DE963976C - Thermal protection circuit for series motors that can be switched in stages - Google Patents

Description

Normal series motors can in the known manner by switching on a direct or indirectly heated bimetal switch in the motor circuit against overloads or Burning with a blocked anchor can be estimated. In series motors with several Field windings are provided for gradual control of the speed, that is in this simple one Way no longer possible because the load and ίο short-circuit currents for the individual stages are high are different. It can even happen that the rated current of a stage is greater than the Short-circuit current of another, so that coordination with just one heating winding is impossible will.

For the thermal protection of such arrangements are now bimetal switches with two or more Heating windings become known, and in general also the heating effect of the bimetal is exploited itself. In these arrangements so far the directly heated and the motor circuit disconnecting bimetal placed in the power supply line and other indirect heating windings connected in front of the stages not yet sufficiently protected by the first bimetal. These arrangements require a lot of effort and

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create large, high insulation-causing potential differences between the individual parts or Windings of the bimetal switching element.

A circuit is also known in which an indirect heating winding in the supply line to stage I. and protects it and the directly heated bimetal switch connected to the power supply line takes over the protection of the stronger levels II and III. Here, however, stage II is too late and /

ίο or stage III switched off too early. Too late Switching off endangers the motor winding, while a too early response limits the usability. These considerations are particularly important for the stronger levels.

According to the invention is now for a series motor with several field winding parts for Step-by-step speed control and with a thermal protection consisting of several heating elements part of the heating elements can be connected between the field winding parts. It is intended that to protect only the strongest level III through the directly heated bimetal switch and one to use a second indirect heating coil for stages I and II. Level I has because of the much smaller currents anyway a very long response time, so that a shortening, which is necessary for the design of the heating winding according to the currents in stage II, is of no importance for the operational readiness.

The: circuit of this indirect heating winding is make so that the motor current both when switching in stage I and in stage II through them flows. Therefore, this heating coil can no longer be in the supply lines to the steps. the Rather, the motor winding has to be separated and the heating winding switched into it.

The effectiveness of the above arrangement can be increased if the thermal protection member is attached directly to the series motor.

As a result, the motor temperature also influences the bimetal switch.

A particularly good adaptation of the switch-off characteristics of the thermal apron to the winding temperatures is achieved when the heating effect is influenced by the flow of cooling air during normal operation. Therefore it is still planned to place the thermal protection element in the cooling air flow.

The drawing shows an embodiment of the invention.

The series motor 16, which can in particular also be a universal motor, consists of the Armature 12 and the field windings 11, 13, 14 and 15. With the three-way switch 17, all windings 11, 12, 13, 14 and 15 are connected to the mains voltage in stage I placed and in ■ stages II and III a field winding part 15 and 14 are switched off.

The thermal circuit breaker 18 consists of a directly heated bimetal switch 19, which is in the Mains supply line is, and the heating winding 20, which is connected between the field windings 14 and 15 is.

As a result of this arrangement lies between the bimetal switch 19 and the heating coil 20 in Stage I only a potential difference which corresponds to the voltage induced in the field winding 15, and in stage III only a potential difference, that of the voltage induced in the field winding 14 is equivalent to.

Claims (6)

PATENT CLAIMS: 1. Series motor with several field winding parts for step-by-step speed control and with a thermal protection consisting of several heating elements, characterized in that, that part of the heating elements is connected between the field winding parts. 2. Series motor according to claim 1, characterized in that the thermal protection consists of a directly heated bimetal switch and an indirectly acting heating coil. 3. Series motor according to claim 1 and 2, characterized in that the directly heated Bimetal switch the strongest speed level and the indirectly acting heating winding the weaker Protects steps. 4. series motor according to claim 1 to 3, characterized in that the indirectly acting Heating winding between the additional field windings of the two weakest stages is connected so that the motor current flows through it in both stages. 5. series motor according to claim i, characterized characterized in that the thermal protection member is attached directly to the engine. 6. Series motor according to claim 1, characterized in that the thermal protection element lies in the cooling air flow of the motor. 1 sheet of drawings