DE330850C - Synchronous motor with two synchronization grooves of sufficient size per pole pair - Google Patents

Description

Synchronous motor with two synchronization grooves of sufficient size per Pole pair. The use of synchronous motors, especially as a drive motor small power are of practical importance, is made more difficult by the disadvantage, that a direct current source in the form of an exciter with the shaft, the synchronous motor must be coupled, also difficulties when starting such machines to be overcome.

The invention is based on a synchronous motor without DC excitation Immediately synchronicity and a higher efficiency compared to asynchronous motors Has. The synchronous motor is in the stator or rotor, according to the arrangement of the Primary winding, in a known manner per pair of poles with two slots of the same size provided so that the rotor comes from asynchronous operation to synchronous operation by itself, and can be designed so that the stator with a normal three-phase winding is provided, while the rotor carries a polyphase winding that is short-circuited can be or lead to slip rings. There are two corresponding grooves on the rotor Size provided per pole pair, which cause a synchronizing moment occurs or the rotating field comes to a standstill.

According to Fig. X, a polyphase winding is provided in the slots of the stator s. The rotor r also carries a multi-phase winding or short circuit rods in its slots and also contains two synchronization slots a and b per pole pair, which hold up the rotating field.

The level of efficiency can be explained by the fact that there is one in the rotor Synchronous motor a so-called slip current flows, which is equal to the primary current. This current causes copper losses in the rotor that are roughly the same as in the stator are. These losses occur in such a synchronous motor only when Starts up and disappears with synchronous operation.

The motor can also be built in such a way that the rotor has the primary winding, the stator receives the secondary winding with the synchronization grooves. Accordingly the three-phase current must be fed to the rotor by means of slip rings.

. The invention consists in that the rotor with an additional DC winding is provided which leads to a collector and the motor through excites an excitation winding inserted in the synchronization slots of the stator, so that the synchronous motor can give its own excitation current.

An exemplary embodiment of such a motor, which is built according to the above two aspects, is indicated schematically in FIG. Two synchronization grooves a, b are provided on the stator s, in which the field winding e is accommodated. The rotor r carries. In addition to the multiphase winding which is short-circuited or guided to slip rings, there is an additional direct current winding in the slots, which is led to a collector k and supplies the direct excitation current. DC winding and collector can be dimensioned very small, since only the relatively low excitation current has to be supplied.

Claims (1)

PATEN T-ANSPRÜC: fI: synchronous motor with two synthetic grooves Sufficient size per pole pair and one three-phase winding on the stätor as well as one short-circuited or-, multi-phase winding guided on slip rings on the rotor, characterized in that an additional direct current winding in the grooves of the rotor with collector is provided to the motor by means of a further direct current winding to excite, which is housed in the synchronization grooves on the stator.