KR19990085172A - Nutrient solution automatic supply and trouble diagnosis system - Google Patents

Abstract

The present invention is to set the concentration of the nutrient solution in advance to suit the growth of the cultivated crops EC and pH and then supply the concentrated nutrient solution and mixed with water to adjust the nutrient solution concentration to the set data value, to automatically supply the adjusted nutrient solution At the same time, the supply state and failure status of the nutrient solution are detected and read, respectively, and the nutrient solution is automatically adjusted to detect and display abnormalities in the process of supplying the nutrient solution through a display unit such as an LCD and warning display means. The present invention relates to a supply and failure diagnosis system, characterized in that it automatically adjusts and supplies the required environment and climate according to various cultivated crops.

Description

Nutrient solution automatic supply and trouble diagnosis system

The present invention relates to a nutrient solution automatic control supply and failure diagnosis system, and more specifically, to set the concentration of nutrient solution suitable for the growth of cultivated crops (EC) and acidity (pH) and then supply the concentrated nutrient solution It is mixed with water to adjust the nutrient solution concentration to the set data value, and automatically supply the adjusted nutrient solution and at the same time detect and read the supply state and failure of the nutrient solution, and read the read data and the display unit such as LCD It relates to a nutrient solution automatic control supply and failure diagnosis system to detect and display the abnormality in the process of supplying nutrient solution through the warning display means.

In general, nutrient cultivation is also called hydroponic cultivation, and is a scientific farming technique for cultivating various crops by supplying a culture solution containing all the nutrients necessary for plant growth, and to grow plants regardless of soil. Depending on the medium, it is classified into solid medium cultivation, bile solution and thin film hydroponic cultivation. The nutrient solution cultivation is possible to prevent pests of various crops, it can be said to be an advanced farming method that can produce a pollution-free plant with no pesticide clean cultivation.

The nutrient solution automatic control supply device receives the raw water from the outside as programmed in the program logic controller (PLC) as recorded in the patent application No. 97-62353 (the nutrient solution method and automatic supply system) filed by the applicant. A device that adjusts nutrient solution by mixing liquid fertilizer (concentrated nutrient solution) to the introduced raw water at a predetermined ratio, and automatically supplies nutrient solution by automatically adjusting nutrient solution to the electrical conductivity and acidity required for growing the crop. It has been filed.

However, such a nutrient solution supply automatically supplies nutrient solution by automatically adjusting the electrical conductivity (hereinafter referred to as EC) and acidity (hereinafter referred to as pH) required by the cultivation crops according to the data programmed according to the various cultivation crops, In addition, although an alarm device is provided to notify the abnormality of the pressure abnormality of the flow passage in the process of supplying the nutrient solution, an abnormality occurs in various pumps and solenoid valves of the operating part controlling the mixed pressure of the water and liquid fertilizer from the outside. If there is no detection device for detecting this, there is an inconvenience that the operator must check the abnormality of the device through the periodic inspection of the faulty part of the nutrient solution supply device, the failure occurs in the nutrient solution automatic supply device If necessary, manually switch to manually adjust the amount of liquid There is an uncomfortable problem of supplying the nutrient solution.

In addition, due to a failure that occurs when the worker fails to periodically check whether the nutrient solution automatic feeding device malfunctions, the nutrient solution required for the cultivated crops cannot be properly supplied according to the environment and the climate. The maintenance of the nutrient solution automatic supply device has a difficult problem.

Accordingly, the present invention has been made in view of the above problems, the purpose of which is to set the EC, pH and time data required in the cultivation crop in advance and then mix the concentrated nutrient solution with water to adjust the nutrient solution concentration to the set data value When the nutrient solution supply time is reached based on the time data, the nutrient solution supply state and failure in the process of supplying the nutrient solution are detected and read, respectively, and according to the read data, the nutrient solution is provided through a display unit such as an LCD and warning display means It is to provide a nutrient solution automatic control supply and failure diagnosis system so that the operator can easily recognize the naked eye by displaying the supply status and the trouble part.

Figure 1 (a) is a perspective view showing the appearance of the nutrient solution automatic control supply and failure diagnosis system according to the present invention, (b) is a block showing a schematic configuration of the nutrient solution automatic control supply and failure diagnosis system according to the present invention It is also.

Figure 2 (a) (b) is a front view of a panel displaying the data setting mode and warning display means of the nutrient solution automatic supply device

3 is a detailed block diagram of the first detection means shown in FIG.

4 is a detailed block diagram of the second detection means shown in FIG.

5 is a block diagram showing the flow controlled by the microcomputer of FIG.

