KR101407879B1 - complex environment control method for greenhouse - Google Patents

Abstract

The present invention relates to a method for controlling an environment of a greenhouse in a complex manner whereby a greenhouse environment is controlled more automatically and more appropriately. A system of the method for controlling an environment of a greenhouse in a complex manner includes: a raw water tank (10); a mixing tank (30) in which raw water supplied by the raw water tank (10) and a nutrient solution supplied by a plurality of a nutrient solution tanks (20) are mixed; and a plurality of electrical valves (40) to which the nutrient solution mixed in the mixing tank (30) is irrigated through an irrigation pipe. According to the method for controlling an environment of a greenhouse in a complex manner, the nutrient solution is automatically supplied; the environment of the greenhouse is controlled in a complex manner by automatically opening and closing side windows; growth of plants inside the greenhouse is promoted; and the productivity is increased.

Description

[0001] The present invention relates to a complex environment control method for a greenhouse,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a hybrid environment control method for a greenhouse, and more particularly, to a hybrid environment control method for automatically and more suitably controlling a greenhouse environment.

In general, the greenhouse is a tendency to promote and control plant growth by automatically controlling the temperature, humidity, and the like. For example, Japanese Patent Application Laid-Open No. 1997-0032370 discloses a microcomputer that includes a buffer for reading a driving control signal of a microcomputer, an open tri-acoustic matching unit for receiving a driving control signal and outputting a driving power and an open control signal, An opening motor for opening the skylight and the side window at a slow speed by driving the opening triac; and an open motor for driving the open motor for driving the open motor, And a closing motor for closing the skylight and the side window at a slow speed by the driving of the closing triac part, wherein the closing motor is driven by the closing motor, A window opening / closing means of a window is disclosed.

In addition, Patent Registration No. 10-0883691 discloses a structure in which an opening / closing gate is installed on a suitable one surface of a cabinet body surrounded by a heat insulating wall and an illumination window is formed on the upper surface or a suitable side surface (LED) lighting device for illuminating the inside of the cabinet through the illumination window is provided outside the cabinet body so as to face the lighting window, And an LED control means for controlling the LED lighting apparatus on an appropriate side, wherein the cabinet is provided with a growth detection sensor for detecting a growth condition of a plant, and a growth detection sensor for detecting a growth condition of at least one of plant ambient temperature, humidity, And at least a part (a part) of a growth environment controlling means for controlling the growing environment, wherein the growth environment monitoring means And a growth environment control means for controlling the growth environment adjustment means based on information from the stage, wherein the illumination window is divided into two transparent glass plates or synthetic resin plates (synthetic resin plates , Or a space is formed in the middle of the space to form a single piece of glass or synthetic resin.

However, in the above-mentioned prior arts, opening and closing of the side window of the greenhouse is opened and closed only in consideration of temperature, wind direction, wind speed, etc., so that the appropriateness of opening and closing is poor and the plant management of the greenhouse is inaccurate and inefficient.

Accordingly, the present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a system and a method for automatically feeding a nutrient solution of a greenhouse and automatically opening and closing a window, And to provide a method for controlling a complex environment of a greenhouse.

The present invention relates to a hybrid environment control method for a greenhouse comprising a raw water tank 10, a mixing tank 30 in which nutrient solution is supplied and mixed in raw water and a plurality of nutrient tanks 20 of the raw water tank 10, And a plurality of tube-receiving solenoid valves (40) for mixing the nutrient solution mixed in the mixing tank (30) through a water pipe,

The raw water in the raw water tank 10 is drawn into the raw water tank 10 from the underground water tank through the raw water suction pump and the filter and then flows into the mixing tank 30 through the feed water pump 54, Negative pressure is generated in the respective venturi 94 connected between the branch pipe and the mixing tank 30 branched from the water pipe due to the watering action of the nutrient solution tank 60 and the nutrient solution in the nutrient solution tank 20 The nutrient solution of the nutrient solution tank 20 sequentially flows into the mixing tank 30 after passing through the opening and closing valve 92 and the venturi 94 in order to be smoothly sucked into the mixing tank 30 The mixed nutrient solution in the mixing tank 30 is supplied through a plurality of solenoid valves 40 via a water pump 60 and each venturi 94 is connected to one nutrient solution supply head 100 , The nutrient solution supply head 100 is connected to the mixing tank 30,

