KR20210009055A - Watermelon Single Acting Green House Smart Ventilation Control System - Google Patents

Abstract

The present invention relates to a watermelon single span plastic house smart ventilation control system which implements a ventilation method which increases the maximum ventilation efficiency and heating/cooling efficiency with minimum energy cost by comparing the temperature of the outside air of the cultivation facility with the temperature of the inside air of the cultivation facility.

Description

Watermelon Single Acting Green House Smart Ventilation Control System {.}

The present invention is a technology for controlling the temperature in a greenhouse or a low-temperature facility of a smart farm in a green house or a spat farm.

In the prior art prior to the present invention, in the apparatus for controlling the opening and closing of a green house having multiple skylights and multiple side windows, a plurality of greenhouses are interlocked with each other, in order to open and close the skylights and side windows. A plurality of motors installed on the side windows; Temperature sensors installed inside the interlocks and sensing internal temperatures of the interlocks; A central switch for controlling opening and closing of the skylights and side windows by operating the motors according to the internal temperature of the interlocks sensed by the temperature sensors; And there is a technology including a separate switch for individually controlling the opening and closing of the skylights and side windows by operating the motors according to the user's selection.

Another prior art includes a side window opening and closing part installed to be movable up and down along the side of the vinyl house so as to open and close the side window formed on the side of the vinyl house for ventilation of the vinyl house; A sensor unit including a temperature sensor measuring a temperature inside the green house; A controller for controlling the operation of the sidewindow opening and closing part according to the temperature measured by the temperature sensor or a set time, wherein the controller includes the sidewindow opening and closing part extending to a predetermined height from the ground in the side area of the vinyl house. A technology for controlling the operation pattern of the side window opening and closing part to be different from each other when the side window opening and closing part is located in the area of the skirt part forming the lower part and the operation pattern of the side window opening and closing part when the side window opening and closing part is located in the area of the side window outside the skirt part. Is disclosed.

Registered Utility Model Publication 20-0309074 Registered Patent Publication 10-1817706

The present invention relates to a system for operating a ventilation system of a smart farm or a greenhouse for facility cultivation farms, and specifically, it is modified and expanded in a form suitable for the needs of various facility environments and various markets, so that it is suitable for facility agricultural workers such as smart farms and crop cultivation It relates to a smart farm operation system that enables returnees and noble villagers who lack experience in the field to perform optimal operation based on smart devices for work required for growing crops.

In order to manage the greenhouse environment optimally, technology is needed to control various actuators installed in the greenhouse based on the first monitoring technique and second monitored data.

In particular, the operation of artificial environmental maintenance devices (boilers, air conditioners, irrigation, etc.) incurs a lot of economic cost, so natural ventilation systems (side windows, air ducts, etc.), which are relatively inexpensive, are used as the main operating devices with minimal energy costs. It is a technology to manage a greenhouse with maximum operating efficiency.

That is, by comparing the temperature of the outside air of the cultivation facility and the temperature of the inside air of the cultivation facility, it is intended to implement a ventilation method that increases the maximum ventilation efficiency and cooling and heating efficiency with a minimum energy cost.

In order to solve the above problems, the present invention,

In the cultivation method for reducing the low temperature stress of creeping plants such as watermelons during a low temperature of 5 ~ 10 ℃ outside temperature, the outermost side window, the first side window, the middle side window, the second side window, the innermost side window, the third side window, and Watermelon single-acting plastic house smart ventilation control system, characterized in that all the first to third side windows are closed when the inside temperature of the cultivation facility having an air duct provided in the center at the top of the third side window is 21°C or less Provides.

In addition, when the internal temperature of the cultivation facility is 22° C. or higher, both the second and third side windows are opened to secure the amount of insolation. It provides a smart ventilation control system for a watermelon single-acting vinyl house.

In addition, when the internal temperature of the cultivation facility is 27°C or higher, all the second side windows are opened, and only a lower part of the first side window is opened so that outside air can flow in, and the third side window opens the half opposite to the opened part of the first side window. It provides a smart ventilation control system for a watermelon single-acting vinyl house, characterized in that low-temperature air introduced from the outside flows into the cultivation facility to lower the temperature of the cultivation facility.

In addition, when the internal temperature of the cultivation facility is 30°C or higher, all the second side windows are opened, and only a lower part of the first side window is opened so that outside air can be introduced, and the third side window is opened to the opposite half of the first side window. It provides a watermelon single-acting greenhouse smart ventilation control system, characterized in that it can lower the temperature of the cultivation facility by increasing the amount of air inflow of low temperature from the outside by opening the fan of the air duct.

In addition, when the internal temperature of the cultivation facility is 34°C or higher, both the second side window and the third side window open, and the first side window opens only a part of the left and right lower portions, allowing outside air to flow to one side, and internal hot air to be discharged to the opposite side. It provides a watermelon single-acting type vinyl house smart ventilation control system, characterized in that the temperature of the cultivation facility can be lowered by operating the fan of the air duct to smoothly discharge the hot air inside.

