KR20120082099A - Automated test stand for a sensor array consisting of ion-selective electrodes - Google Patents

Abstract

PURPOSE: A device for measuring a plural ion-selective electrodes array adapting applicative ion concentration, a device for testing electrode performance, a method for measuring an ion concentration, and a method for testing an ion-selective electrode performance are provided to compare and analyze the performance of each sensor by mounting various sorts of sensors reacting to specific ions at the same time, thereby efficiently obtaining a sensor development through a performance test of an ion-selective electrode. CONSTITUTION: A device for measuring a plural ion-selective electrodes array adapting applicative ion concentration comprises buckets(1), a rinse bucket(2), an ion concentration measuring part, a signal converter(6), a receiver(7), a sample solution feeding line(8), a pump(9), a valve(10), a washing liquid feeding line(11), a valve(12), a spinning motor(13), a motor controller(14), and a computer(15). The bucket accommodates the sample solution. The rinse bucket accommodates the washing liquid. The ion concentration measuring part is composed of a plurality of ion-selective electrodes(4) and a reference electrode(5). The signal converter converts analog signals obtained from the ion-selective electrodes of the ion concentration measuring part in to digital signals. The receiver is installed in the lower part of the ion concentration measuring part to be rotated. The sample solution feeding line supplies the sample solution to the receiver side from the bucket.

Description

A plurality of ion selective electrode array applied ion concentration measurement and electrode performance test apparatus, and ion concentration measurement method and the performance test method of ion selective electrode using the same {Automated test stand for a sensor array consisting of ion-selective electrodes}

The present invention relates to an ion concentration measuring device for measuring the concentration of ions present in the solution, and more particularly, by repeatedly and automatically measuring the concentration of various chemical components such as nitrogen, phosphoric acid and potassium present in the solution at the same time online The present invention relates to an array type ion concentration automatic measuring device and combined electrode performance test apparatus for analyzing and analyzing the performance of each sensor by simultaneously mounting various kinds of ion selective electrodes (ie, sensors).

In general, an ion-selective electrode, which is a sensor for detecting an ion concentration, reacts only with an ionic material of a specific component present in a solution, and thus is mainly used for component analysis of a specific element present in a trace.

In other words, by analyzing the nutrient solution used for hydroponic cultivation and the water used for cultivating crops using ion-selective electrodes, it is effectively utilized for the management of nutrients necessary for plant growth, or purified water, sewage treatment plant effluent, living sewage, and industrial water. By analyzing the components, such as can be effectively used for water quality management.

However, conventionally, after collecting a sample of expert personnel to measure ion concentration, the laboratory manages the process manually by hand and performs the analysis. Therefore, there are many problems in terms of process control for effective concentration measurement and analysis.

In addition, there has been a problem in that it is difficult to compare the performance of the ion-selective electrode (ion-selective electrode), which is a sensor for detecting the ion concentration, and thus suffers from many difficulties in the development of the ion-selective electrode.

The present invention is to solve the above-mentioned problems, by repeatedly and automatically measuring the concentration of various chemical components such as nitrogen, phosphoric acid, potassium in the solution at the same time to enable online sample analysis and react to specific ions An array type ion concentration automatic measuring device combined performance test and testing device is provided to effectively compare and analyze the performance of each sensor by mounting several types of sensors at the same time. The purpose is to provide.

In order to achieve the above object, the present invention is a bucket containing a sample solution; A rinse bucket in which the washing liquid is received; An ion concentration measuring unit installed in an array type, the ion concentration measuring unit including a plurality of ion selective electrodes and reference electrodes reacting with different ions; A signal converter for converting an analog signal obtained from the ion selective electrodes of the ion concentration measuring unit into a digital signal; A receiver rotatably installed at a lower side of the ion concentration measuring unit and configured to fill a sample solution or a washing solution supplied from a bucket or a rinse bucket therein; A supply line for supplying a sample solution from the bucket to the receiver side; A pump and a valve installed on the sample solution supply line to supply a sample solution; A supply line for supplying a washing liquid from the rinse bucket to a receiver side; A valve installed on the washing liquid supply line to control the washing liquid supply; A spinning motor for imparting rotational force to the receiver; A motor controller for driving control of the spinning motor; It provides an array type ion concentration automatic measuring device, characterized in that it comprises a; computer receiving the converted digital signal from the signal converter to control the supply of the motor controller and the cleaning liquid.

