CS260176B1 - Electrode Touch Level Indicator with Liquid LevelConnect to Electrode Touch Indicator with Liquid Level - Google Patents

Abstract

The connection for indicating the contact of the electrode with the liquid level serves for measuring purposes in hydrostatic leveling of leases in geodesy, construction and mechanical engineering. The stated purpose is achieved by connecting the electrodes to the feedback circuit of the amplifier, at the output connected to the serially controlled detection, shaping and output circuit. The connection can be used for signaling or regulating the level of liquid media, e.g. in water management, chemical and food industries.

Description

The invention relates to a connection for indicating an electrode contact with a liquid level.

So far, electrode touch-up connections with liquid level operate with direct or alternating current in continuous mode. The direct current decays the liquid conductivity with ionic conductivity, the electrodes are covered with electrolysis products, making it difficult to indicate contact by increasing the lead resistance of the electrodes and adversely affecting the electrode geometry. The alternating current of a high frequency does not cause electrolysis, but irreversible electrochemical processes take place on the electrodes and in the liquid at more sustained action.

The above mentioned drawbacks are substantially eliminated by the electrode contacting indication of the fluid level according to the invention, the first terminal of the output quadrupole output pair being connected to the amplifier input and the second output quadrupole output pairing pair connected to the amplifier output . The advantage of connecting the electrode contact with the liquid level is that an alternating voltage is applied to the electrode-liquid system from the moment of contact of the electrode with the liquid level, the am-plitude of which decreases exponentially to zero. Irreversible changes to the electrodes and a reduction in the electrical conductivity of the liquid near the electrodes were thus minimized. The wiring is functionally capable of a wide range of fluid conductivity.

In the accompanying drawing, a block connection is shown to indicate electrode contact with a liquid level.

The connection for indicating the contact of the electrode with the liquid level consists of an amplifier 1, the input of which is connected to the first outlet of the output pair of the feedback quadrupole terminals 2 and the second outlet of the output pair of the quadrupole feedback terminals 2 is connected to the output of the amplifier 1. The output of amplifier 1 is connected in series detecting circuit 3, forming circuit 4 and output circuit S. In this exemplary embodiment, electrodes B are shown as needles, one of which is in permanent contact with the liquid. The electrodes 6 are connected to an input pair of four-pole feedback feedback pins 2.

Prior to the contact of the electrodes B with the liquid level 7, the amplifier 1 appears on its output as a source of alternating voltage oscillations with the amplitude that maintains the output circuit 5 according to the feedback and feedback given by the feedback quadrupole 2. in juice, e.g. log. 0. At the moment of contact of the electrodes B with the liquid level 7, the transmission of the feedback quadrupole 2 is jumped so that the alternating voltage oscillations at the output of the amplifier 1 disappear according to the exponential course with the speed given by the depletion of the accumulated energy in the feedback quadruple 2.

The connected circuits 3 and 4 bring the output circuit 5 to a log state. 1. In this state, no voltage is applied between the electrodes 6, and any difference in electrochemical potentials of the electrodes 6 will not occur by passing the equalizing direct current through the liquid, since the electrodes 6 are circumferentially galvanically separated from each other.

An electrode contacting indication with a liquid level may find use in geodesy, construction and engineering for measuring purposes in hydrostatic leveling. It can also be used for signaling or level control of liquid media, eg in water, chemical and food industries.

Claims (1)

SUBJECT Circuit for contacting an electrode with a liquid level consisting of an amplifier, the output of which is connected to a serially sequenced detection circuit, a shaping circuit and an output circuit, the input pair of the return-quadrupole terminals being connected to the electrodes of the invention; the outlets of the feedback quadrupole (2) are connected to the inlet of the amplifier (1) and the second outlet of the output pair of the outlets of the feedback quadrupole (2) is connected to the output of the amplifier (1).