SU557322A1 - Electrochemical electricity meter - Google Patents

Description

(54) ELECTROCHEMICAL AND METER NUMBER ELECTRICITY

Cathode 4 is placed. Anode, intended element 3 on substrate 2 and cathode 4 are connected via leads 5 to a power source (not shown).

In the figure 2,

An identical measuring element 3 Quick If E diffroy type 1 characters. The thickness of each subsequent mark is greater than the thickness of the previous one. The counter shown in Fig. It is distinguished by the fact that its metal anode measuring element 3 is wedge-shaped in thickness. The shape of the anode measuring element is rectangular. A scale may be applied to the electrically conductive substrate 2. The second electrode cathode 4 is placed in the housing. The anode measuring element 3 and the cathode 4 are connected by means of leads 5 to a power source (not shown

Electrochemical amount of electricity works as follows.

When the battery is connected to a power source, the current passing through the meter causes the metal to dissolve electrically on the nosepxii of the anode measuring element 3 and deposition of an equivalent amount of metal on the cathode 4. The substrate 2, on which the metal of the anode measuring element 3 was located in a thin layer, are released from the metal earlier than those areas where the layer

The metal was thicker. Thus, when current flows through the meter, the configuration of the anode measuring element 3 changes. The initial distribution of the metal anode of the measuring element 3 over the surface of the substrate 2 determines the sequence and speed of the release of the surface of the substrate 2 from the metal of the anode measuring element 3 electrochemical dissolution. The amount of electricity transmitted through the meter can be determined visually by reducing the number of strips (Fig. 1), by changing the python value (Fig 2), by the amount of mixing of the border of the metal of the geometric figure - the rectangle (Fig. 3). The conductivity of the pollock 2 provides a complete and uniform electrochemical dissolution of the metal of the measuring element 3.

The manufacture of the proposed device is not a time consuming process. The anode measuring element 3 with a predetermined thickness unevenness can be prepared, for example, by electrochemical deposition of metal on a substrate 2. The configuration of the anodic measuring element 3 can be provided-1, for example, using masks (from photoresist). The substrate 2 can be made, for example, of glass coated with an electrically conductive film of tin dioxide or other inert electrically conductive materials. The tightness of the meter can be ensured, for example, by pouring a sealing compound along the line of the plug.

The manufacturing process of the proposed electrochemical meter can be mechanized and automated,.

Claims (1)

Invention Formula 1, An electrochemical electricity quantity meter consisting of a transparent body filled with electrolyte and solid metal electrodes, one of which is an anode measuring element and is located on an electrically conductive substrate, characterized in that, in order to improve measurement accuracy and simplify manufacturing technology, the anornic measuring element is uneven in thickness. 2, The counter according to Claim 1, of the wedge of the wedge so that the anode measuring element is designed as a wedge, 3, Counter on PP. 1 and 2, characterized in that a scale is applied to the electrically conductive substrate, Sources of information taken into account during the examination: 1, Author's testimony, 1 st. G 01 R 11/44, 1963