DE1869749U - ELECTRICAL DEVICE WITH A ROTOR MOUNTED ON A ROTATING SHAFT. - Google Patents

Description

THE BEIDIX CORPORATION, Fisher Building, DETROIT, Michigan, USA,

Electric gate direction with one on one rotating

All fixed rotor.

The hiring refers to electrical devices, in particular to a device with a shaft and a member with a sleeve-shaped part which surrounds the shaft and is firmly connected to it.

The innovation should provide the means to connect one Link with a, sleeve-shaped part with a '/ hurry essentially simplified and the method of assembly significantly improved.

The innovation is shown in the drawing, for example.

Pig. 1 is an axial longitudinal section through a combined ^ echselgenerator and. Distributor with one on the "shaft attached rotor.

Fig. 2 shows a schematic representation of the first stage when assembling the rotor with the skins «,

fig. 3 shows a further view in a view similar to FIG. 2 Level during assembly ο

Pig. 4 shows the final stage during assembly in a longitudinal section of shaft and rotor.

The one in Pig. 1 shown device represents an alternating

'atentanwalt Dipl.-Ing. Hans Gründich - Regensburg, Lessingstrasse 10
Sheet 2 to the letter of 21. 2. 6 3 / S ^to:

Generators and distributors. Such alternators and distributors can be used with advantage in ignition systems of internal combustion engines with spark ignition. The present Hiring relates to an improved and simplified means of securing the alternator's magnet-carrying rotor on its shaft and on a simplified method of assembly.

The combined alternator and distributor of FIG. 1 includes a generally cylindrical hollow housing portion 11 preferably made of steel and a further generally cylindrical hollow housing part 12 which is aligned with the housing part 11 is and fits in these. An axially located main shaft 13 is mounted in the two housing parts 11 and 12. That Housing also includes a cap-shaped to complete it Part 14 made of electrically insulating material such as malleable plastic, this cap containing and carrying parts of the manifold.

The shaft 13 has an outer end portion 15? who gets through the Snd.wand of the housing part 12 extends through it. The wave part 15 is mounted in a ball bearing 16 which is in the End wall of the housing part 12 is arranged. Sin collar 17 on shaft 13 inward of the ball bearing serves to limit the axial movement of the shaft in an outward direction. Through a threaded end portion 19 the shaft with drive means, for example a gear connected, whereby it is driven synchronously with the machine.

On the shaft 13 is an e-otor 20 with a pole shoe end Member 21, a cylindrical permanent magnet 25 and a - • the other pole piece-bearing member 24 firmly arranged »each the members 21 and 24 has a general U-shape and there are axially directed, diametrically opposed pole pieces on the Protruding end flanges. Such pole pieces of the link 21 are

'atentanwalt Dipl.-Ing. Hans Gründich - Regensburg, Lessingstrasse 10
Sheet 3 for the letter of 21 ο 2. 63 / S to:

denoted by 22. The links 21 and 24 are opposite directed and shifted by 90 ° around the axis of 7 / elIe 13 with respect to one another. Opposite ends of the permanent magnet 25 have opposite magnetic polarity, so that the successive pole pieces on the rotor are also opposite Have polarity. Such M. shoes work together with pole pieces 26 of a laminated magnetic metal core, which is attached to the housing and surrounds the rotor.

The device is connected in series with a number Provided capstans, one of which is shown at 27. They are arranged around each of the poles of the core. "The core will held in a housing by radially projecting eyelet parts 29, received by recesses in the housing part 12 ■ -erden. A screw 31 screwed into the housing part 12 goes through the nozzle part 29 and holds the core in place. The housing parts 11 and 12 are held together by a plurality of elongated screws 34, the inner end of part 12 in a recess 32 engages in a part 11.

The housing part 11 is provided with a transverse subdivision 35, which serves as a support for a socket 36 in which TÜas inner The end of the 'parts 13 is stored. A nook 37, which is fixedly arranged on the shaft by a pin 39, is used to actuate a Interrupter arrangement 31> which on the partition wall 35 through a pin 40 is attached. A lead wire 42 runs from one end of the series-connected coils 27 to one Terminal 44? which is mounted in an insulating bushing 55 fastened to the housing part 11.

The inner end of the "'parts 13 carries a divider rotor 46 with it a body 47 on which a central contact 49 is attached. The Eontakt 49 works with one attached in the center Contact 50 on cap 14 together, contact 50 with

'atentanwalt Dipl.-Ing. Hans Anbich ■ Regensburg, Lessingstrasse 10
Sheet 4 to the letter of 21. 2. 63 / S ^to:

a high-voltage line, not shown, can be connected by a base contact 51. The distributor rotor 46 carries a radially directed pincer 52 which cooperates in succession with a plurality of contacts 54 on the cap 14, which are arranged at the same distance. ^ ± n socket 55 is provided on the cap 14 for each of the contacts 54, whereby the Eontakte can be connected to the corresponding spark plugs of the machine.

