PL211712B1 - Resistor protecting against overloading - Google Patents

Description

The subject of the invention is an overload protection resistor for the protection of electrical devices against overload, in particular the protection of DC electric motors.

The function fulfilled by the described overload resistor assembly consists, inter alia, in realizing a break in the electric circuit in the emergency state. In this state, the current in the circuit with a sufficiently high value heats the wire, ceramic tube and resistor clamps to a predetermined temperature within a specified time. A break in the electrical circuit occurs when the thermal fuse reaches a strictly defined temperature.

The resistors known to date for protection of electrical devices against overload, in particular protection of DC electric motors, are made of a resistance wire wound on a section of a thick-walled ceramic tube, at the ends of which there are clamps made of metal strips.

The resistance wire is electrically connected with the clamps by welding, and the clamps are welded to the appropriate supports of the lead assembly. The resistance wire wound on the ceramic tube is covered with a layer of special cement in the area between the clamps. The thermal fuse is electrically connected in series with the resistor by welding its ends to the appropriate supports of the terminal assembly

Due to the presence of a thin layer of air between the clamp and the ceramic pipe, the thermal resistance on the sensor fuse lead-out side is significant, which causes that the surface temperature of the resistor at which the switch-off takes place (breaking the electric circuit) is much higher than the required value of this temperature.

The known elements therefore did not meet the requirements for the surface temperature of the resistor at which the switch-off occurs.

The above-mentioned disadvantages and disadvantages of the known protection resistors are eliminated by the overload protection resistor according to the invention, consisting of a resistance wire wound on a section of a thick-walled ceramic tube, at the ends of which there are fastening clamps made of metal strips.

The resistance wire is electrically connected with the clamps by welding, and the clamps are welded to the appropriate supports of the lead assembly. The resistance wire wound on the ceramic pipe is covered with a layer of special cement with a clamp connected to the sensor lead of the thermal fuse.

The thermal fuse is electrically connected in series with the resistor by welding its ends to the appropriate supports of the terminal assembly

The advantage of the solution according to the invention is that by introducing a cement with high thermal conductivity into the gap between the clamp and the ceramic pipe, the thermal resistance during thermal energy conduction between the resistance wire and the sensor lead of the fuse is minimized, which is decisive for achieving the assumed switch-off parameters (breaking the circuit). electric). The subject of the invention in an exemplary embodiment is explained in more detail on the basis of a drawing showing the resistor in an axonometric projection. In the embodiment of the invention shown in Fig. 1, the resistor 1 consists of a resistance wire wound on a section of a thick-walled ceramic tube, at the ends of which there are fastening clamps 5 and 5 'made of steel sheet strips.

The resistance wire is electrically connected to the clamps 5 and 5 'by welding, and the clamps are welded to the appropriate supports of the terminal assembly 3. The resistance wire wound on the ceramic pipe is covered with a layer of special cement with a clamp 5' connected to the sensor lead of the thermal fuse 4. Thermal fuse 4 is electrically connected in series with the resistor by welding its ends with the corresponding supports of the terminal set 3. The terminal group 3 with the thermal fuse 4 and the resistor 1 and the clamps 5 and 5 'is embedded in the body 2 made of plastic.

Claims (1)

An overload resistor designed to protect electrical devices against overload, in particular to protect DC electric motors, made of a resistance wire wound on a section of a thick-walled ceramic tube, at the ends of which there are fastening clamps made of metal strips, electrically connected with clamps and a thermal fuse and covered with a special layer cement in the zone between the clamps, characterized in that the clamp (5 ') connected to the sensor lead of the thermal fuse (4) is covered with a layer of special cement with high thermal conductivity.