KR101632789B1 - nutrient solution supply method with ventury - Google Patents

Abstract

The present invention relates to a nutrient supply control method in which a venturi is installed and includes 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 solutions mixed in the mixing tank (30), thereby selecting all or a part of the nutrient tanks (20). Mixing the selected nutrient solution and raw water supplied from the raw water tank (10) together in a mixing tank (30); A nutrient solution supply control method for a venturi including a water level step of selecting a group of irrigation water objects to be mixed with each other by selecting all or a part of the irrigation water objects,
In the watering step, the control time of the solenoid valve is stored in the memory when the nutrient solution value set in the group corresponding to the control object of the watering object is reached correctly, and the control time of the previously stored solenoid valve Controlling the nutrient solution to be fed to the nutrient solution control value and reducing the deviation value of the nutrient solution value and the actual nutrient solution value,
In addition, the control method of determining the start time of the irrigation includes the interval control or the light amount control method, wherein the interval control method comprises: setting a watering start time to start the watering of the day and setting a deadline; Setting a first start time of the first stage by performing a multi-step interval control without a watering even if the number of watering times remains after the deadline setting value; And setting a time at which the watering starts in a sequential manner to the second and third steps,
Wherein the light amount control method includes the steps of setting a watering start time for starting the watering of the day and setting a deadline, and even if the accumulated light amount reaches the set light amount after the deadline setting value, And the maximum interval is the set time for watering when the accumulated light amount can not reach the maximum interval. It is a time for making the water amount to become a watering amount at a certain time even if the accumulated light amount is insufficient, When reaching the minimum interval, it is time to set the watering to be able to be executed. If the accumulated light amount is too much and reaches the predetermined amount of light before the minimum interval time, it is controlled so that watering is not performed until the minimum time is reached. And executing the watering when the minimum interval time is reached,
In addition, the watering system has a time watering system and a flow watering system, the time watering system setting the watering time to a predetermined time unit; And a step of sequentially setting a predetermined time unit to a second step and a third step, wherein the flow rate irrigation is a step of irrigating one irrigation volume in units of flow rate; And a step of sequentially setting one pipe quantity as a flow rate unit in the following two steps and three steps in sequence. The three kinds of methods of the interval control, the time water quantity, the light quantity control, the time water quantity and the light quantity control, Can be selected and controlled selectively,
If the user selects the interval control and the time irrigation, after the irrigation is stopped for the first time in the first step and then the irrigation is stopped again for the second time, if the light amount control and the time irrigation are selected, When the predetermined light intensity value is reached, the irrigation water is irrigated for a certain period of time, then the irrigation water is stopped, and then the irrigation water level is again reached. When the light amount control and the flow irrigation water amount are selected, When the light quantity is reached, the irrigation water is irrigated at a constant flow rate, and when the irrigation water is stopped,
In addition, the one-day interval control and the light amount control further include a step of adding a pipe quantity by a value set separately based on the set pipe quantity by setting a predetermined time within the pipe water time,
The present invention has a remarkable effect that irrigation can be performed by simply and conveniently mixing the nutrient solution for potting so as to control the amount of potable water.

Description

[0001] The present invention relates to a nutrient solution supply method with venturi,

The present invention relates to a nutrient solution supply control method in which a venturi is installed, and more particularly, to a nutrient solution supply control method in which a nutrient solution in a nutrient solution tank is supplied to a mixing tank through a venturi,

In general, nutrient solution cultivation is a scientific method for cultivating various crops by supplying a culture solution containing all nutrients necessary for plant growth, as described in the prior art in Patent Registration No. 10-1090279 and Registration No. 10-0298214 As a farming technology, it is intended to grow plants without regard to soil, and this is distinguished by cultivation of solid medium and cultivation of liquid medium and thin film according to medium. The above-mentioned nutrient solution cultivation can prevent the pests and diseases of various crops, and can be said to be an advanced farming method in which pollution free plants can be produced by an organic pesticide-free cultivation. In the nutrient solution feeding system for the nutrient solution cultivation, the concentration of the nutrient solution is set in advance so as to be suitable for the growth of cultivated crops, and then the concentrated nutrient solution is supplied and mixed with the water, The nutrient solution is automatically supplied and the nutrient solution is detected and read, and the read data is supplied to a display unit such as an LCD or the like via a warning display unit The present invention relates to an automatic nutrient supply control and fault diagnosis system for detecting and displaying an abnormality in a process, and discloses a technique for automatically adjusting and supplying environment and climate required by various cultivated crops.

