KR100343971B1 - Ion meter - Google Patents

Abstract

The present invention is equipped with sensors for detecting ions so as to detect ions in a solution, and can be easily used by a user by calculating a calculation method for each ion concentration so that a potential difference calculation method can calculate concentrations of ions different from each other. An ion type selector key for selecting a ions to be measured and an execution selector key configured to perform a detection execution command; An ion concentration sensing unit set for each ion to be measured; An amplifier for amplifying the analog signal detected by the ion concentration detector to a predetermined level; An A / D converter for converting an analog signal applied from the amplifier to digital; An ion concentration calculator for calculating an ion type selection key and a signal applied from the A / D converter; A CPU for calculating a signal applied from the ion concentration calculator and an execution selection key using data of a pre-stored ROM and storing newly generated data in a RAM; A display unit which displays an overall experimental value relating to a concentration value and hydrogen ion concentration for the corresponding ion calculated by the CPU; And an I / O interface for controlling data transmission and reception between the display unit and the CPU.

Description

Nutrient Ion Meter {Ion meter}

The present invention relates to a nutrient solution ion meter that enables simple and accurate measurement of ions in a nutrient solution.

Generally, the domestic crop cultivation is divided into two types, namely, cultivation of land and hydroponic. Soil cultivation is literally cultivated and cultivated on land, and the latter hydroponic cultivation is cultivated only by supplying water to crops from artificial soil that is no soil.

In the case of hydroponic cultivation, the nutrients needed by the crops are supplied with water, and the nutrients are called nutrient solutions, which are used as fertilizers containing various ions. Therefore, the term hydroponic cultivation is used rather than hydroponic cultivation. In order for a crop to grow normally, 16 elements are necessary. This is called 16 elements.

These 16 elements are distinguished from trace elements and macroelements, especially macroelements are called essential nutrients. The ion form of the macroelement is composed of seven ions of N (NO3-, NH4 +), K +, Ca2 +, Mg2 +, P (PO43-), and S (SO42-) as follows.

Nutrient concentration in nutrient cultivation is different from the supply of fertilizer to soil cultivation soil, so care should be taken in managing more carefully and appropriately supplying nutrient fertilizer.

Failure to provide this concentration of nutrient solution correctly, without oversupply or undersupply, will result in nutrient crop failure associated with nutrient cultivation failure.

In Korea, where the land is narrow, nutrient farming is gradually increasing to produce high-efficiency agricultural production under the restricted cultivation environment. Therefore, if proper nutrient concentration management is an important fundamental of nutrient cultivation, it is essential to have a device capable of measuring the ionic concentration of nutrient solution.

Currently, the conductivity (EC or conductivity) measurement method is generally used for nutrient concentration management or nutrient ion measurement. The conductivity measurement method is to measure the amount of current flowing in the nutrient solution. Therefore, the greater the amount of ions dissolved in the nutrient solution, the greater the flow of electricity or current flow, and the higher the measured value of electrical conductivity. This shows the amount of ions present in the nutrient solution.

However, the ionic concentration found here is the total amount of ions in the nutrient solution, and the concentration of ions cannot be known when several kinds of ions are dissolved.

In addition, many opinions have recently been suggested that only nutrient solution management by conductivity is insufficient. The reason is that plants do not always absorb the nutrient components dissolved in the nutrient solution at the same ratio, and the absorption state of ions changes according to environmental conditions, cultivation stages (growth, crossbreeding, etc.) and time of day. to be.

In particular, the problem is that if a particular ion that is most needed at a certain time is selectively absorbed, only a specific ion concentration may be greatly reduced.

In addition, the conductivity indicates a measured value even when the plant releases an organic acid (if nitric acid) that is not needed.

For these reasons, the measurement and management of the nutrient concentration by the conductivity measurement does not coincide with the change of the ion concentration ratio in the nutrient solution.

Therefore, in order to analyze more precisely, research institutes, laboratories, schools, etc., import expensive foreign analytical devices and measure each ion in the nutrient solution.

