JP2013002913A - Liquid analyzer - Google Patents

Abstract

A liquid analyzer that does not have non-operating time is provided.
A converter for inputting outputs from two sensors to convert them into a predetermined electrical signal and recording operating time, calibration history, and cleaning history of the two sensors;
A calibration or cleaning device that automatically performs a calibration operation or a cleaning operation on the two sensors based on a command from the converter,
The converter outputs a measurement result using a signal of only one sensor during normal measurement, and when the measurement time by the one sensor has elapsed for a predetermined time, switches to the other sensor and continues the measurement. At the stage of switching to the sensor, the one sensor is calibrated or cleaned, and when the measurement time by the other sensor has passed for a predetermined time, the measurement is continued by switching to the calibrated or cleaned sensor.
[Selection] Figure 1

Description

  The present invention relates to a liquid analyzer, and more particularly to a liquid analyzer that improves analysis efficiency by alternately performing an analysis operation and a calibration / cleaning operation using two sensors.

FIG. 2 is a block diagram showing a general configuration of the liquid analyzer.
In FIG. 2, reference numeral 1 denotes a sensor that is immersed in the liquid to be measured and detects various components including Ph, and 2 is a converter connected to the sensor 1, which supplies power to the sensor 1 and outputs from the sensor 1. The signal is converted into an electric signal of 4 to 20 mA, for example. A distributor 3 supplies power to the converter 2.

  A calibration or cleaning apparatus 4 performs automatic calibration or automatic cleaning of the sensor 1, and automatically starts cleaning or calibration of the sensor 1 according to a predetermined procedure when a predetermined time has elapsed from the start of measurement.

JP 2000-131310 A

By the way, in the above-described conventional example, at the time of calibration or cleaning, the sensor is taken out from the measurement liquid and is calibrated by being immersed in the calibration liquid or, for example, ultrasonic cleaning is performed according to an operation command to the calibration (cleaning) apparatus.
However, since only one sensor can be handled, the analysis operation is interrupted during the calibration period or the cleaning period when the calibration apparatus or the automatic cleaning apparatus is used. There was a problem.

  Therefore, the present invention uses a liquid analyzer having a two-sensor mounting function, and uses a contact input / output module of the analyzer, and one sensor performs calibration or cleaning work when performing automatic calibration or automatic cleaning. An object of the present invention is to provide a liquid analyzer having no non-operation time by performing an analysis operation with the other sensor in a period.

The present invention has been made to solve the above problems, and in the liquid analyzer according to claim 1,
Two sensors immersed in the same liquid to be measured;
A converter that inputs outputs from these two sensors and converts them into predetermined electrical signals, and records the operating time, calibration history, and cleaning history of the two sensors;
A calibration or cleaning device that automatically performs a calibration operation or a cleaning operation on the two sensors based on a command from the converter,
The converter outputs a measurement result using a signal of only one sensor during normal measurement, and when the measurement time by the one sensor has elapsed for a predetermined time, switches to the other sensor and continues the measurement. When one sensor is switched, the one sensor is calibrated or cleaned, and when the measurement time by the other sensor has passed for a predetermined time, switching to the one calibrated or cleaned sensor is continued. It is characterized by.

  According to a second aspect of the present invention, in the liquid analyzer according to the first aspect, the two sensors are analyzers having the same function.

  As is apparent from the above description, according to Claims 1 and 2 of the present invention, the converter outputs a measurement result using the signal of only one sensor during normal measurement, and the measurement time by the one sensor. When a predetermined time elapses, the measurement is continued by switching to the other sensor, and at the stage of switching to the other sensor, the one sensor is calibrated or washed, and the measurement time by the other sensor elapses the predetermined time. In this case, since the measurement is continued by switching to one of the calibration or cleaned sensors, the non-operation time can be eliminated and the life of the sensor can be extended.

It is a block block diagram which shows the liquid analyzer of this invention. It is a block block diagram which shows the conventional liquid analyzer.

  FIG. 1 is a block diagram showing a liquid analyzer of the present invention. In the figure, 11a is a first sensor and 11b is a second sensor, and these two sensors have the same function. Although not shown in the figure, these two sensors are immersed in the same liquid to be measured.

  Reference numeral 12 denotes a converter to which outputs from two sensors are input. In that case, for example, the converter displays the measured value using only the output of the first sensor as the detection signal, and transmits the measured value to the host device. This converter has a recording function for recording the operating time, calibration history, and cleaning history of each of the two sensors.

  12a is a contact input / output module that connects only a measurement signal from one of the two sensors to signal processing means (not shown) arranged in the converter 12. A power source (distributor) 13 supplies power to the converter.

Reference numeral 14 denotes an automatic calibration or automatic cleaning device that performs automatic calibration or automatic cleaning based on a command from the converter.
In the above-described configuration, it is assumed that the converter 12 currently detects and displays the output value of the output from the first sensor 11a or transmits a measurement signal to a higher model.

When a predetermined time has elapsed, a command is issued to the contact input / output module 12a to switch the contact of the first sensor to the second sensor.
As a result, the output from the first sensor is turned off, and the converter 12 detects and displays the signal from the second sensor, or transmits the measurement signal to the host model.
At the same time that the switching of the measurement sensor is instructed, for example, a command to perform cleaning (or calibration) of the first sensor is transmitted to the automatic cleaning sensor 14, and automatic cleaning (or automatic calibration) is performed.

Further, when a predetermined measurement time has elapsed, a command is issued to the contact input / output module 12a to switch the contact of the second sensor to the first sensor.
At the same time that the switching of the measurement sensor is instructed, for example, a command for cleaning (or calibration) of the second sensor is transmitted to the automatic cleaning sensor 14, and automatic cleaning (or automatic calibration) is performed.

  According to the above configuration, the two sensors continue to measure alternately at predetermined time intervals, and the sensor whose measurement is interrupted is automatically washed or calibrated. Measurement is continued by the sensor that has been calibrated and cleaned, and the sensor operating time, calibration history, and calibration value are monitored, so the sensor status is grasped based on a predetermined time, and cleaning or calibration is performed. Can extend the life of the detector.

The above description merely shows a specific preferred embodiment for the purpose of explanation and illustration of the present invention. In addition, a known method is used for the calibration or cleaning apparatus and the calibration or cleaning apparatus procedure.
Therefore, the present invention is not limited to the above-described embodiments, and includes many changes and modifications without departing from the essence thereof.

1, 11a, 11b Sensor 2, 12 Converter 3, 13 Power supply (distributor)
4,14 Automatic calibration device or automatic cleaning device

Claims (2)

Two sensors immersed in the same liquid to be measured;
A converter that inputs outputs from these two sensors and converts them into predetermined electrical signals, and records the operating time, calibration history, and cleaning history of the two sensors;
A calibration or cleaning device that automatically performs a calibration operation or a cleaning operation on the two sensors based on a command from the converter,
The converter outputs a measurement result using a signal of only one sensor during normal measurement, and when the measurement time by the one sensor has elapsed for a predetermined time, switches to the other sensor and continues the measurement. A liquid that calibrates or cleans one of the sensors at the stage of switching to the sensor, and switches to the one of the calibrated or cleaned sensors when measurement time by the other sensor has elapsed for a predetermined time. Analysis equipment.   The liquid analyzer according to claim 1, wherein the two sensors are analyzers having the same function.

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