KR102149749B1 - Self-contained farm house using solar double-sided module - Google Patents

Abstract

The present invention relates to a self-contained farmhouse using a double-sided photovoltaic module. According to the present invention, the self-contained farmhouse using a double-sided photovoltaic module comprises: a fixing device located in a lower part of a photovoltaic device; a height adjusting device located in a higher part of the photovoltaic device; and a height adjusting guide device. According to the present invention, the productivity of a photovoltaic collecting panel can be increased.

Description

Self-contained farm house using solar double-sided module}

The present invention relates to a self-contained farm house using a photovoltaic double-sided module, and more specifically, by utilizing the roof of a residential building, farmhouse warehouse, and workshop without eroding the land surface such as farmland and mountain areas to increase the maximum efficiency for new and renewable energy. It is related to a self-supporting farm house using solar double-sided modules installed for the purpose of survival without leaving the living area due to inability to generate income due to long-term retirement measures and labor decline of farmers by producing energy and preserving the environment.

In general, most solar modules are manufactured to use only one side, and are installed so as to receive sunlight only on the top of the module.

In order to produce a lot of electricity with the single-sided solar module, the solar module must be widely installed, and thus a wide power plant member purchase cost and a large installation cost are required, and the problem of environmental destruction is also emerging.

In order to solve this problem, countries around the world are investing a lot of time and money to improve the power generation efficiency by 1~2%, but there is a very difficult problem in the development of a photovoltaic module that dramatically increases power generation efficiency. have.

Solar power is installed by using the large land in the farmland and mountain areas around the dwelling, but even though new lines must be expanded, the substation line capacity and cost are limited.

Rural areas generally have wide roofs, such as residential houses and warehouses where they live.In this case, they are attached or fixedly installed on the roof to generate profits, and single-sided modules are installed. In the following period, the amount of power generation is small, so it is used for self-demand.

Farmhouse housing is generally in wide demand, so it is intended to maximize efficiency to enable commercial operation and serve as a source of farm household income.

A reflector is formed on the roof, and a double-sided solar module is used on the top, and the angle is fixed according to the season and the amount of sunlight incidence, preventing interference from high temperatures in the cold season and snow in winter, and generating electricity generated during the daytime. Commercial operation is possible by charging and transmitting power using late-night time when there is much room for the track.

In addition, as the farming village is getting older, the lack of long-term lapse measures and labor force decreases, making it difficult to create income, making life difficult, so there is a problem that it is not possible to block the departure of the elderly as well as the younger population leaving the rural area.

[Document 1] Patent Registration No. 1972149 (registered on April 18, 2019) [Document 2] Patent Registration No. 1522372 (registered on May 15, 2015) [Document 3] Patent Registration No. 1722040 (registered on March 27, 2017) [Document 4] Patent registration number 1800385 (registered on November 16, 2017)

Therefore, it was conceived to solve such a conventional problem, and the object of the present invention is to solve the problem of inability to generate income due to the absence of long-term retirement measures in rural areas and a decrease in labor force, so that they can survive without leaving the living area. To do.

Another object of the present invention is to increase maximal efficiency by using a roof of a building without eroding the ground surfaces of farmland and mountain areas, and to preserve the environment by producing new and renewable energy.

Another problem to be solved of the present invention is to transmit power at night during a ceasefire, and charge the electricity generated during the day to a rechargeable battery (ESS), and then transmit it to a substation without line extension, and the residential environment of a rural farmhouse with many residential spaces. It aims to contribute to.

Another problem of the present invention is to reduce the temperature by spraying coolant when the temperature is too high in the summer, and to remove the snow by spraying hot water when it snows in winter, thereby improving the productivity of the solar collector. , Reflector plate on the roof In the case of a prefabricated roof, the reflector is plated with nickel or chrome to lay the reflector, and the purpose is to increase the amount of power generation by using double-sided modules on it.

