KR20090061274A - The apparatus of detecting a humidity in flowerpot - Google Patents

Abstract

A humidity detection apparatus is provided to accurately detect the humidity of remaining soil in the middle and deep layer of flowerpot and lengthen the battery life by delaying the oxidation of electrode. An apparatus for detecting humidity of flowerpot comprises: a measuring part(10) in which humidity sensors are installed at sides of B electrode, C electrode and D electrode and which measures the amount of humid; an electrode selection part(20) which selects three electrodes among five electrodes in the measuring part and make the current pass from one side to other side; and a micom part(30) which controls the current, checks the amount of change of arriving time of pulse and level and displays the amount of humid on a LCD display window(40) and control to ring a buzzer(50).

Description

Water content detection device of pollen {THE APPARATUS OF DETECTING A HUMIDITY IN FLOWERPOT}

The present invention can accurately detect the soil moisture remaining in the middle and deep parts of the pollen by combining the electrode and the moisture sensor in six kinds according to the user's selection, and delays the oxidation of the electrode to increase the life of the electrode. It relates to a moisture amount detection device.

In general, potted plants or trees have been reported to not only create a soft and comfortable indoor atmosphere but also contribute to health. In recent years, most apartments and private houses built have balconies, and more and more families are using the space to plant flowers or trees.

Proper temperature, adequate moisture, adequate sunshine and nutrient supply are necessary to create the desired growth environment for plants and trees. In particular, unlike the natural environment, in order to grow plants or trees indoors can not expect a natural water supply, proper water supply is most important. In addition, since the amount of water required varies depending on the type of flower or tree, it is necessary to supply water according to the type of flower or tree to be watered.

Nevertheless, in the prior art, there is no device for informing the proper watering time of flowers or trees, and thus, people have a lot of difficulties in growing plants or trees. .

In Korea Patent Publication No. 2007-0028128 in the prior art to solve this problem, a moisture sensor for measuring the amount of moisture present in the soil of the potted plant and outputs a detection voltage according thereto; A comparison unit for determining a water supply time by comparing the output voltage of the moisture sensor with a preset reference voltage; A central processing unit for driving a buzzer driver and an indicator when the water supply timing determination signal is output from the comparing unit; To inform the fact that the watering time has been reached, the watering time notification device of the potted plant consisting of a watering time notification unit with a buzzer driving unit or an indicator has been presented, but this is because the length of the insertion part can measure the water content only to the middle layer of the pot, It is difficult to measure up to the deep part, the soil moisture amount detected by the pin point is uneven, it is difficult to accurately detect the soil moisture content, there is a problem that a lot of oxidation of the electrode occurs.

In order to solve the above problems, the present invention can accurately detect the soil moisture remaining in the middle and deep parts of the pollen by combining the electrode and the moisture sensor in six kinds according to the user's selection, and delay the oxidation of the electrode. It is an object of the present invention to provide a device for detecting pollen moisture content which can increase the lifespan.

In order to achieve the above object, the present invention measures the amount of water present in the soil of the pot, determine the watering time of the pot to display on the LCD display window 40 or to generate a buzzer sound (50) to inform the watering time Made of pollen moisture detection device,

Five electrodes A, 11, B, 12, C, 13, D, 14, and E, 15, in the middle and deeper parts of the pollen, are arranged in the horizontal direction at predetermined intervals. And a measurement sensor 10 for measuring the amount of water by providing moisture sensors 12a, 13a, and 14a on one side of the B electrode 12, the C electrode 13, and the D electrode 14,

In order to measure the moisture content of the middle and deep parts of the potted plant, the electrode selecting unit 20 selects only three arbitrary electrodes among the five electrodes of the measuring unit 10 and flows current from one electrode to the other electrode. ,

The electrode selector 20 controls the current to flow through the intermediate electrode from the selected one electrode to the other electrode, and the arrival time and level of the pulse reaching the intermediate electrode through impedance (resistance) depending on the amount of moisture. It is achieved by including a microcomputer unit 30 to check the amount of change, compare it with a reference set value and then amplify and control the water content to be displayed through the LCD display window 40.