<Description of the code | symbol about the principal part of drawing>

1 Nutrient Solution Tank 2 Raw Water Pump 3 First Concentrated Nutrient Supply Pump

4: second concentrated nutrient supply pump 5: acid feed pump

6: base supply pump 7: nutrient solution solenoid valve

8: nutrient solution pump 9: mixed solenoid valve

10: data setting mode 20: sensing means 30: microcomputer

40: first operating part 50: second operating part 60: first detecting means

70: second detection means 80: display unit 90: operation status display panel

The object of the present invention, the data setting mode is provided with a plurality of buttons to input the EC, pH, nutrient solution supply time and the current time required for the cultivated crop; Sensing means for measuring nutrient solution by a plurality of sensors such as an EC sensor, a pH sensor, an optical sensor, and a water level sensor; On the basis of the set value set in the data setting mode, the measured value inputted by the sensing means is compared and the measured value is displayed on the display unit, and then various nutrient solution pumps are operated to automatically adjust the nutrient solution required in the cultivated crop. A first and second detection means for detecting the operation of the operation unit for supplying the nutrient solution, including a microcomputer for detecting the failure of the device and displaying the failure portion by the display unit and the operation status display panel. It can be achieved by the automatic nutrient solution supply and troubleshooting system.

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

1 (a) is a perspective view showing the appearance of the automatic nutrient solution supply and troubleshooting system according to the present invention, (b) is a block showing a schematic configuration of the automatic nutrient solution supply and troubleshooting system according to the present invention It is also. 1, the data is input by the data setting mode 10 equipped with a plurality of buttons for inputting data suitable for EC, pH, nutrient solution supply time, etc. required according to various cultivation crops during nutrient cultivation. The read data is read by the microcomputer 30 as an initial value.

In addition, by operating the raw water pump (2) of the second operation unit 50 for introducing raw water from the outside is detected by the EC sensor 21 and the pH sensor 22 in the raw water stored in the nutrient solution tank (1) for storing the raw water Data measured from the sensing means 20 for measuring the signal in real time is input to the microcomputer 30.

The microcomputer 30 first displays the data measured by the sensing means 20 on the display unit 80 such as an LCD screen, and detects the data measured in the data setting mode 10 based on the data. A feed pump for comparing and reading the measured data by means 20, and supplying the first and second concentrated nutrient solutions and acid and base by operating a relay for controlling the operation of the first operating part 40 according to the read data. Feed the concentrated nutrient solution to the nutrient tank (1) through (3, 4, 5, 6). Mix the supplied concentrated nutrient solution and water well and adjust the nutrient solution to the set data value.

The microcomputer 30 supplies a nutrient supply solenoid valve 7 and a nutrient supply by operating a relay for controlling the operation of the second operation unit 50 when the supply time is reached by the time data value set in the data setting mode 10. It is to supply the nutrient solution to the crop growth phase 100 through the pump (8).

On the other hand, various pumps and electrons are detected by the first and second detection means (60, 70) for detecting the presence or absence of abnormalities in the operation of the various pumps and solenoid valves operated by the first and second operation units (40, 50). The abnormality of the valve is detected and read, and the read data is input to the microcomputer 30. According to the input signal, the display 80 and the operation status display panel 90 display abnormality of various pumps.

The operation status display panel 90 displays an abnormality of various pumps and solenoid valves by a warning light 91 and a light emitting diode 92 indicating an abnormality of various pumps, and failure of the various pumps and solenoid valves. It consists of a toggle switch 93 to switch manually.

As an example of displaying the abnormality of the various pumps and solenoid valves, the light emitting diode 92 corresponding to the warning lamp 91 and the concentrated quantitative quantitative pump of the operating status display panel 90 when the concentrated quantitative quantitative pump is inoperable. Lights out and at the same time outputs the message "first concentrated nutrient supply failure" on the LCD screen of the display unit 80 to easily recognize the abnormality of the nutrient solution automatic supply device for the operator to quickly troubleshoot In the case of switching or manually switching the toggle switch 93 is to supply the nutrient solution manually.

Figure 2 (a) (b) is a front view of the panel showing the data setting mode and the operation status display means of the nutrient solution automatic supply device, Figure 3 is a detailed block diagram of the first detection means shown in FIG. 4 is a detailed block diagram of the second detection means shown in FIG.

As shown in Figure 2, the control panel is provided with a display unit 90 and a plurality of buttons in order to set the nutrient solution required according to the various cultivated crops, the plurality of buttons are a power button, a setting button, a time setting button By using, item selection button, (+) button and (-) button, various data can be set.

