SU983799A1 - Thermobimetallic relay - Google Patents

Description

The invention relates to electrical engineering, to low-voltage electrical equipment, namely, devices for the protection of electrical consumers.

Thermal relays are known that contain a bimetallic plate of a snap action, one end of which is fixed and electrically connected to the first terminal, and at the free end of the active layer is a contact closed with a fixed contact that is electrically connected to the second terminal. Between the terminals is turned on the heating element placed on the housing Ci.

When a current passes through the termination point, not exceeding the nominal value, the bimetallic spring heats up slightly, the contacts remain closed and shunt the heating element, the resistance of which is several orders of magnitude greater than the resistance of the bimetallic plate and the contact resistance.

When the current through the thermal switch exceeds the set value, the bimetallic plate heats up above the switching temperature, its free end moves, the contacts open, the current passes through the heating element, in which the heat / preheating bimetallic plate is released, which prevents the contacts from returning to a closed state.

The disadvantage of the device is that for a quick click-type defrosting of contacts the bimetallic plate is made of complex shape

10 with radii of curvature, which change when triggered (a bimetallic plate has its own magnitude and sign. This causes the heating element to be placed not on the biplast directly but rather at some distance from it. At the same time, it heats the bimetallic plate and holds the contacts. The heating element must provide significant power, as a result of which there is an increase in the current consumption of the thermal relay, as well as significant heating of the casing and other details of the structure.

25

Claims (2)

