KR820000103Y1 - Ph measuring instrument - Google Patents

Abstract

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Description

pH meter

1 is a side view of the pH meter showing an embodiment of the present invention.

2 is a cross-sectional view taken along the line II-II of FIG.

The present invention relates to a pH meter which can measure pH such as water simply and accurately.

The conventional metric pH meter is separate from the detection terminal and the indicator, and is very inconvenient and very expensive to carry around in simple pH measurement outdoors.

Therefore, litmus paper is used for simple pH measurement. However, the litmus paper can only be used for rough determination of acidity and alkalinity. Moreover, since the litmus paper is discarded after use, the cost cannot be neglected, so it is not economical.

On the other hand, miniaturization of a metric measuring instrument is actually very difficult because miniaturization of the meter itself has limitations in terms of precision, strength, and the like.

The present invention has been made in view of the above, and aims to provide a pH measuring device which can measure pH more accurately and much more accurately than litmus test paper, and can be miniaturized cheaply. Explain.

In Fig. 2, reference numeral 1 denotes a tubular case body made of resin, and a push button switch 2 is attached to an upper end thereof, and a pH detection terminal extending downward on the lower end of the case body 1. The upper end of (3) is fitted, and it is fixed to the case main body 1 by the adhesive agent 4 at this fitting part, and is sealed. (5) is a cylindrical protective case for protecting the pH detection terminal (3), is connected to the lower end of the case body (1), and the lower end of the protective case (5) is a liquid distribution hole ( 5a)…. … (Figure 1) is open. The battery 6 is housed in the upper part of the case main body 1, and the positive terminal of the battery 6 is in contact with the metal connecting plate 7, and the negative terminal is made of the metal support plate 8 It is in contact with the spring 9 fixed to it, and the one end 2a of the push button switch 2 is in contact with the support plate 8.

In the lower part of the case body 1, sixteen light emitting bodies 10 made of light emitting diodes are provided. And a light emitting diode driving element 11 constituting the control unit 11 and the overall effect transistor 12, a boost transformer 13 for boosting the voltage of the battery 6 to a voltage necessary for the operation of the control unit, and the light emitting unit 10. … The print plate 14 holding the drive element 11, the transistor 12, and the transformer 13 is accommodated.

The printing plate 14 is fixed to the case body 1, and the upper end of the printing plate 14 is connected to the other end 2b of the switch 2 via a lead wire not shown in the drawing. In addition, the connection plate 7 is connected.

Reference numeral 15 denotes a comparison electrode lead line, reference numeral 16 denotes a glass electrode lead line, the comparison electrode lead line 15 is connected to the printing plate 14, and the glass electrode lead line 16 is a field effect transistor 12. Is connected to the gate terminal. By pressing the push button switch 2 in the pH measuring device configured as described above, the light emitting diode driving element 11 and the field effect transistor 12 serving as the control unit are brought into an operating state.

When the detection terminal 3 is immersed in the measurement solution, a voltage is generated between the comparison electrode lead line 15 and the glass electrode lead line 16 according to the pH value of the measurement solution, and the voltage is applied to the field effect transistor 12. Amplified by (), and a voltage corresponding to the pH value is applied to the LED driving element (11). The driving element 11 has the light emitting element 10... Select and light it.

Luminous body 10... The lighting position corresponds to the pH value of the measurement liquid, and the light-emitting body 10... The pH value of the measurement liquid was found by looking at the light emission position of.

In this embodiment, 16 light emitters 10 are arranged, and a transparent mask 17 displaying a number of pH values 3 to 10 as shown in FIG. Is attached so that the lighting positions of the light emitting bodies 10 change one by one with a change of 0.5 pH.

When the pH value of the measurement liquid exceeds the range of pH 3-10.5, the last light emitter remains lit.

As described above, the pH measuring device of the present invention includes a pH detecting terminal, a plurality of light emitting bodies, and a control unit for selectively controlling the light emitting bodies corresponding to the pH value. In addition, the practical value and economic value can be said to be very long since it is possible to miniaturize the measuring instrument and to further simplify the handling and to use the battery for a long time by using the normal battery to measure the accurate pH value.

Claims (1)

In a pH measuring device in which the detection terminal and the indicator portion are separate, the light emitting unit is formed by the pH detecting terminal 3, the plurality of light emitting bodies 10 arranged in a straight line, and the detection signal from the pH detecting terminal 3. 10) pH measuring instrument which is integrally provided with a control unit for controlling step by step corresponding to the pH value.