In other words, press the power button to select the EC and pH by pressing the item button in the state of power input, and then adjust the data values of the EC and pH required by the cultivation crops using the (+) and (-) buttons Press to set the data respectively, and then the time setting button and the current time data set the supply time of the nutrient solution in the same manner as described above.

In addition, the operation status display panel 90 detects the abnormality of various pumps and solenoid valves of the nutrient solution automatic supply device, and turns on the warning lamp 91 and the light emitting diode 92 so that the operator can easily trouble the operation status of the device. You will recognize the presence.

As shown in FIG. 3, the first detecting means 40 is a detector for confirming whether the concentrated nutrient solution is supplied, and the first and second concentrated nutrient supply pumps 3 and 4, the acid supply pump 5, and the base. Transparent hoses are respectively installed at the suction end of the supply pump 6, and a first detector 61 is provided to detect whether a concentrated nutrient solution flowing into the transparent hose is supplied, thereby emitting light 62 of the first detector 61. The light irradiated from the light is transmitted through the transparent hose to determine whether the concentrated nutrient solution is supplied according to the difference in the amount of light received by the light receiving unit 63.

Therefore, the first and second concentrated nutrient solution supplied to the nutrient solution tank 1 and the pumps 3, 4, 5, 6 supplying the acid and the base to supply the nutrient solution required according to the cultivated crop are installed. The amount of light irradiated from the plurality of first detection units 61 and the light emitting unit 62 is detected by the light receiving unit 63, and the amount of received light is converted into data by the first signal conversion unit 64 and the microcomputer 30. Is delivered to, it is to indicate whether the nutrient solution supply to the display unit 80 by the transmitted data.

As shown in FIG. 4, the second detecting means 70 is a fault detector that detects an operation state of various pumps and solenoid valves, and includes first and second concentrates operated according to the contacts of the plurality of relays 71. Nutrient supply pumps (3, 4), acid supply pumps (5), base supply pumps (6), raw water pumps (2), nutrient solutions supply pumps (8), nutrient solutions supply solenoid valves (7), and mixed solenoid valves (9) The second detector 72 is installed at the output terminal of the relay 91 to detect the current flowing to the relay 71 to check whether the current flows to the relay 71 and detects whether the current flowing to the relay 71 is detected. The second signal is transferred to the microcomputer 30 by the second signal converter 73 for converting the signal into data.

The transmitted data is read by the microcomputer 30, and the warning lamp 91 of the operation status display panel 90 and the light emitting diode 92 corresponding to the read data are turned off according to the read data. The LCD screen of the unit 80 is displayed whether or not a failure.

Figure 5 is attached to the operating state of the present invention in more detail based on the block diagram showing the flow controlled by the microcomputer of Figure 1 as follows.

As shown in FIG. 5, the microcomputer 30 preferentially reads whether the required EC, pH, supply time, current time, etc., according to the cultivated crops are input, and there is this read data, and then the sensing means. Data values input from the various sensors of the display unit 20 display the measured data on the LCD screen of the display unit 80, and at the same time the sensing means (based on the data input in the data setting mode 10). Compare and judge the data input in step 10).

First, when the water level in the nutrient solution tank 1 is judged to be insufficient, the relay 71 which controls the inflow of raw water is controlled to operate the raw water pump 2 of the second operation part 50 to operate the raw water from the outside. While controlling the water level of the nutrient solution tank (1) by the flow at the same time detects the presence of the current flowing in the relay 71 and inputs to the microcomputer (30). When no current flows through the relay 71, the warning lamp 91 is turned on and the light emitting diode 92 corresponding to the raw water pump 2 of the operation status display panel 90 is turned off. Raw water pump failure "will be displayed.

Then, the EC, pH and light of the raw water stored in the nutrient solution tank 1 are measured in real time, and the first operation part 61 of the first operating portion 61 is reached to compare the measured data value with the set data value. The presence or absence of a current flowing through the relay 71 controlling the operation of the second concentrated nutrient supply pumps 3 and 4, the acid supply pump 5 and the base supply pump 6, and the first and second concentrations Light irradiated from the light emitting part 62 of the first detection part 61 set at the suction end of the nutrient solution supply pumps 3 and 4, the acid supply pump 5, and the base supply pump 6 is received by the light receiving part 63. It is determined whether the concentrated nutrient solution is supplied according to the amount of light to be inputted to the microcomputer 30.