The nutrient solution for the liquid potion can be irrigated differently in different groups depending on the place and time. In the nutrient solution tank 20, all or a part of the nutrient solution is selected and mixed in the mixing tank 30, The nutrients supplied through the respective venturi 94 are uniformly mixed first in the nutrient solution supply head 100 and then mixed in the mixing tank (not shown) 30. A hybrid environment control method for a greenhouse,

 The water supply pump 54 operates faster than the irrigation pump 60 for a predetermined period of time to disperse large starting power generated when the water supply pump 54 and the irrigation pump 60 are operated simultaneously, ,

The nutrient solution tank 20 is emptied through a separate drain pipe before the selection of the nutrient solution tank 20 is changed so that the previous nutrient solution can not remain in the mixing tank when the nutrient solution selection in the nutrient solution tank 20 is changed in the control panel, The drain pipe is provided with a solenoid valve. When it is determined by the control panel to select a new nutrient solution, the control panel sends an electric signal to the solenoid valve to open the solenoid valve so as to drain the remaining nutrient solution and close the solenoid valve , Then a new nutrient solution is supplied,

In addition, the hybrid environment control method of the greenhouse includes a method of controlling a side window of a greenhouse, wherein the side window control method detects a measurement value of at least one of rainfall, storm and temperature,

 When detecting the storm and opening and closing the window, set the storm detection delay, wait for the wind to continue above the storm limit, and wait before sending a signal to the controller, which will detect the storm and continue to detect the storm Therefore, the control method of opening the window by sensing the stoppage of the storm, setting the delay time of the storm detection, setting the storm detection delay time, When the storm detects the stop and continues to detect the storm, it has the observation time for a certain period of time. When the storm does not continue for a certain time, the controller sends a signal to the control section that the storm is over,

When the rainfall and the storm simultaneously satisfy the operating conditions,

In addition, when the storm speed becomes larger than a predetermined speed, the indoor air blower is operated to discharge the indoor air to the outside, thereby relieving the pressure applied by the storm in the greenhouse to secure the greenhouse.

Accordingly, the present invention has a remarkable effect of promoting growth of indoor plants and improving productivity by automatically supplying nutrient solution to a greenhouse, automatically opening and closing the window, and controlling the environment of the greenhouse in a complex manner.

FIG. 1 is a view showing a control panel screen
2 is a schematic diagram of a nutrient solution system in which a venturi tube of a complex environment control system of the present invention greenhouse is installed
Fig. 3 is a schematic diagram showing a nutrient solution feeding head in a nutrient solution system in which a venturi tube of a complex environment control system of the present invention is installed.

The present invention relates to a hybrid environment control method for a greenhouse comprising a raw water tank 10, a mixing tank 30 in which nutrient solution is supplied and mixed in raw water and a plurality of nutrient tanks 20 of the raw water tank 10, And a plurality of pipe-receiving solenoid valves (40) for mixing the nutrient solution mixed in the mixing tank (30) through a water pipe.

The raw water in the raw water tank 10 is drawn into the raw water tank 10 from the underground water tank through the raw water suction pump and the filter and then flows into the mixing tank 30 through the feed water pump 54, Negative pressure is generated in the respective venturi 94 connected between the branch pipe and the mixing tank 30 branched from the water pipe due to the watering action of the nutrient solution tank 60 and the nutrient solution in the nutrient solution tank 20 The nutrient solution of the nutrient solution tank 20 sequentially flows into the mixing tank 30 after passing through the opening and closing valve 92 and the venturi 94 in order to be smoothly sucked into the mixing tank 30 The mixed nutrient solution in the mixing tank 30 is supplied through a plurality of solenoid valves 40 via a water pump 60 and each venturi 94 is connected to one nutrient solution supply head 100 , And the nutrient solution supply head 100 is connected to the mixing tank 30.

Therefore, the nutrient solution for livestock can be irrigated differently in different groups depending on the place and time, and all or part of the nutrient solution tank 20 is selected and mixed in the mixing tank 30, The nutrients supplied through the respective venturi 94 are uniformly mixed first in the nutrient solution supply head 100 and then mixed with the mixing tank 100. [ (30). ≪ / RTI >

 The water supply pump 54 operates faster than the irrigation pump 60 for a predetermined time to disperse a large amount of the starting power generated when the water supply pump 54 and the irrigation water pump 60 are operated simultaneously, .

Also, when the selection of nutrient solution in the nutrient solution tank 20 is changed in the control panel, the nutrient solution tank 20 is emptied through a separately installed drain pipe before the selection of the nutrient solution tank 20 is changed so that the previous nutrient solution can not remain in the mixing tank And a control valve for supplying the electric signal to the solenoid valve so as to open the solenoid valve to drain the remaining nutrient solution from the solenoid valve, And then a new nutrient solution is supplied.

In addition, the complex environment control method of the greenhouse includes a method of controlling a side window of a greenhouse, wherein the side window control method detects a measurement value of at least one of rainfall, storm, and temperature to control the closing and direction of the window.

Therefore, when the storm is detected and the window is opened and closed, a delay of storm detection is set to wait for the wind to continue above the storm limit and to wait before sending a signal to the control unit. This detects the storm, Therefore, if the storm is continued for a certain period of time, the control section sends a signal to the control section that a storm is blowing to close the storm window, and the control method of opening the storm window by detecting the storm storm is also set to the storm detection delay time If the storm senses that the storm has stopped and the storm has stopped, the watch will have a certain amount of observation time, and if the storm continues for a certain period of time, the storm will be signaled to the control unit that the storm is over and the window will open.

On the other hand, when the operation conditions of the rainfall and the storm are satisfied at the same time, the measurement is operated in preference to the storm.

In addition, when the storm speed becomes larger than a predetermined speed, the room air that has been operated by the indoor room ventilator is discharged to the outside, thereby releasing the pressure applied by the storm in the greenhouse, thereby securing the safety of the greenhouse.

The present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view of a hybrid environment control system of a greenhouse of the present invention, FIG. 2 is a configuration diagram of a nutrient solution system provided with a venturi tube of the hybrid environment control system of the present invention, and FIG. And the nutrient solution supply head is installed in the installed nutrient solution system.

And, the tentative operation time of the present invention is automatically displayed on the control panel by the actual time set by the operating condition and the relative time.

The operating conditions shall be set to no use, before sunrise, after sunrise, at fixed time, before sunset, and after sunset.

The relative time sets the relative time to start from the operating condition.

The ventilation temperature is set to the temperature to be ventilated at each step.

The left window position sets the maximum position value of the step left window.

The right window position sets the maximum position value of the stepwise right window.

The operating temperature range is based on the ventilation setpoint and the greenhouse temperature is stopped within the operating temperature range

If it goes up, the window opens, and when it goes down, the window closes.

Shutter stop = (ventilation temperature + operating temperature range) <greenhouse temperature> (ventilation temperature - operating temperature range)

Open window = (ventilation temperature + operating temperature width)> greenhouse temperature

Closing the window = (ventilation temperature - operating temperature width) <greenhouse temperature

In the case of rain, the left window position and the right window position set the position above the window during rainfall, and take precedence over the ventilation temperature.

The left window position and the right window position during a storm set the position above the window in the event of a storm, but take precedence over the ventilation temperature.

In addition, the setting of the window opening and closing time will be described.

The window opening is the time in seconds until the window is completely closed and fully opened.

Enter the time in seconds from when the window is fully opened to when it is completely closed.

If rainfall and storms are met at the same time, operate the side window first on the storm.

When the storm reaches 10m / sec, which is more than 6m / sec, the indoor ventilator is operated and the indoor air is discharged to the outside. Therefore, the greenhouse is secured by releasing the pressure applied by the storm in the greenhouse.

     According to the present invention, when a storm is detected by the wind speed sensor installed on an outdoor weather station, the window is closed, and when the storm is stopped, the window is opened. The wind speed sensor also has a built-in wind speed sensor.

And the storm threshold setting is about 0 ~ 30m / sec category for the intensity setting of the wind to be recognized as a storm.

     The present invention sets the storm detection delay time. The storm detection delay is about 0 to 600 seconds, which is a waiting time before the wind is continued above the storm limit and a signal is sent to the control unit. This is because it is necessary to detect whether the storm continues to blow even after detecting the storm, so that it has a certain time observation time. When a storm continues for a certain period of time, a signal is sent to the control unit that a storm is blowing and the window closes.

Delayed storm delays are the delays of stormy winds when the wind strength is below the storm limit above the storm limit. It is the time to wait before the storm ends and the window opens again. If the storm does not recur within the waiting time, a storm cancellation signal is sent to the control unit to open the window.

     In addition, the present invention closes the window when rain is detected by the rain sensor installed on the outdoor weather station, and opens the window when the rain stops. The rainfall sensor may be installed for use in a conventional manner. Further, the present invention sets a rainfall detection delay time, which is a waiting time before detecting rainfall and sending a signal to the control unit, and is about 0 to 600 seconds. This is because it is necessary to detect whether it is raining while it detects rainfall, so it has a certain time observation time. Then, when the rain continues for a certain period of time, the signal is sent to the control unit to rain, and the window is closed.

