DE498387C - Rotor, especially for magneto-electric ignition machines - Google Patents

Description

Rotor, especially for magneto-electric blasting machines The invention relates to magneto-electric machines such as those used in automobile engines are needed, especially of the type in which a rotating permanent Magnet and a stationary power generation winding are applied. The invention further relates to improvements in the design of the rotor of such magnetic machines, so that it can be assembled more easily and cheaply.

The usual design of the rotors of such machines is It is common to apply a circular plate or disk to the free end the magnet or magnets is attached to a support for the shaft and for the centering of the pole pieces to offer. These plates are usually fastened by screws or the like. attached. Such arrangements are disadvantageous in that the screws are sometimes loose so that the disc loosens completely or partially and the mechanism partially disintegrates if it is not completely destroyed.

In earlier types of magnet machines, the pole pieces were the rotor generally made in one piece with the hub or bushing of the rotor and require hence the special construction of the whole rotor if the number of poles changed or their thickness must be increased or decreased in order to increase the strength of the magnetic To regulate the field.

According to the present invention earth the disadvantageous properties the known magnet machine rotors eliminated. The pole pieces are used for this purpose formed and composed for itself. It will also apply one to the free Ends of the pole pieces attached to the plate avoided by having the shaft as a Piece with part of the rotor construction is cast.

Another purpose of the invention is to create a rotor, which is fully balanced due to the fact that it is in the final Form consists of a solid metal mass. The invention is in the enclosed Drawing explains in which Fig. I a diagrammatic representation of the parts of the rotor in an extended position, ready for assembly .., shows.

Fig. 2 is a longitudinal section through the rotor, Fig. 3 is a cross section according to line 3-3 of Fig.

Fig. 4. is a diagram of the complete rotor.

Fig. 5 shows the lamellas used to form the rotor.

The magnet has a base plate i in the form of a thick disk made of magnetic material, e.g. hard steel, with a central opening for the passage of the drive shaft 2, which is made of bronze, brass or other non-magnetic Material.

The rotor can have any number of poles, and so can the pole pieces can have different cross-sections depending on the type of arrangement. With the present execution of the invention four poles are provided, and the pole pieces 3, which also consist of consist of magnetic material, are on the base plate i by dowels .l. in real Angular position held, with each pole piece having a shoulder 5 to one below specified purpose is equipped. L m to avoid the formation of eddy currents and to increase the permeability of this part of the magnetic field the pole pieces are provided with lamellas 6 and 6 "made of soft iron or steel that support the Poles are surrounded by a point about midway along their length to the free ends. These lamellas are used in two forms, as shown in Fig. 5. the diametrically opposite poles of the same polarity are through the double lamellas 6, connected, and to prevent the short circuit of the magnetic circuit narrow slats 6 arranged between these double slats. The double slats 6 "are linked together so that they are a group of like poles, for example the south poles, connect with each other. These slats are up from the shoulder 5 about a third of the distance to the free ends of the poles, and then several of the lamellae 6 are plugged onto the same pole. The north pole carry double slats 6 between the shoulder 5 and the place where the double slats 6, ending on the southern poles. The remaining parts of the north pole are then with the double lamellas 6 "and the parts of the south pole are equipped with 6 single lamellas.

The south poles are thus approximately between shoulder 5 and a point in a third of the distance between the free ends of the pole pieces by double lamellas connected, and then both pole systems carry single lamellas on the same route 6. The remaining part of the north pole pieces is then with double lamellas 6 "and the part of the south pole connected by single lamellas 6. An essential magnetic one Overflow between unequal poles is made possible by the insertion of a suitable one Number of single lamellas 6 between the two groups of double lamellas prevented.

In the manufacture of the rotor part comprising the drive shaft and the lamellas, the latter are assembled on suitable cores, after which molten brass or bronze metal is poured in to form the shaft - and the webs 9, which have to be inserted between the pole pieces 3 . When solidifying, this material connects the lamellas firmly to the ribs 9 and the shaft 2. Grooves io are formed in the webs, which serve to receive ribs on the sides of the pole pieces 3 in order to strengthen the action of the dowels, I against the centrifugal force . When assembling the rotor, a thread I2 is first cut on the end of the shaft: 2, whereupon the latter is inserted between the pole pieces 3 and through the opening in the base plate. The bronze webs 9 naturally lie between the poles, while the lamellae 6 and 6a enclose the pole ends. A nut 13 is placed on the end of the shaft, pulling the parts tightly together and pulling the lamellas close to the shoulders 5 of the pole pieces. The construction obtained in this way essentially forms a piece of solid metal and has the desired number of poles with separators made of non-magnetic material and lamellae, which are held together by connecting parts located inside the rotor shaft. Apparently a rotor assembled in this way is completely balanced, since it consists of a solid metal mass of cylindrical shape.

Claims (5)

PATENT AI`TSPRÜCIIR: i. Rotor, especially for magneto-electric Blasting machines, characterized in that the shaft (2) with the between adjacent Magnetic legs (3) inserted webs (9) forms one piece. 2. Rotor according to claim i, characterized in that the magnet legs (3) have ribs (I I) which engage in matching grooves (io) of the webs (9) on the shaft. 3. Rotor according to claim i, characterized in that they are attached to a magnetic base plate (i) Magnet legs (3) as pole pieces carry lamellae (6, 6a), which with the non-magnetic Metal existing webs (9) are cast together. 4 .. rotor according to claim 3, characterized in that the slats are the parts remote from the base plate the magnet leg enclose and the slats of diametrically opposite legs are connected to one piece. 5. Rotor according to claim 3, characterized in that that the magnet leg (3) by a nut (I3) on the rotor shaft firmly against the pole pieces (6, 6a) are pressed.