SU516111A1 - Hydrogen Electricity Meter - Google Patents

Description

one

The invention relates to the field of instrumentation.

The well-known hydrogen electrolytic integrators are superior in terms of their sensitivity and low cost of dividing to similar electrical measuring instruments (the price of the dividing integrator X603 is 0.0015 k). However, such devices cannot fully satisfy the existing sensitivity requirements (price division) of integrating devices.

The purpose of the invention is to create a hydrogen counter of the amount of hypersensitivity electricity.

This is achieved by the fact that in the proposed hydrogen meter, which contains at least two pairs of electrodes, which are interconnected and coincide with different hydrogen iriderode hydrogen spaces, the electrodes of the electrodes are connected in series, and the near-electrode hydrogen spaces are parallel in the manner that one hydrogen space is in contact with cathodes, and another with counter anodes. To reduce the size of the cathode and the anode of adjacent pairs of electrodes, the ends of one, naimer, S-shaped conductor are used.

FIG. 1 shows the proposed counter.

The meter has two pairs of electrodes 1 and 2; 3 and 4. The electrodes of each pair are located on a porous glass plate.

impregnated with electrolyte, which closes these electrodes together. Near the electrodes in the meter are near-electrode hydrogen spaces G, 2, 3 and 4. The pairs of electrodes are connected in series, i.e. an external circuit in which the current integrated by the hydrogen device flows, is connected to electrodes 1 and 4, and electrodes 2 and 3 are closed between themselves.

When applying, for example, a positive electrode to electrode 1, and a negative potential electrode to electrode 4 has a more positive potential than electrode 2 in its pair, and electrode 3, respectively, a more positive potential than electrode 4, i.e. and 3 are cathodes, and 2 and 4 are anodes.

Near-electrode space of the meter is connected in parallel: Г and 3; 2 and 4. Each

from these pairs of spaces, it is in contact with the cathodes and anodes respectively. In a hydrogen meter, when current passes through it at the cathode, it is released, and the same amount of hydrogen is absorbed at the anode, proportional to the amount of electricity passed. The transfer of hydrogen causes the pointer to move the indicator meniscus of the indicator liquid (Fig. 1) by a quantity proportional to the generous amount of electricity. (The electrolyte is not displaced from the inter-electrode plates of plates, since it is held in them by surface tension).

A follower} The first connection of n pairs of electrodes (in Fig. 1 / g 2) allows, when passing the same amount of electricity into the controlled and the same amount of electricity, to carry out hydrogen one time, as is the case in known costructures, and n times. Due to this, the number of transferred hydrogen increases by n times in other conventional conditions.

The parallel connection between the co6ofi of both the anode and the near-cathode hydrogen structures allows one to use the same value by one or more times for consecutively connecting the load electrodes. Thereby, the sensitivity increases by n times and the instrument dividing foam decreases.

In order to reduce the dimensions of hydrogen counters with sequential electrodes, it is proposed to use n-conductors, for example, S- or Z-shaped, in these integrators, the ends 5 and 6 (Fig. 2) of each of which match with different hydrogen spaces and, having performed an electrode, are part of different electrode pairs. One end of such a conductor serves as the anode of a single pair of electrodes, the other end of the same conductor is the cathode of another pair of electrodes. The conductor part of the conductor acts as a jumper

and sequentially connecting two electrode pairs.

In the construction of the counter (Fig. 2), the near-electrode hydrogen spaces of all the cathodes are connected in parallel, forming the general near-cathode space, the common near-anode space is similarly formed (when the current direction changes in the external peep, the trichodic space becomes nanodiotic and vice versa).

On the basis of the invention, integrators with both visual and e electric readout can be created.

Formula and 3 about b e and e and

Claims (2)

1. Hydrogen meter of electricity quality, containing at least two pairs of electrodes, closed with an electrolyte and in contact with different electrode near hydrogen pockets, characterized in that, in order to improve the smarties, the electrode pairs are connected in series, and near electrode hydrogen spaces are connected in series, and near electrode hydrogen spaces are connected in series, and the electrode pairs are connected in series, and the near electrode hydrogen spaces are connected in series and parallel in such a way that one hydrogen space is in contact with the cathodes, and the other with the counter apods. 2. A counter according to claim 1, in accordance with the fact that, in order to reduce its size, the cathode II serves as anode eecond1pxx electrode pairs, one for example, an S-shaped conductor.