DE4341354B4 - Rotor for commutator motors of short axial length - Google Patents

Abstract

Runners (1) for commutator motors (83) short axial length with a rotor shaft (3) on which a rotor sheet package (5) and a commutator (7) are fastened, wherein switching ends (47, 49) of a rotor winding (39, 41) of runners grooves (43, 45) from loop-shaped associated, at one end radially integrally formed hooks (13) on Kommutatorlamellen (11) of the commutator (7) out are, wherein the commutator (7) on one end (19) of the rotor shaft (3) is mounted and wherein the rotor shaft (3) at its other end (32) one opposite the end face (23) of the rotor core (5) projecting stub shaft (31) over which the runner (1) can be moved to the winding, characterized in that the commutator (7) in its outwardly facing end face (33) a centering recess (35) for a centering pin (37) through which the rotor shaft (3) with the rotor sheet package (5) when winding rotor windings (39, 41) is centered.

Description

The The invention relates to a runner for commutator motors short, axial length, specified in the preamble of claim 1. Art.

It are already commutator motors in flat design, especially for radiator fans in Motor vehicles are known with a one-sided over a Rotor package carrier in radial Distance to the rotor shaft kept runner sheet package with rotor winding and in the radial gap between the rotor shaft and Läufererblechpaket protruding brush system with on the rotor shaft equipped commutator equipped are. Here are of the blades of the commutator electrical contacts led out frontally through the runners package carrier and there connected to winding head connections of the rotor winding.

Especially at longitudinal integrated to the direction of combustion engines in motor vehicles is the installation space for an electrically operated fan for cooling the fan very limited. conventional Permanent magnet motors can therefore be because of their large axial length do not use. It is already for this purpose for electric powered radiator fans Commutator motors in flat design have become known that a relatively huge Diameter while having a relatively flat package height.

From the generic DE 82 25 881 U1 is a commutator motor of small axial length, in particular for driving a motor vehicle radiator fan known. This commutator motor has a radial clearance between the rotor shaft and the end faces of the rotor core pact axially projecting end windings. The commutator is connected via its hooks with the winding connections of the rotor winding.

Out DE 82 25 899 U1 is another commutator motor of small axial length, in particular for driving a motor vehicle fan known. This commutator motor also has a radial clearance between the rotor shaft and the end windings axially projecting beyond the end faces of the rotor lamination pact. The commutator is connected via its hooks with the winding connections of the rotor winding. At least partially a bearing point of the rotor shaft emerges in the radial free space of the other rotor laminated core end face.

Out DE 29 26 545 A1 is another commutator motor known in flat design. This has on one side via a rotor core carrier at a radial distance to the rotor shaft held rotor package with a rotor winding. In addition, a round commutator is provided, wherein the lamellae of the round commutator are extended beyond the end face of the commutator scar facing the rotor core carrier by an opening up to the end hooks.

Out DE 23 04 458 A an electrodynamic machine is disclosed. This machine has a rotor that is particularly suitable for small engines. There is a rotating shaft on which is disposed a package of magnetic sheets coated with a plastic coating, the package being provided with cut-outs in which windings are disposed. In addition, a collector is present, which is to be wedged on the rotatable shaft relative to the laminated core. Finally, a suitable device for automatically wedging the collector on the shaft is provided.

Of the Invention is based on the object, a rotor for commutator, in particular for Drive of radiator fans to create in motor vehicles, a simple and cheap manufacture and a short axial length of the commutator motor allows. This object is characterized by that in claim 1 Characteristics solved.

With Such a trained runner becomes the production of a compact and powerful commutator motor, in particular as a drive motor in a radiator fan of a motor vehicle guaranteed. Also, the unused in the motor housing Space optimally minimized.

Farther The manufacturing process of the runner is simplified and cheapened. After applying the rotor laminations for the Rotor shaft is the commutator up to about half the bore length on the rotor shaft postponed. The stratified runner is by a mandrel, which in a Zentrierausnehmung in the frontal area engages the commutator, centered while winding the Läufererblechpaketes. In this case, the indexing of the rotor via a with the drive side Stub shaft cooperating clamping tool achieved. After the completion of winding the rotor sheet package and welding of the commutator is this by pressing on the rotor shaft in the space between the winding heads to approximately pushed the rotor laminations. As a result, the commutator-side free end of the rotor shaft for the Storage exposed.

The runner is characterized by a compact and little unused space in the Mo having a small outer diameter gate housing on.

Further advantageous embodiments of the subject invention are the further subclaims refer to.

