DE9409774U1 - Device for overtemperature protection for three-phase motors - Google Patents

Description

Overtemperature protection device for three-phase motors

The innovation concerns a device for overtemperature protection for three-phase motors with protective switches integrated into the motor winding.

It is known to protect three-phase motors by winding an overtemperature switch with an opener contact in each of two phases of the winding. When the switch-off temperature is reached, the two overtemperature switches interrupt the power supply in both phases and switch off the three-phase motor. However, the disadvantage is that the overtemperature switches often switch at different times, i.e. not simultaneously, which means that the three-phase motor continues to run with reduced power for a period of time. It is also known to open the star point with an overtemperature switch when the switch-off temperature is reached in a star connection of the three-phase motor. Due to the lack of a self-holding feature, the star point switch switches the three-phase motor on automatically after the three-phase motor has cooled down. Finally, it is also known to insert up to three PTC thermistors into the winding of three-phase motors. The change in resistance of the PTC thermistors due to the motor heating is monitored by an external device and the three-phase motor is switched off via contactors as required. The external shutdown device proves to be complex to construct and economically unfavourable.

The aim of the innovation is to create simple measures for safe overtemperature protection for three-phase motors.

According to the innovation, this is achieved by an overheating protection switch with a closing contact, which is embedded in the winding of the three-phase motor and connected to a monitoring module for the switch-off temperature, whereby the monitoring module has a small relay that simultaneously opens changeover contacts located in at least two motor leads when the switch-off temperature is reached and switches to self-holding via further contacts.

According to the preferred design, several overheating protection switches with closing contacts are provided, which are connected in parallel to one another and embedded in the motor winding. The small relay remains energized and the motor supply line is interrupted until the supply voltage is switched off or interrupted at the relay.

In a practical design of the device, the monitoring module can be assigned an optical signal generator, e.g. indicator light, arranged parallel to the small relay as a switch-off indicator for the small relay. It is also intended to arrange the monitoring module in or on the three-phase motor.

In a further development of the device, for its use with motors with frequencies deviating from 50 Hz, the overheating protection switch provided with a closing contact can be connected via a diode to a monitoring module with a small relay with self-holding that can be actuated by changeover contacts located in the motor supply lines and a capacitor can be placed in parallel to the small relay.

Overall, the advantage is that the device requires only a small number of components, which can only be standard elements.

This means that the device can be manufactured inexpensively and is easy to install in or attach to three-phase motors. The device is preferably used in three-phase motors with blocking currents of less than 16A.

The innovation is illustrated using examples in the drawing. They show:

Fig. 1 shows a device according to an embodiment and
Fig. 2 shows a device in a modified design.

In the figures, the supply lines for a three-phase motor 4 are designated as 1, 2 and 3. In the example, an overheating protection switch 5 with a closing contact is connected to the supply line 1, which is embedded in the motor winding 4'. The overheating protection switch 5 is connected to a monitoring module 6 arranged in or on the three-phase motor 4, e.g. terminal box, which has a small relay 7 that can be operated with self-holding, which actuates changeover contacts 10 and 11 arranged in the conductors 8, 9. Parallel to the small relay 7, there is an optical signal generator 12, e.g. an indicator light, as a switch-off indicator for the small relay. When the switch-off temperature is reached, the small relay 7 picks up and switches off the motor conductors 8, 9 via the changeover contacts 10, 11 to stop the three-phase motor and switches to self-holding via contacts 8, 15.

In the embodiment of Fig. 2, in contrast to the design according to Fig. 1, an additional diode 13 is arranged between the overheating protection switch 5 and the monitoring module 6 and the small relay 7 with

A capacitor 14 is assigned in parallel for self-holding. The device modified in this way is suitable for applications with frequencies other than 50Hz, e.g. 200Hz

Claims (5)

Heidolph-Elektro GmbH & Co. KG, D-93309 Kelheim Protection claims 1. Device for overtemperature protection for three-phase motors with protective switches incorporated in the motor winding, characterized by an overheating protection switch (5) with a closing contact which is embedded in the winding (4 ¹ ) of the three-phase motor (4) and connected to a monitoring module (6) for the switch-off temperature, the monitoring module (6) having a small relay (7) which simultaneously opens changeover contacts (10, 11) located in at least two motor leads (1, 2) when the switch-off temperature is reached and switches to self-holding via contacts (8, 15). 2. Device according to claim 1, characterized in that several overheating protection switches (5) with closing contacts are connected in parallel and embedded in the motor winding (4'). 3. Device according to claim 1, characterized in that the monitoring assembly (6) has an optical signal generator (12) arranged parallel to the small relay (7), e.g. indicator light, as a switch-off indicator for the small relay (7). 4. Device according to claim 1, 2 and 3, characterized in that the monitoring assembly (6) is arranged in or on the three-phase motor (4). 5. Device according to claim 1 or 2, characterized in that the overheating protection switch (5) provided with a closing contact is connected via a diode (13) to a monitoring module (6) for the switch-off temperature. · ■ · is closed, which has a small relay (7) with self-holding and changeover contacts (10,11) located in at least two motor supply lines (1,2) and a capacitor (14) parallel to the small relay (7).