SU1721658A1 - Method for calibration of thermal maximum releasers - Google Patents

Abstract

The invention relates to electrical engineering. The aim of the invention is to reduce the calibration time. The method is intended for calibration of thermal maximum releases of circuit-breakers containing in each pole two horseshoe-shaped thermo-bimetallic elements placed in a common housing with an asymmetrically located tongue on each element and counter thermal defibrations of the free ends of the tabs. The tongues are kinematically connected by a strap. One of the tabs is equipped with an adjusting screw with the possibility of the surface of the screw head facing the tongue on the measles, which transmits the force to the rod that acts on the rail of the free opening mechanism

Description

. The invention relates to electrical engineering, in particular to the calibration of thermal maximum opening of circuit breakers.

A known method of calibrating the thermal maximum releases of circuit breakers, according to which the thermo-bimetallic elements are heated with an adjusting current for a specified time, after which the adjusting screws rotate.

This method is characterized by the duration of the calibration process and high energy efficiency.

The closest in technical essence to the present invention is a method for calibrating thermal maximum releases of auto-switch switches containing two horseshoe-shaped thermobimetallic elements placed in a common case with asymmetrically located tongue on each element and counter thermal deformations of free ends of kines that are kinematically connected a strap, an adjusting screw on one of the tabs with the possibility of the surface of the screw head facing the tongue The core and the rod between the core and the rack of the free-release mechanism, by which the thermo-metallic elements are heated to determine the temperature equal to the response temperature, and then the control element of each pole is brought to the automatic circuit breaker.

Such a calibration method due to variation in the response temperature due to technological deviations requires repeated heating and cooling to determine the response temperature of the particular release, which increases the duration of the calibration process.

The aim of the invention is to reduce the calibration time.

The goal is achieved by the fact that, in the method of calibration of thermal maximum releases of automatic switches, each pole contains two horseshoe-shaped thermo-bimetallic elements placed in a common housing with an asymmetrically located tongue on

each element and the opposite thermal deformations of the free ends of the tabs, kinematically connected by a strap, with an adjusting screw on one of the tabs, with the possibility of

The tab on the surface of the screw head on the measles and the rod between the core and the rack of the free-release mechanism, through which the thermo-bimetallic elements are heated to a certain temperature, measure the distance of the tabs from the wall of the release and change them with a change in temperature by a certain amount, measure the distance from the body the release to the rack of the free release mechanism in the place of the stem placement, depending on the value of the arithmetic mean change with the temperature of the tabs The pit is determined and the rotation of the head of the adjusting screw determines the distance between the tab and the head of the adjusting screw as the difference between the predetermined value and the sum of deviations from the predetermined average for a given nominal current position of the tab relative to the case of the release and deviation of the distance from the case of the release to the rails of the free-release mechanism from a predetermined average distance for a given nominal current,

FIG. 1 shows the complete release without housing cover; in fig. 2 - thermobimetallic element acting on measles.

In the housing 1 of the heat exchanger there is a horseshoe-shaped shunt 2 and thermo-bimetallic elements 3 and 4 connected to the shunt 2c of its two sides. The free ends of the thermo-bimetallic elements in the form of asymmetrically located tabs are kinematically connected to each other by a strap 5 having cutouts for accommodating the tabs. The thermo-bimetallic element 4 has a threaded hole 6 into which the adjusting screw 7 is screwed. The screw head 7, when the release opens, presses the end of the core 8, which rotates around the axis 9, the second end moves the rod 10, which acts on the rail 11 of the free mechanism uncoupling. The body 1 of the release and the shunt 2 are fixed to the drive bus 12.

Calibration is carried out as follows.

At room temperature, the distances di between the wall of the housing 1 and the free end of the thermo-bimetallic element 4 are measured. the distance d2 between the same wall of the housing 1 and the free end of the thermo-bimetallic element 3. The same distances are measured at a certain higher temperature, for example, at 45 ° C. The measurement of the displacement of the free end of each thermo-bimetallic element is determined and the average value (half-sum) of displacements is calculated. The distance da from the wall of the housing 1 at the location of the stem 10 to the rail 11 of the free tripping mechanism is measured. Determine the difference

Ai di - dicp and Dg d3 - d3cp, where dicp is the predetermined average value of di at room temperature for a large number of apparatuses;

d3cp is a predefined average value of da for a large number of devices.

Screw 7 sets the distance S, determined by the formula

 S a - (AI + Dg),

where d is the value experimentally determined for a given rated current within certain limits, 5, aAt and D are taken according to their sign. So. for circuit breakers of type A-3796 for rated currents n 250-630 A, the parameter a values are given in the table (the value of b is determined when the temperature changes from 5 to 20 ° C and rounded to 0.1 mm).

The proposed method eliminates the need for repeated heating and cooling of the apparatus, which speeds up the calibration process. Calibration is particularly simplified when there are devices for measuring distances and when using a calculator with the possibility of elementary programming.

Invention Formula

5 Method of calibration of thermal maximum releases of circuit breakers containing in each pole two horseshoe-shaped thermo-bimetallic elements placed in a common housing with an asymmetrically located tongue on each element and counter thermal deformations of the free ends of the tongues, kinematically connected by a bar, with an adjusting screw on one

5 of the tabs with the possibility of the surface of the head of the adjusting screw facing the tongue on the measles and the stem between the core and the rack of the free tripping mechanism, in which the thermal elements are heated, characterized in that, in order to reduce the calibration time, the tabs from hull walls and their change with a change in temperature by a certain

5, measure the distance from the body to the rack of the free tripping mechanism at the location of the stem, depending on the value of the arithmetic mean change with the temperature of the distances

The 0 tabs from the housing are determined and the rotation of the head of the adjusting screw determines the distance between the tongue and the head of the adjusting screw as the difference between the predetermined

5 by the magnitude and sum of the deviations from a predetermined average for a given nominal current, the position of the tongue relative to the body and the deviation of the distance from the body to the rack of the free mechanism

0 tripping from a predetermined average distance for a given nominal current.

Claims (1)

Claim Method for calibrating thermal maximum releases of circuit breakers containing two horseshoe-shaped thermobimetallic elements located in a common housing with an asymmetrically located tongue on each element and counter thermal deformations of the free ends of the tongues kinematically connected by a bar, an adjusting screw on one of the tongues with the possibility of reversed effect to the tongue of the surface of the head of the adjustment screw to the anchor and the rod between the anchor and the rack of the mechanism freely about tripping, in which thermobimetallic elements are heated, characterized in that, in order to reduce calibration time, measure the distance of the tongues from the wall of the housing and their change with temperature by a certain amount, measure the distance from the housing to the rail of the free trip mechanism at the location of the rod in depending on the magnitude of the arithmetic mean change with the temperature of the distance of the reeds from the body is determined and by turning the head of the adjusting screw set the distance I wait with the tongue and the head of the adjusting screw as the difference between the predetermined value and the sum of the deviation from the predetermined average for the given rated current of the position of the tongue relative to the housing and the deviation of the distance from the housing to the rail of the free trip mechanism from the predetermined average for the given rated current of the distance. 7 1721658 8 1n, A a mm d <0.4 mm d> 0.5 mm 250 6.4 7.4 320 5.7 7.1 400 6.7 8.1 500 5.8 7.0 630 6.6 7.5 Figure 1