The closest to the invention to the technical essence is a thermo-bimetallic relay containing a bimetallic plate, one end of which is fixedly fixed to the body through a current-carrying element, and a floating contact is installed at the other free end, which has the ability to interact with a fixed contact located on the body of the heating element. an element placed on a bimetallic plate and connected by one of its conclusions with the fixed end of the bimetallic plate and the other with a fixed contact, two additional contact, one of which is fixed to .From bimetalliches Coy plate 2. The disadvantage is a known device is the ability to reuse the closure Kani and arcing contacts, which reduces the reliability of actuation. The aim of the invention is to increase the reliability of operation. The goal is achieved due to the fact that the thermo-bimetallic relay is equipped with an additional heating element, placed on a bimetallic plate, and an elastic element placed on the housing, the second auxiliary contact pasMeuieH on the specified elastic element with the ability to interact with the first additional Ellm contact, and the additional heating element is connected one of its conclusions with the second additional contact, and the other output with a fixed contact., Figure 1 shows the electrical circuits and the connection of the proposed thermo-bimetallic relay; in fig. 2 -3.- construction of a germobimetallic relay. The circuit (Fig. 1) contains a power source 1 to which one of the terminals 14 of the thermo-bimetallic relay 2 and its other terminal is connected to the protected consumer 4 is connected via a switch 2 to the protected consumer 4. The thermo-bimetallic relay (rectangular-shaped thermo-metal plate 5) , one end of which is fixedly mounted on the housing b by means of a current-carrying rack 7 connected to the first terminal 8, and the free end is fixed to the contact 9 closed with the fixed contact 10 which is mounted on the housing b and connected to the secondary terminal 11, vsp Auxiliary contacts 12 and 13, one of which 12 is fixed on the bimetallic plate 5 in its middle part, and the second 13 fixed on the elastic element 14 mounted on the housing 6, the heating element 15 located on the bimetallic plate 5 and connected by one terminal c1 bimetallic plate 5, and the other with a fixed contact 10, an additional heating element 16 placed on the bimetallic plate 5 between the contact 9 and the auxiliary contact 12 and half connected to the second auxiliary contact 1 3, and the other to the fixed contact 10; Contacts 9 and 12 are located on the side of the active layer 17 of the bimetallic plate 5. The device operates as follows. The circuit is closed by the switch 2, the current passes from the power source 1 through the contacts of the switch 2 through the thermo-bimetallic relay 3 through its terminal 8, the rack 7, the bimetallic plate 5, contact 9, the fixed contact 1Q, terminal 11 and through the consumer 4 to ground. Since the resistance of the current-carrying elements of the thermo-bimetallic relay 3 is significantly 50-100 times less than the resistance of the consumer 4, the voltage applied to the terminals 8 and 11 of the thermo-bimetallic relay 3 is small and the heating elements 15 and 16 to which a part of this voltage is applied not heated. At a current not exceeding the nominal value, the bimetallic plate 5 heats up below the response temperature, its free end does not move, the contacts 9 and 10 remain closed, the heating elements 15 and 16 shunt. The overvoltage or short-circuit currents of the bi.1 metal plate 5 heats up the temperature of the operation, the free end of its transducer, is placed and the contacts 9 and 10 open. The auxiliary contacts 12 and 13 (Fig. 3) remain for some time in the closed state due to the fact that the elastic element D4 moves after the bimetallic plate 5 by a distance determined by its elastic deformation. The current passes through terminal 8, rack 7, bimetallic plate 5, and then along two parallel circuits, through the first through the heating element 15, the non-MOVING contact 10, terminal 11 and through the second through the auxiliary contacts 12 and 13, the additional heating element 16 , fixed contact 10, terminal 11. Heating elements 15 and 16, the resistance of which is significantly greater than the sum of the resistances of all the rest of the circuit, are applied to a large part of the voltage of the power supply 1 (for a thermo-bimetal relay 12) agrevatelnogo element is 30 ohms, an additional heating element 15-20 ohms), in which heat is released, which is transmitted to the bimetallic plate 5, while maintaining its rate-eraturu higher actuation temperature. The simultaneous switching on of both heating elements 15 and 16 ensures fast separation of contacts 9 and 10 in the range of operating values of source voltage 1 nin power supply and ambient temperature cpejb without re-closing and sparking. The bimetallic plate is displaced to the extreme position (indicated by a dotted line in FIG. 3). The auxiliary contacts 12 and 13 are opened (the position at which this opening occurs is controlled by the bending of the elastic element 14, as a result of which the additional heating element 16 is de-energized. The bimetallic plate 5 is kept in this position due to the heat released by the heating element 15. The current in the circuit is limited resistance of the heating element 15 (for a thermal switch to 12 V, 4 A and not dangerous for consumer 4. To return contacts 9 and 10 to the closed position, it is necessary to open the circuit with switch 2. Contact The heating element 15 is selected in such a way as to ensure that the bimetallic plate 5 is heated sufficiently to hold it in its extreme position at the nominal voltage of the power source of the ambient temperature -t + 20- + 30 ° C. At maximum voltage values network and ambient temperature bimetallic plate 5 will not overheat, at the same minimum values of these parameters, when the power of the heating element 15 is not enough to hold the bimetallic plate 5, the last The move is moved from the extreme to the original position, however, before closing. contacts 9 and 10, the auxiliary contacts 12 and 13 are closed, as a result of which the additional heating element 16 is switched on, together with the additional heat of the bimetallic plate 5 and thereby preventing the closure of contacts 9 and 10. The technical and economic effect of the invention is achieved by increasing the reliability and increase the service life by eliminating overheating of the bimetallic plate and eliminating the closure and sparking of the contacts. A thermo-bimetallic relay containing a bimetallic plate, one end of which is fixedly mounted on the housing through a current-carrying element, and at the other, free end, a movable contact is installed that can interact with a fixed contact located on the housing, a heating element placed on the bimetallic plate and connected with one of its conclusions to the fixed end of the bimetallic plate, and the other to the fixed contact,: and two additional contacts, one of which ryh mounted on a bimetallic plate, so that, in order to increase reliability, it is equipped with an additional heating element placed on the bimetallic plate and an elastic element placed on the case, the second auxiliary contact is placed on said elastic element with the ability to interact with the first additional contact, and the additional heating element is connected by one of its output to the second additional contact, and the other output - to the fixed contact. Sources of information taken into account in the examination 1. US patent number 3265839Lkl.337-91, -1963. 2. The patent of France 2138182, cl. H 01 H 71/00, 1973.