In addition, as described in the above-mentioned prior art publication No. 10-1090279, registration No. 10-0933624 discloses a water supply system including a base portion connected to a raw water supply portion, a vegetation portion, a nutrient solution supply portion A control unit and nutrient solution supply means for supplying a solution and raw water by the nutrient solution supplier operated under the control of the control unit and storing the nutrient solution in which the solution and raw water are mixed in the base unit, The nutrients of the nutrient solution are directly supplied to the plant roots of the vegetation soil filled in the vegetation space of the vegetation part by the nutrient solution feeding means in a different amount by the control part for each vegetation space, In order for the growth of the growing plants to take place automatically, as well as for the growth of different plants in one place A technique for providing a nutrient solution cultivation apparatus is disclosed. However, the above-mentioned conventional nutrient solution supply system is merely a combination of the functions, and thus has a disadvantage in that the volume of the machine is large, its weight is heavy, and operation is inconvenient.

In addition, the prior art including the above-mentioned Patent Registration No. 10-1090279 has a disadvantage in that the method and apparatus for supplying the nutrient solution for the juice are inconvenient and complicated to use.

In addition, in the prior art, there is a disadvantage in that a deviation between the nutrient control value set by setting the solenoid valve operation time from time to time based on the value of EC or pH of the nutrient solution set for each control zone and the actual nutrient value becomes large.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made to solve the above problems, and it is an object of the present invention to provide a nutrient solution supply control method in which a nutrient solution can be easily and conveniently mixed, .

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 irrigated A plurality of tube-receiving solenoid valves (40) to select all or a part of the plurality of nutrient tanks (20); Mixing the selected nutrient solution and raw water supplied from the raw water tank (10) together in a mixing tank (30); A nutrient solution supply control method for a venturi including a water level step of selecting a group of irrigation water objects to be mixed with each other by selecting all or a part of the irrigation water objects,

In the watering step, the control time of the solenoid valve is stored in the memory when the nutrient solution value set in the group corresponding to the control object of the watering object is reached correctly, and the control time of the previously stored solenoid valve Controlling the nutrient solution to be fed to the nutrient solution control value and reducing the deviation value of the nutrient solution value and the actual nutrient solution value,

In addition, the control method of determining the start time of the irrigation includes the interval control or the light amount control method, wherein the interval control method comprises: setting a watering start time to start the watering of the day and setting a deadline; Setting a first start time of the first stage by performing a multi-step interval control without a watering even if the number of watering times remains after the deadline setting value; And setting a time at which the watering starts in a sequential manner to the second and third steps,

Wherein the light amount control method includes the steps of setting a watering start time for starting the watering of the day and setting a deadline, and even if the accumulated light amount reaches the set light amount after the deadline setting value, And the maximum interval is the set time for watering when the accumulated light amount can not reach the maximum interval. It is a time for making the water amount to become a watering amount at a certain time even if the accumulated light amount is insufficient, When reaching the minimum interval, it is time to set the watering to be able to be executed. If the accumulated light amount is too much and reaches the predetermined amount of light before the minimum interval time, it is controlled so that watering is not performed until the minimum time is reached. And executing the watering when the minimum interval time is reached,

In addition, the watering system has a time watering system and a flow watering system, the time watering system setting the watering time to a predetermined time unit; And a step of sequentially setting a predetermined time unit to a second step and a third step, wherein the flow rate irrigation is a step of irrigating one irrigation volume in units of flow rate; And a step of sequentially setting one pipe quantity as a flow rate unit in the following two steps and three steps in sequence. The three kinds of methods of the interval control, the time water quantity, the light quantity control, the time water quantity and the light quantity control, Can be selected and controlled selectively,

 If the user selects the interval control and the time irrigation, after the irrigation is stopped for the first time in the first step and then the irrigation is stopped again for the second time, if the light amount control and the time irrigation are selected, When the predetermined light intensity value is reached, the irrigation water is irrigated for a certain period of time, then the irrigation water is stopped, and then the irrigation water level is again reached. When the light amount control and the flow irrigation water amount are selected, When the light quantity is reached, the irrigation water is irrigated at a constant flow rate, and when the irrigation water is stopped,

In addition, the one-day interval control and the light amount control may further include a step of adding a pipe amount by a value set separately based on the set pipe amount by setting a predetermined time within the pipe water time. Way

Therefore, the present invention has a remarkable effect that the nutrient solution for the potting can be easily and conveniently mixed with the potable water to regulate the amount of potable water.