The Invention is based on an embodiment closer in the following described. Show it:

1 the rotor shaft with the rotor core and the commutator partially pushed onto the shaft end,

2 the runner after winding,

3 the runner according to 2 after moving the commutator and

4 a commutator motor with a fan.

The 1 shows items of a runner 1 for commutator motors of short axial length with a rotor shaft 3 on which a rotor sheet package 5 and a commutator 7 are attached. The commutator 7 consists of a hub made of insulating material 9 , on the lateral surface of commutator blades 11 with hooks 13 are attached. The hub part 9 has a centrally arranged bearing bush 15 with a bearing bore 17 on, by means of the commutator 7 on the end 19 the rotor shaft 3 is firmly stored. The two end faces 21 . 23 are through end discs 25 . 27 Covered from insulating material in a known manner.

The one on the end 19 the rotor shaft 3 mounted commutator 7 has in its outwardly facing end face 33 a frusto-conical centering recess 35 for a centering mandrel 37 according to 2 on. The rotor shaft 3 with the rotor sheet package 5 is used when winding the rotor windings 39 . 41 into the runners' grooves 43 . 45 through the centering pin 37 centered. The indexing of the rotor shaft 3 takes place via one at its other end 31 opposite the face 23 of the rotor core 5 protruding stub shaft 31 , which is detectable via a clamping tool, not shown. The switching ends 47 . 49 the rotor windings 39 . 41 are from the runners grooves 43 . 45 from loop-shaped to the associated hooks 13 at the commutator bars 11 guided.

After completion of the windings of the runners 43 . 45 with the rotor windings 39 . 41 become the commutator hooks 13 from the open positions according to 1 in the closed positions to the commutator bars 11 bent and then welded with these. After that, the commutator 7 on the rotor shaft from the winding position according to 2 into an end position into a free space 51 moved, which between the opposite to the rotor laminations 5 axially projecting, collector-side winding heads 53 . 55 and the face 21 of the rotor core 5 is formed, see 3 , Here the commutator protrudes 7 with his the hooks 13 having and at least approximately to the end face 21 of the rotor core 5 brought up end in the open space 51 into it.

The according to 3 finished runners 1 is then in a cylindrical housing 59 used, on both front sides, each with a bearing plate 61 . 63 is firmly connected. On the inner circumference of the cylindrical housing 59 adjacent are several partial shell permanent magnets 65 . 67 held by means not shown clamping springs. With the commutator blades 11 act brushes 69 . 71 Together, in brush guides 73 . 75 are guided obliquely so that the geometric extension lines 73 . 75 the winding heads 53 . 55 facing longitudinal sides 77 . 79 the brushes 69 . 71 within the free space 51 on the longitudinal axis 81 the rotor shaft 3 to cut. By this oblique arrangement of the brushes 69 . 71 becomes the axial length of the commutator motor 83 even further shortened. The brush plate 85 is plate-shaped and has a on the end face 33 of the commutator 7 fitting bottom part 87 , an oblique to the commutator-side end shield 61 extending attachment surface 89 for the brush guides 73 . 75 and a parallel to the bottom part 87 trained, flange-shaped edge part 91 for mounting with the motor housing 59 on. The rotor shaft 3 is in the motor housing 59 on the one hand, at the free end 19 in one in an opening 93 in the bottom part 87 the brush plate 85 protruding first depository 95 and on the other hand drive side in a in the free space 97 between the winding heads 99 . 101 and the face 23 of the rotor core 5 close to the end plate 27 brought second depository 103 rotatably held.

The first depository 95 has a rolling bearing 105 on, in an inward open sink 107 in the existing of a deep-drawn part bearing plate 61 is mounted by means of a press-fit. The second depository 103 also has a rolling bearing 109 on, in an inward open sink 111 in the existing of a deep-drawn part bearing plate 63 is arranged by means of a press fit. A compact arrangement of the commutator motor 83 is favored by the fact that the drive-side end shield 63 one around the winding heads 99 . 101 tightly guided depression 113 having.

The one from the second depository 103 outstanding, drive-side stub shaft 31 is with the hub 115 a rotor wheel 117 firmly connected, with the hub 115 the motor housing 59 surrounds pot-shaped at least on the drive side. The cylindrical lateral surface 119 at the hub 115 is on the outside 121 with fan blades 123 provided while on the insides ribs 125 are arranged to generate effective cooling air streams. The in 4 illustrated commutator motor 83 is particularly advantageous as a drive motor for a radiator fan in motor vehicles due to its short axial length.