The rotor 20 is with the skin 1? connected in a wedge shape, as can best be seen in Figs. 2-4. The part 13 is provided with two axially spaced corrugated parts 56 and 57 which are approximately the same distance as the end faces on the two U-shaped, pole shoe-bearing G members of the rotor. Two annular wedges 61 and 65 tapered in opposite directions are provided around the shaft on the corrugated parts 56 and 57. Such wedges, which are preferably made of metal and have a hardness of the same order of magnitude as that of the VJsIIe 13 and the U-shaped pole shoe-carrying parts 21 and 24, are press-fit on the arrows and truncated cones for mi conditions in the members 21 xmä 24 in engagement The singular engagement between the parts is such that the eotor parts are held in engagement with one another and the assembled rotor in a fixed position in both the axial and angular directions with respect to the ⁷ parts.

The connections between the Bile and the ^XL otor and. the method for establishing the connection between the shaft and the rotor are described below with reference to FIGS. 2, 3 and 4.

The assembly device includes a press, for example an arbor press (not shown) with a lower tool or jaw 59 and an upper tool or one. Piston 64ο The tool has a central vertical channel 50 of such a diameter that it receives that part of the shaft 13 flush and precisely and is of such a depth that the shaft is ^{gretrae in it from the collar 17 on the 1} junction. The " ^? Elle

'atentanwalt Dipl.-Ing. Hans Gründich - Regensburg, Lessingstrasse 10
Sheet 5 for the letter of 21 »2. Oj / S to:

»is first placed in the" tool 59 in the illustrated Then the wedge member 61 is on the V ^r elle after shifted down so that it rests on the collar seventeenth The wedge member 61 is arranged such that it tapers upwards The pole shoe-carrying member 21 is then slid downwards over the elbow and then a mounting sleeve 62 is slid over the upper end of the shaft so that it rests on the upper surface of the ignition flange of the member 21. The piston 61 of the press 3 in which the wedge member 61 is perceptibly advanced in the wedge-shaped seat 63. As a result, the wedge 61 deforms somewhat so that its inner wall, with the help of the corrugated part 56 of the shaft is locked and so that the links 21, 61 and 13 are fixedly secured together against rotation and further axial movement.

The magnet 25 and the member 24 carrying the other pole piece are then mounted in the manner shown in Fig. 3. A second wedge member 65 with him to tapered bottom part is then pushed over the ^T "elle. It is then 66 pushed a second small mounting sleeve over the upper end of the shaft and strongly pushed by the piston 64 of the press downward. In such a further pressing the wedge 65 is pushed down into the conical ^ itz 67 of the link 24 and the wedge is deformed so that it locks itself with the shaft 57 on the shaft 13 and the wedge 61 supported rotor exerted γ / ird, there is a small additional axial movement of the rotor during the second pressing process. ans because of the previous strong compression at the lower wedge connection.

Treatment for display purposes and not for the purpose of limitation the following characteristics and dimensions of the parts used to produce a satisfactory wedge formation gerflpß given the innovation »The shaft 13 has a diameter approximately 6.35 cm (0.250 inch). Each of the corrugations 56 and 56 are parallel hats with 20 teeth to one inch around

'atentanwalt Dipl.-Ing. Hans Gründich - Regensburg, Lessingstrasse 10
Sheet 6 for the letter dated 21 .2 »6.2 / S to:

Circumference of the shaft around, laughing at the corrugation, the shaft 13 is ground at the point of the corrugation; in order to restore its original outer diameter. The ring wedges 61 and 65
have such initial inner diameters, äa.8 they fit flush on the shaft at the point of the corrugation. The "parts 13 are made of steel and the parts 21 and 25 are made of nitrided,
made of sintered steel. The included angle of the seats 63 and 67 in the central passages in the links 21 and 24 is 8 ° »The included angle of the side walls of the wedges 61 and 65 is 8 ° in the same way. Wedges 61 and 65 are made of stainless steel, with a stainless steel designated AMS-5640 proving very satisfactory
has proven for the present purpose.

Claims (4)

Longs for zansr> smells 1. Electrical Torrichtimg with a hot or arranged on a rotating arrows, characterized in that the rotor (20) is attached to the shaft (13) by means of annular wedges (61,65) surrounding the shaft (13), of which each between the shaft (13) and a frustoconical The seat (63,67) is keyed at each end of the rotor, 2. Electrical device according to claim. 1, characterized in that that the wedges (61,65) are made of metal with a hardness equal to that of the '' felle and the rotor. 3. Electric gate device according to claim 1 or 2, characterized in that each frustoconical seat (63 _S 6?) Tapers in the rotor (20) at a shallow angle which is substantially equal to the angle of taper of the wedge. 4. Electric gate direction according to claim 1, 2 or 3? through this marked j that with the wedges (61,65) in Bin ^ riff standing Te "!! enteile roughened and the wedges are deformed, so that it fits the roughened surface (56,57) of the " (13) adjust.