     The rainfall cancellation delay time is about 0 ~ 600 seconds, which is the waiting time before sending the signal after rain descent. It is the time to wait according to the property of the intermittent rain before the rain descends and the sky is opened again. If the rain does not fall again within the waiting time, a rainfall cancellation signal is sent to the controller to open the window.

In the present invention, it is possible to determine at least a few percent of the room temperature when the indoor temperature is higher than the ventilation temperature even when the rainfall and the storm are detected.

A mixing tank 30 in which nutrient solution is supplied and mixed in the raw water and a plurality of nutrient tanks 20 of the raw water tank 10 and a mixing tank 30 in which the nutrient solution is mixed in the mixing tank 30; And a plurality of tube-receiving solenoid valves (40), through which the nutrient solution is drained, through a water pipe.

The raw water in the raw water tank 10 is drawn into the raw water tank 10 from the underground water tank through the raw water suction pump and the filter and then flows into the mixing tank 30 through the feed water pump 54, Negative pressure is generated in each of the venturi tubes 94 connected between the branch pipe and the mixing tank 30 branched from the water pipe by the watering action of the water tank 60, The nutrient solution is sucked into the mixing tank 30 smoothly.

Also, when the selection of nutrient solution in the nutrient solution tank 20 is changed in the control panel, the nutrient solution tank 20 is emptied through the separately installed drain pipe before the selection of the nutrient solution tank 20 is changed so that the previous nutrient solution can not remain in the mixing tank .

In the raw water suction pump of the present invention, the pump is automatically operated when the raw water in the raw water tank is below a certain level by using the automatic pump with the automatic water level controller. When the water level reaches a certain level, To maintain a constant water level at all times.

The mixing tank is a tank that mixes the incoming nutrients through the venturi and has a capacity of about 150 liters.

And a control panel for controlling the nutrient solution supply and the irrigation water are installed together.

The maximum irrigation capacity of the present invention nutrient supply system is about 12,000 to 34,000 liters / hour, and the nutrient supply is 10 to 500 liters / hour. The liquid control of the present invention performs proportional control by the nutrient solution setting value.

The machine weight of the present invention is about 80 Kg, and the power source uses three-phase four-wire type AC380V / 60Hz or single-phase 220V / 60Hz.

In the present invention, the nutrient solution for liquid fertilizer can be irrigated differently in different groups depending on the place and time, and all or part of the nutrient tanks are selected and mixed in a mixing tank. And select the appropriate group for each of them.

A mixing tank 30 in which a nutrient solution is supplied and mixed in raw water and a plurality of nutrient tanks 20 of the raw water tank 10 and a mixing tank 30 in which the nutrient solution mixed in the mixing tank 30 is mixed with water And a plurality of tube-receiving solenoid valves (40) that are irrigated through the tube-receiving solenoid valves (40).

The raw water in the raw water tank 10 is drawn into the raw water tank 10 through a raw water suction pump and a filter which are widely used from the underground tank or the earth surface and then flows into the mixing tank 30 through the feed pump 54, .

In this case, negative pressure is generated in each of the venturi pipes 94 connected between the water supply pipe and the mixing tank by the irrigation action of the irrigation pump 60, Is smoothly sucked into the mixing tank (30).

The nutrient solution of the nutrient solution tank 20 is sequentially introduced into the mixing tank 30 after passing through the opening and closing valve 92 and the venturi 94 in sequence.

The mixed nutrient solution in the mixing tank 30 is fed through a plurality of solenoid valves 40 via a water pump 60.

On the other hand, each of the venturi is provided with an opening / closing valve 92, and each venturi is connected to one nutrient solution supply head, and the nutrient solution supply head is connected to the mixing tank. Therefore, the nutrient solutions supplied through the respective venturi are uniformly mixed first in the nutrient solution feed head and then supplied to the mixing tank. Since the venturi tube can be used widely in the laboratory or in the field of fluid machinery, it will not be described in detail.

Further, in the present invention, the feed pump 54 operates for a certain time, usually about 3 seconds, more than the irrigation pump 60. Therefore, stable power supply can be achieved by dispersing the high starting power generated when the pump water supply pump and the water supply pump operate simultaneously.

