JPS61122555A - Multifunctional analyzer - Google Patents

Abstract

PURPOSE:To use a computer for various sensors in common and facilitate design and manufacture, and to reduce the cost by inputting outputs of one or plural sensors to a common portable computer through interfaces. CONSTITUTION:Plural sensors, e.g. pH sensor 11, oxygen concentration sensor 12, and solution concentration sensor 13 and interfaces 21, 22, and 23 are formed integrally, and the outputs of the sensors and A/D-converted by the interfaces 21-23. Further, a multiplexer 5, the portable computer 3, and an output device 4 are formed in one body. The signals from the respective sensors are inputted to the multiplexer 5 and the portable computer 3 controls the measuring operation of each sensor 1 and performs D/A conversion to display the result on the output device 4. Thus, the computer common to the respective sensors is used, so the design and preparation are facilitated and the cost is reduced.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a multi-purpose analyzer suitable for measuring, for example, pH and other ion concentrations, oxygen concentrations, and various solution concentrations.

(Prior Art) With the spread of large-scale integrated circuits (hereinafter abbreviated as LSI) that form microprocessors and peripheral circuits, pH
Analyzers for measuring other ion concentrations, oxygen concentrations, and various types of solution decay have also been put into practical use with sophisticated functions, for example, calculation functions such as automatic calibration or automatic temperature compensation.

(Problems to be Solved by the Present Invention) However, in the conventional analyzer, as shown in FIG. If the type of sensor is different, it is necessary to develop a new digital instrument 6 according to the type of sensor, and it generally takes a long time to develop, so it is inevitable that it will be expensive. be.

(Means for Solving the Problems) The present invention has been made to eliminate the above-mentioned drawbacks of the conventional technology, and is intended to be applied to portable computers called pocket combination computers or hand belt computers, which have been newly developed in recent years. The purpose of this invention is to selectively connect various sensors to this portable computer via an interface.

(Example 1) FIG. 1 is a diagram showing an example of the present invention, in which 1 is a sensor;
Reference numeral 2 denotes an interface, which is formed integrally with the sensor 1. Reference numeral 3 denotes a portable combiner 1, and 4 an output device such as a printer, which is formed integrally with the portable combiner 3. The interface 2 consists of a circuit that converts the output analog signal of the sensor 1 into a digital signal according to the digital circuit configuration of the portable computer 3, and includes memory cells that constitute a read-only memory (ROM) in the portable computer 3. is divided into multiple blocks as appropriate, and the first block contains, for example, calibration curve creation data and calibration programs necessary for calibrating a pH measurement sensor, temperature compensation, etc., and programs and measurements necessary for pH measurement. Store programs for statistical processing of values and creation of statistical graphs, etc.
Each of the second and subsequent blocks also stores data and programs as described above corresponding to various sensors.

(Function) For example, a pH measuring sensor and an interface are connected to a portable combination camera 3 as a sensor 1 and an interface 2, and the first block of the memory in the portable computer 3 is selected by manual operation, for example, and the pH measuring sensor and interface are connected to the portable computer 3. When the sensor is immersed in the calibration standard solution, the sensor output is introduced into the portable computer 3 via the interface 2, where it is compared with the calibration data according to the calibration program, and calibrated according to the difference with the calibration data. A computation corresponding to parallel movement of a line, that is, a computation corresponding to one-point calibration is performed. Also, pH
When two types of standard solutions having different values are used, a calculation corresponding to parallel movement of the calibration curve and correction of the slope, that is, a calculation corresponding to two-point calibration is performed. During actual pH measurement, the senna output is introduced to the portable computer 3 via the interface 2, and calculations including temperature compensation etc. are performed.
Calculations for statistical processing and statistical graph creation are performed as necessary, and the calculation results are sent to the output device 4.

The same applies when a sensor and an interface different from the pH measuring sensor are selected as the sensor 1 and the interface 2.

That is, by commonly using the portable computer 3 and the output device 4 formed integrally therewith, and replacing the integrally formed sensor 1 and interface 2 with different types, it is possible to analyze various measurement targets. I can do it.

(Embodiment 2) Fig. 2 is a diagram showing another embodiment of the present invention, in which 1 is a sensor, 2 is an interface, 3 is a portable combination device 1-4, and 4 is an output device. The data storage device 3 and the output device 4 have the same configuration as in the previous embodiment. In this embodiment, the interface 2 is formed with a circuit that converts the output analog signal of the sensor l into a digital signal according to the digital circuit configuration of the portable combination converter 3, and its output terminal is connected to the portable combination converter l. - The interface 2, the portable converter 3 and the output device 4 are integrally connected to the input terminal of the input terminal 3.