The present invention consists of a solar device for installing a module on the upper side of the section steel is installed at regular intervals to cross the square pipe on the roof of the building;
A floating metal having a connecting hole to which a connecting shaft connected to a square bracket to which a square pipe is coupled is installed on both sides and includes a fixing device located at a lower part of the solar device, and located at a high part of the solar device. , It includes a height adjustment device that is fixed with a set bolt on the upper side of the fixing column, and the height is adjusted through a rotating table on which a handle is formed, and after a male screw is formed on the lower side, a roof fixing unit is installed on the upper side,
As the height is adjusted together with the height adjustment device, the angle of the module is adjusted, and a square connecting rod is installed on the upper side of the rod that passes through the hollow pipe that is connected to the upper side of the floor support installed at regular intervals and the fixing bolt is installed on the upper side. In the self-supporting farm house using a solar double-sided module including a guide device,
The height adjustment device forms a fixing column in which a worm female screw is formed in an inner diameter in the same row as the height adjustment guide device, is coupled to fix the movable column with a set bolt on the upper side of the fixing column, and the handle protrudes to increase the height of the movable column. Comprising of a moving pillar having a male screw connected to the rotating table and installing a rotating table to adjust,
The height adjustment guide device is installed at regular intervals in the same row as the height adjustment device so that the rod moving along the height adjustment device for adjusting the height and angle of the square pipe passes through the hollow pipe, and the rod is placed on the upper side of the hollow pipe. It includes a fixing bolt to fix,
The solar device is installed along the direction of the double-sided module by protruding the water supply pipe to the upper side of the pump to which the cooling device and the hot water device are connected, and bent at a higher position than the highest point of the double-sided module at the top of the top, and spraying nozzles at regular intervals. The length of the hose is adjusted according to the height adjustment, and one of cooling water and hot water is selected and sprayed, and a thermometer and a spray switch for controlling water supply are installed in the water supply pipe.

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The present invention solves the problem of the inability to generate income due to the absence of long-term retirement measures in rural areas and the decrease in labor force, thereby providing a living place by providing high-efficiency commercial power generation facilities made of solar power to warehouses, houses, workshops, plant cultivators, and livestock breeders in rural areas. It provides the effect of making it possible to survive by creating income without leaving.

The present invention uses the roof of buildings such as warehouses, houses, workshops, plant cultivators and livestock breeders in rural areas without encroaching on the ground surfaces of farmland and mountain areas, thereby increasing the maximum efficiency for electricity production using solar heat, and renewable energy It is to provide the effect of preserving the environment by producing it.

The present invention provides an effect of charging electricity produced during the day to a battery, transmitting power at night, and transmitting it to a substation without extension of a line, and contributing to productivity improvement through a residential environment of a rural farmhouse with many residential spaces.

The present invention improves the productivity of the solar collector by spraying coolant to reduce the temperature by spraying coolant when the temperature is too high in summer, and by supplying hot water to melt and remove when snow accumulates in winter. It provides the effect of increasing the amount of power generated through reflection from the floor.

1 is a perspective view showing a preferred embodiment of the present invention
Figure 2 is a front view showing the installation state of the present invention
Figure 3 is a side view showing the installation state of the present invention
Figure 4 is a plan view of the main part showing the installation state of the present invention
Figure 5 is a perspective view of an isolated state of the fixing device of the present invention
Figure 6 is a side view of the installation state of the fixing device of the present invention
7 is a front view of the installation state of the fixing device of the present invention
Figure 8 is a front cross-sectional view of an installation state of the height adjustment device of the present invention
Figure 9 is a front cross-sectional view of the installation state of the height adjustment guide device of the present invention
10 is a front view of the temperature control device of the present invention

Terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the applicant may appropriately define the concept of terms in order to explain his or her design in the best way. It should be interpreted as having a meaning and concept consistent with the technical idea of the present invention based on the principle that there is.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and do not represent all the technical ideas of the present invention, and various equivalents that can replace them at the time of application It should be understood that there may be variations.

Prior to the description with reference to the block diagram below, matters that are not necessary to reveal the gist of the present invention, that is, known configurations that can be obviously added by those skilled in the art are not shown or specifically described. Make the note clear.

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

1 is a perspective view showing a preferred embodiment of the present invention, Figure 2 is a front view showing the installation state of the present invention, Figure 3 is a side view showing the installation state of the present invention, Figure 4 is a main showing the installation state of the present invention It shows the plan view of the part.

A fixing device having a low height when the double-sided module 51 is installed inclined on the roof of the building 80 by utilizing the roof of various buildings 80 such as houses or farmhouse workshops, plant growers, livestock breeders, and farmhouse warehouses. ), and the height adjustment guide device 30 is installed at a high height with a constant distance from the fixing device 10, and in the process of installing the height adjustment guide device 30 at a regular distance, It is to install a height adjustment device 20 that allows the height to be adjusted as needed.

The fixing device 10 and the height adjustment guide device 30 are installed in an inclined manner so that the direction of the height control guide device 30 is inclined higher, and after fixing the square pipe 53 at regular intervals, the square pipe 53 and the It is to install a double-sided module 51 capable of generating electricity in all directions of the upper side and the lower side by installing a section steel 52 made of a seed steel or the like in an intersecting orthogonal direction at prescribed intervals.

