RU2031469C1 - Thermostatic switch - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: thermostatic switch has case made from dielectric material, stationary contacts anchored on it, mobile contact in the form of flat spring attached on side of one of stationary contacts. Other stationary contact has cut-out filled with thermal sensitive material. In case of inadmissible heating of electric device protected with thermostatic switch thermal sensitive material melts, spring moves to rest against of case breaking electric circuit into which thermostatic switch is placed. EFFECT: simplified design, enhanced reliability of protection. 5 dwg

Description

 The invention relates to electrical engineering and can be used as a protective electrothermal opening device in various heating devices, in particular electric irons, electric stoves and other similar devices.

 Known heat-sensitive element of the thermal fuse, containing contact leads, heat-sensitive element, housing and springs (AS USSR N 924771, CL N 01 N 37/46, 1982). However, the heat-sensitive element is notable for its complexity.

 The closest in technical essence to the proposed one is a thermosensitive switch containing a housing made of insulating material, on which flat fixed contacts are fixed, in one of which a cutout is made, a movable contact made in the form of flat springs, one end of which is rigidly fixed to the insulating case, and the other end interacts with a heat-sensitive element connected to a fixed contact (A.S. USSR N 1585846, class N 01 N 37/76, 1990).

 However, the thermosensitive switch is complex in design and manufacturing, has large dimensions.

 The aim of the invention is to simplify the design and improve the manufacturability of its manufacture.

 The goal is achieved by the fact that in the proposed thermal switch containing a housing of insulating material, on which are fixed fixed contacts, in one of which a cutout is made, a movable contact, made in the form of a flat spring, one end of which is rigidly fixed to the insulating case, and the other end interacts with a heat-sensitive element connected to a fixed contact, the specified other end of the movable contact repeats the cutout shape of the fixed contact and the heat-sensitive element is located in the recess of the fixed contact.

 The technical effect obtained from the use of the proposed thermal switch is to reduce the consumption of materials necessary for the manufacture of the thermal switch, to reduce its dimensions and, therefore, the working area into which the thermal switch is installed, as well as to increase the manufacturability of the manufacture of the thermal switch.

 In FIG. 1 shows a thermal switch in working condition, general view; in FIG. 2 - the same, top view; in FIG. 3 - end part of the movable element and fixed contact with several cutouts; in FIG. 4 - the principle of filling the cutout of the fixed contact with a thermosensitive material; in FIG. 5 - node I in FIG. 1.

 The temperature switch consists of a housing 1 of dielectric material (Fig. 1, 2). Contact plates 2 and 3 are rigidly attached to the housing 1, for example, using rivets 4 and 5. Contacts 2 and 3 are interconnected by a movable contact 6 made in the form of a flat spring. One end of the spring 6 (movable contact) is fixed to the housing 1 on the side of one of the contacts 2. A cutout 7 is made in the opposite contact 3. The free end of the spring 6 follows the shape of the cutout 7. Between them there is a gap allowing the end 8 to move freely past the cutout 7 of the contact 3. The shape of the cutout 7 in the contact 3, and consequently, the shape of the protrusion 8 or cutouts in the spring 6 may be different - rectangular, have several cutouts 9, as in FIG. 3, etc.

 Cutout 7 in contact 2 is filled with heat-sensitive material 10 (Fig. 1, 4, 5). Cutout 7 of contact 3 is filled with thermosensitive material 10 before the thermal switch is assembled by melting the thermosensitive material 10 placed in the cutout zone 7. A restrictive surface 11 can be used to limit the spreading of the thermosensitive material 10 (Fig. 4).

 The spring 6 of the thermal switch presses on the heat-sensitive material 10, which prevents it from moving to the position shown in FIG. 1, pos. 13 - until it stops in the housing 1 of the thermal switch.

 To ensure reliable contact of the spring 6 with the fixed contact 3, the end part 12 of the movable contact - the spring 6 - can be cut or bent (Fig. 5). For the same purpose, i.e. for snug fit of the spring 6 to the heat-sensitive material 10, the entire end portion 8 of the spring 6 can be bent, as in FIG. 1.

 After filling the cutout 7 with heat-sensitive material 10 (Fig. 4), contact 3 is fixed with rivet 5 on the housing 1 (Fig. 1). Then, a spring 6 with a contact 2 is mounted on the housing 1 and fixed with a rivet 4.

 The thermal switch operates as follows.

 When an unacceptable temperature is reached, the heat-sensitive material 10 melts and ceases to hold the spring 6. The spring 6 moves to position 13, thereby breaking the electrical circuit into which the thermal switch is connected.

 The proposed thermal switch is simple in design, reliable in operation and can be used in electrical household and industrial appliances to prevent their failure due to overheating and fire, which may occur for this reason.

Claims (1)

 A THERMAL SWITCH containing a housing of insulating material on which flat fixed contacts are fixed, one of which is made with a notch, a movable contact made in the form of a spring, one end of which is rigidly fixed to the insulating housing, and the other end interacts with a heat-sensitive element connected to the fixed contact, characterized in that the other end of the movable contact follows the shape of the cutout of the fixed contact, and the heat-sensitive element is located in the cutout of the fixed contact ntacta.

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