SU974449A1 - Electrothermal relay - Google Patents

Description

(54) ELECTRIC HEAT RELAY

The invention relates to electrical engineering and can be used in devices for automation, signaling and protection against emergency operation.

Contact relays are known in which the moving contact control unit is moved by changing the shape or length of the temperature sensitive element. Nickel-titanium alloys are used as the material for the manufacture of such a temperature-sensitive element. These alloys have the property of remembering the state that is given to them during manufacture, and assume a predetermined state when heated to a certain temperature. Another property of nickel-titanium, which has found application in the design of a relay, is the ability of a material to a sharp reduction in length due to a change in the phase state of the structure arising from heating.

An electrothermal relay is known, containing two nickelide-titanium thermosensitive elements on which movable contacts are mounted. you. By alternately passing the current through the temperature-sensitive elements, they are heated

and switching the relay while simultaneously preparing for the subsequent switching of ClJ.

The disadvantage of the known relay is slow rewinding of the contacts, which significantly reduces their electrical wear resistance.

Closest to the invention

10 is technically an electrothermal relay containing a temperature-sensitive element made in the form of a wire loop of a material having an effect

5 shape memory, moving contacts

plates made in the form of flat springs, a base with leads, to which fixed contact plates and the ends of the wire loop of the temperature-sensitive element, a stem fixed on the base, an elastic element and a drive member mounted for movement along the stem and

25 connected to one end of each movable contact plate and the middle part of the wire loop of the temperature-sensitive element 1.2. The disadvantage of this device is the complexity of the design.

The purpose of the invention is to simplify the design.

The goal is achieved by the fact that the other end of each movable plate is connected to one of the base pins, and the distance between the connecting points of each movable contact plate with the indicated elements is less than its active length, so that the elastic element is formed by the movable contact plates.

The drawing shows the proposed electrothermal relay.

The electrothermal relay consists of a temperature-sensitive element 1 made of a material with a memory effect of the molds, movable contact plates 2, a lock nut 3, a base

4c placed on it conclusions

5-12, as well as the rod 13 and the drive element 14,

The thermosensitive element 1 with its ends is connected to the terminals 8 and 9 of base 4, and the middle part with the control unit of the element 14.

The drive element 14 is mounted on the rod 13, which, in turn, is fixed on the base 4 and fixed with the help of a lock nut 3,

The springs of the movable contact plates 2 are fixed at one end to the terminals b and 11 of the base 4, and the other to the brackets 15 connected to the drive element 14,

Electrothermal relay operates as follows

in the INITIAL state, when the sensing element 1 is not connected to the power supply of the relay, the movable contact plates 2 are connected to the fixed contact plates fixed on the terminals 7 and 10 of the base 4. For switching the electrothermal relay, the sensing element 1 is connected via leads 8 and 9 to power supply (not shown). When this occurs, the wire loop of element 1 is heated and its length is shortened. As a result of reducing the length of the loop, the drive element 14 moves along the rod 13, which leads to an increase in the deflection of the springs of the movable contact plates 2 and their connection with fixed contact plates attached to the leads 5 and 12, e. The electrothermal relay switches or trips. To return the contact system of the specified relay to the initial state, pins 8 and 9 from the power source are disconnected. This leads to cooling of the temperature-sensitive element 1. Under the action of the elastic forces of the deformed springs of the movable contact plates 2, the wire loop of the element 1 receives the original length, and the drive element under the action the same elastic forces take the initial state.

In this case, the springs of the movable contact plates occupy the position in which they are again connected to the fixed contact plates mounted on the terminals 7 and 10 of the base, i.e. electrothermal

the relay returns to its original state.

Further, the switching process of the indicated relay is repeated in the sequence described.

As a heating element. A nickel titanium wire of 00.2 mm is used. The relay operates at a current of O, .8-0.9A and a voltage of 1.2-1, VZ. The operation time is in the range of 20-30 ms.

The proposed technical solution simplifies the design of the relay. In it, instead of elastic bodies of a specially inserted cylindrical spring, elastic forces of contact springs are used, fixed at one end in the drive element and at the ends of the base at the other end.

Claims (2)

1. The patent of the USA 3707694, cl. 337-140, 1974. 2. The patent of the USS 3893055, class, 337-140, 1975.