1 is a schematic diagram of a nutrient solution system equipped with a venturi of the present invention
FIG. 2 is a schematic view showing a nutrient solution system equipped with a venturi according to the present invention.
3 is a schematic diagram of a conventional nutrient supply system and method

The present invention relates to a nutrient supply control method in which a venturi is installed and includes 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, A plurality of tube-receiving solenoid valves 40 for mixing the nutrient solution mixed in the mixing tank 30,

The nutrient solution for the liquid pot can be irrigated differently in different groups depending on the place and the time. It is possible to select all or a part of the nutrient solution in the nutrient solution tank 20 and mix it with the raw water supplied from the raw water tank 10 A method of controlling a nutrient solution supply system in which a venturi is mixed with water in a tank (30), and a group of irrigation water objects to be mixed with each other by selecting all or a part of irrigation water objects,

Wherein the nutrient solution supply control includes an interval control or a light amount control method, wherein the interval control method includes: setting a watering start time to start the watering of the day and setting a deadline;

Setting a first start time of the first stage by performing a multi-step interval control without a watering even if the number of watering times remains after the deadline setting value;

And setting a time at which the watering starts in a sequential manner to the second and third steps,

Wherein the light amount control method comprises: setting a watering start time for starting the watering of the day, and setting a deadline;

The maximum interval and the minimum interval are set as the setting time for making the water flow when the accumulated light amount does not reach the maximum interval, The minimum interval is the time to wait until the accumulated light intensity reaches the minimum interval before reaching the minimum interval and then set the water to run. And when the light amount reaches the predetermined amount of light before the time, it is controlled so as to wait until the minimum time is reached, and then to execute the watering when the minimum interval time is reached,

And the watering system has a time watering system and a flow watering system, and the time watering system is set when the watering system is to be installed in a certain time unit, A combination of the time control, the time control, the light control, the time control, the light control, and the flow control can be selectively performed. However,

1 day interval control and light quantity control It is to add the pipe quantity by the value that is set separately based on the set quantity of water by setting a certain time within the water supply time,

In addition, the control time of the solenoid valve is stored in the memory when the nutrient solution value set for the water control target zone is reached correctly, and the previously stored solenoid valve control time is controlled in the next nutrient solution control in the same zone, And the difference between the nutrient solution control value and the actual nutrient solution value is reduced.

The present invention will be described in detail with reference to the accompanying drawings. Fig. 1 is a schematic diagram of a nutrient solution system in which a venturi of the present invention is installed, Fig. 2 is a configuration diagram in which a nutrient solution supply head is installed in a nutrient solution system equipped with a venturi of the present invention, and Fig. 3 is a schematic diagram of a conventional nutrient solution supply system and method.

The raw water suction pump uses an automatic pump with an automatic water level controller so that when the raw water inside the raw water tank is below a certain level, the pump automatically operates. When the water level reaches a certain level, the pump is stopped, .

The mixing tank is a tank that mixes incoming nutrients through a venturi and has a capacity of about 200 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 18,000 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.

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.

The nutrient solution supply system provided with the venturi of the present invention comprises a raw water tank, 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 plurality of pipe-receiving solenoid valves 40, through which the mixed nutrient solution is irrigated through the irrigation pipes.

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.

The control method for determining the start time of the irrigation is the interval control and the light amount control. The interval control sets the time to start the watering on that day and sets the deadline. After the deadline setting value, even if the number of irrigation is left, it does not become irrigation. And performs a multi-step interval control. For example, if you divide into 3 levels, you set the start time of the first step, set the time at which the next 2 steps start, and set the time at which the next 3 steps start.

Light intensity control sets watering start time and dead time first. The start time is set to the time to start the watering on that day, and even if the accumulated light amount reaches the set light amount after the set time of the deadline, the water does not become irrigation.

The maximum interval and the minimum interval are set, but the maximum interval is a set time for forcibly draining the water when the accumulated light amount does not reach the maximum interval. That is, in the case where the maximum interval is set as the interval of a certain period of time (the amount of time, that is, the interval, not the time zone set in the day), for example, When the amount of light is not reached as much as the reference amount, the irrigation is started without waiting any longer. Even if the rainfall is too low or the weather is cloudy and the accumulated light intensity is insufficient, water will be irrigated after a certain period of time.

On the other hand, the minimum interval is a time to wait until the accumulated light amount reaches the minimum interval even before reaching the predetermined minimum interval, and then set to execute the watering.

