DE2848399A1 - Small slow speed synchronous motor - with alternate stator poles fitted with short circuiting rings and with pole teeth arranged in alternate pairs - Google Patents

Abstract

The stator winding comprises a single coaxial coil (6). The core consists of two plates (9, 10), one on either side of the coil, which are slotted at the ends (k) to form poles. The teeth are arranged alternately in pairs, a main and auxiliary pole, from each plate. The tips of all the poles are subdivided to form two or more teeth. A plate type notched rotor core (4) operates in conjunction with the stator teeth. The auxiliary stator poles are fitted with short circuited copper windings (11, 13) to provide the necessary phase shift. The design is purported to give quicker and more certain starting by combining reaction and induction principles. The rotor tooth pitch may be equal to that of the stator or may have one or more teeth with a much larger pitch.

Description

Low-speed AC synchronous motor

(Small motor) The subject of the invention is the idea, the reaction principle to be combined with the rotating field principle to ensure a good self-start of a reaction motor to achieve. In contrast to other motors of a similar type, this motor comes with two different types of short-circuit rings for use and consists of each main pole and each auxiliary pole consists of two or a larger number of pole teeth. The to use upcoming flat-sleeve short-circuit rings were therefore arranged, depending on their effect is much better than the effect of panes running past on one side or transverse ones Tin glasses. In this motor, the second type of short-circuit rings are transversely arranged Sheet copper glasses for use because there is no room for the other type of short-ring is available. With this motor, the phase shift is the corresponding one Poles of the posterior pole lobe ring better than that of the anterior pole lobe ring.

This AC synchronous motor is shown in FIGS. FIG. 1 shows the axial longitudinal section (section A-A) and FIG. 2 shows the section B-B. In Figure 3, the development of the stator pole lobes is shown. In Figure 4 is the development of the stator pole lobes of a special design is shown This AC synchronous motor consists of the housing parts 1 and 2 and the stator 3 and the rotor 4 and the Wave 5.

The stator 3 consists of the coaxial coil 6 and the coil body 7 and the iron ring 8 and the pole lobe rings 9 and 10 made of sheet iron and the flat-sleeve short-circuit rings 11 and 12 made of copper and the short-circuit glasses 13 and 14 made of copper sheet and the Support ring 15 made of plastic or sheet aluminum. The runner 4 consists of the rotor drum 16 and the hub 17 and the shaft 5, which by spraying the plastic hub 17 are firmly connected to one another. Part 18 is an axial bearing cap, their fastening screws, not shown, in the same arc spacing at the points a are arranged and the parts 1, 3 and 18 hold together. Part 19 is the axial bearing washer made of hardened steel and part 20 the corresponding bearing counterpart of the shaft made of brass or any other bearing metal. This part 20 can be designed as a sintered part be and be secured against rotation with one or 2 approaches on the shaft 5 so that it is loose can be plugged onto the shaft 5. Teik 21 is the bearing bush dvq part 1 and part 22 the bearing bush of part 2. The space b is the lubricant space, like the space c and part 23 lubricant chamber cap of part 2. Part 24 is a bearing washer. Part 2 is provided with ventilation openings d. Parts 1 and 2 exist made of plastic and can possibly also be designed as sheet metal or cast metal parts may be. The two housing parts 1 and 2 can e by means of appropriate approaches Screws must be firmly connected to each other.

If by interchanging the pole lobes f 2 and h 2 an improvement the running properties of this synchronous motor type A can be achieved, these can both pole lobes are arranged interchanged with one another. In this case it will be qlso a total of 4 pole lobes with 2 pole teeth each arranged reversed.

With type C the pole teeth of the stator are arranged normally. on a left main pole tooth of part 9 is followed by a phase-shifted pole tooth of the Part 9. Then follows a main pole tooth of part 10 and then a phase-shifted one Pole tooth of part 10. With the number of pole teeth shown, this results in 4 pole tooth cycles with 4 pole teeth each.

