RU2044359C1 - Temperature controller - Google Patents

Abstract

FIELD: electrical engineering. SUBSTANCE: temperature controller has contact postbuilt up of insulating rings riveted together. Fixed and movable contacts are placed between rings which come in contact with current leads. The latter are free to rotate with force about contact post axis. Temperature controller can be installed in electrical device of various configurations due to provision for turning output current leads. EFFECT: improved performance characteristics. 2 dwg

Description

 The invention relates to electrical engineering and is intended to protect against overheating of household electrical appliances.

Known temperature controller, consisting of a dielectric housing, a fixed contact and a movable connected to a bimetallic plate, and output contacts [1]
A disadvantage of the known temperature controller is that the current leads, which serve to include the temperature controller in the circuit of the device it serves, are made rigid and are a continuation of its movable and fixed contacts. Therefore, the temperature regulator can only be built into an electrical device in which there is a free zone of a special configuration, designed to install a temperature regulator of a certain shape.

The prototype is a temperature regulator containing a fixed contact, a thermo-bimetallic plate connected with a movable contact, current leads and a contact stand made of hollow rings of dielectric material pressed to each other by a clamping element, between which movable and fixed contacts are located [2]
The disadvantage of the thermostat is that the current leads are fixed rigidly without the possibility of adjustment. This reduces the scope of the thermostat.

 The aim of the invention is to improve the performance of the thermostat.

 The goal is achieved in that in the proposed temperature controller, each contact and current lead are made in the form of two elements and the current leads are mounted on the contact rack with the possibility of rotation relative to it.

 The technical effect obtained from the use of the proposed temperature controller is the possibility of using it in household electrical appliances having various configurations and sizes of the zone where the temperature controller should be placed.

 Figure 1 shows the temperature controller, a General view; figure 2 is the same, top view.

 The temperature controller consists of a contact rack formed of dielectric rings 1-3 (figure 1). Rings 1-3 are pressed against each other by means of a clamping element, for example, rivets 4. Between rings 1-3 there are movable 5 and fixed 6 contacts. A bimetallic element 7 is located in the lower part of the thermostat 7. In the upper part there is a support element 8 with an adjusting device 9. Current leads 10 and 11 are pressed to the movable contact 5 and the fixed contact 6 due to the rivet force 4. Parts of the contact rack have a shape that provides centering relative to its current leads 10 and 11.

The current leads 10 and 11 can rotate about the axis 12 of the contact rack. Rotation of current leads is possible at least 180 ^° . 2, positions 13 and 14 show the possible extreme positions of the axes of the current leads 10 and 11 when they rotate relative to the contact column (axis 12 of FIG. 1), the current leads 10 and 11 rotate relative to the axis 12 with a certain force P. The force P is selected in this way so that to turn the current leads 10, 11 it was required to apply a moment of at least 0.1-0.5 N˙m. The necessary resistance to rotation of the current leads 10, 11 is ensured by compressing the details of the contact rack (rings 1-3) and contacts 5, 6 with the current leads 10, 11 by the clamping element with rivet 4 (Fig. 1). An additional spring washer 15 may be used to provide the required force.

 Additional fixation of current leads 10, 11 can be carried out using a fastener, for example a screw 16, with which the temperature regulator is mounted in electrical appliances. This can be achieved by using a washer 17 of a greater thickness than the height of the protruding upper part of the rivet 4, the force from the screw 16 will be transmitted to the parts of the contact rack.

 The use of the proposed temperature controller is as follows.

 The temperature controller is assembled with a specific position of the output current leads 10 and 11, intended for installation in a specific electrical device. If it is necessary to install the thermostat in another electrical appliance, in which the configuration of the installation zone does not allow the use of the thermostat with fixed contacts 10 and 11, the latter are deployed in the necessary direction by applying to them a force exceeding R. The position of the remaining parts in the thermostat does not change. This provides the installation dimensions of the thermostat of the required size and the possibility of placing the thermostat in electrical appliances of various designs.

 Thus, a thermostat of one design can be rearranged in the required form, depending on the configuration of the device in which it should be installed. As a result, the temperature controller becomes universal and can be installed in various electrical appliances. This eliminates the need to design and manufacture temperature controllers of various modifications, and reduces the cost of manufacturing a temperature controller. Using the proposed temperature controller allows you to produce one of its modifications, which nevertheless can be used in various electrical devices.

Claims (1)

 A THERMAL CONTROLLER comprising a fixed contact, a thermo-bimetallic plate connected with a movable contact, current leads and a contact stand made of hollow rings of dielectric material pressed to each other by a clamping element, between which movable and fixed contacts are located, characterized in that each contact and current lead made in the form of two elements and current leads mounted on a contact rack with the possibility of rotation relative to it.

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