In addition, when the internal temperature of the cultivation facility is 38°C or higher, some of the lower left and right sides of the first side window and the second side window are opened to prevent direct sunlight from entering the cultivation facility, and all of the third side window are opened, and the air duct Watermelon single-acting vinyl house smart, characterized in that it prevents the temperature of the cultivation facility from increasing due to direct sunlight blocking of the first and second side windows by operating the fan of Provide ventilation control system.

In addition, the second side window provides a watermelon single-acting type vinyl house smart ventilation control system, characterized in that the side window has a high light reflectance to block direct sunlight.

According to the above configuration, when the outside temperature is 5 to 10°C, a heating cable is used to heat at night, and during the day, a means for maintaining the temperature inside the cultivation facility at about 22°C to 38°C was provided.

However, in order to maintain the temperature and increase the speed of ventilation according to the present invention, it is possible to change the design of the heater and the material of the first to third side windows.

By providing a heater in the air duct, it is possible to quickly increase the temperature of the cultivation facility, and by using a material capable of blocking direct sunlight from any one or more of the first to third side windows, direct sunlight can be blocked when necessary. Of course.

In addition, it provides a watermelon single-acting type vinyl house smart ventilation control system, characterized in that at least one of the first to third side windows using a non-woven material to keep the cultivation facility warm at night.

In addition, it goes without saying that the temperature of the cultivation facility can be quickly lowered by installing a sprinkler in front of the air duct to drive the fan of the air duct to perform ventilation.

The present invention has the effect of maintaining the temperature of a cultivation facility suitable for cultivated crops while increasing energy efficiency by the above configuration.

1 is a basic step of the smart ventilation system for a green house of the present invention
Figure 2 is a green house smart ventilation device of the present invention, step 1
3 is a second step of the smart ventilation device for a green house of the present invention
Figure 4 is a three-step green house smart ventilation device of the present invention
Figure 5 is a green house smart ventilation device 4 step of the present invention
Figure 6 is a green house smart ventilation device 5 step of the present invention

Currently, the reality of Korea's agriculture is that crop production cannot be achieved as planned due to a decrease in the number of farmers, an aging population, a decline in the grain self-sufficiency rate, stagnation of farm household income, and further intensification of climate change. Among the total population of Korea, the proportion of the farm household population accounted for 15.5% in 1990, but in 2014, the rate of grain self-sufficiency decreased sharply from 43.1% to 24.0% in the same period, and farm household income from 23,072 thousand won in 2000 to 2014 In 2010, it was 34,950, showing a slow increase of 3.0% per year.

Due to the recent deepening of climate change, agricultural crops and production volumes are not constant, and prices are fluctuating severely. This is causing many difficulties in securing stable food for the people, consumers of agricultural products. To overcome this, Korea's agricultural structure must also be changed, and if the former agriculture was a labor-intensive, land-intensive, and capital-intensive industry, it is necessary to switch to a technology-intensive industry in the future. To this end, it is necessary to develop and expand the distribution of technology for smart agriculture incorporating information and communication technology (ICT).

Currently, smart farm devices that are spread in Korea are manufactured for vertical manned cultivation such as paprika, tomatoes, strawberries, etc. and high snow cultivation crops, and in the case of creeping crops such as watermelon, the environmental management system is not suitable and therefore receives low temperature stress. It is a trend. Therefore, there is a need to develop an algorithm for operating a smart farm facility that can maintain an environment suitable for the growth of creeping crops such as watermelon in the low temperature.

The present invention was invented to reduce the stress of low and high temperatures and stably maintain growth during facility house cultivation of creeping crops such as watermelon, and additionally to reduce labor and improve the quality of life of watermelon cultivation farmers. There is a purpose.

In order to achieve the above objects, the present invention controls based on changes in the external environment and the internal environment of the greenhouse, and uses CCTV to check the growth status of crops, and image processing of accumulated sensing and control history information and CCTV images. By comparing the associations analyzed through the method, it is intended to manage the growth status of crops in real time by inferring the crop ecology by period and the cause of the condition from the accumulated data.

To this end, the present invention

In the cultivation method for reducing the low temperature stress of creeping plants such as watermelons during a low temperature of 5 ~ 10 ℃ outside temperature, the outermost side window, the first side window, the middle side window, the second side window, the innermost side window, the third side window, and Watermelon single-acting plastic house smart ventilation control system, characterized in that all the first to third side windows are closed when the inside temperature of the cultivation facility having an air duct provided in the center at the top of the third side window is 21°C or less Provides.

In addition, when the internal temperature of the cultivation facility is 22° C. or higher, both the second and third side windows are opened to secure the amount of insolation. It provides a smart ventilation control system for a watermelon single-acting vinyl house.

In addition, when the internal temperature of the cultivation facility is 27°C or higher, all the second side windows are opened, and only the lower part of the first side window is opened so that outside air can be introduced, and the third side window opens the half opposite to the opened part of the first side window. It provides a smart ventilation control system for a watermelon single-acting vinyl house, characterized in that low-temperature air introduced from the outside flows into the cultivation facility to lower the temperature of the cultivation facility.

