accordingly, the true technical protection scope of the present invention should be determined by the technical spirit of the appended claims.

100: solar power device 110: fixed frame
120: support frame 130: solar panel
140: fixing means 200: battery
300: electrical equipment

Claims (1)

In the apartment power supply.
solar panel 130;
a support frame 120 connected and supported with the solar cell panel 130; and
It is installed on the body unit and includes a fixed frame 110 connected to the support frame 120,
The body unit,
A predetermined body 10, and
The first and second insert panels (410, 510) installed at the lower end of the main body (10),
A central fixture 610 installed on the base B and positioned between the first and second insertion panels 410 and 510;
One-way fixture 710 installed on the base (B) and positioned to be placed between the central fixture 610 and the first insertion panel 410;
It is installed on the base (B) and includes the other fixture (810) positioned to be placed between the central fixture (610) and the second insertion panel (510),
The first insert panel 410 is supported by pressing through the central fixture 610 and the one-way fixture 710,
The second insertion panel 510 is supported by pressure through the central fixture 610 and the other fixture 810,
The first insert panel 410 is,
The central fixture 610 and the one-way fixture 710 are pressed and supported, and the second insertion panel 510 is supported by pressure through the central fixture 610 and the other fixture 810. ,
The one-way fixture 710 is,
It slides on the base (B) to push the first insert panel 410 toward the central fixture 610,
The other fixture (810) is,
It slides on the base (B) to push the second insert panel 510 toward the central fixture 610,
The central fixture 610 is,
A 1-1 movable module 612 installed on an upper portion of a predetermined first body 611 is connected to one side of the 1-1 movable module 612 based on the 1-1 connector 613 . A 1-2 operation module 614, a 1-3 operation module 616 connected to the other side of the 1-1 operation module 612 based on a 1-2 connector 615, and the first operation module 612 The 1-1 movable panel 6141 installed under the 1-2 movable module 614, the 1-2 movable panel 6161 installed under the 1-3 movable module 616, and the first movable panel 6141 A plurality of 1-1 pattern structures T11 installed in the outer height direction of the 1-1 movable panel 6141 and inserted and pressed into the first insertion panel 410, and the 1-2 movable panel 6161 It includes a plurality of first and second pattern structures (T12) installed in the outer height direction of the second inserting panel 510 and pressurized to be inserted,
The one-way fixture 710 is,
A 2-1-th movable module 712 installed on a predetermined second body portion 711 and one side of the 2-1-th movable module 712 are connected based on the 2-1 connector 713 A 2-2 operation module 714, a 2-3 operation module 716 connected to the other side of the 2-1 operation module 712 based on a 2-2 connector 715, and the first operation module 712 A 2-1 movable panel 7141 installed under the 2-2 movable module 714, a 2-2 movable panel 7161 installed under the 2-3 movable module 716, and the first movable panel 7141 It includes a plurality of second pattern structures (T2) installed in the outer height direction of the 2-1 movable panel (7141) and inserted and pressed into the first insertion panel (410),
The other fixture (810) is,
A 3-1 movable module 812 installed on an upper portion of a predetermined third body portion 811 and one side of the 3-1 movable module 812 are connected based on a 3-1 connector 813 A 3-2 movable module 814, a 3-3 movable module 816 connected to the other side of the 3-1 movable module 812 based on a 3-2 connector 815, and the first A 3-1 movable panel 8141 installed under the 3-2 movable module 814, a 3-2 movable panel 8161 installed under the 3-3 movable module 816, and the first movable panel 8161 3-1 A multi-family housing power supply including a third pattern structure (T3) installed in the outer height direction of the movable panel (8141), and being pressed into the second insertion panel (510).

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