On the other hand, the present invention provides a measuring method using an array type ion concentration automatic measuring device, comprising the steps of: supplying a sample solution to the receiver; Measuring the ion concentration present in the sample solution supplied to the receiver through an array type ion selective electrode; Transmitting and storing the measured signal to a computer and outputting the same; Rotating the receiver at a high speed to discharge the sample solution contained in the receiver by the centrifugal force to the outside of the receiver; Supplying the washing liquid to the receiver; A method of automatically measuring an ion concentration of an array type is provided, comprising the step of: rotating the receiver at a high speed to wash the sample solution buried in the receiver and the array type ion selective electrode by centrifugal force.

On the other hand, according to another aspect of the present invention for achieving the above object, a plurality of buckets containing a standard solution; A rinse bucket in which the washing liquid is accommodated; An ion concentration measuring unit which is installed in an array type and comprises various kinds of ion selective electrodes and reference electrodes reacting with the same ions; A signal converter for converting an analog signal obtained from the ion selective electrodes of the ion concentration measuring unit into a digital signal; A receiver rotatably installed at the lower side of the ion concentration measuring unit and configured to fill a standard solution or a washing solution supplied from a bucket or a rinse bucket therein; A supply line for supplying a standard solution from the bucket to the receiver side; A valve installed for selective supply of standard solution on the standard solution supply line; A supply line for supplying a washing liquid from the rinse bucket to a receiver side; A pump and a valve installed on the washing liquid supply line for washing liquid supply; A spinning motor for imparting rotational force to the receiver; A motor controller for driving control of the spinning motor; It provides a plurality of ion-selective electrode array applied electrode performance test apparatus, characterized in that it comprises a; computer receiving the converted digital signal from the signal converter and controls the motion control and solution supply of the motor.

On the other hand, the present invention provides a test method for an ion-selective electrode using an array type ion concentration automatic measuring device; Mounting various ion-selective electrodes reacting to a specific ion in the ion concentration measuring unit, and measuring the ion concentration while supplying a standard solution that knows the concentration of the ion to be measured in advance from low to high concentration solution Including the step, but the washing is performed every time the concentration is changed to a different measuring solution, the washing is performed using an ion concentration electrode of the array type ion concentration automatic device, characterized in that performed using a solution of the concentration to be measured A sensitivity test method of is provided.

On the other hand, the present invention provides a method for testing ion-selective electrodes using an array type ion concentration automatic apparatus; Mounting various kinds of ion selective electrodes reacting to specific ions in an ion concentration measuring unit; Supplying a solution supply in the order of first solution → second solution → first solution → third solution → first solution → fourth solution, and measuring the ion concentration of each solution, wherein the first solution comprises Specific ions are added to the solution, the remaining second to fourth solution is a solution in which different ions are added, the washing is performed each time the solution is changed, washing is performed using the solution to be measured A method for selecting selectivity of an ion selective electrode using an array type ion concentration automatic device is provided.

The present invention allows simultaneous and automatic measurement of concentrations of various chemical components such as nitrogen, phosphoric acid and potassium in a solution at the same time to enable online sample analysis and to compare the performance of each sensor by simultaneously mounting various types of sensors. It is effective for sensor development as it enables analysis, online measurement of nutrient solution for hydroponic cultivation, ionic concentration change in waste nutrient solution for circulating cultivation system for plant factory, measurement of fertilizer component in agricultural water, nutrient status in river water, etc. It can be applied effectively.

On the other hand, the present invention is equipped with an array type ion concentration automatic measuring device to be equipped with several types of sensors responding to a specific ion at the same time to compare and analyze the performance of each sensor, the performance of the sensor through the performance test of the ion-selective electrode More effective in development

1 is a block diagram of an ion selective electrode array application type ion concentration measuring apparatus and electrode performance test apparatus according to the present invention
2 is a configuration diagram according to another embodiment of the ion selective electrode array application type ion concentration measuring apparatus and electrode performance test apparatus according to the present invention

Hereinafter, with reference to the accompanying drawings for the specific content for the practice of the present invention will be described in detail.