As described above, the present invention can accurately detect the soil moisture remaining in the middle and deep parts of the pollen by combining the electrode and the moisture sensor in six kinds according to the user's choice, and delay the oxidation of the electrode It has a good effect to increase the lifespan.

In the present invention, as shown in Figure 2, is inserted into the soil of the pollen is applied a pulse of DC 1 ~ 5V between the electrode A and the electrode C for measuring the moisture content.

At this time, the impedance (resistance) is changed according to the amount of moisture, by using this it is characterized by detecting the amount of moisture by measuring the arrival time and level of the pulse to reach the electrode B, the intermediate electrode.

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

1 is a block diagram showing the components of the water content detection device of the pot according to the present invention, which is a measuring unit 10, electrode selection unit 20, the microcomputer unit 30, the LCD display window 40 It is composed.

The measuring unit 10 has five electrodes A, B, C, D, and E electrodes located in the horizontal direction at predetermined intervals up and down in the middle and deeper parts of the pollen, and the B electrodes and the C electrodes. Moisture sensor is installed on one side of electrode and D electrode to measure moisture

As shown in FIG. 2, the rod-shaped probe is formed, the end is formed in the shape of an arrowhead, and the A electrode 11 is formed in the horizontal direction on the upper end thereof, and the B electrode is formed on the upper end of the A electrode 11. 12 and the first moisture sensor 12a are formed in the horizontal direction, and the C electrode 13 and the second moisture sensor 13a are disposed in the horizontal direction on the B electrode 12 and the first moisture sensor 12a. The D electrode 14 and the third moisture sensor 14a are formed in the horizontal direction on the C electrode 13 and the second moisture sensor 13a, and the D electrode 14 and the third moisture. The E electrode 15 is formed on the sensor 14a.

Here, the first moisture sensor 12a receives a power pulse through the B electrode 12, the second moisture sensor 13a receives a power pulse through the C electrode 13, and the third moisture sensor 14a. ) Is configured to receive a power pulse through the D electrode 14.

Wherein the electrode selector 20 selects only any three electrodes of the five electrodes of the measurement unit to measure the moisture content of the middle layer and the deep portion in the pot to send current from one electrode through the middle electrode to the other electrode As such, it is composed of a dip switch and a push switch on one side of the LCD display window that is a component of the body (5).

Alternatively, the LCD display 40 may be configured as a touch screen.

That is, the electrode selecting unit 20 according to the present invention is connected to the power supply unit by selecting only any three electrodes of the five electrodes A electrode, B electrode, C electrode, D electrode, E electrode of the measurement unit, A high signal is sent to one electrode (A electrode), and a time and level of arrival of a pulse reaching the moisture sensor located at the middle electrode (B electrode) are measured, and a low signal is supplied to the other electrode (C electrode). By sending, it is possible to detect the moisture content of the soil located in the deep part of the pot.

3 and 4, the electrode selector 20 sets the A electrode-B electrode-C electrode to the first mode 21 for detecting soil moisture in the deep portion of the flowerpot. The B electrode-C electrode-D electrode is set to the second mode 22 for detecting the soil moisture from the deep part of the flower pot to the middle part, and the C electrode-D electrode-E electrode is set from the middle part of the flower pot to the surface layer part. Set the third mode 23 for detecting the amount of water, and set the E electrode-D electrode-C electrode to the fourth mode 24 for detecting the amount of soil water from the surface layer portion to the middle layer of the pot. The C electrode-B electrode is set to the fifth mode 25 for detecting soil moisture from the middle part of the pot to the deep part, and the C electrode-B electrode-A electrode is used for detecting the soil moisture level at the deep part of the pot. The sixth mode 26 is set.