However, such an analysis device also has a number of disadvantages as follows.

First, an expert with expertise for using the device is needed, and secondly, there is a problem in that, in some cases, if the user is not sufficiently skilled in operating the device, an error of an analytical experiment result or a result of an experimental failure are obtained.

Therefore, it is inconvenient to analyze the nutrient concentration by making a sample by performing various complicated pretreatment processes for each ion before measuring the analysis for each ion.

These samples and parts for each ion to measure each ion are necessary. If you want to measure the nutrient solution concentration immediately, if you do not have such preparations, you need to purchase from foreign countries. Excessive concentration management will result.

The present invention has been made to solve the above problems, and has a sensor for detecting the ion to detect each of the ions in the solution, the calculation method for each ion concentration so that the potential difference calculation method can calculate the concentration of different ions It is an object of the present invention to provide a nutrient solution ion meter that can be used by a user simply by calculating.

In order to achieve the above object, the present invention provides an ion type selection key for selecting a ion to be measured and an execution selection key configured to perform a detection execution command; An ion concentration sensing unit set for each ion to be measured; An amplifier for amplifying the analog signal detected by the ion concentration detector to a predetermined level; An A / D converter for converting an analog signal applied from the amplifier to digital; An ion concentration calculator for calculating an ion type selection key and a signal applied from the A / D converter; A CPU for calculating a signal applied from the ion concentration calculator and an execution selection key using data of a pre-stored ROM and storing newly generated data in a RAM; A display unit which displays an overall experimental value relating to a concentration value and hydrogen ion concentration for the corresponding ion calculated by the CPU; And an I / O interface for controlling data transmission and reception between the display unit and the CPU.

1 is a block diagram of a nutrient solution ion meter according to an embodiment of the present invention,

It is a front view which shows the position and shape of each part of the nutrient solution ion meter shown in FIG.

Figure 3 is a rear view of the nutrient solution ion meter according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: ion concentration detection unit 11: amplification unit

12: A / D converter 13: ion type selection key

20: concentration calculation unit for each ion 21: execution selection key

30: I / O interface 41: ROM

42 RAM 43 Display

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

First, the configuration of the present invention will be described with reference to FIG. 1.

An ion type selection key 13 for selecting an ion to be measured, an execution selection key 21 formed to execute a detection execution command, an ion concentration sensing unit 10 set for each ion to be measured, and An amplifier 11 for amplifying the analog signal detected by the ion concentration detector 10 to a predetermined level, an A / D converter 12 for converting the analog signal applied from the amplifier 10 into digital; From the ion concentration calculator 20 and the ion concentration calculator 20 and the execution selection key 13 for calculating and processing the signals applied from the ion type selection key 13 and the A / D converter 12; CPU 40 for calculating the applied signal using the data of ROM 41 stored in advance and storing newly generated data in RAM 42, the concentration value for the corresponding ion calculated by CPU 40, and The overall experimental value regarding hydrogen ion concentration The other inner circumference is made of I / O interface 30 for controlling data transmission and reception between the display unit 43 and the display unit 43 and a CPU (40).

Ion concentration detector 10 of the measuring instrument according to the present invention uses an electrode that can be easily purchased in the general market, for example, K ^+, NO ₃ ^-, the selective electrode measurement of NH ₄ ^+, Ca ²⁺ ions PH electrode is used when measuring PO ₄ ^3- , SO ₄ ^2- ions, and selective electrode or pH electrode is used when measuring Mg ²⁺ ions.

Description of each part located on the front of the nutrient solution ion meter according to the present invention made as described above with reference to Figure 2 as follows.