(Function) Also in this embodiment, the portable computer 3 is replaced by replacing the sensor 1 and the interface 2 with different types, and selecting a block corresponding to the sensor from among the memory blocks in the portable computer 3.
By using the output device 4 and the output device 4 in common, various types of measurement targets can be analyzed.

(Embodiment 3) FIG. 3 is also a diagram showing another embodiment of the present invention, in which 11 to 13 are different types of sensors, for example, 11 is a pH sensor.
The measurement sensor 12 is a sensor for measuring oxygen concentration, and 13 is a solution conductivity detection sensor for measuring solution concentration. 2
Reference numerals 1 to 23 denote interfaces, which are formed integrally with each corresponding sensor and are comprised of circuits that convert the output analog signals of each corresponding sensor into digital signals according to the digital circuit configuration of the portable combination. The memory configuration of the portable computer 3 is similar to that shown in the first figure, and program control information for controlling the sequential reading of stored information in each block is stored in appropriate blocks. Reference numeral 4 denotes an output device, which has the same configuration as that shown in the first figure.

5 is a multiplexer, and each input terminal has interface 2.
The output terminals of I to 23 are connected separately, and the common output terminal is connected to the input terminal of the portable computer 3, so that the multiplexer 5, the portable computer 3, and the output device 4 are integrated. Although FIG. 3 shows an example in which three sensors 1 to 13 and three interfaces 21 to 23 are connected to the multiplexer 5, the present invention can be implemented by appropriately increasing or decreasing the number of sensors. Also, instead of forming each sensor with different types of sensors, all sensors may be formed with the same type of sensor, for example, a sensor for pH measurement, or, for example, two sensors may be formed with the same type of sensor. However, other sensors may be formed using different types of sensors.

(Function) In this embodiment, it is possible to select any block in the memory of the portable combination and perform automatic calibration and analysis using the sensor corresponding to this block. For example, by manually selecting a block in the memory of the portable computer 3 that stores program control information that controls the sequential reading of the stored information of each block, each block is read in the order determined by the program control information. Sensor calibration and analysis using each sensor can be performed sequentially. Multiple sensors of the same type, e.g. p
If it is formed using a suspensor for H measurement, three liquids with different pH values can be successively measured.

(Embodiment 4) FIG. 4 is also a diagram showing another embodiment of the present invention, in which numerals 11 to 13 are sensors, which may be of different types as in the previous embodiment, or may be of the same type, or may be partially The sensors are of the same type and the others are of different types. 3 and 4 are the same portable computers and output devices as in the previous embodiment; 2' is an interface that corresponds to each of the sensors 11 to 13, and outputs analog signals from the corresponding sensors to the portable computer 3;
The output terminals of the sensors 11 to 13 are individually connected to the input terminal of each analog-to-digital conversion circuit, and the output terminal of each conversion circuit is connected to the input terminal of each analog-to-digital conversion circuit. An interface 2', a portable computer 3 and an output device 4 are integrally connected to the input terminal of the portable computer 3. Although FIG. 4 shows an example in which three sensors are provided, the number can be increased or decreased as appropriate, as in the previous embodiment.

(Function) By selecting an arbitrary block in the memory of the portable computer 3, analysis can be performed using the sensor corresponding to this block, and analysis can be performed by sequentially operating each sensor. This is also the same as in the previous embodiment.

(Effects of the Invention) As is clear from the above explanation, the analyzer of the present invention converts the analog output signal of the sensor into a digital signal according to the digital circuit configuration of the portable computer, and introduces the converted signal into the portable computer. In addition, by storing program information according to the type of sensor in the memory of the portable computer, the portable computer can be used commonly for various types of sensors, which facilitates design and manufacture and reduces costs. The practical effect is enormous.

[Brief explanation of the drawing]

1 to 4 each show an embodiment of the present invention, and FIG. 5 shows a conventional analyzer, 1 and 11.
1 to 13: sensors, 2.21 to 23 and 2': interface, 3: portable combiner, 4: output device, 5: multiplexer, 6: digital instrument, 7: output terminal.

Claims (1)

[Claims] A multi-purpose analyzer characterized in that the output of one or more sensors is configured to be introduced into a common portable computer via an interface.