DE2917558B2 - - Google Patents

Description

The invention relates to an electric motor provided with at least one thermal protection switch Rotor, stator and at least one current winding, the current winding and the thermal circuit breaker are housed in the winding grooves of the rotor and / or stator and are fixed by means of slot wedges.

In US-PS 26 19 573 Lt ? Ine winding slot of a stator of a generator Dargeste.t, wherein current windings are arranged in this winding slot. In addition to the current windings, heat protection switches are also arranged in the groove and consist of detector elements that are protected between layers of suitable plastic. Current windings and thermal circuit breakers are fired by a conventional slot wedge in the winding slot.

Due to the electrical power converted in the current windings, it occurs regularly during operation to a heating of the windings, which under certain circumstances, especially caused by malfunctions Overloads, causing thermal damage to the parts of the motor, especially the current windings can lead. This is countered by having a thermally conductive connection with the runner or Stator and thus also with the current windings a heat protection circuit is provided, which when exceeded a predetermined temperature interrupts the flow of current through the current windings.

In the case of electric motors, the heat protection switches are usually on the front sides of the rotor or stator inserted between adjacent winding heads and fixed by bandaging. This is disadvantageous for various reasons. First of all, this requires the attachment, which is customary in practice Thermal circuit breaker extensive and laborious manual work, mainly because it involves the winding heads bent apart and shaped again after attaching the heat switch; Need to become. This work is considerable mechanical stresses on the thermal circuit breaker can hardly be avoided, so that a there is a considerable risk of damage to the thermal circuit breaker explained, the winding formed and potted. Here as in the case of the arrangement according to US Pat 2619 573 is then an expansion of a thermal circuit breaker practically no longer possible, so that a replacement of a defective switch is no different than below All this is possible by sawing the respective winding is very disadvantageous.

ίο The invention is based on the object of a Develop electric motor of the structure described above so that the thermal circuit breaker in a simple Wisely and without the risk of damaging the thermal circuit breaker or parts of the electric motor can be installed and removed.

This object is achieved according to the invention in that the heat protection switch is in one of the slot wedges is arranged. In other words, the invention thus teaches the thermal protection damage (s) as a whole to be designed and used as a slot wedge. With this surprisingly simple and elegant solution the possibility is created, the thermal circuit breaker in an extremely simple manner, with the least Labor and installation and removal without risk of damage.

The thermal circuit breaker can - of course with an encapsulated switching mechanism - be cast in a housing be, wofcii the housing is designed as a slot wedge Another possibility is to use the

ίο Thermal circuit breaker in a prefabricated with a cavity Insert housing in the form of a slot wedge and fix in the cavity, for example by engaging or snapping into place by means of corresponding form-fitting formations. Enclosed the housing is preferably made of a plastic reinforced with glass fibers.

The invention is explained in more detail below with the aid of a drawing which merely shows exemplary embodiments explained. It shows

F i g. I a front view of the Läu'ers of an electric motor,

F i g. 2 shows a longitudinal section through the object of FIG.
F i g. 3 a stator of an electric motor,

4 shows a thermal circuit breaker with a housing in Shape of a slot wedge,

F i g. 5 the subject matter of FIG. 4 in cross section.
The F i g. 1 shows the rotor of an electric motor in a schematically simplified representation in an end view

Ή) with webs 2, which form the poles 3 of the rotor 1, as well as with winding grooves 4 provided between the webs 2. In FIG. 1 is in a greatly simplified manner indicated how current windings 5 are accommodated in the winding slots 4 and fixed by slot wedges 6

Ii are.

In the wedge of the groove, which is in the middle of the in F i g. 1 winding slots 4 shown is inserted, a thermal circuit breaker 7 is arranged, the connecting elements (see Fig. 2) out of the winding groove 4

w) protrude and in a suitable, not shown in detail Way are connected to the current windings 5, so that when a predetermined temperature is exceeded the thermal protection switch 7 interrupts the flow of current through the windings ϊ.

ir, The F i g. 3 shows in FIG. I corresponding representation an end view of a stator 8 of an electric motor *, where for simplicity the current windings are not shown. One also recognizes on the one hand

the usual slot wedges 6 and on the other hand the middle one Groove wedge in which a heat protection switch 7 is arranged

In FIGS. 4 and 5, a slot wedge provided with a heat protection switch 7 is shown enlarged 6 It can be seen how the cross-section of the slot wedge 6 is related to the formation of the winding slots (cf. F i g. 1,3) is adapted so that it is between the poles 3 is held and in turn holds the current winding 5 in the winding groove 4 in the illustrated The embodiment is the housing 9 of the thermal circuit breaker 7 made of reinforced with glass fibers Plastic molded, with a cavity having been formed by means of a core. This cavity is in this cavity After removing the core, the actual switching mechanism of the thermal circuit breaker 7 is inserted and sealed has been cemented.

1 sheet of drawings

Claims (1)

Claims; I, Electric motor equipped with at least one thermal circuit breaker, with rotor, stator and at least one current winding, the current winding and the heat protection switch housed in the winding slots of the rotor and / or stator and are fixed by means of slot wedges, thereby characterized in that the heat protection switch (7) is arranged in one of the slot wedges (6) is Z electric motor according to claim 1, characterized in that the heat protection switch (7) is cast in a housing (9) and the housing (9) is designed as a slot wedge (6) 3. Electric motor according to claim 1, characterized in that the heat protection switch (7) in a housing (9), prefabricated with a cavity, in the form of a slot wedge (6) and inserted in the Cavity is fixed 4. Electric motor according to one of claims 1 to 3, characterized in that the housing (9) consists of glass fiber reinforced plastic