The apparatus of the present invention can be applied not only as an ion concentration measuring apparatus but also as a performance test apparatus for ion selective electrodes, and these application examples will be described sequentially.

[Ion Selective Electrode Array Type Ion Concentration Measurement Device]

An ion selective electrode array type ion concentration measuring apparatus according to the present invention includes: a bucket (1) in which a sample solution is accommodated; A rinse bucket (2) in which a washing liquid is accommodated; An ion concentration measuring unit installed in an array type and configured of a plurality of ion selective electrodes 4 and reference electrodes 5 reacting with different ions; A signal converter 6 for converting an analog signal obtained from the ion selective electrodes 4 of the ion concentration measuring unit into a digital signal; A receiver (7) rotatably installed at a lower side of the ion concentration measuring unit and configured to fill a sample solution or a washing solution supplied from a bucket (1) or a rinse bucket (2); A sample solution supply line (8) for supplying a sample solution from the bucket (1) to the receiver (7) side; A pump (9) and a valve (10) installed for supplying a sample solution on the sample solution supply line (8); A washing liquid supply line (11) for supplying a washing liquid from the rinse bucket (2) to the receiver (7); A valve 12 installed on the washing liquid supply line 11 for controlling the washing liquid supply; A spinning motor (13) for imparting rotational force to the receiver (7); A motor controller (14) for driving control of the spinning motor (13); And a computer 15 receiving the converted digital signal from the signal converter and controlling the motor controller 14 (and controlling the supply of the sample solution and the wash solution).

At this time, it is installed to surround the receiver (7) around the receiver (7) is further provided with a catch cup (16) (catch cup) made of aluminum to prevent the scattering of the solution by the centrifugal force during the rotation of the receiver.

In addition, the catch cup 16 is provided with a discharge port for discharging the scattering solution on the lower surface, the discharge line 17 is connected to.

The automatic ion concentration measurement process using the apparatus of the present invention configured as described above is as follows.

First, the sample solution to measure the concentration is supplied to the receiver (7).

Subsequently, the ion concentration present in the sample solution supplied to the receiver 7 is measured through the array type ion selective electrode 4, and the measured signal is transmitted and stored to the computer 15 and output.

The ion concentration measured in the above process is made by simultaneously measuring the electromotive force, which is the potential difference based on the reference electrode 5, by the ion selective electrode 4, and the electromotive force, which is an analog signal, is converted into a digital signal and transferred to the computer 15. Is sent.

In the ion concentration measurement of the sample solution, the receiver 7 is stirred while rotating at a low speed to improve the accuracy of the concentration measurement.

On the other hand, when the ion concentration measurement with respect to the sample solution is completed, the receiver 7 is rotated at a high speed to discharge the sample solution contained in the receiver 7 by the centrifugal force to the outside of the receiver 7.

At this time, the sample solution discharged to the outside of the receiver 7 by the high-speed rotation of the receiver 7 is discharged along the discharge line 17 connected to the outlet of the catch cup 16 lower portion is collected in a separate waste liquid storage tank.

Then, the washing liquid is supplied to the receiver 7, and the spinning motor 13 is driven to rotate the receiver 7 again at high speed.

Thus, if the washing liquid is discharged to the outside by centrifugal force, the washing solution is washed with the sample solution in the receiver 7 and the sample solution in the array type ion-selective electrode 4.

In this case, the process of supplying the washing liquid to the receiver 7 to wash the sample solution buried in the array type ion selective electrode 4 may be repeated as many times as set by the user.

In the above process, the array type ion selective electrode 4 automatically and repeatedly measures the concentrations of various chemical components such as nitrogen, phosphoric acid, and potassium in the sample solution at the same time.

[Ion Selective Electrode Array Application Electrode Performance Tester]

An ion selective electrode array applied ion concentration measuring device according to the present invention comprises: a plurality of buckets (1) in which a standard solution is accommodated; A rinse bucket (2) in which a washing liquid is accommodated; An ion concentration measuring unit which is installed in an array type and includes various kinds of ion selective electrodes 4 and reference electrodes 5 reacting to the same ions; A signal converter 6 for converting an analog signal obtained from the ion selective electrodes 4 of the ion concentration measuring unit into a digital signal; A receiver (7) rotatably installed at the lower side of the ion concentration measuring unit and configured to fill a standard solution or a washing solution supplied from the bucket 1 or the rinse bucket 2 therein; A standard solution supply line (8) for supplying a standard solution from the bucket (1) to the receiver (7) side; A valve (10) installed for selective supply of a standard solution on the standard solution supply line (8); A washing liquid supply line (11) for supplying a washing liquid from the rinse bucket (2) to the receiver (7); A pump (9) and a valve (12) installed on the washing liquid supply line (11) for washing liquid supply; A spinning motor (13) for imparting rotational force to the receiver (7); A motor controller (14) for driving control of the spinning motor (13); And a computer 15 receiving the converted digital signal from the signal converter and controlling the motion control and solution supply of the motor.