This can be summarized as shown in Table 1.

order A electrode B electrode C electrode D electrode E electrode First mode High signal output Moisture sensor drive Low signal output 2nd mode High signal output Moisture sensor drive Low signal output 3rd mode High signal output Moisture sensor drive Low signal output 4th mode Low signal output Moisture sensor drive High signal output 5th mode Low signal output Moisture sensor drive High signal output 6th mode Low signal output Moisture sensor drive High signal output

In the present invention, the electrode selector 20 is composed of six combinations of the first mode 21, the second mode 22, the third mode 23, the fourth mode 24, the fifth mode 25, Set in advance in the sixth mode (26), if a pulse is applied to automatically detect the moisture content of the potted plant, the first mode (21), the second mode (22), the third mode (23), the fourth The current flows sequentially into the mode 24, the fifth mode 25, and the sixth mode 26 so that oxidation of the electrode is delayed, thereby extending the life of the electrode.

The microcomputer unit 30 controls the current to flow through the intermediate electrode from the one electrode selected through the electrode selector 20 to the other electrode, and a pulse reaching the intermediate electrode through an impedance (resistance) depending on the amount of moisture. Check the amount of change in the time of arrival and level, and compare it with the reference set value and then amplify the control to display the amount of water through the LCD display window (40).

As shown in FIG. 6, the first moisture connected to the input terminal RA4 is connected to the A electrode 11 input side of the measurement unit through the resistor R12 and the input terminal RA3 is connected to the input side of the B electrode 12 of the measurement unit via the resistor R11. It is connected to the sensor 12a, connected to the second moisture sensor 13a connected to the C electrode 13 of the measurement unit through the resistor R10 at the input terminal RA2, and connected to the input side of the measurement unit through the resistor R9 at the input terminal RA1 ( 14) It is connected to the third moisture sensor (14a) connected to the input side, is connected to the input terminal of the E electrode 15 of the measurement unit through the resistor R8 to the input terminal RA0, and is connected to the output side of the OP amplifier 32 to the output terminal RB0 , The output terminal RB1 is connected to the LCD display window 40, the output terminal RB2 is connected to the buzzer sound 50, and the output terminal RB3 is connected to the output side of the A electrode 11 of the measurement unit through a resistor R7, and the output terminal RB4 The first moisture sensor 12a connected to the output side of the B electrode 12 of the measurement unit via a resistor R6. It is connected to the second moisture sensor 13a connected to the output side of the C electrode 13 of the measurement unit through the resistor R5 to the output terminal RB5, and connected to the D electrode 14 of the measurement unit via the resistor R4 to the output terminal RB6. It is connected to the three moisture sensor 14a, and is connected to the E electrode output side of the measurement unit through a resistor R2 at the output terminal RB7.

In addition, in the microcomputer unit 30 according to the present invention, when power is applied to the B electrode 12, the C electrode 13, and the D electrode 14, which are intermediate electrodes, the impedance (resistance) is changed according to the amount of moisture. The buffer 31 which outputs the voltage V1 having a different value according to the resistance value without change in magnitude, the output of the buffer 31 as the input of the positive terminal and the reference voltage V2 of the negative terminal It is composed of an OP amplifier 32 for amplifying and outputting the difference between the two terminals as an input.

For example, when the first mode is selected and power is supplied to the A electrode 11, the B electrode 12, and the C electrode 13, the impedance (resistance) is high when the soil moisture content in the deep part of the flower pot is high. As the voltage becomes smaller, the voltage (V1) becomes larger according to the principle of voltage distribution, the time of arrival of the pulse becomes shorter, and the impedance (resistance) becomes larger when the soil moisture content in the deep part of the flower pot is low. The voltage V1 becomes small and the arrival time of a pulse becomes long.

At this time, the voltage V1 having a different value depending on the soil moisture content in the deep part of the pollen is input to the positive terminal of the OP amplifier 32 via the buffer 31.

