KR102197726B1 - Photovoltaic Cooling Fog System - Google Patents

Abstract

The disclosed photovoltaic cooling fog system includes at least one pillar, and a solar panel disposed on an upper end of the pillar to generate electric power and form a cooling space under which direct sunlight is blocked. Solar power generation device comprising; A fog generating device including a spray nozzle disposed adjacent to the cooling space to inject water artificial mist, a pump supplying water to the spray nozzle at high pressure, and a motor operating the pump; A control device disposed on the pillar and including a fog controller for controlling an operation of the fog generating device; And a power supply unit including a controller receiving the solar power from the solar panel and supplying the fog generating device and the control device with a constant voltage.

Description

Photovoltaic Cooling Fog System

The present invention (Disclosure) relates to a photovoltaic power generation cooling fog system, and specifically, to a photovoltaic power generation cooling fog system capable of forming a cooling space on its own without using a commercial power source.

Background information related to the invention is provided, and these do not necessarily mean the present disclosure (this section provides background information related to the present disclosure which is not necessarily prior art).

Due to the recent summer heatwave, energy consumption is increasing rapidly, and even the elderly and children have difficulty in body temperature, leading to emergencies.

In particular, urban roads and sidewalks, in addition to the heat island phenomenon of the entire island, have few elements that can emit heat nearby. In addition, the air circulation is weak due to the large and small buildings, so the perceived temperature during the daytime in the city exceeds 40 degrees.

In such a heat wave, cooling fog systems are being installed for citizens in urban areas.

The cooling fog system sprays water through purified water with an artificial fog the size of one ten millionth of raindrops. As the water droplets evaporate and absorb the surrounding heat, the ambient temperature can be reduced by about 3 ~ 5℃.

Cooling fog systems are installed in various locations and facilities, such as spaces between forests of large and small parks, roadsides with awnings, or eaves on the side of buildings.

On the other hand, in general, shade curtains are installed on roadsides, sidewalks, or parks in summer to avoid hot sunlight.

In this way, if the cooling fog system is installed in a shade facility that can avoid direct sunlight in the city where the heat of the summer continues, a cooling space with a relatively low temperature can be provided.

However, such a cooling fog system must be supplied with energy for its operation. However, as described above, in the summer when the heat wave continues, the maximum value of power consumption is updated every day, and thus, when the cooling fog system is operated, a large-scale power outage such as blackout may occur.

In addition, in the case of using a commercial power source, there is a possibility that a short circuit or electric shock may occur in a situation where a facility equipped with a cooling fog system is overturned in a place where there are frequent traffic.

Therefore, there is a need to develop a new type of cooling fog system that does not use a commercial power source or minimizes dependence on a commercial power source and minimizes the possibility of an electrical accident due to damage to facilities.

1. Korean Patent Application Publication No. 10-2014-0024158

An object of the present invention is to provide a solar photovoltaic cooling fog system capable of forming a cooling space on its own without using a commercial power source.

Here, a summary of the present invention is provided, and this section provides a general summary of the disclosure and is not a comprehensive disclosure of its full scope or all of its features).

In order to solve the above problems, the solar power generation cooling fog system according to any one aspect of the various aspects describing the present invention includes at least one pillar, and is disposed on an upper end of the pillar to provide solar power ( electric power) and forming a cooling space under which direct sunlight of the sun is blocked; A fog generating device including a spray nozzle disposed adjacent to the cooling space to inject water artificial mist, a pump supplying water to the spray nozzle at high pressure, and a motor operating the pump; A control device disposed on the pillar and including a fog controller for controlling an operation of the fog generating device; And a power supply unit including a controller receiving the solar power from the solar panel and supplying the fog generating device and the control device with a constant voltage.

In the solar photovoltaic cooling fog system according to an aspect of the present invention, the power supply unit may further include an inverter that receives AC commercial power and converts it into DC constant power.

In the photovoltaic power generation cooling fog system according to another aspect of the present invention, the power supply unit may further include a rechargeable battery that stores the photovoltaic power.

In the photovoltaic power generation cooling fog system according to another aspect of the present invention, the control device includes an optical sensor measuring the amount of external light, and of the lighting device according to a measurement value of the lighting device and the optical sensor. It further includes; lighting control unit for controlling the operation.

In the photovoltaic power generation cooling fog system according to an aspect of the present invention, the power supply unit includes a tilt sensor that measures whether the pillar is conducted, and all power supplied to the outside according to a measured value of the tilt sensor. It further includes an emergency circuit breaker to cut off.

In the solar power cooling fog system according to another aspect of the present invention, it further includes a chair installed on the pillar.

In the photovoltaic power generation cooling fog system according to another aspect of the present invention, an air circulation device for introducing external air into the cooling space is further provided, and the spray nozzle is disposed on the outer periphery of the solar panel. It is disposed, and the air outside the cooling space passes through the artificial fog and is cooled to flow into the cooling space, thereby cooling the air in the cooling space.