At this time, it is installed to surround the receiver (7) around the receiver (7) is provided with a catch cup (16) made of aluminum to prevent the scattering of the solution by centrifugal force during the rotation of the receiver.

In addition, the catch cup 16 is provided with a discharge port for discharging the scattering solution on the lower surface, the discharge line 17 is connected to.

An air nozzle 19 for injecting high pressure air into the receiver 7 or the ion-selective electrode 4 may be further provided on the receiver 7.

The performance test process of the electrode using the apparatus of the present invention configured as described above is as follows.

The electrode performance test process is divided into sensitivity test and selectivity test, and these test methods are sequentially explained.

According to the test method (sensitivity test) of the ion selective electrode of the present invention, first, various kinds of ion selective electrodes 4 reacting to specific ions are mounted in the ion concentration measuring unit.

The ion concentration is measured while supplying a standard solution having a known concentration of the ion to be measured in advance from a low concentration solution to a high concentration solution.

In this case, each time the concentration is changed to a different measurement solution, washing is performed, and the washing is performed using a solution to be measured.

In the sensitivity test, the same process is automatically repeated to minimize the measurement error.

In addition, the concentration is measured by supplying the solution to the receiver 7, and then measuring ion concentrations at predetermined times such as, for example, 15 seconds, 60 seconds, and measuring each time. ) To obtain a plurality of data.

Accordingly, the sensitivity of the electrode can be confirmed through the apparatus of the present invention, which means that if the measurement data is acquired every 15 seconds or 60 seconds, the sensor that responds slowly will have different values measured by time, and the sensor responds quickly. Is the same value regardless of the change of measurement time zone.

Therefore, according to the test method of the present invention, there is an advantage of knowing the response time, that is, the sensitivity of the sensor while changing the time value, and by increasing the number of data, it is possible to effectively remove the noise to increase the reliability of the data measurement value.

On the other hand, when the sensitivity is measured, the receiver 7 is rotated at a low speed, and at the time of washing, the receiver 7 is rotated at a high speed.

Next, the selectivity test method, which is a relative reaction characteristic of the interference ions of the ion selective electrode 4 using the array type ion concentration automatic device of the present invention, will be described later.

First, various kinds of ion selective electrodes 4 reacting to specific ions are mounted in the ion concentration measuring unit.

Then, the solution is supplied and the ion concentration is measured. The solution concentration is supplied in the same order as the first solution → the second solution → the first solution → the third solution → the first solution → the fourth solution and the ion concentration of each solution. Measure

In this case, the first solution is a solution in which specific ions are added, and the remaining second to fourth solutions are solutions in which different ions (ie, interference ions) are added, and the washing is performed every time the solution is changed.

The washing is performed using the solution to be measured.

On the other hand, even in this selectivity test, the concentration is measured after supplying the solution to the receiver 7 and then a predetermined time elapses, and in one measurement, a plurality of data are obtained at intervals of several tens of minutes. This increases the number of data, effectively removing noise and increasing the reliability of data measurements.

The selectivity test of the ion selective electrode 4 can confirm the performance of the electrode through the relative response of the interference ion to the electrode. That is, the relative reaction characteristics of the electrode can be confirmed by changing the measured value of the ion-selective electrode 4 which reacts to the specific ion introduced into the first solution due to the interference of the second to fourth solutions.

For example, a small change in the measured value means that it reacts only to a specific ion regardless of the type of interference ion, which means that the reaction characteristic of the ion-selective electrode 4 put into the performance test is excellent.

On the other hand, in the selectivity test as well, the receiver 7 is rotated at a low speed during the test, and the receiver 7 is rotated at a high speed during the cleaning.