The OP amplifier 32 compares the voltage V1 inputted to the plus terminal with the reference voltage V2, and when the voltage V1 is smaller than the reference voltage V2, inputs a voltage of 0 V to the microcomputer, and the voltage ( If V1) is greater than the reference voltage V2, a voltage of 5V is input to the microcomputer.

As shown in FIG. 6, the capacitors C1 to C4 and the diodes D1 and D2 are for preventing external noise from entering the IC chip and damaging the IC chip. The capacitor C5 is the external noise to the microcomputer unit. To prevent damage to the microcomputer to enter and the diode (D3) is installed to each function to prevent the input of more than the allowable voltage to the microcomputer unit 30.

That is, when the soil moisture content in the deep part of the pot is high, the voltage V1 is largely measured, the voltage V1 becomes larger than the reference voltage V2, and a voltage of 5 V is input to the microcomputer part, thereby outputting a high signal. Done.

On the contrary, when the soil moisture content in the deep part of the pot is low, the voltage V1 is measured small, the voltage V1 becomes smaller than the reference voltage V2, and a voltage of 0 V is input to the microcomputer to output a low signal. Done.

In addition, the microcomputer unit 30 checks the arrival time of the pulses input to the B electrode 12, the C electrode 13, and the D electrode 14, which are intermediate electrodes.

That is, it is checked whether the arrival time of the pulse input to the microcomputer 30 for a unit time is a predetermined value, for example, 10 ms or more, and counts it.

When the arrival time of the pulse is about 10 ms or more, the first moisture sensor 12a, the second moisture sensor 13a, and the third moisture sensor (located on the B electrode 12, the C electrode 13, and the D electrode 14) The soil moisture content in the deep, middle and surface layers of the potted plant touched on 14a) is high.

The higher the soil moisture content in the deep, middle and surface areas of the pollen, the higher the output of the high signal, so that the time of arrival of the pulse will be longer than 10 ms, and conversely, the soil moisture in the deep, middle and surface areas of the pollen. The lower the content, the more the output of the low signal increases, so the pulse arrival time will decrease to less than 10ms.

In addition, in the microcomputer unit 30 according to the present invention, the soil moisture content of the deep, middle, and superficial parts of the pollen measured by the buffer 31 and the OP amplifier 32 is displayed on the LCD display window of the body, or the buzzer sounds. You can tell when to supply water.

In the present invention using this characteristic, as shown in FIG. 3, the measuring unit and the body provide a device for detecting a moisture content of a pollen connected by a pleated electric cable 60, or as shown in FIG. 4, the measuring unit and the body. It is possible to provide a device for detecting the moisture content of the potted plant connected integrally.

Then, as shown in Figure 6 through the water content detection device of the pollen according to the present invention, it is possible to detect the soil water content of the pot.

1 is a block diagram of a water content detection device of a pollen according to the present invention;

Figure 2 is an embodiment showing the components of the measuring unit of the moisture content detection device of the pot according to the present invention,

Figure 3 is an embodiment showing that the measuring unit and the body of the pollen moisture detection device according to the present invention is connected by a pleated electric cable,

Figure 4 is an embodiment showing that the measuring unit and the body of the pollen moisture detection device according to the present invention is integrally connected,

Figure 5 is an embodiment showing a process for measuring the moisture content of the pollen soil pollen device according to the present invention,

6 is a circuit diagram connected to the measurement unit, the microcomputer unit, the LCD display window, the buzzer that is a component of the pollen moisture detection device according to the present invention.