In addition, when the nutrient solution in the nutrient solution tank is changed to a new one in the control panel, the nutrient solution tank is emptied through a drain pipe separately provided under the nutrient solution tank before the selection of the nutrient solution tank is changed so that the previous nutrient solution does not remain in the mixing tank . The drain pipe is provided with a solenoid valve. When it is determined that the control panel selects a new nutrient solution, the control panel sends an electric signal to the solenoid valve to open the solenoid valve to drain the remaining nutrient solution. Then, the solenoid valve is closed, and then a new nutrient solution is supplied.

On the other hand, the EC sensor for measuring the electric conductivity and the PH sensor for measuring the acidity and the alkalinity are widely used, and the EC sensor is installed between the mixing tank and the irrigation pump, And the mixing tank.

Therefore, the present invention has a remarkable effect of increasing the productivity of the plant because the nutrient solution for the juice can be easily and conveniently mixed and regulated to regulate the amount of the juice.

     There is a remarkable effect of promoting growth of indoor plants and improving productivity by controlling the environment of the greenhouse by automatically opening and closing the side window of the greenhouse.

10: raw water tank 20: nutrient solution tank
30: mixing tank 40: solenoid valve
54: Feed pump
60: water pump
92: opening and closing valve
94: Venturi
100: nutrient supply head
101: EC sensor 102: PH sensor

Claims (1)

A mixing tank 30 in which a nutrient solution is supplied and mixed in the raw water and a plurality of nutrient tanks 20 of the raw water tank 10 and a mixing tank 30 for mixing nutrient solution mixed in the mixing tank 30, And a plurality of tube-receiving solenoid valves 40,
The raw water in the raw water tank 10 is drawn into the raw water tank 10 from the underground water tank through the raw water suction pump and the filter and then flows into the mixing tank 30 through the feed water pump 54, Negative pressure is generated in the respective venturi 94 connected between the branch pipe and the mixing tank 30 branched from the water pipe due to the watering action of the nutrient solution tank 60 and the nutrient solution in the nutrient solution tank 20 The nutrient solution of the nutrient solution tank 20 sequentially flows into the mixing tank 30 after passing through the opening and closing valve 92 and the venturi 94 in order to be smoothly sucked into the mixing tank 30 The mixed nutrient solution in the mixing tank 30 is supplied through a plurality of solenoid valves 40 via a water pump 60 and each venturi 94 is connected to one nutrient solution supply head 100 , The nutrient solution supply head 100 is connected to the mixing tank 30,
The nutrient solution for the liquid potion can be irrigated differently in different groups depending on the place and time. In the nutrient solution tank 20, all or a part of the nutrient solution is selected and mixed in the mixing tank 30, The nutrients supplied through the respective venturi 94 are uniformly mixed first in the nutrient solution supply head 100 and then mixed in the mixing tank (not shown) 30. A hybrid environment control method for a greenhouse,
The water supply pump 54 operates faster than the irrigation pump 60 for a predetermined period of time to disperse large starting power generated when the water supply pump 54 and the irrigation pump 60 are operated simultaneously, ,
The nutrient solution tank 20 is emptied through a separate drain pipe before the selection of the nutrient solution tank 20 is changed so that the previous nutrient solution can not remain in the mixing tank when the nutrient solution selection in the nutrient solution tank 20 is changed in the control panel, The drain pipe is provided with a solenoid valve. When it is determined by the control panel to select a new nutrient solution, the control panel sends an electric signal to the solenoid valve to open the solenoid valve so as to drain the remaining nutrient solution and close the solenoid valve , Then a new nutrient solution is supplied,
In addition, the hybrid environment control method of the greenhouse includes a method of controlling a side window of a greenhouse, wherein the side window control method detects a measurement value of at least one of rainfall, storm and temperature,
When detecting the storm and opening and closing the window, set the storm detection delay, wait for the wind to continue above the storm limit, and wait before sending a signal to the controller, which will detect the storm and continue to detect the storm Therefore, the control method of opening the window by sensing the stoppage of the storm, setting the delay time of the storm detection, setting the storm detection delay time, When the storm detects the stop and continues to detect the storm, it has the observation time for a certain period of time. When the storm does not continue for a certain time, the controller sends a signal to the control section that the storm is over,
When the rainfall and the storm simultaneously satisfy the operating conditions,
In addition, when the speed of the storm becomes larger than a predetermined speed, indoor air that has been operated by the indoor indoor ventilator is discharged to the outside to release the pressure applied by the storm in the indoor room, Complex environment control method

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