In Figure 5, the cross section is again and Läuierpollappen shown. In this version of this AC synchronous motor, the rotor is provided with two pole lobes n, which have a very large arc length.

The other rotor pole lobes have the same division as the stator pole lobes 1. The arc length of the pole lobes n can possibly be smaller by a pitch angle be made so that the pole lobes n only cover 4 stator pole teeth 1. With this Rotor training is aimed at better utilization of the stator rotating field, which is generated by the phase-shifted pole lobes of the stator.

In Figure 6 is a cross section of the stator pole lobes and rotor pole lobes shown, in which the rotor has 3 pole lobes with a very large arc length.

If several pole gaps are sufficient for the run synchronization, if this can coincide with equally spaced stator pole gaps Rotor can also be designed in such a way that it only has poles with a large arc angle, which are of the same size and whose pole gaps coincide with the stator pole gaps, when the rotor is turned into a corresponding position.

The rotor pole division principle shown in FIGS. 5 and 6 is also Can be used for other stator designs and rotor designs.

Claims (12)

Claims e AC synchronous motor with coaxially arranged Stator coil and consecutive left stator pole groups and right stator pole groups, which in turn consist of successive main poles and phase-shifted ones There are auxiliary poles, characterized in that the main poles (f 1 and f 2) and the phase-shifted auxiliary poles h 1 and h 2) in turn into two or more Pole teeth are divided. 2) AC synchronous motor according to claim 1, characterized in that that the Polzähie of the stator are arranged at the same pitch angle distance ur.d the rotor is provided with the same number of pole counters, which are also the same Partial winter stalls are arranged. 3) AC synchronous motor according to claim 1 and 2, characterized in that that the stator (3) has two pole lobes (9 and 10), the pole lobes of which in same Achsial-Richtwlg are arranged and that the phase-shifted pole lobes (h 1) of the rear pole lobe disc (9) with flat-sleeve short-circuit rings (11 and 12) are provided and that the phase-shifted pole lobes (h 2) of the front Pole lobe disc (10) with transverse sheet metal borders made of copper or the like are provided. 4) AC synchronous motor according to claim 1 to 3, characterized in that since there is not a short-circuit ring for each phase-shifted pole tooth (k 1 or k 2) is arranged, but the phase-shifted pole lobes (h 1 and h 2) from one Short-circuit ring are wrapped around 0 5) AC synchronous motor according to claim 1 to 4, characterized in that this AC synchronous motor is an external rotor synchronous motor is trained. 6) AC synchronous motor according to claim 1 to 5, characterized in that that the runner (4) has a different training. 7) AC synchronous motors according to claim 1 to 6, characterized in that that with types B the stator has a gap after each pole cycle. 8) AC synchronous motor with coaxially arranged stator coil and stator pole toothed disks arranged in the same axial direction and normally arranged phase-shifted pole teeth in the order: left main pole tooth - left auxiliary pole tooth - Right main pole tooth -right auxiliary pole tooth, characterized in that the auxiliary pole teeth of the rear stator pole toothed disks are provided with flat-sleeve short-circuit rings. 9) Other electric motors, characterized in that the loaded Axial bearing of the motor shaft from a loosely attached to this shaft and on The shaft is secured against rotation and made of bearing metal and a hardened steel washer exists, which, if necessary, is secured against rotation on the housing. 10) Other electric motors, characterized in that the loaded Axial position of the motor shaft from a bearing cap firmly attached to the shaft and a hardened steel disc which is secured against rotation and at its center is supported. 11) Other AC synchronous motors, characterized in that that the rotor is provided with pole groups (s) consisting of a number of normal pole lobes or pole teeth and a pole with a large or very large arc angle. 12) Other AC synchronous motors, characterized in that that the rotor is provided with pole groups (s), which are made of a normal pole lobe or pole tooth and a pole with a large or very large arc angle or that the rotor is only provided with poles that have a very large arc angle and their pole gaps coincide with the stator pole gaps.