In addition, when the internal temperature of the cultivation facility is 30°C or higher, all the second side windows are opened, and only a lower part of the first side window is opened so that outside air can be introduced, and the third side window is opened to the opposite half of the first side window. It provides a watermelon single-acting greenhouse smart ventilation control system, characterized in that it can lower the temperature of the cultivation facility by increasing the amount of air inflow of low temperature from the outside by opening the fan of the air duct.

In addition, when the internal temperature of the cultivation facility is 34°C or higher, both the second side window and the third side window open, and the first side window opens only a part of the left and right lower portions, allowing outside air to flow to one side, and internal hot air to be discharged to the opposite side. It provides a watermelon single-acting type vinyl house smart ventilation control system, characterized in that the temperature of the cultivation facility can be lowered by operating the fan of the air duct to smoothly discharge the hot air inside.

In addition, when the internal temperature of the cultivation facility is 38°C or higher, some of the lower left and right sides of the first side window and the second side window are opened to prevent direct sunlight from entering the cultivation facility, and all of the third side window are opened, and the air duct Watermelon single-acting vinyl house smart, characterized in that it prevents the temperature of the cultivation facility from increasing due to direct sunlight blocking of the first and second side windows by operating the fan of Provide ventilation control system.

In addition, the second side window provides a watermelon single-acting type vinyl house smart ventilation control system, characterized in that the side window has a high light reflectance to block direct sunlight.

According to the above configuration, when the outside temperature is 5 to 10°C, a heating cable is used to heat at night, and during the day, a means for maintaining the temperature inside the cultivation facility at about 22°C to 38°C was provided.

However, in order to maintain the temperature and increase the speed of ventilation according to the present invention, it is possible to change the design of the heater and the material of the first to third side windows.

By providing a heater in the air duct, it is possible to quickly increase the temperature of the cultivation facility, and by using a material capable of blocking direct sunlight from any one or more of the first to third side windows, direct sunlight can be blocked when necessary. Of course.

In addition, it provides a watermelon single-acting type vinyl house smart ventilation control system, characterized in that at least one of the first to third side windows using a non-woven material to keep the cultivation facility warm at night.

In addition, it is possible to further incorporate a heating wire heater operating below 40 °C in the nonwoven fabric.

In addition, it goes without saying that the temperature of the cultivation facility can be quickly lowered by installing a sprinkler in front of the air duct to drive the fan of the air duct to perform ventilation.

100: first side window
110: first side window guide
200: second side window
210: second side window guide
300: third side window
310: fourth side window guide
400: air duct

Claims (6)

In the cultivation method for reducing the low temperature stress of creeping plants such as watermelons during a low temperature of 5 ~ 10 ℃ outside temperature, the outermost side window, the first side window, the middle side window, the second side window, the innermost side window, the third side window, and Watermelon single-acting plastic house smart ventilation control system, characterized in that all the first to third side windows are closed when the inside temperature of the cultivation facility having an air duct provided in the center at the top of the third side window is 21°C or less . The method of claim 1,
Watermelon single-acting plastic greenhouse smart ventilation control system, characterized in that when the internal temperature of the cultivation facility is 22°C or higher, opening both the second and third side windows to secure solar radiation. The method of claim 2,
When the internal temperature of the cultivation facility is 27℃ or higher, all the second side windows are opened, and only the lower part of the first side window is opened so that outside air can be introduced, and the third side window is opened by opening the opposite half of the first side window. Watermelon single-acting plastic greenhouse smart ventilation control system, characterized in that the low temperature air introduced from the inside of the cultivation facility can be lowered. The method of claim 3,
When the internal temperature of the cultivation facility is 30℃ or higher, all the second side windows are opened, and only the lower part of the first side window is opened so that outside air can be introduced, and the third side window opens the half opposite to the opened part of the first side window, and the Watermelon single-acting plastic greenhouse smart ventilation control system, characterized in that it can lower the temperature of the cultivation facility by increasing the inflow of low-temperature air from the outside by operating the air duct fan. The method of claim 4,
When the internal temperature of the cultivation facility is 34°C or higher, both the second side window and the third side window are opened, and only a part of the first side window is opened to allow outside air to flow to one side, and hot air inside to be discharged to the opposite side. , Watermelon single-acting vinyl house smart ventilation control system, characterized in that it is possible to lower the temperature of the cultivation facility by operating the fan of the air duct to smoothly discharge the hot air inside. The method of claim 5,
When the internal temperature of the cultivation facility is 38°C or higher, some of the lower left and right sides of the first and second side windows are opened to prevent direct sunlight from entering the cultivation facility, and all of the third side windows are opened, and the fan of the air duct. Watermelon single-acting plastic house smart ventilation control, characterized in that the temperature of the cultivation facility is prevented from increasing by operating the cultivation facility so that the outside low-temperature air is unique to the cultivation facility, and direct sunlight blocking of the first and second side windows is prevented system

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