That is, for example, when the minimum interval is set to an interval of a predetermined time, for example, even when the light amount accumulated over the predetermined time reaches a light amount equal to the set amount, the water does not become irrigation.

In other words, when the amount of solar radiation is too much during the predetermined time, the irrigation cycle is shortened. Therefore, when the light amount determined before the minimum interval time is reached, it is controlled at least for the minimum time Do not run the water until you force it to wait until the minimum interval time elapses after the water is run.

On the other hand, the irrigation system has time irrigation and flow irrigation. Time irrigation is set when you want to irrigation the irrigation water by a certain time unit. The flow rate is set when you want to drill a single pipe, for example, 10 liters.

Therefore, if the user selects the interval control and the time watering, the water is irrigated for a certain period of time (for example, 10 minutes) in the first step, and then the water is irrigated for another 10 minutes again when the watering is stopped.

If the light intensity control and the time watering are selected, if the accumulated light intensity reaches the set light intensity value, the watering is performed for a predetermined time (for example, 10 minutes), and after the watering is stopped, It will be watered. When the light quantity control and the flow rate water quantity are selected, when the accumulated light quantity reaches the predetermined light quantity value, the water quantity is drained at a constant flow rate (for example, 10 liters) .

Then, the interval control and the light amount control as described above can be performed by setting the cycle to 1 day, 3 days, or 1 week.

For example, in the first group, the control method is the interval control, the irrigation method is the flow rate irrigation, the liquid amount selection is A / B / C, and the irrigation cycle is 1 day. The control method is light intensity control, the irrigation method is time irrigation, the nutrient selection is D / E / C, and the irrigation period is 3 days.

The present invention improves the disadvantages of the prior art in which a deviation between the nutrient solution control value and the actual nutrient solution value, which is set by changing the solenoid valve operation time from time to time based on the EC value or the pH value of the nutrient solution set for each control zone,

The control time of the solenoid valve is stored in the memory when the EC or pH value of the nutrient solution set by the control zone has been correctly reached, and the next time the nutrient solution in the same zone is retrieved and controlled by the previously stored solenoid valve control time, And the difference between the nutrient control value and the actual nutrient value is reduced.

In addition, the present invention can add a pipe amount by a value (%) set separately based on a set amount of water by setting a predetermined time within a daytime interval control and light amount control irrigation time (for example, daytime with a lot of light amount) .

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 which is mixed in the mixing tank 30, And a plurality of pipe-receiving solenoid valves (40) for draining the nutrient solution, wherein the nutrient solution for the juice can be irrigated differently in different groups depending on the place and time, A part of the water is mixed with the raw water supplied from the raw water tank 10 in the mixing tank 30 and only a part or whole of the irrigation water is selected and a group of irrigation water objects whose mutual solution amounts are mutually coincident is determined, A method for controlling a nutrient solution supply system for a venturi,

The control time of the solenoid valve is stored in the memory when the nutrient solution value set in the group corresponding to the control object of the watering object reaches the correct value and the previously stored control time of the solenoid valve is controlled in the nutrient solution control of the next zone And the difference between the nutrient control value and the actual nutrient value is decreased,

In addition, the control method of determining the start time of the irrigation includes the interval control or the light amount control method, wherein the interval control method comprises: setting a watering start time to start the watering of the day and setting a deadline; Setting a first start time of the first stage by performing a multi-step interval control without a watering even if the number of watering times remains after the deadline setting value; And setting a time at which the watering starts in a sequential manner to the second and third steps,

Wherein the light amount control method includes the steps of setting a watering start time for starting the watering of the day and setting a deadline, and even if the accumulated light amount reaches the set light amount after the deadline setting value, And the maximum interval is the set time for watering when the accumulated light amount can not reach the maximum interval. It is a time for making the water amount to become a watering amount at a certain time even if the accumulated light amount is insufficient, When reaching the minimum interval, it is time to set the watering to be able to be executed. If the accumulated light amount is too much and reaches the predetermined amount of light before the minimum interval time, it is controlled so that watering is not performed until the minimum time is reached. And executing the watering when the minimum interval time is reached,

In addition, the watering system has a time watering system and a flow watering system, the time watering system setting the watering time to a predetermined time unit; And a step of sequentially setting a predetermined time unit to a second step and a third step, wherein the flow rate irrigation is a step of irrigating one irrigation volume in units of flow rate; And a step of sequentially setting one pipe quantity as a flow rate unit in the following two steps and three steps in sequence. The three kinds of methods of the interval control, the time water quantity, the light quantity control, the time water quantity and the light quantity control, Can be selected and controlled selectively,

