RU2165112C2 - Thermal relay - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: relay that has two heating elements, two bimetal strips, two screws for adjusting space between respective heating element and bimetal strip, yoke, overhung strip, slider, contacts, and latching member is provided in addition with threaded mechanism for adjusting distance between overhung strip and latching member. Adjusting mechanism is made in the form of projection on overhung strip with threaded through hole receiving additional screw or in the form of threaded through holes at ends of yoke receiving additional screws. EFFECT: improved design. 2 cl, 5 dwg

Description

 The invention relates to electrical engineering, in particular to thermal relays designed to protect against overload of powerful electrical circuits.

 Known thermal relays with direct heating, containing a bimetallic plate, the heating of which occurs due to the passage of current through it [1]. The choice of materials for the bimetallic plate is complicated due to various requirements for them. Therefore, thermal relays with indirect heating of a bimetallic plate find wider use [2].

 Closest to the proposed one is a thermal relay with indirect heating of a bimetallic plate of a two-phase design of TPN type [3]. Developer VNIIR Cheboksary. Manufacturers: UPR, ChTOS Odessa; Gomel Plant "Electrical Equipment", Tbilisi Production Association "Electric Equipment"; Machine-building plant in Bishkek. The known relay contains two heating elements, two bimetallic plates and two screws regulating the interval between the corresponding heating element and the bimetallic plate, a rocker rigidly connected to the cantilever plate, a spring-loaded slider, fixed contacts, movable contacts associated with the slider, a latch element and a control mechanism tripping. The relay is widely used to protect three-phase AC motors.

 However, known current relays have disadvantages. They do not allow to smoothly adjust the operating current over a wide range. Replaceable heating elements are required for each type of relay size from 4 to 12 nominal set currents. At the same time, for each heating element, its set current can only change within the regulation range from 0.75 to 1.25 rated current. A rough adjustment of known relays leads to a decrease in sensitivity and, thereby, to a decrease in the reliability of operation.

 The aim of the invention is to remedy these disadvantages, i.e. expanding the field of regulation of the operating current and increasing the reliability of operation.

 This goal is achieved by the fact that in a thermal relay containing at least a pair of heating elements, a pair of bimetallic plates, a pair of screws, each of which regulates the interval between the respective heating elements and a bimetallic plate, a rocker rigidly connected to the cantilever plate, a spring-loaded slider, fixed contacts, movable contacts associated with a slider, a latch element and a mechanism for controlling the release of contacts, a threaded interval adjustment mechanism is introduced into the relay between the cantilever plate and the latch element. This interval control mechanism can be performed in two versions. In one embodiment, in the form of a protrusion on the cantilever plate with a through threaded hole into which an additional screw is screwed. In another embodiment, at the ends of the rocker arm there are through threaded holes into which additional screws are screwed.

 The invention is illustrated by drawings, which show: in FIG. 1 is a general view of the proposed thermal relay; in FIG. 2 and FIG. 3 - rocker connected to the cantilever plate in various embodiments of the mechanism for regulating the interval.

 The relay contains at least a pair of heating elements 1, a pair of bimetallic plates 2, a pair of screws 3, each of which controls the interval between the corresponding heating element and the bimetallic plate 2. In Fig. 1, for the sake of simplification of the drawing, only one element 1, one plate is shown 2 and one screw 3. In addition, the relay contains a rocker 4, rigidly connected to the cantilever plate 5, the slider 6, the fixed contacts 7, the movable contacts 8 associated with the slider 6, the latch element 9 and the mechanism for controlling the trip beats, made in the form of an eccentric 10 and support 11. A threaded mechanism for regulating the interval between the cantilever plate 5 and the latch element 9 is introduced into the relay.

 In one embodiment, this interval control mechanism is made in the form of a protrusion 12 on the cantilever plate 5 (see FIG. 2) with a through threaded hole into which an additional screw 13 is screwed.

 In another embodiment, the threaded interval adjustment mechanism is made (see Fig. 3) at the ends of the rocker arm in the form of two through threaded holes into which additional screws 14 are screwed.

 The principle of operation of the proposed thermal relay is similar to the known one. When current flows through the heating elements 1, the bimetallic plate 2 is heated. If the current exceeds the nominal value for a long time, the bimetallic plate will bend. In this case, through the ledge of the rocker arm 4 and through an additional bolt 13 screwed into the hole of the cantilever plate 5, the latch 9 is reset from the support 11. Under the action of the spring, the slider 6 will move and open contacts 7, 8. After cooling the bimetallic plates, the relay can be brought into the initial state by pressing the slider 6 until the latch engages 9. The operation of the thermal relay, in the second embodiment, i.e. when the additional screws 14 are screwed into the rocker arm bore, it differs only in the sequence of transmission of forces. Namely, during bending, the bimetallic plate 2 initially through additional screws 14 and then through the cantilever plate 5, having a support in the form of a bend at the end, leads to the reset of the latch 9.

 The configuration of the proposed relay is significantly different from the known ones. The response current of the relay is mainly set by screw 3. When the latter rotates, the interval between the bimetallic plate 2 and the heating element 1 changes, and therefore, the magnitude of the bending of the plate changes from the magnitude of the current flowing through the heating element 1. But the interval between the cantilever plate and also changes latch 9. Therefore, after the screws 3 are installed, the actuation current eliminates the resulting unwanted gap between the cantilever plate 5 and the latch 9 by rotating the additional screw 13 and whether in the second embodiment, by rotating the additional screws 14. In the latter embodiment, for each bimetallic plate its own additional screw, which allows more accurate adjustment.

 In the proposed relay, there is no need for replaceable heating elements, since the operating current can vary widely with a change in the interval between the heating element and the bimetal plate. And since the threaded interval adjustment mechanism allows you to choose the most optimal gap for the best response of the latch element, the accuracy of operation increases and thereby increases the reliability of operation.

Sources of information taken into account
1. Copyright certificate of the USSR N 1239761, cl. H 01 H 71/16, 1986.

 2. Mikhailov O.P., Stokolov V.E. Electrical apparatus and automation. M., Mashgiz. 1982, p. 161.

 3. Information and reference catalog for electrical engineering, sheet N 07.24.02. (prototype).

Claims (3)

 1. A thermal relay containing at least a pair of heating elements, a pair of bimetallic plates, a pair of screws, each of which regulates the interval between the corresponding heating element and a bimetallic plate, a rocker connected to the cantilever plate, a spring-loaded slider, fixed contacts, movable contacts associated with the slider, a latch element and a mechanism for regulating the release of contacts, characterized in that a threaded mechanism for regulating the interval between the cantilever layer is introduced into the relay hydrochloric and pawl element.  2. The thermal relay according to claim 1, characterized in that the threaded interval control mechanism is made in the form of a protrusion on the cantilever plate with a through threaded hole into which an additional screw is screwed.  3. The thermal relay according to claim 1, characterized in that the threaded interval control mechanism is made in the form of through threaded holes at the ends of the rocker arm, into which additional screws are screwed.

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