SU1075345A1 - Electrochemical integrator - Google Patents

Abstract

An ELECTROCHEMICAL INTEGRATOR containing a hermetic housing made of non-ferromagnetic material with electrodes located in it, the space between which is filled with electrolyte, .1615 (RE), in order to expand the measuring range by converting the measured amount of electricity into a discrete number of pulses, into it a permanent magnet, switching contacts, a recording device and a switching relay are introduced, the housing being made in the form of a U, in which each electrodes are placed ferromagnetic material, and the electrolyte used is a salt solution of a ferromagnetic metal, while a permanent magnet is installed on the outside of the housing between the electrodes on the pendulous suspension, on a rigid rod of which are mounted switching contacts connected to the windings of the switching relay, two pairs of contacts of which are included into the circuit of electrodes, and the fifth contact - into the circuit of the recording device.

Description

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with 4 sd The invention relates to instrument making and can be used in various electrochemical devices for measuring the amount of electricity or setting certain periods of time. A mercury gauge meter is known that contains electrodes made of a non-ferromagnetic material, mercury, separated by an electrolyte containing mercury ions 1. The amount of electricity passed through the gauge meter is determined visually by moving the electrode bars, which reduces the accuracy of the measurement. In addition, the measurement limit is limited by the length of one of the columns of the mercury electrode, i.e. stock of working substance. Closest to the invention, in its technical essence, is a discrete-electrochemical integrator, comprising a hermetic case with electrodes located in it, the space between which is filled with electrolyte. Metal is used as the working substance, and the electrolyte is conductive in ions of this metal. The measurement range is determined by the amount of substance at the working electrode. After the electrochemical dissolution of this substance, the voltage drop between the electrodes increases and a signal proportional to a given amount of electricity 2 is removed from the reader. The disadvantages of a known integrator are the small range of the measured amount of electricity due to the limited amount of the working substance on one of the electrodes, as well as significant complication circuit solution for reading the transmitted amount of electricity at any time. The aim of the invention is to expand the measurement range by converting the measured quantity of electricity into a discrete number of pulses. The goal is achieved by the fact that a permanent magnet, switching contacts, a recording device and a switching relay are inserted into an electrochemical integrator containing a hermetic case of a non-ferromagnetic material with electrodes located in it, between which is filled with an electrolyte, In each knee of which electrodes are made of a non-ferromagnetic material, and the electrolyte is a salt solution of a ferromagnetic metal, with a constant The magnet is mounted on the outer side of the case between the electrodes on a practical suspension, on a rigid rod of which there are fixed switching contacts connected to the windings of the switching relay, two pairs of contacts of which are included in the electrode circuit, and the fifth contact is in the circuit of the recording device. The drawing shows a sketch of an electrochemical integrator. The electrochemical integrator contains a sealed U-shaped vessel 1 of a dielectric with electrodes 2 located inside it of a non-ferromagnetic material. The interelectrode space in the vessel is filled with electrolyte 3, which is a salt solution of a ferromagnetic metal, for example, FeSQj. Outside the vessel between the electrodes, a permanent magnet 6 is suspended on the rigid link 5 on the axis 5. A switching contact is attached to the rigid link, closing when the rigid link is turned. 5 around axis 4 with contacts 8 or 9 connected to a switching relay Yu (for example, types RP-11 or RP-12), contacts 11-14 of which (respectively, circuit designations P1-P4) are included in the integrated current circuit. The contact 15 (P5) is connected to the circuit of the registering device 16. When a constant integrable current flows through the circuit through contact 11, electrodes 2, electrolyte 3 and contact 14, the electrode, which is an anode (in the drawing the right electrode), dissolves material, such as iron (Fe), and on the electrode, which is the cathode (in the drawing, the left electrode), iron is reduced and a pure metal is deposited on it. This happens until the amount of deposited metal on the left electrode is enough to hold the magnet 6. The magnet 6 moves towards the right electrode, and one of the two pairs of contacts, namely, 7 and 9, closes. As a result, the relay 10, its pins 11 and 14 open and pins 12 and 13 close. Accordingly, contact 15, relay 10 closes and the recording device 16 operates. Using a relay type RP-11 or RP-12 in this integrator has the "memorize command" property. Therefore, it remains in the position described above until the closing of a pair of contacts 7 and 8. Switching contacts 11-14 causes a change in the direction of current flow through the integrator and causes the anode and cathode to change places. On that electrode, where metal dissolution occurs (on the right). its recovery begins, and on the other, dissolution, i.e. another cycle begins. Cycles can continue almost unlimited times. In order for the permanent magnet 6 to be alternately attracted to the electrodes, as is evident from the principle of operation of the device, the same amount of ferromagnetic metal should be alternately placed on them. It follows from the Farade laws that the same amount of electricity must pass through the electrolyte to precipitate the same amount of metal. Thus, the registration device — counter 16, each time is triggered only after a strictly defined amount of electricity passes through the integrator. The integration cycle time is determined by the magnitude of the integrated current, the required accuracy of measurements or 10 production demand. To eliminate the influence of external magnetic fields on the position of a freely suspended permanent magnet on the axis, the integrator is shielded. Due to the fact that the forces of interaction between the permanent magnet and the ferromagnetic metal deposited on one of the electrodes can be influenced by vibration and jolts, the device is equipped with an oscillation damper or mounted on a damping base. The use of new elements - freely suspended on a rigid rod with contacts of a permanent magnet, a switching relay with its contacts, a recording device and an electrolyte in the form of a ferromagnetic metal salt solution, distinguishes the electrochemical integrator from the known ones, since the integrator, with its simplicity, has an almost unlimited range integration time. Obtaining information in a discrete form improves the accuracy of the measurements and provides for the determination of the past amount of electricity at any time.

Claims (1)

ELECTROCHEMICAL INTEGRATOR containing a sealed case of non-ferromagnetic material with electrodes located in it, the space between which is filled with electrolyte, characterized in that, in order to expand the measuring range by converting the measured amount of electricity into a discrete series of pulses, a permanent magnet is inserted into it, switching contacts , a recording device and a switching relay, the housing being made in a U-shape, in each elbow of which electrodes made of a non-ferromagnet are placed of the material, and a ferromagnetic metal salt solution is used as the electrolyte, while a permanent magnet is mounted on the outside of the housing between the electrodes on a pendulum suspension, the rigid contacts of which are fixed switching contacts connected to the windings of a switching relay, two pairs of contacts of which are included in the electrode circuit and the fifth pin is in the circuit of the recording device.