In the solar power generation cooling fog system according to another aspect of the present invention, the solar panel is composed of a frame, a plurality of unit panels, and a rotating rod fixing the unit panel to the frame so as to be rotatable, When the unit panel rotates around the rotating rod, direct sunlight of the sun is transmitted through the cooling space.

In the solar photovoltaic power generation cooling fog system according to another aspect of the present invention, the photovoltaic device further includes a panel tilting device for controlling an angle formed by the solar tube panel with the pillar, and the controller , Further comprising a panel tilt control unit for controlling the panel tilt device according to the position of the sun.

In the photovoltaic power generation cooling fog system according to another aspect of the present invention, the photovoltaic device further includes a cleaning nozzle for spraying high-pressure water toward the photovoltaic panel, and the power supply unit, Further comprising a power generation efficiency meter for measuring the production amount per hour of the solar power, the control device further comprises an illuminance sensor for measuring the illuminance outside the cooling space and a panel cleaning controller for controlling the operation of the cleaning nozzle When the time-term output of the solar power does not meet a predetermined standard based on the measured value of the illuminance sensor, the cleaning nozzle is operated to remove foreign matter including dust from the surface of the solar panel.

In the photovoltaic power generation cooling fog system according to another aspect of the present invention, the control device further includes an environmental sensor for measuring temperature, humidity, and fine dust concentration inside or outside the cooling space, and the fog The control unit controls the fog generating device according to the measured value measured by the environmental sensor.

According to the present invention, by installing a photovoltaic device and a fog generating device that operates by receiving power from the photovoltaic device, it is possible to form a cooling space by itself without using a commercial power source.

1 is a diagram for explaining an embodiment of a solar power generation cooling fog system according to the present invention.
Fig. 2 is a diagram for explaining an embodiment of a control device for a solar power generation cooling fog system according to the present invention.
3 is a view for explaining still another embodiment of the solar power generation cooling fog system according to the present invention.

Hereinafter, an embodiment implementing the photovoltaic cooling fog system according to the present invention will be described in detail with reference to the drawings.

However, the intrinsic technical idea of the present invention cannot be said to be limited by the embodiments to be described below, and the intrinsic technical idea of the present invention is given below by a person skilled in the art. It turns out to cover the range that can be easily proposed by a method of substitution or change of the embodiment described in FIG.

In addition, since the terms used below are selected for convenience of description, in grasping the intrinsic technical idea of the present invention, it is not limited to the dictionary meaning and is appropriately interpreted as a meaning consistent with the technical idea of the present invention. Should be.

1 is a view for explaining an embodiment of the solar power generation cooling fog system according to the present invention, Figure 2 is a view for explaining an embodiment of the control device of the solar power generation cooling fog system according to the present invention.

1 to 2, the solar power generation cooling fog system according to the present embodiment includes a photovoltaic power generation device, a fog generation device and a control device 30, and a power supply unit 40.

The photovoltaic device is disposed at the top of the at least one pillar 12 and the pillar 12 to generate electric power and forms a cooling space 10 under which direct sunlight is blocked. It includes; solar panel 11;

The fog generating device includes a spray nozzle 21 disposed adjacent to the cooling space 10 to inject water into the artificial mist 1, and a pump 23 and a pump ( It includes a motor 22 to operate 23).

The control device 30 is disposed on the pillar 12 and includes a fog control unit 31 that controls the operation of the fog generating device.

The power supply unit 40 includes a controller 41 that receives solar power from the solar panel 11 and supplies it to the fog generator and control device 30 at a constant voltage.

As can be seen in FIGS. 1 to 2, the solar power generation cooling fog system according to the present invention is a structure that generates power generation and cooling space 10 using a solar panel 11 that generates power from sunlight. It is used, and by disposing the spray nozzle 21 on the adjacent outer periphery of the cooling space 10, it is possible to provide a shade space that is cooled by using the vaporization effect of pollution-free power generation and artificial fog.

In addition, since the photovoltaic panel 11 generates and uses energy by itself, it does not affect the supply and demand of electricity during the heat wave.

In addition, referring to FIGS. 1 to 2, in the solar power generation cooling fog system according to the present embodiment, the power supply unit 40 may further include an inverter that receives AC commercial power and converts it to DC constant power. have.

Therefore, the solar power generation cooling fog system of this embodiment can be operated by a commercial power source when the solar power produced by the solar panel 11 is insufficient to operate the fog generating device and the control device 30. have.

In addition, referring to FIGS. 1 to 2, in the solar power generation cooling fog system according to the present embodiment, the power supply unit 40 may further include a rechargeable battery 43 for storing solar power.