If the user selects the interval control and the time irrigation, after the irrigation is stopped for the first time in the first step and then the irrigation is stopped again for the second time, if the light amount control and the time irrigation are selected, When the predetermined light intensity value is reached, the irrigation water is irrigated for a certain period of time, then the irrigation water is stopped, and then the irrigation water level is again reached. When the light amount control and the flow irrigation water amount are selected, When the light quantity is reached, the irrigation water is irrigated at a constant flow rate, and when the irrigation water is stopped,

In addition, the one-day interval control and the light amount control further include a step of adding a pipe quantity by a value set separately based on the set pipe quantity by setting a predetermined time within the pipe water time,

The device is small in volume, light in weight, easy to operate, and can be irrigated differently in different groups according to the amount of liquid to be dispensed according to place and time.

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 raw water and a plurality of nutrient tanks 20 of the raw water tank 10 and a 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 through the raw water suction pump and the filter and is then introduced into the mixing tank 30 through the feed water pump 54, A negative pressure is generated in each of the venturi 94 connected between the water supply pipe and the mixing tank 30 by the watering operation of the nutrient solution tank 20 and the nutrient solution in the nutrient solution tank 20 is introduced into the mixing tank 30 And is smoothly sucked,
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,
The mixed nutrient solution in the mixing tank 30 is fed through a plurality of solenoid valves 40 through a water pump 60,
Each venturi 94 is provided with an on-off valve 92 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 And the nutrient solutions supplied through the venturi 94 are uniformly mixed first in the nutrient solution supply head 100 and then supplied to the mixing tank 30,
Selecting all or a part of the nutrient solution from the plurality of nutrient tanks (20); Mixing the selected nutrient solution and raw water supplied from the raw water tank (10) together in a mixing tank (30); A nutrient solution supply control method for a venturi comprising a water level step of selecting a group of irrigation water objects to be mixed with each other by selecting all or a part of irrigation water objects,
In the watering step, the control time of the solenoid valve is stored in the memory when the nutrient solution value set in the group corresponding to the control object of the watering object is reached correctly, and the control time of the previously stored solenoid valve Controlling the nutrient solution to be fed to the nutrient solution control value and reducing the deviation value of the nutrient solution value and the actual nutrient solution value,
In addition, the control method of determining the start time of the irrigation includes the interval control or the light amount control method, wherein the interval control method comprises: setting a watering start time to start the watering of the day and setting a deadline; Setting a first start time of the first stage by performing a multi-step interval control without a watering even if the number of watering times remains after the deadline setting value; Setting the time at which the irrigation water is sequentially started to the next two and three steps; Lt; / RTI >
Wherein the light amount control method includes the steps of setting a watering start time for starting the watering of the day and setting a deadline, and even if the accumulated light amount reaches the set light amount after the deadline setting value, And the maximum interval is the set time for watering when the accumulated light amount can not reach the maximum interval. It is a time for making the water amount to become a watering amount at a certain time even if the accumulated light amount is insufficient, When reaching the minimum interval, it is time to set the watering to be able to be executed. If the accumulated light amount is too much and reaches the predetermined amount of light before the minimum interval time, it is controlled so that watering is not performed until the minimum time is reached. And executing the watering when the minimum interval time is reached,
In addition, the watering system has a time watering system and a flow watering system, the time watering system setting the watering time to a predetermined time unit; And a step of sequentially setting a predetermined time unit to a second step and a third step, wherein the flow rate irrigation is a step of irrigating one irrigation volume in units of flow rate; And a step of sequentially setting one pipe quantity as a flow rate unit in the following two steps and three steps in sequence. The three kinds of methods of the interval control, the time water quantity, the light quantity control, the time water quantity and the light quantity control, When the user selects the interval control and the time watering, the user is stopped for a predetermined time in the first step, and then the watering is stopped. When the time is again the second time, If the light amount control and the time water number are selected, if the accumulated light amount reaches the predetermined light amount value, the water number is irrigated for a certain period of time. After the water number is stopped, , When the light quantity control and the flow rate water quantity are selected, when the accumulated light quantity reaches the predetermined light quantity value, the water quantity is irrigated and then the water is stopped, When reaching the light intensity value will be again constant flow irrigation,
In addition, the one-day interval control and the light amount control may further include a step of adding a pipe amount by a value set separately based on the set pipe amount by setting a predetermined time within the pipe water time. Way

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