If the concentrated nutrient solution is not supplied to the suction stages of the various pumps 3, 4, 5, and 6, a message, for example, a "first concentrated nutrient supply failure" is output on the LCD screen of the display unit 80. When the current does not flow to the operation relays 71 of the various pumps 3, 4, 5, and 6, the warning lamp 91 is turned on and the light emitting diode 92 corresponding to the first concentrated nutrient supply pump 3 is provided. Is turned off and the LCD screen displays the message "The first concentrated nutrient supply pump failure."

Subsequently, when the nutrient solution supply condition set by the data setting mode 10 is reached, the microcomputer 30 determines whether the nutrient solution required by the cultivation crop is supplied, and the nutrient solution supply solenoid valve of the second operation unit 70. (7) and the relay 71 for controlling the operation of the nutrient solution supply pump (8) to supply the nutrient solution to the crop.

When no current flows through the nutrient supply supply solenoid valve 7 and the operation relay 71 of the nutrient supply supply pump 8, the warning lamp 91 is turned on and the nutrient supply supply solenoid valve 7 is provided to the operation status display panel 90. Then, the light emitting diode 92 corresponding to the nutrient solution supply pump 8 is turned on to display an abnormality.

As described above, the present invention relates to an abnormality detector of an automatic nutrient solution, and when EC, pH and supply time of nutrient solution required according to a cultivation crop are set in advance, EC of nutrient solution according to the set data value, Measures the pH and supply time in real time, compares the measured data with the measured data, and detects the operation of various pumps and solenoid valves in the process of adjusting and supplying the nutrient solution required for the cultivated crop. The data is displayed on the display unit such as the LCD and the operation status display panel to display the abnormality of the nutrient solution automatic supply device. Therefore, it is easy to recognize the abnormality of the nutrient solution supply device with the naked eye. It is very useful to operate and maintain the device by adjusting and supplying It would dab.

Claims (5)

In the nutrient solution automatic supply device for mixing the liquid fertilizer with raw water flowing from outside to adjust the nutrient solution required for the various cultivated crops and automatically supply the nutrient solution to the flow passage, etc. A data setting mode (10) provided with a plurality of buttons for inputting EC, pH, nutrient solution supply time and current time required for the cultivated crop; Sensing means 20 for real time measuring the concentration of nutrient solution by a plurality of sensors such as an EC sensor, a pH sensor, an optical sensor and a water level sensor; On the basis of the set value set in the data setting mode 10, the measured values input from the sensing means 20 are compared and displayed, and the measured values are displayed on the display unit 80. Then, various pumps of the first operating unit 40 are turned on. First and second detection means (60, 70) for detecting the operation of the first and second operation portions (40, 50) for supplying the automatically adjusted nutrient solution by operating the nutrient solution required in the cultivation crop. Quantum automatic control supply and failure, characterized in that it comprises a microcomputer 30 to detect whether the failure of the device in the display unit 80 and the operation status display panel (90) Diagnostic system. The method of claim 1, wherein the data setting mode 10 is provided with a power button, a setting button, a time setting button, an item selection button, a (+) button and a (-) button to adjust the concentration of nutrient solution required according to the cultivated crop. Automatic nutrient solution supply and failure diagnosis system, characterized in that the setting. 2. The first detection means (60) according to claim 1, wherein the first detection means (60) is provided at each suction end of the first and second concentrated nutrient supply pumps (3,4), the acid supply pump (5), and the base supply pump (6). The first detector 61 is provided to detect whether the concentrated nutrient solution flows through the transparent hose, and the light irradiated from the light emitting unit 62 of the first detector 61 passes through the transparent hose to receive the light receiving unit 63. Nutrient solution automatic control supply and failure diagnosis system, characterized in that to check whether the supply of concentrated nutrient solution according to the difference in the amount of light. The method according to claim 1, wherein the second detecting means (70) comprises first and second concentrated nutrient supply pumps (3,4), acid supply pumps (5), and bases operated according to the contacts of the plurality of relays (71). The current flowing to the relay 71 is detected to check whether the supply pump 6, the raw water pump 2, the nutrient solution supply pump 8, the nutrient supply supply solenoid valve 7 and the mixing solenoid valve 9 are operated. And a second detector (72) at the output of the relay (91) to detect whether or not there is a current flowing through the relay (71). 2. The microcomputer 30 according to claim 1, wherein the microcomputer 30 reads the data detected by the first detecting means 60 and the second detecting means 70, and the operating status display panel 90 according to the read data. Automatically supply and trouble diagnosis of nutrient solution, characterized in that it is programmed to display the fault portion on the LCD screen of the display unit 80 at the same time to light the LED 91 corresponding to the warning light 91 and the read data of system.