The display unit 43 uses the LCD 6, and the ion type selection key 1 is provided with a selection button for NO ₃ , K, Ca, NH ₄ , P, S, and Mg. READ key (2) used to carry out the measurement after selection, and hydrogen ion measurement key (3) provided to measure separate hydrogen ion concentration when measuring Mg, P, S where hydrogen ion concentration value is important And a hydrogen ion concentration correction key 7 selected at the time of correcting the hydrogen ion concentration error, an ion electrode connecting portion 4 for connecting the ion electrode, and a reference electrode 5 for setting a reference value.

In addition, although not shown, the above apparatus additionally uses a supplemental solution for inhibiting the ionic state by combining with other ions in order to exclude the action of other ions in each ion measurement.

This is because when measuring ions to be detected, ions other than the ions may influence the calculation of the potential difference.

The process of detecting the ions of the nutrient solution in the state equipped with the equipment as described above are as follows.

First, prepare a nutrient solution, inject the corresponding electrode for the ions to be measured in the prepared nutrient solution, and add a supplement solution for each ion.

Accordingly, the signal detected by the ion concentration detector 10 is amplified by the amplifier 11 and then converted into a digital signal by the A / D converter 12 and input to the ion concentration calculator 20.

At this time, the ion concentration calculator 20 determines the type of the ion selected by the ion type selection key 13 and calculates the ion concentration input through the A / D converter 12.

When the user selects the READ key 2 from the execution selection key 21, a signal corresponding to the ion concentration value calculated based on the detected signal is output to the display unit 43 to display the LCD 6 screen. Is displayed.

When the ion concentration is detected, the potential difference is different for each concentration depending on the ions. Therefore, a separate algorithm, that is, an equation, is changed for each ion for the potential difference.

When the detection of the ion concentration is completed through the above series of processes, it is connected to a computer through the RS-232C communication port mounted on the back of the equipment and processed as necessary data, or the data is output through the printer port.

That is, all measured data are displayed on the screen by RS-232C communication with user's PC, and user can use it as various analysis data with collectively displayed data.

The nutrient solution ion meter is compact and lightweight, and is portable.

This ion measuring device can be used for application measurement in other samples, and the ion content in the soil and the ion content of the plant can be measured.

In the case of soil, shake the soil or crush the soil with abrasion, etc., as in the way of general simple soil analysis, and use it after draining the soil moisture. It can be used after dissolving in a certain amount of water.

The measurable range in this instrument is from 0.1 to 10,000 ppm for NO ₃ ⁻ , NH ₄ ⁺ , K ⁺ , Ca ²⁺ , and from 10 to 10,000 ppm for PO ₄ ^3- , SO ₄ ^2- , and Mg ²⁺ .

As described above, it is not necessary to import foreign equipment by producing a nutrient solution ion meter, since the use of the nutrient solution ion meter according to the present invention is simple, it can be easily handled by non-professionals, thereby providing convenience in use, It is a very useful invention for the nutrient cultivation industry because the nutrient ions can be accurately measured by the precision and accuracy of the equipment.

Claims (2)

An ion type selection key for selecting an ion to be measured and an execution selection key configured to perform a detection execution command; An ion concentration sensing unit set for each ion to be measured; An amplifier for amplifying the analog signal detected by the ion concentration detector to a predetermined level; An A / D converter for converting an analog signal applied from the amplifier to digital; An ion concentration calculator for calculating an ion type selection key and a signal applied from the A / D converter; A CPU for calculating a signal applied from the ion concentration calculator and an execution selection key using data of a pre-stored ROM and storing newly generated data in a RAM; A display unit which displays an overall experimental value relating to a concentration value and hydrogen ion concentration for the corresponding ion calculated by the CPU; And A nutrient solution ion meter comprising an I / O interface for controlling data transmission and reception between the display unit and the CPU. The method of claim 1, wherein the ion concentration detecting unit K ^+, NO ₃ ^-, and using a selective electrode measurement of NH ₄ ^+, Ca ²⁺ ion, Use a pH electrode to measure PO ₄ ^3- , SO ₄ ^2- ions, A nutrient solution ion meter, wherein a selective electrode or a pH electrode is used to measure Mg ²⁺ ions.