When the temperature is not high, the generated solar power is stored in the rechargeable battery 43. When the cooling fog system is to be operated, solar power stored in the rechargeable battery 43 can be used.

Solar power generation depends on the amount of sunlight and the amount of sunlight. In recent years, due to fine dust, etc., sunlight is often blocked. In other words, the solar power generation efficiency is inevitably affected by the weather.

The photovoltaic power generation cooling fog system according to the present embodiment is provided with the rechargeable battery 43, so that irregular photovoltaic power can be kept constant. This function can be expected to further reduce the dependence on the commercial power supply.

In addition, referring to FIGS. 1 to 2, in the solar power generation cooling fog system according to the present embodiment, the control device 30 includes optical sensors 32b and 32c that measure the amount of external light, the lighting device 32a, and It may further include a lighting control unit 32 for controlling the operation of the lighting device (32a) according to the measured values of the photosensor (32b, 32c).

In summer, there is a lot of sunshine and the sunshine hours are long. Accordingly, the lighting device 32a can be operated using the solar power remaining after the fog generating device is operated.

The lighting device 32a may preferably be an LED with low power consumption. Such a lighting device 32a can be expected to prevent various accidents by functioning as a security light in the city center.

The optical sensors 32b and 32c may measure the illuminance to determine the lighting point of the lighting device 32a. As the optical sensors 32b and 32c, an infrared sensor 32a and a photosensor 32b may be used.

In addition, referring to FIGS. 1 to 2, in the solar power generation cooling fog system according to the present embodiment, the power supply unit 40 includes a tilt sensor 44a and a tilt sensor 44a that measure whether the pillar 12 is inverted. It may further include an emergency breaker 44 to cut off all the power supplied to the outside according to the measured value of.

The tilt sensor 44a detects that the pillar 12 is tilted. When the measured value of the inclination sensor 44a is measured above a predetermined inclination, the emergency breaker 44 is operated. The emergency circuit breaker 44 blocks the supply of external power to the power supply unit 40, thereby preventing a safety accident due to electricity.

In addition, referring to FIGS. 1 to 2, the solar power generation cooling fog system according to the present embodiment may further include a chair 13 installed on the pillar 12.

In addition, referring to FIGS. 1 to 2, in the solar power generation cooling fog system according to the present embodiment, the control device 30 is an environmental sensor that measures the temperature, humidity, and fine dust concentration inside or outside the cooling space 10. (31a, 31b, 31b) is further provided, and the fog control unit 31 controls the fog generating device according to the measured values measured by the environmental sensors 31a, 31b, and 31b.

The environmental sensors 31a, 31b, and 31b may include a thermometer 31a, a hygrometer 931b0, and a fine dust concentration measuring device 31c.

3 is a view for explaining still another embodiment of the solar power generation cooling fog system according to the present invention.

Referring to FIG. 3, the solar power generation cooling fog system according to the present embodiment further includes an air circulation device 16 for introducing external air into the cooling space 10. In addition, the spray nozzle_ is disposed on the outer periphery of the solar panel 11.

After the air outside the cooling space 10 passes through the artificial fog 1 and is cooled, it is introduced into the cooling space 10 so that the cooling space 10 can always be kept as cooled air.

At this time, the fog controller 31 may lower the operating pressure of the motor 22 or the pump 23 so as to form an artificial waterfall 1a of water droplets more than that of the artificial mist 1.

If the water droplets are too small, the artificial mist 1 itself may be introduced into the cooling space 10 due to the flow of air by the air circulation device 16.

If the water droplets increase and form an artificial waterfall 1a that can fall irrespective of the air flow by the air circulation device 16, only the air cooled by the artificial waterfall flows into the cooling space 10, resulting in a more comfortable air condition. Can be formed.

In addition, referring to FIG. 3, in the solar power generation cooling fog system according to the present embodiment, the solar panel 11 includes a frame 11b, a plurality of unit panels 11a, and a unit panel 11a in the frame. It may be composed of a rotating rod (11d) fixed to be rotatable.

When the unit panel 11a rotates around the rotating rod 11d, direct sunlight of the sun can be transmitted through the cooling space 10.

It is very cumbersome to remove the solar panels and control devices that have been installed once, and additional costs are required.

If installation and demolition are repeated every year, the purpose of using eco-friendly energy may become meaningless.

In winter, the cooling space 10 rather forms a low-temperature space, which citizens can avoid, which leads to unnecessary waste of space.

When the solar panel 11 is divided into unit panels 11a and rotated, the lower part of the solar panel 11 can be warmed in a weather where the cooling space 10 is not required, such as in winter.

In the photovoltaic power generation cooling fog system of another embodiment according to the present invention, the photovoltaic device further includes a panel tilting device for controlling an angle formed by the photovoltaic panel with the pillar, and the control device includes a position of the sun Accordingly, a panel tilt controller for controlling the panel tilt device may be further included.

