DE3842800A1 - Rotor constructed for a DC motor - Google Patents

Abstract

Two plastic hub pieces (2, 3) are mounted by means of a bonded joint on an armature shaft (1) of a rotor. The hub pieces (2, 3) engage in one another and each have an insulating spider (insulating star) (7, 8) which rests against one end of a laminated core (5). One hub piece (2) has a hub (4) on which the armature laminates of the laminated core (5) are seated. Each of the two hub pieces (2, 3) is fitted with a spacer sleeve (17, 24) towards the outside. <IMAGE>

Description

The invention relates to one for one Electricity-trained rotor, which is an armature shaft with a plastic sleeve on which one from another the lying anchor plates formed sheet stack arranged is not. Such rotors are used, for example, as actuators engines used in motor vehicles on a large scale and are generally known.

The known rotor is designed so that its armature shaft and the laminated core when manufacturing the plastic sleeve must be inserted into the injection mold, so that they can then be encapsulated. This training The design of the rotor makes it relatively expensive to manufacture.

The invention has for its object one for to design a DC motor designed rotor ten that it is particularly inexpensive to manufacture.  

This object is achieved in that the plastic sleeve from two hubs put together pieces is formed, of which a hub piece one Hub pack and one against a forehead side of the laminated core adjacent insulating star and that other hub piece the second, against the other forehead insulating star on the side of the laminated core points.

With this design, the two hub pieces as simple injection molded parts made and then with the laminated core into one unit by simply putting it together be mounted. This makes the rotor whole very inexpensive to manufacture.

A mutual twisting of the individual, the sheet Package-forming anchor plates can easily be there be excluded by that the the laminated core on taking hub on its outer surface in axia protruding direction and the anchor plates each have a corresponding groove in their inner bore point.

The exact axial position of the rotor relative to the bearings and to the collector can be fixed easily be placed on both the hub pieces on the Sheet stack facing away from their insulating star depending because a spacer sleeve is formed in alignment with the hub is.

The non-rotatable connection of the two hub pieces with the Armature shaft is very inexpensive, if at least the hub and the spacer sleeve of a hub piece in their inner circumferential surface extending in the axial direction Have adhesive receiving grooves and by an adhesive bond are connected to the armature shaft.  

The plug connection of the two hub pieces with each other is very simple, if that's the sheet metal package having hub piece with its hub in a forehead side extension of the other hub piece used is.

The winding slots of the laminated core can be small Effort electrically isolated by foil insulation be.

However, the assembly effort is less if the insulation star of the hub piece carrying the anchor package Wick Groove insulation are molded.

The invention allows numerous embodiments. To further clarification of their basic principle is one of which is shown in the drawing and is shown below described. This shows in

Fig. 1 shows a longitudinal section through a erfindungsge MAESSEN rotor,

Fig. 2 is a view of an anchor plate,

Fig. 3 shows a longitudinal section through a hub piece of the rotor,

Fig. 4 is a front view of the hub piece of FIG. 3,

Fig. 5 is a longitudinal section through the other hub piece.

The rotor shown in Fig. 1 as a whole has an armature shaft 1 , on which two together a plastic sleeve bil end, nested hub pieces 2 , 3 are attached. The hub piece 2 has a hub 4 , onto which a laminated core 5 made of individual armature plates 6 shown in FIG. 2 is pushed. Against the left end face of the laminated core 5 seen in FIG. 1, there is an insulating star 7 of the hub piece 2 and against the right end face an insulating star 8 of the hub piece 3 .

The Fig. 1 further shows a seated on the armature shaft 1 collector 9 and bearings 10, 11 of the armature shaft 1.

FIG. 2 shows the design of the individual, adjacent anchor plates 6. These have a central inner bore 12 with a radial groove 13 in their outer surface. A winding groove 16 is provided between outwardly directed webs of the armature plate 6 . In the laminated core 1, this can be electrically insulated by an insulating film (not shown).

As FIG. 3 shows, there is a hub piece 2 out of the hub 4, the isolating star 7 and on which the hub 4 abge facing side of the Isoliersternes 7 from an aligned to the hub 4 spacer sleeve 17. Through the hub 4 and the spacer sleeve 17 , an armature shaft 1 receiving bore 18 extends. It is not shown that winding slot insulations can be formed on the insulating star 7 , each of which engages in the winding slots 16 .

Of FIG. 4 it can be seen that the bore 18 has three extending in the longitudinal direction Klebstoffaufnahmenuten 19, 20, 21 has. Furthermore, one can see in FIG. 4 a projection 22 in the axial direction on the outer lateral surface of the hub 4 . This projection 22 can engage in the respective groove 13 of each armature plate 6 when these armature plates 6 are pushed onto the hub 4 .

The hub piece 3 shown in Fig. 5 has in its side facing the hub piece 2 facing end side of the extension 23, with which it is able to grip the hub piece 2 via the hub 4. On its side facing away from the hub piece 2 of the Isoliersternes 8 a spacer sleeve 24 is exactly as provided in the hub piece. 2

Claims (7)

1. For a DC motor trained rotor, wel cher has an armature shaft with a plastic sleeve, on which a laminated core formed from adjacent armature plates is arranged, characterized in that the plastic sleeve from two assembled hubs pieces ( 2 , 3 ) is formed, one of which hub piece (2), the laminated core (5) receiving the hub (4) and a anlie against a face of the lamination stack (5) constricting isolating star (7) and the other hub part (3) the second, Ketes against the other end face of the Blechpa (5 ) adjacent insulating star ( 8 ). 2. Rotor according to claim 1, characterized in that the laminated core ( 5 ) receiving hub ( 4 ) on its outer circumferential surface an axially extending projection ( 22 ) and the armature plates ( 6 ) each have a corresponding groove ( 13 ) in their inner bore ( 12 ) point. 3. Rotor according to claims 1 or 2, characterized in that on both hub pieces ( 2 , 3 ) on the side facing away from the laminated core ( 5 ) of their insulating star ( 7 , 8 ) each in alignment with the hub ( 4 ), a spacer sleeve ( 17th , 24 ) is molded on. 4. Rotor according to at least one of the preceding Ansprü surface, characterized in that at least the hub ( 4 ) and the spacer sleeve ( 17 ) of the hub piece ( 2 ) in its inner lateral surface in the axial direction adhesive adhesive grooves ( 19 , 20 , 21 ) and are connected to the armature shaft ( 1 ) by an adhesive connection. 5. A rotor according to at least one of the preceding claims, characterized in that the hub piece ( 2 ) having the laminated core ( 5 ) is inserted with its hub ( 4 ) into an end extension ( 23 ) of the other hub piece ( 3 ). 6. Rotor according to at least one of the preceding claims, characterized in that the winding grooves ( 16 ) of the laminated core ( 5 ) are electrically isolated by foil insulation. 7. Rotor according to at least one of the preceding and workman surface, characterized in that on the insulating star ( 7 ) of the armature package ( 5 ) bearing hub piece ( 2 ) winding nut insulation are injected.