The double-sided module 51 is installed to adjust the inclination angle according to the incident angle for each season.

A floor reflective member 60 is installed on the roof of the building 80; In the case of a slab roof, either reflective paint or reflective sheet paper is attached so that light is reflected from the lower side of the double-sided module 51 so that it can be produced, and is made of steel structures such as warehouses, garages, barns, plant cultivation houses, and drying rooms. In the case of the building 80, a plated steel plate made of one of chrome (Cr) and nickel (Mi) is installed as the floor reflective member 60 to reflect the roof itself.

The photovoltaic device 50 made of the double-sided module 51 is installed at an inclined direction toward the sunlight on the top of the section steel 52, and a temperature controller 40 is installed in one direction of the photovoltaic device 50 so that it is not too late in summer. To prevent the rise to a high temperature, and to install a temperature control device 40 for spraying cooling water or hot water when melting snow accumulated in winter.

The temperature control device 40 is a water supply pipe 42 from a pump 41 installed so that a cooling device for controlling the temperature of cooling water and a hot water device for supplying by controlling the temperature of hot water are connected to the floor or roof of the building 80 Is connected, and the length of the water supply pipe 42 and the water supply nozzle 53 is adjusted according to the height adjustment with the hose 49, and is installed at the highest position in the inclined direction of the solar device 50 at a constant interval. The cooling water or hot water is sprayed through the water supply nozzle 53.

The electricity produced from the solar device 50 installed in the building 80 stores the direct current electricity produced by the double-sided module 51 in the battery 71 made of a power storage device (ESS), and the stored current is an inverter Through (72), it is installed so that it can be delivered to the KEPCO substation using the electric wires installed on the power pole 73 for about 6 hours at midnight hours (from 10 pm to 4 am the next day).

FIG. 5 is a perspective view showing an isolated state of the fixing device of the present invention, FIG. 6 is a side view of the fixing device of the present invention, and FIG. 7 is a front view of the fixing device of the present invention.

The fixing device 10 connecting the photovoltaic device 50 to a low position forms a square bracket 11 in which a pipe fixing groove 16 for placing a square pipe 53 installed in an inclined direction is formed at regular intervals. As a result, the fastening hole 13 is installed to be fastened through the pipe fixing bolt 17, or the sagging pipe 53 and the square bracket 11 are fixed by welding.

The square bracket 11 is connected by welding in an integral form through the connection shaft 12 penetrating downward, and a flow metal 14 having a connection hole 15 through which the connection shaft 12 penetrates at regular intervals. It is fixed to the floor through.

The connection shaft 12 penetrating through the connection hole 15 is installed so as to be rotatable and connected to allow the angle of the solar device 50 to be adjusted.

It is preferable that the square bracket 11 is installed inclined in the installation direction of the square pipe 53.

8 is a front cross-sectional view showing an installation state of the height adjustment device of the present invention, the height adjustment device 20 supports the high portion of the double-sided module 51 in the same row as the height adjustment guide device 30 and the height or It is to adjust the inclination angle, and by installing the floor holder (27) on the floor, a fixing column (21) is formed in which the inclination angle is adjusted upward.

The fixing column 21 has a worm female screw 22 formed in the inner diameter, and a rotating table 29 is installed at the top, and several handles 25 are installed in the outer diameter of the rotating table 29, and the lower side of the handle 25 The set bolt 26 is installed.

The male screw 24 coupled to the worm female screw 22 is formed on the lower side to adjust the height of the movable column 23, and the roof holder 28 is formed on the upper side so that the angle and height of the square pipe 53 can be adjusted. To be installed.

9 is a front cross-sectional view showing an installation state of the height adjustment guide device of the present invention, the height adjustment guide device 30 is installed at regular intervals in the same row as the height adjustment device 20, the height of the square pipe 53 It moves along the height adjustment device 20 for adjusting the angle, and a hollow pipe 31 that rotates by adjusting the height and angle from the floor support 34 fixed to the floor is installed.

One or more fixing bolts 33 are installed on the upper end of the hollow pipe 31 to fix the rod 32 penetrating the inner diameter, and the rod 32 has a square connecting rod 35 formed on the upper side. It is installed so that the angle and height of the square pipe 53 can be adjusted.