Claims (12)

Runner ( 1 ) for commutator motors ( 83 ) short axial length with a rotor shaft ( 3 ), on which a rotor sheet package ( 5 ) and a commutator ( 7 ), wherein switching ends ( 47 . 49 ) a rotor winding ( 39 . 41 ) of runner grooves ( 43 . 45 ) of loop-shaped associated, at one end radially integrally formed hooks ( 13 ) on commutator blades ( 11 ) of the commutator ( 7 ), wherein the commutator ( 7 ) on one end ( 19 ) of the rotor shaft ( 3 ) and wherein the rotor shaft ( 3 ) at the other end ( 32 ) one opposite the end face ( 23 ) of the rotor core ( 5 ) protruding stub shaft ( 31 ) over which the runner ( 1 ) for winding, characterized in that the commutator ( 7 ) in its outwardly facing end face ( 33 ) a centering recess ( 35 ) for a centering mandrel ( 37 ), through which the rotor shaft ( 3 ) with the rotor laminations ( 5 ) when winding rotor windings ( 39 . 41 ) is centerable. Runner according to claim 1, characterized in that the commutator ( 7 ) after winding the rotor windings ( 39 . 41 ) and the welding of the hooks ( 13 ) with the commutator blades ( 11 ) on the rotor shaft ( 3 ) from the winding position into an end position into a free space ( 51 ) is displaceable, which between the opposite to the Läufererblechpaket ( 5 ) axially projecting, collector-side winding heads ( 53 . 55 ) and the face ( 21 ) of the rotor core ( 5 ) is trained. Runner according to claim 2, characterized in that the commutator ( 7 ) with its the hooks ( 13 ) and at least approximately to the end faces ( 21 ) of the rotor core ( 5 ) ( 57 ) into the open space ( 51 ) protrudes. Runner according to claim 3, characterized in that the two end faces ( 21 . 23 ) of the rotor core ( 5 ) by a respective end plate ( 25 . 27 ) are covered by an insulating material. Runner according to one of the preceding claims, characterized in that brushes ( 69 . 71 ) in brush guides ( 73 . 75 ) are mounted obliquely guided such that the geometric extension lines ( 73 . 75 ) of the winding heads ( 53 . 55 ) facing longitudinal sides ( 77 . 79 ) of the brushes ( 69 . 71 ) within the free space ( 51 ) on the longitudinal axis ( 81 ) of the rotor shaft ( 3 ) to cut. Runner according to claim 5, characterized in that a brush plate ( 85 ) is plate-shaped and one at the end face ( 33 ) of the commutator ( 7 ) adjoining bottom part ( 87 ) an obliquely to a Kommutatorseitigen end shield ( 61 ) extending mounting surface ( 89 ) for the brush guides ( 73 . 75 ) and a parallel to the bottom part ( 87 ) formed, flange-shaped edge part ( 91 ) for fastening with a motor housing ( 59 ) having. Rotor according to one of the preceding claims, characterized in that the rotor shaft ( 3 ) in a motor housing ( 59 ) on the one hand and at the free end ( 19 ) on the commutator side into an opening ( 93 ) in the bottom part ( 87 ) a brush plate ( 85 ), the first depository ( 95 ) with the brackets and on the other side drive side in a free space ( 97 ) between winding heads ( 99 . 101 ) and the face ( 23 ) of the Läufererblechpaktes ( 5 ) almost to the end plate ( 27 ) ( 103 ) is rotatably supported. Runner according to claim 7, characterized in that the first bearing ( 95 ) a rolling bearing ( 105 ), which in an inwardly open depression ( 107 ) in a bearing plate consisting of a deep-drawn part ( 63 ) is mounted by means of a press fit. Rotor according to claim 7, characterized in that the second bearing ( 103 ) a rolling bearing ( 109 ), which in an inwardly open depression ( 111 ) in a bearing plate consisting of a deep-drawn part ( 63 ) is arranged by means of a press fit. Rotor according to claim 9, characterized in that the drive-side end shield ( 63 ) one around the winding heads ( 99 . 101 ) tightly guided depression ( 113 ) having. Rotor according to claim 10, in particular for a commutator motor ( 83 ) as a drive motor for a radiator fan in motor vehicles, characterized in that the from the second bearing ( 103 ) outstanding, drive-side stub shaft ( 31 ) with a hub ( 115 ) of a fan wheel ( 117 ), whereby the hub ( 115 ) the motor housing ( 59 ) at least on the drive side cup-shaped surrounds. Runner ( 1 ) according to claim 11, characterized in that a lateral surface ( 119 ) the hub ( 115 ) on the outside ( 121 ) Fan blades ( 123 ) and that the inside of the lateral surface ( 119 ) with ribs ( 125 ) for better ventilation of the commutator ( 83 ) is provided.