SU1046777A1 - Liquid resistor - Google Patents

Abstract

A LIQUID RESISTOR containing a dielectric body with electropite, movable and stationary electrodes placed in it, is so wired that, in order to increase the temperature stability of the resistance, it is equipped with a float KEMA, corresponding to the dielectric the body, the float of which is connected to the movable I ki where f is where the electrode is, where the section of the float chamber at the height of pacntb and the float is determined by the GTL formula (li is the height of the float chamber calculated by e is the cross section, cm; t is the mass of the electrolyte in a liquid resistor, g;} is the electrolyte density at the chamber to a height of b, g / cm, m R5 h (T) -y (To), cm, R is the resistor, Ohm ; (T) is the electrical conductivity of the resistor cm-1; T is the temperature. K; T is the minimum operating temperature of the resistor. K; 5 is the area of the electrodes, cm,

Description

Ognosigs izobryengi to electrical engineering, in particular to liquid resistors which are intended for work in high-voltage electrical circuits as protection elements in voltage generators, voltage dividers, etc. A liquid rheostat is known, in which the resistance is degraded by moving the inner electrode relative to the LI body. The change in resistance due to the heat produced during the passage of the gok partially compensates for the flow of the electrolyte. However, the use of a compensating element in this form does not provide sufficient accuracy of temperature compensation, since it is impossible to guarantee the correspondence between a change in the temperature of the elements and the corresponding temperature of the flow electrolyte. The complexity and cumbersome design, due to the large amount of leaked currents. The closest in technical terms to the present invention is a liquid resistor containing a dielectric case with an electrolyte, a movable and stationary electrode located in it, the movable electrode being connected to a device for moving it G2 J However, this resistor does not provide automatic change of the stratification between the electrodes when the resistance of the resistor changes, as when it changes when the current flows, and when the temperature of the surrounding medium changes. This will complicate the use of such resistors in a number of cases, in particular for voltage dividers under conditions of large temperature differences, such as those placed outdoors. The purpose of the invention is to increase the stability of the resistance to temperature. The supplied circuit is achieved by the fact that the liquid resistor containing dielectric jfopnyc with electrolyte, movable and stationary electrodes placed in it, is equipped with a float chamber communicating with the dielectric body, the float of which is connected to the movable electrode, with this The area of the float chamber at the height of the float is determined by the form of the mule. d /. . P s, {ti) P (1-, 1 s VI / 10 77 height of the float chamber, which corresponds to the calculated cross-section, cm; hi is the mass of electrolyte in a liquid resistor, g; y (b) is the density of the electrolyte when the chamber is filled up to the height ti, g / cm, and t) - (TJ, c ", where R is the resistance of {Lystor, Ohm; resistor electrical conductivity. Ohm - cm – H. temperature, K; min 5 is the working temperature of the resistor. K; 5 - electrode area, see. The drawing shows the proposed liquid resistor, the cross section. The housing 1 is an insulating tube filled with electric electrolyte r 2 through na.j-cuts 3. The bottom electrode 4 is stationary, and the top 5 is movable and connected to a float 6 placed in a variable section float chamber 7. The covers 8 and 9 hermetically sealed the case. After applying voltage to the resistor, the temperature of the electrolyte 2 can be changed both by the action of current flow and by a change in the external temperature. Thus, as the temperature increases, the volume of fluid in the resistor increases, the electrolyte level increases, the position of the float b changes, and the distance between electrodes 4 and 5 increases. The cross section of the float chamber 7 is designed in such a way that automatic and accurate compensation is provided. Qi of the temperature change of the resistance of the electrolyte, occurring under the action of a change in the conductivity of the electrolyte. The cross-sectional area of the chamber is defined as follows. Let at. T T (where TO is the minimum limit of the operating temperature) the electrolyte level corresponds to the lower level of the chamber, i.e. the volume of electrolyte V corresponds to the volume of the case — x. Let the electrical conductivity and the electrolyte of the litter change as T, (I 3. Then the resistance of the unit is 6a and the output of P e / 5g (T), (2) From (T). (3) The volume of the liquid at the temperature + V (I), (4) where Vp (T / is the volume of the fluid in the poplite chamber, and Vn (T) j S ,, (1i) dlti, (5 where 5p (b section camera ti is the height of location popl V mjj- (T) where gtr is the mass of electrolyte in the turn, substituting (6) and (5) in (4), we have lid) (T) V + j S (1i) dh, (1 OPGR (T) P (t ; Since ,, 774 de I is the distance between the lower spectrometer and the upper cover of the resistor B, the length is rigid The connection of the movable electrode and the float, Hr and C ("constant, then the nature of the change in h from temperature is the same as f. Therefore, 5" (1. From (2) and (3) we have the expression the minimum distance between the electrodes a resistor, when it is still dependent on the automatic maintenance of the resistance constant. This distance corresponds to the minimum operating temperature Td, then min - "C From (3)" 5 (T), (, 2; Then from (1) (T) -7 (n,) J. (13) The technical and economic efficiency of this liquid resistor lies in the reliability of the measurement results and the simplicity of its design.

Claims (1)

A LIQUID RESISTOR containing a dielectric body with an electrolyte, movable and fixed electrodes placed in it, characterized by heme, which, in order to increase the temperature stability of the resistance, it is equipped with a float chamber communicating with the dielectric body, the float of which is connected to the movable electrode, while the area The cross-section of the float chamber at the height of the location is determined by the formula ⁵ⁿ <' ^{, | =} 4 ^! B'f) f ''' ¹ - ^{with r} · »i where b is the height of the float of the float chamber, which is the calculated' section, cm; hr "is the mass of the electrolyte in the liquid resistor, g; ρ (Ή | is the density of the electrolyte when filling the chamber to a height h, g / cm ² , g where b = H5 [ _G (T) -y (T ₀ )], cm, where R is the resistance of the resistor, Ohm; y (T) is the resistor conductivity, Ohm ^-1 "cm ~ 9; T is the temperature, K; T _Q - minimum operating temperature of the resistor, K; 5 - the area of the electrodes, cm I