FIG. 2 is a configuration diagram according to another embodiment of the present invention. Referring to FIG. 2, an air nozzle 19 for high-pressure air injection may be further provided in the receiver 7 in the apparatus of the present invention. .

As such, when the air nozzle 19 is additionally provided, after the washing step by the washing liquid is completed, it is possible to reliably remove the residual sample by spraying high-pressure air. That is, when the high-pressure air is injected to the receiver 7 side, the sample solution remaining in the receiver 7 is removed by the air injection pressure, and the air that hits the inner surface of the receiver 7 is externally changed by changing the direction. The sample solution remaining on the electrode is removed by hitting the ion-selective electrode 4 in the process of being discharged.

The present invention allows simultaneous and automatic measurement of concentrations of various chemical components such as nitrogen, phosphoric acid and potassium in a solution at the same time to enable online sample analysis and to compare the performance of each sensor by simultaneously mounting various types of sensors. It is effective for sensor development as it enables analysis, online measurement of nutrient solution for hydroponic cultivation, ionic concentration change in waste nutrient solution for circulating cultivation system for plant factory, measurement of fertilizer component in agricultural water, nutrient status in river water, etc. Since it is effective, it is an invention with very high industrial applicability.

1: Bucket for sample solution or bucket for standard solution
2: Rinse Bucket 4: Ion Selective Electrode
5: reference electrode 6: signal converter
7: Receiver 8: Sample or Standard Solution Supply Line
9: pump 10: sample solution control valve
11: Flush liquid supply line 12: Flush liquid control valve
13: spinning motor 14: motor controller
15: Computer 16: catch cup
17: discharge line 19: air nozzle

Claims (17)