*** Description of the symbols for the main parts of the drawings ***

10: measuring unit 20: electrode selection unit

30: microcomputer unit 40: LCD display window

50: buzzer

Claims (4)

In the moisture content of the pollen to measure the amount of water present in the soil of the pot, determine the watering time of the potted plants to display on the LCD display window 40 or to generate a buzzer sound (50) to inform the watering time, Five electrodes A, 11, B, 12, C, 13, D, 14, and E, 15, in the middle and deeper parts of the pollen, are arranged in the horizontal direction at predetermined intervals. And a measurement sensor 10 for measuring the amount of water by providing moisture sensors 12a, 13a, and 14a on one side of the B electrode 12, the C electrode 13, and the D electrode 14, In order to measure the moisture content of the middle and deep parts of the potted plant, the electrode selecting unit 20 selects only three arbitrary electrodes among the five electrodes of the measuring unit 10 and flows current from one electrode to the other electrode. , The electrode selector 20 controls the current to flow through the intermediate electrode from the selected one electrode to the other electrode, and the arrival time and level of the pulse reaching the intermediate electrode through the impedance (resistance) varies depending on the amount of moisture. Device for detecting the moisture content of the potted plant, characterized in that it comprises a microcomputer unit 30 to check the change amount, and compare it with a reference set value and then amplify and display the amount of water through the LCD display window (40). According to claim 1, The measuring unit 10 is made of a rod-shaped probe, the end is formed into an arrowhead shape, the A electrode 11 is formed in the transverse direction on the upper end, the upper end of the A electrode 11 The B electrode 12 and the first moisture sensor 12a are formed in the horizontal direction, and the C electrode 13 and the second moisture sensor 13a are disposed on the B electrode 12 and the first moisture sensor 12a. It is formed in the horizontal direction, the D electrode 14 and the third moisture sensor 14a is formed in the horizontal direction on the upper end of the C electrode 13 and the second moisture sensor 13a, the D electrode 14 and the first 3 moisture sensor (14a) the upper end of the E electrode 15 is characterized in that the pollen moisture detection device characterized in that it is formed. The electrode selector 20 sets the A electrode-B electrode-C electrode to the first mode 21 for detecting the soil moisture in the deep part of the pot, and the B electrode-C electrode-D The electrode is set to the second mode 22 for detecting the soil moisture from the deeper part to the middle part of the flowerpot, and the third electrode for detecting the soil moisture from the middle part of the flower pot to the surface part of the pot. Mode 23, the E electrode-D electrode-C electrode is set to the fourth mode 24 for detecting soil moisture from the surface layer portion to the middle layer of the flowerpot, and the D electrode-C electrode-B electrode is set to the flowerpot. The fifth mode (25) for detecting soil moisture from the middle layer to the deeper portion of the ground, and the C electrode-B electrode-A electrode to the sixth mode (26) for detecting the soil moisture in the deep portion of the pot. Water content detection device of the potted plant, characterized in that configured by setting. The microcomputer unit 30 is connected to the input terminal RA4 of the measurement electrode via the resistor R12, and the input terminal RA4 is connected to the input terminal of the measurement electrode B11 through the resistor R11. It is connected to the first moisture sensor 12a, connected to the second moisture sensor 13a connected to the input side of the C electrode 13 of the measurement unit through the resistor R10 to the input terminal RA2, and through the resistor R9 to the input terminal RA1. D electrode 14 is connected to the third moisture sensor 14a connected to the input side, and is connected to the input terminal of the E electrode 15 of the measurement unit through the resistor R8 to the input terminal RA0, the output side of the OP amplifier 32 to the output terminal RB0 Connected to the output terminal RB1 and to the LCD display window 40, connected to the output terminal RB2 to the buzzer 50, and connected to the output terminal AB11 output side of the measurement unit through a resistor R7. A first moisture sensor 12a connected to the output side of the B electrode 12 of the measurement unit through a resistor R6 at the output terminal RB4; It is connected to the second moisture sensor 13a connected to the output side of the C electrode 13 of the measurement unit through the resistor R5 to the output terminal RB5, and connected to the D electrode 14 of the measurement unit via the resistor R4 to the output terminal RB6. 3 is connected to the moisture sensor (14a), the output terminal RB7 through the resistor R2 is connected to the E-electrode output side of the measurement unit, characterized in that the pollen moisture detection device characterized in that it is configured.

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