JPH0319037Y2 - - Google Patents

Description

[Detailed description of the invention] This invention relates to a measuring device consisting of a meter body and a detector that is detachably connected to the meter body, and improves the operability of the meter body side and prevents the occurrence of misreading of indicated values. The purpose is to

As this type of measuring device, for example, in a device using a bipolar conductivity measuring electrode as a detector, various devices such as distance between the electrodes, area, shape of the container, etc. are used in order to expand the measurement range. If the distance between the electrodes is different, the cell constant will be different, so
When connecting such conductivity measuring electrodes with different cell constants to the meter body, it is necessary to set the range on the meter body side in accordance with the cell constant. Since the cell constant indicates the characteristics of the conductivity electrode as a detector, it is usually displayed in an easily visible place between the electrodes, but operators often check the cell constant one by one during busy measurement work. It is troublesome to perform the necessary operations on the instrument body, and when reading data, it is possible to forget the cell constant and read an incorrect value.

These drawbacks are not limited to conductivity measuring devices, but because a large number of detectors are selectively connected to one instrument body, and each detector has different characteristics, the instrument body side This can also be seen in general measuring devices, which require the necessary operations to be performed in accordance with the connected detector.

The present invention provides a useful means that can eliminate the complexity of operations on the meter body side and reading errors in such measuring devices. In a measuring device consisting of a detector that is detachably connected to the main body, the detector side is provided with an electric element that indicates its own characteristics, and the meter main body side is provided with a function to determine the characteristics of the detector. exists in Here, the electric element provided on the detector side and indicating its own characteristics has a characteristic that is uniquely determined in relation to the function of determining the characteristics of the detector provided on the meter main body side. For example, if the function is to detect a resistance value, resistors with different resistance values are used as the electrical elements. Further, if the function is to detect capacitance or inductance, a capacitor or a coil can be used as the electrical element. In addition, the electrical element may be an electrically active element such as an oscillator with different oscillation frequencies or an amplifier with different amplification factors,
Furthermore, this electrical element may not be provided on the detector, but may be provided on a connector that is integrally connected to the detector. Therefore, in the case of a connector, as long as any two of the many terminals are shot and the function of the instrument body can determine the characteristics of the connected detector, the electrical element You can say that.

On the other hand, it is sufficient for the function of the main body of the instrument to be able to determine the characteristics of the connected detector using the electrical element on the detector side. Therefore, it is possible to have the meter body automatically perform the necessary operations (for example, switching cell constants, etc.) based on that judgment.
It is also possible to simply notify the operator of the judgment made by the function using a lamp or the like.

Specific examples of the present invention will be explained below based on the drawings. Figure 1 shows the conductivity measuring electrode as a detector, 1 and 2 are opposing electrodes, 3
is the resistance as an electrical element for indicating the characteristics of this measurement electrode, that is, the cell constant. The resistance value of this resistor is varied depending on the cell constant of the measurement electrode. For example, when the cell constant is 1, the resistance is 1KΩ, and when the cell constant is 10, the resistance is 10KΩ. On the other hand, the circuit shown in FIG. 2, for example, is used on the instrument main body side as a function for determining the characteristics of the detector from its electrical elements. 4 in the figure,
Reference numerals 5 and 6 denote matching circuits, which are connected in parallel to terminals R ₁ and R ₂ to which the electric element 3 is connected. And the comparison input terminal of each matching circuit 4, 5, 6 has 10K
Resistors with resistance values corresponding to the electrical elements used in each detector are used, such as Ω, 1KΩ, and 0.1KΩ. Therefore, if the resistance value of the electrical element 3 is now 10KΩ, only the coincidence circuit 4 having a resistance matching this resistance value will generate a coincidence output. This coincidence output causes the light emitting diode 7 to emit light in the illustrated example. Each light emitting diode 7, 8, 9 is provided on the front panel of the instrument body, and the operator can immediately check the characteristics of the detector connected to the instrument body by visually observing which diode emits light. , the range selector switch can be switched to a predetermined range.
In this case, if the light emitting diodes 7, 8, and 9 are placed at the range scale positions of the range selector switch as shown in Figure 3, the operator can turn the knob 10 to the position where the light emitting diode is placed. It also improves operability.

In the case of the above embodiment, the judgment made by the function of the meter body is transmitted to the operator by the light emitting diode, but it is also possible to automatically switch the range based on the judgment. Figure 4 shows an example, where _A1 is an amplifier that amplifies the voltage of the detector;
A ₂ is an impedance converter that converts the resistance value of the electric element 3 provided in the detector into a voltage, and A ₃ is the output voltage E ₁ of the amplifier A ₁ and the impedance converter A ₂
This is a divider that divides the output voltage _E2 . According to this configuration, the output voltage of the detector is proportional to the cell constant, but the voltage is divided by the voltage signal corresponding to the resistance value of the electrical element 3 corresponding to the cell constant, so range switching is possible. It would have been done automatically. Therefore, the operator only needs to read the indicated value without performing any operations.

As described above, in each of the above embodiments, the electrical element 3 may be a capacitor, a coil, an oscillator, or the like other than a resistor.

Next, FIG. 5 shows another embodiment of the present invention, in which the electrical element indicating the characteristics of the detector is connected to the connector 1 integrally connected to the detector 11.
2 terminal pins a, b, c, d... by shorting any two pins a, b. The shooting pins are different depending on the characteristics of the detector. Therefore, the characteristics of the detector can be determined depending on which pin is shot. Although the characteristic determining function on the instrument main body side is not shown, it may be any function as long as it can determine the characteristic of the detector from the shot pin.
Incidentally, instead of shooting any two pins as described above, it is also possible to make only one pin protrude and remove all the remaining pins.

Since the measuring device according to the present invention is configured as described above, the characteristics of the detector connected to the meter body are determined by the function of the meter body, and the determination result is displayed to the operator or automatically Necessary operations can be performed on the instrument body. Therefore, the operator can check the characteristics of each connected detector based on the judgment result made by the function of the meter body without checking the display written on the surface of the detector or the like. Therefore, the complexity of measurement operations and errors in reading indicated values can be eliminated. In particular, if the necessary operations are automatically performed on the instrument body based on the judgment result of the instrument's function, operability will be significantly improved and reading errors can be completely eliminated. .

[Brief explanation of the drawing]

The figures show an embodiment of the present invention, Fig. 1 is a diagram showing a bipolar conductivity measuring electrode as a detector, and Fig. 2 is a circuit diagram showing a function for determining the characteristics of the detector shown in Fig. 1. , FIG. 3 is a diagram showing a preferred embodiment of the range switching display based on the judgment of this function, FIG. 4 is a circuit diagram showing another embodiment of the above function, and FIG. Figure B is a plan view of the connector, and is a diagram showing another embodiment of the element showing the characteristics of the detector. 3...Electric element.

Claims (1)

[Scope of utility model registration request] In a measuring device consisting of a meter body and a detector detachably connected to the meter body, the detector side is provided with an electrical element that indicates its own characteristics, and the meter body side has a function to determine the characteristics of the detector. A measuring device comprising: