RU2040062C1 - Thermal switch - Google Patents

Abstract

FIELD: domestic electrical appliances. SUBSTANCE: thermal switch has insulating part 1 with contact members 3 and 4 to form electric circuit, transfer pin 5 passed through insulating part 1 and loaded with spring 10. Its one end 6 is made of insulating material and other end joined with fuse link is made in the form of loop 7 receiving fuse link 8 mounted so that end of loop 7 is located inside fuse link. EFFECT: improved reliability of thermal switch operation. 4 dwg

Description

 The invention relates, in particular, to thermal switches with contact elements, which are actuated by the melting of a fusible substance, and can be used in household appliances, for example, in electric irons.

 Known thermal switch [1] which contains an insulating housing with a recess, a heat-conducting plate mounted on the housing, two electrically conductive contact elements for forming an electrical circuit, a rod and a fuse located on the heat-conducting plate. Contact elements are fixed on the housing, and one of them is installed with an interference fit so that it tends to open the contact. The fusible insert is enclosed in a cylindrical sleeve oriented along the longitudinal axis of the rod, one end of which is associated with the fusible insert, and the other with the contact element.

 The closest in technical essence to the proposed thermal switch is a thermal fuse for electrical appliances [2] which has an insulating part with electrical connecting leads and contact elements to form an electric circuit, a heat-conducting plate, a fusible insert as a thermal release, a transfer pin made of insulating material. The pin passes through the insulating part in the axial direction and is in contact with one end with a fusible insert and the other with contact elements.

 Known devices have the following general disadvantages. Contact of the fusible insert with the heated surface is through a heat-conducting plate. The absence of direct thermal contact with the heated surface reduces the accuracy of operation. When the heat-conducting plate reaches the melting temperature of the fusible insert, the latter melts not instantly, but gradually, as a result of which the movement of the insulating pin down and opening of the contacts is slowed down. When switching high currents (5A and above), an arc can ignite and the contacts are welded. The pressure of the movable spring on the fixed contact is provided by a pin resting on the fusible link. As a result of heat shrinkage of the fuse-link (fusible element), this pressure can change, as a result, the tripping temperature of the switch changes, which leads to a decrease in the accuracy of tripping.

 The objective of the invention is to provide a thermal switch, devoid of these disadvantages.

 This is achieved by the fact that in a thermal switch containing an insulating casing with electrical leads, movable and fixed contacts, a transfer pin passing through the insulating casing so that one end is mated to a fusible element and the other interacting with the movable contact is made of insulating material, the transfer pin is spring-loaded, and the end associated with the fusible element is made in the form of a loop into which the fusible element is installed so that the end of the loop is located inside the fusible element.

 This design of the thermal switch provides direct contact of the fuse with the heated surface, resulting in an instantaneous break in the power circuit, which increases the accuracy of operation.

 In FIG. 1 shows an example implementation of the proposed thermal switch; in FIG. 2, 3 and 4 show examples of the implementation of the transfer pin with a fusible insert.

 The thermal switch consists of an insulating part 1 with electrical connecting leads 2, a fixed contact 3 and a movable contact 4, forming a normally closed contact group, connected in series to the power circuit of any heating element (not shown). In the insulating part 1, under the contact spring 4, a transfer pin 5 is installed. One end 6 of the pin 5 is made of insulating material, for example glass, and the other end is made in the form of a loop 7. The fusible insert 8 is made, for example, in the form of a measured piece of wire and installed in the loop 7 of pin 5. Loop 7 is pressed into the fusible insert 8, as a result of which the end of the loop 7 is located inside the fusible insert, and the generatrix 9 of the fusible insert 8, when the thermal switch is installed on the heated surface, has direct contact with the latter. A spring 10 is installed on the transfer pin 5, one end of which abuts against the insulating end of the pin 6, and the other into the washer 11 mounted on the loop 7 of the pin 5.

 The temperature switch is installed in an electric heating device, for example an iron, so that the fusible contact with the heated surface and turns off sequentially in the power circuit of the heating element.

 The thermal switch operates as follows.

 During normal operation of the electric heater, pins 3 and 4 included in the power circuit are closed. If the heated surface exceeds the maximum permissible temperature, the fusible insert 8 is melted, the spring 10 is released from the stopper formed by the fusible insert 8, and accelerates to the pin 5, the insulating end of which 6, acting on the contact spring 4, breaks the power circuit of the heating element.

 The end of the pin 5, coupled with the fusible insert 8, can be made in the form of a classic loop (Fig. 2), in the form of a bow (Fig. 3), and can be flattened, and a hole is made in it (Fig. 4).

 After the device is repaired, a new drive unit is inserted into the insulating part, as a result of which the thermal switch becomes suitable for reuse.

 The proposed thermal switch in comparison with the prototype allows to increase the accuracy of operation. In addition, due to the autonomy of the drive unit, the thermal switch can be used repeatedly.

Claims (1)

 THERMAL SWITCH containing an insulating casing with electrical contact leads and movable and fixed contacts, a transfer pin passing through the insulating casing so that one end is mated to a fusible element, and the other interacting with the movable contact is made of insulating material, characterized in that the transfer the pin is spring-loaded, and the end associated with the fusible element is made in the form of a loop, the fusible element is located in the specified loop so that the end of the loop is located inside the fusible about the item.

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