A bucket 1 in which a sample solution is accommodated;
A rinse bucket (2) in which a washing liquid is accommodated;
An ion concentration measuring unit installed in an array type and configured of a plurality of ion selective electrodes 4 and reference electrodes 5 reacting with different ions;
A signal converter 6 for converting an analog signal obtained from the ion selective electrodes 4 of the ion concentration measuring unit into a digital signal;
A receiver (7) rotatably installed at a lower side of the ion concentration measuring unit and configured to fill a sample solution or a washing solution supplied from a bucket (1) or a rinse bucket (2);
A sample solution supply line (8) for supplying a sample solution from the bucket (1) to the receiver (7) side;
A pump (9) and a valve (10) installed for supplying a sample solution on the sample solution supply line (8);
A washing liquid supply line (11) for supplying a washing liquid from the rinse bucket (2) to the receiver (7);
A valve 12 installed on the washing liquid supply line 11 for controlling the washing liquid supply;
A spinning motor (13) for imparting rotational force to the receiver (7);
A motor controller (14) for driving control of the spinning motor (13);
Array type ion concentration automatic measuring device, characterized in that it comprises a; computer 15 for controlling the motor controller 14 and the valve 10, 12 while receiving the converted digital signal from the signal converter . The method of claim 1,
It is installed to surround the receiver (7) around the receiver (7) and characterized in that it further comprises a catch cup (16) (catch cup) of aluminum material to prevent the scattering of the solution by centrifugal force during the rotation of the receiver Array type automatic ion concentration measuring device. The method of claim 2,
The catch cup (16) is provided with an outlet for discharging the scattering solution in the lower surface, the discharge port is an ion concentration automatic measuring device of the array type, characterized in that connected to the discharge line (17). The method of claim 1,
An array type ion concentration automatic measuring device, characterized in that the receiver (7) is further provided with an air nozzle (19) for high-pressure air injection to the receiver (7) or ion-selective electrode (4). In the measuring method using an array type ion concentration automatic measuring device,
Supplying a sample solution to the receiver (7);
Measuring the ion concentration present in the sample solution supplied to the receiver (7) through an array type ion selective electrode (4);
Transmitting and storing the measured values to the computer 15 and outputting them;
Rotating the receiver 7 at high speed to discharge the sample solution contained in the receiver 7 by the centrifugal force to the outside of the receiver 7;
Supplying the washing liquid to the receiver (7);
Rotating the receiver 7 at a high speed so that the sample solution buried in the receiver 7 and the array type ion selective electrode 4 by centrifugal force is washed; How to measure. The method of claim 5, wherein
The ion concentration is obtained by simultaneously measuring the electromotive force, which is a potential difference based on the reference electrode 5, by the ion selective electrode 4, and the electromotive force, which is an analog signal, is converted into a digital signal and transmitted to the computer 15. Automatic ion concentration measurement method of an array type. The method of claim 5, wherein
The array type ion selective electrode (4) is a method for automatically measuring the ion concentration of the array type, characterized in that the automatic measurement of the concentration of various ionic chemicals present in the sample solution simultaneously and repeatedly. The method of claim 5, wherein
When measuring the ion concentration of the sample solution, the receiver (7) is a method for automatically measuring the ion concentration of the array type, characterized in that the stirring while rotating at low speed to improve the accuracy of the concentration measurement. The method of claim 5, wherein
The sample solution discharged to the outside of the receiver 7 by the high-speed rotation of the receiver 7 is discharged along the discharge line 17 connected to the outlet of the catch cup 16 is collected and collected separately Automatic ion concentration measurement method. The method of claim 5, wherein
Supplying the washing solution to the receiver (7) to wash the sample solution buried in the array type ion selective electrode (4) is repeated method of measuring the ion concentration of the array type, characterized in that it is repeated a number of times set by the user . The method of claim 5, wherein
After the washing step by the washing liquid is completed, the step of spraying high-pressure air may be further performed, the ion concentration of the array type automatic measurement method. A plurality of buckets 1 in which standard solutions are accommodated;
A rinse bucket (2) in which a washing liquid is accommodated;
An ion concentration measuring unit which is installed in an array type and includes various kinds of ion selective electrodes 4 and reference electrodes 5 reacting to the same ions;
A signal converter 6 for converting an analog signal obtained from the ion selective electrodes 4 of the ion concentration measuring unit into a digital signal;
A receiver (7) rotatably installed at the lower side of the ion concentration measuring unit and configured to fill a standard solution or a washing solution supplied from the bucket 1 or the rinse bucket 2 therein;
A standard solution supply line (8) for supplying a standard solution from the bucket (1) to the receiver (7) side;
A valve (10) installed for selective supply of a standard solution on the standard solution supply line (8);
A washing liquid supply line (11) for supplying a washing liquid from the rinse bucket (2) to the receiver (7);
A pump (9) and a valve (12) installed on the washing liquid supply line (11) for washing liquid supply;
A spinning motor (13) for imparting rotational force to the receiver (7);
A motor controller (14) for driving control of the spinning motor (13);
And a computer (15) for controlling the motor controller (14) and the valve (10) (12) while receiving the converted digital signal from the signal converter. A method for testing ion selective electrodes using an array type ion concentration automatic measuring device;
Mounting various kinds of ion-selective electrodes 4 reacting to specific ions in the ion concentration measuring unit;
And measuring the ion concentration while supplying a standard solution having a known concentration of the ion to be measured in advance from a low concentration solution to a high concentration solution,
Every time the concentration changes to a different measuring solution,
The washing is carried out using a solution to be measured, the sensitivity test method of the ion-selective electrode, characterized in that. The method of claim 13,
The concentration measurement of the ion-selective electrode, characterized in that after supplying the solution to the receiver (7), a predetermined time elapses, a plurality of data is obtained at intervals of several tens of minutes during the measurement Sensitivity test method. 15. The method of claim 14,
Method for testing the sensitivity of the ion-selective electrode, characterized in that to rotate the receiver (7) at low speed when measuring, and to rotate the receiver (7) at high speed when cleaning. A method for testing ion-selective electrodes using an array type ion concentration automatic measuring device;
Mounting various kinds of ion-selective electrodes 4 reacting to specific ions in the ion concentration measuring unit;
Supplying a solution supply in the same order as the first solution → second solution → first solution → third solution → first solution → fourth solution, and measuring the ion concentration of each solution,
The first solution is a solution in which specific ions are added, and the remaining second to fourth solutions are solutions in which different ions are added.
Every time you change the solution,
Washing is performed using the solution to be measured, the selective test method of the ion-selective electrode, characterized in that. 17. The method of claim 16,
A method of testing selectivity for an ion-selective electrode, characterized in that the receiver (7) is rotated at a low speed during measurement, and the receiver (7) is rotated at a high speed during cleaning.

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