As the angle of the solar panel and the angle formed by sunlight deviate from 90 degrees, the power generation efficiency of the solar panel decreases. Therefore, by adjusting the angle of the solar panel according to the position of the sun, it is possible to maximize the power generation efficiency of the solar panel.

In addition, in the photovoltaic power generation cooling fog system of another embodiment according to the present invention, the photovoltaic device further includes a cleaning nozzle for spraying high-pressure water toward the solar panel, and the power supply unit Further comprising a power generation efficiency measuring device for measuring the amount of electricity produced per hour, the control device further comprises an illuminance sensor for measuring the illuminance outside the cooling space and a panel cleaning controller for controlling the operation of the cleaning nozzle, the measured value of the illuminance sensor When the time-based production amount of solar power does not meet a predetermined standard, foreign matter including dust may be removed from the surface of the solar panel by operating the cleaning nozzle.

When foreign matter accumulates on the surface of the solar panel, power generation efficiency decreases. In particular, in urban areas, the surface cleaning of solar panels is constantly required due to particulate matter that has been increasing in recent years as well as automobile exhaust.

The amount of sunlight is measured by measuring the illuminance outside the cooling space from the measured value of the illuminance sensor. At the corresponding amount of sunlight, the minimum solar power generation efficiency is used to determine whether dust is accumulated on the solar panel. If it is determined that a lot of dust has accumulated on the solar panel, the surface of the solar panel can be cleaned by spraying it at high pressure in the cleaning furnaces using a part of water used for artificial fog.

Claims (11)

At least one pillar, and a solar panel disposed on an upper end of the pillar to generate solar power and to form a cooling space under which direct sunlight of the sun is blocked;
A fog generating device including a spray nozzle disposed adjacent to the cooling space to inject water artificial mist, a pump supplying water to the spray nozzle at high pressure, and a motor operating the pump;
A control device disposed on the pillar and including a fog controller for controlling an operation of the fog generating device;
A power supply unit including a controller for receiving the solar power from the solar panel and supplying the fog generator and the control device with a constant voltage; And
Including; an air circulation device for introducing external air into the cooling space,
The spray nozzle,
Disposed on the outer periphery of the solar panel,
The air outside the cooling space passes through the artificial mist and is cooled and introduced into the cooling space, thereby cooling the air in the cooling space,
The control device,
An environmental sensor for measuring the temperature, humidity, and fine dust concentration inside or outside the cooling space; further comprising,
The fog control unit controls the fog generating device according to the measured value measured by the environmental sensor to generate water droplets larger than the artificial fog, so that the artificial waterfall can fall irrespective of the air flow by the air circulation device. By forming
A solar power generation cooling fog system capable of forming a more comfortable air condition by introducing air cooled by the artificial waterfall into the cooling space. The method according to claim 1,
The power supply unit,
Solar power generation cooling fog system, characterized in that it further comprises an inverter that receives AC commercial power and converts it into DC constant power. The method according to claim 1,
The power supply unit,
Solar power generation cooling fog system, further comprising a rechargeable battery for storing the solar power. The method according to claim 1,
The control device,
A photovoltaic power generation cooling fog system comprising: an optical sensor for measuring an amount of external light; and a lighting device and a lighting controller for controlling the operation of the lighting device according to a measured value of the optical sensor. The method according to claim 1,
The power supply unit,
The solar power generation cooling fog system further comprises a tilt sensor for measuring the conduction of the pillar, and an emergency circuit breaker for blocking all power supplied to the outside according to the measured value of the tilt sensor. The method according to claim 1,
Solar power generation cooling fog system, characterized in that it further comprises a chair installed on the pillar. delete The method according to claim 1,
The solar panel,
Consisting of a frame, a plurality of unit panels, and a rotating rod for fixing the unit panel to the frame so as to be rotatable,
The solar power generation cooling fog system, characterized in that when the unit panel rotates around the rotating rod, direct sunlight of the sun is transmitted through the cooling space. The method according to claim 1,
The solar power generation device,
Further comprising a panel tilting device for controlling an angle formed by the solar panel and the pillar,
The control unit,
Solar power generation cooling fog system, further comprising a panel tilt control unit for controlling the panel tilt device according to the position of the sun. The method according to claim 1,
The solar power generation device,
Further comprising a cleaning nozzle for spraying high-pressure water toward the solar panel,
The power supply unit,
Further comprising a power generation efficiency meter for measuring the production amount per hour of the solar power,
The control device,
Further comprising an illuminance sensor measuring illuminance outside the cooling space and a panel cleaning controller controlling the operation of the cleaning nozzle,
When the time-term output of the solar power does not meet a predetermined standard based on the measured value of the illuminance sensor, the cleaning nozzle is operated to remove foreign substances including dust from the surface of the solar panel. Solar power cooling fog system. delete

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