10 is a front view of the temperature control device of the present invention, the temperature control device 40 is a pump 41 to which a cooling device that regulates and cools the temperature of water and a hot water device that heats and supplies hot water The water supply pipe 42 protrudes upward and is bent at a higher position than the highest of the double-sided modules 51 of the photovoltaic device 50 at the top of the upper end, installed along the direction of the double-sided module 51 and sprayed at regular intervals The hose 49 is installed in the nozzle 43 so as to be length-adjusted to select and spray either cooling water or hot water.

The water supply pipe 42 and a thermometer 44 for checking the temperature and a spray switch 45 for controlling the water supply are installed at any one location that is easy to manage to select water supply or to automatically supply water. To install.

The present invention made in such a configuration is to overcome the difficulty of survival due to the decrease in labor force and inability to generate income due to the absence of long-term retirement measures of farmers so that they can survive without leaving the living area, and farmland and mountain areas, which are a general solar installation function It is to provide maximum efficiency by using the roof of buildings built for various purposes without encroaching on the ground surface, and to produce new and renewable energy to preserve the environment.

The solar device 50 is to install a square pipe 53 in an oblique direction and a section steel 52 in a direction orthogonal to the square pipe 53 at regular intervals, and then install a double-sided module 51 on the upper side thereof. .

The double-sided module 51 is grouped and arranged in about 10 sheets as necessary, and is adjusted in consideration that the incident angle of light changes according to the season (spring, summer, autumn, winter).

Loosen the fixing bolt 33 of the height adjustment guide device 30, loosen the set bolt 26 installed on the rotating table 29 of the height adjustment device 20 so that it rotates freely, and hold the handle 25 and rotate it. Since the height of the moving pillar 23 is adjusted from the inner diameter of the fixed pillar 21, the angle and height of the solar device 50 can be adjusted by increasing or lowering the height of the roof holder 28 as needed. To control.

As the angle and height of the photovoltaic device 50 are adjusted by the height adjustment guide device 30, the height adjustment guide device 30 allows the rod 32 passing through the hollow pipe 31 to adjust the height. It is moved and moves corresponding to the height.

After adjusting the height of the photovoltaic device 50 through the height adjustment guide device 30, the set bolt 26 is locked so that the moving column 23 is fixed to the fixed column 21 so that the height is set. It is stopped to prevent the rotation of 29).

And by tightening the fixing bolt 33 of the height adjustment guide device 30, the rod 32 is fixed to the inner diameter of the hollow pipe 31 so that the adjusted angle and height are fixed.

In this way, the angle and height of the photovoltaic device 50 are adjusted according to the season to accurately match the incident angle of light to increase the production efficiency of electricity, and the fixing device 10 is connected through the flowing metal 14 15) by installing the connecting shaft 12 to be rotatable, it moves according to the rotational movement, and the angle and height adjustment are guided.

The double-sided module 51 of the photovoltaic device 50 generates electricity according to the incidence of light on the upper side, and electricity by light reflected through the bottom reflective member 60 on the lower side.

The floor reflective member 60, when the building 80 is a slab roof, attaches any one of reflective paint and reflective sheet paper so that light is reflected from the lower side to generate electricity, warehouses, garages, and barns. In the case of a building 80 made of a steel structure such as a plant cultivation house, a drying room, etc., electricity is made by installing a plated iron plate made of either chrome (Cr) or nickel (Mi) as a floor reflective member 60 to reflect light. Is to be produced.

As described above, electricity produced through the double-sided module 51 is supplied as direct current and stored in the battery 71, which is a power storage device (ESS) of the electric control device 70, and the battery 71 is It is installed to have a capacity equivalent to about 6 times the amount of production/day), and the stored current is wired to the power pole 73 for about 6 hours at midnight time (from 10:00 pm to 4:00 am the next day) through the inverter 72 Power transmission to the substation room of KEPCO.

As described above, the reason for transmitting electricity at night time is that power transmission occurs a lot during the day, such as in the countryside or surrounding solar power, power plants, and pneumatic complexes, but there are many truces at night. To provide.

The spray nozzle 43 of the temperature control device 40 is installed at the top of the high part of the slope of the solar device 50, and the temperature is displayed by checking the surrounding temperature through a thermometer 44. When the temperature rises above about 26° C., the injection switch 45 is driven to receive coolant from a cooling tank (not shown), and the pump 41 is supplied through the water supply pipe 42 to the connection of the hose 49, and the injection nozzle ( By spraying it from 43), it is supplied to the double-sided module 51 and cooled, so that the element that hinders the production of electricity due to a drop in temperature is removed, thereby increasing the efficiency.

And in case of snow accumulation, such as in winter, the injection switch 45 is driven to receive hot water from the hot water device and the pump 41 is sprayed from the injection nozzle 43 through the water supply pipe 42 and the hose 49. Since it is supplied to the module 51 and heated, the temperature rises to reduce the influence of snow or cold, thereby removing elements that hinder the production of electricity, thereby increasing efficiency.

The hose 49 is to be connected to the upper end of the water supply pipe 42 and the spray nozzle 43 to provide a connected state so that water supply is always possible while moving according to the angle and height adjustment of the double-sided module 51.

The present invention makes it difficult to generate income due to the absence of long-term retirement measures and labor decline of farmers, and to increase the maximum efficiency of generating electricity using the roof of a building without encroaching on farmland and mountain areas so that they can survive without leaving the livelihood. It is to provide a very useful invention in which electricity produced during the day can be charged and then transmitted to a substation without extension of lines by transmitting power at night.

10: fixing device 11: square bracket
12: connecting shaft 13: fastening hole
14: floating metal 15: connection hole
16: pipe fastening groove 17: pipe fixing bolt
20: height adjustment device 21: fixed column
22: worm female thread 23: moving column
24: male thread 25: handle
26: set bolt 27: floor fixing
28: roof fixture 29: swivel
30: height adjustment guide device 31: hollow pipe
32: rod 33: fixing bolt
34: floor support 35: square connecting rod
40: temperature controller 41: pump
42: water supply pipe 43: spray nozzle
44: thermometer 45: injection switch
49: hose 50: solar device
51: double-sided module 52: section steel
53: square pipe 60: floor reflective member
70: electric control device 71: battery
72: inverter 80: building

Claims (7)

It consists of a solar device 50 for installing a module on the upper side of the section steel 52 installed at regular intervals to cross the square pipe 53 on the roof of the building 80;
A floating metal 14 having a connection hole 15 to which the connection shaft 12 connected to the square bracket 11 to which the square pipe 53 is coupled is installed on both sides, and in the lower part of the solar device 50 Including a fixing device 10 located, located at a high portion of the solar device 50, fixed with a set bolt 26 on the upper side of the fixing column 21, and a rotating table on which a handle 25 is formed ( The height is adjusted through 29), and after the male screw 24 is formed on the lower side, a height adjusting device 20 is provided on which the roof fixing bar 28 is installed, and
As the height is adjusted with the height adjustment device 20, the angle of the module is adjusted, and a hollow pipe 31 connected to the upper side of the floor support 34 installed at regular intervals and having a fixing bolt 33 installed at the upper side In the self-supporting farm house using a solar double-sided module including a height adjustment guide 30 on which a square connecting rod 35 is installed on the upper side of the penetrating rod 32,
The height adjustment device 20 forms a fixing column 21 in which a worm female screw 22 is formed in an inner diameter in the same row as the height adjustment guide device 30, and a set bolt 26 on the upper side of the fixing column 21 ) To fix the movable column 23, and the handle 25 protrudes to install a rotating table 29 that adjusts the height of the movable column 23, and a male screw 24 connected to the rotating table 29 is formed. Including that consisting of a moving pillar (23),
The height adjustment guide device 30 is installed at regular intervals in the same row as the height adjustment device 20, and the rod 32 moves along the height adjustment device 20 for adjusting the height and angle of the square pipe 53. It is installed so as to penetrate the hollow pipe 31, and includes a fixing bolt 33 for fixing the rod 32 to the upper side of the hollow pipe 31,
In the solar device 50, the water supply pipe 42 protrudes from the upper side of the pump 41 to which the cooling device and the hot water device are connected, and is bent at a higher position than the highest point of the double-sided module 51 at the upper end. The hose 49 is installed along the direction of the module 51 so that the length of the hose 49 is adjusted according to the height adjustment of the spray nozzle 43 at regular intervals, and any one of cooling water and hot water is selected to be sprayed, and the water supply pipe 42 A self-supporting farm house using a double-sided solar module, characterized in that installing a thermometer 44 and a spray switch 45 for controlling the water supply in ).
The method of claim 1,
The solar device 50 is made of a double-sided module 51 and a floor reflective member 60 is installed on the floor;
The floor reflective member 60 attaches any one of reflective paint and reflective sheet paper to the slab roof to reflect light,
The building 80 made of a steel structure is installed on the roof with either chrome and nickel plating or reflective paint,
The direct current produced by the double-sided module 51 is stored in the battery 71, which is a power storage device, and the stored current is transmitted from the wire installed on the power pole 73 through the inverter 72 to the KEPCO substation for 6 hours at night time. Self-supporting farm house using a solar double-sided module, characterized in that to be installed. delete delete delete delete delete

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