DE102015201103A1 - Press connections of stamped components with shafts - Google Patents

Abstract

Press connection of a stanzpaketierten component (3) with a shaft (1), wherein between the stanzpaketierten component (3) and the shaft (1) a sleeve-shaped component (2) is present, wherein the stanzpaketierte component (3) on the sleeve-shaped component (2 ) and this (2) on the shaft (1) is pressed.

Description

The invention relates to a press connection of a stanzpaketierten component with a shaft.

The press connection of a stanzpaketierten component with a shaft is used mainly in electric motors. The electric motor has for this purpose a fixed stator and a movable rotor. The rotor is usually constructed of laminated iron packages. Individual electrically insulated electrical steel sheets are hereby stacked axially on each other and connected to each other, for example by means of punching packetization. The electrical insulation between the electrical sheets eddy current losses and hysteresis losses are avoided in the stator, resulting in an increased efficiency of the machine.

In the prior art, the use of press connections between rotor packages or stanzpaketierten rotor parts and smooth or knurled shaft is known (see, for example DE 10 2010 031 399 A1 or DE 10 2012 110 147 A1 ). The disadvantage here, however, the chip formation during the pressing process and the limitations of the torque transmission of the interference fit.

Object of the present invention is therefore to provide a comparison with the prior art further developed press connection between stanzpaketierten components and a shaft which avoids the chip formation as possible and allows an increase in the transmittable torque.

To achieve the object of the invention, the press connection specified in claim 1 and in claim 10 their use is proposed. Optional advantageous embodiments of the invention arise wholly or partly from the dependent claims.

The press connection according to the invention of a stanzpaketierten component and a shaft is characterized in that between the stanzpaketierten component and the shaft, a sleeve-shaped member is present, wherein the stanzpaketierte component is pressed onto the sleeve-shaped member and this on the shaft. Under shaft is a rod-shaped machine element, which is used for forwarding rotational movements and torques and for the storage of rotating parts, understood. This also means the commonly used terms "axis".

According to the invention, an arrangement is also to be considered which comprises a stanzpaketiertes component, a shaft or axis and a sleeve-shaped component, wherein the stanzpaketierte component is pressed onto the sleeve-shaped member and this on the shaft or axis.

In a further embodiment of the press connection according to the invention, the sleeve-shaped component has at least one slot. Slot means a long and narrow opening. In the sleeve-shaped component may preferably be present a continuous slot. This type of sleeve-shaped components is for example in the Standard ISO 8752 specified. Another possibility according to the invention is when the sleeve-shaped component has two slots. For example, both non-continuous slots at a distance of 180 °, that is opposite, arranged. In this case, one of the two slots begins at one axial end of the sleeve-shaped component and the other slot at the other axial end of the sleeve-shaped component. It is also conceivable to introduce four slots in the sleeve-shaped component. The slots are arranged at a distance of 90 ° to each other and start alternately at one axial end and the other axial end. Any number of slots is possible. Also, the slot could be repellent of the straight variant helical, wavy and / or obliquely over the sleeve-shaped component.

Furthermore, it is advantageous if the sleeve-shaped component has a flange in the radial direction outwardly at an axial end. The flange is thus formed as a stop flange to simplify the mounting position. Furthermore, it is according to the invention if the sleeve-shaped component has at least one axial end a circumferential chamfer or a circumferential rounding optionally on the flange or directly on the cylindrical portion.

Preferably, the sleeve-shaped component made of steel material. According to the invention, however, a soft material could be used, such as brass.

In a further press connection according to the invention the stanzpaketierte component with the sleeve-shaped component and these two components are so pressed with the shaft that a positive connection is formed. For this purpose, a recess is present at the inner diameter of the stanzpaketierten component, which is formed for example by punching. Material of the sleeve-shaped component is pressed into this recess during the pressing process, so that both components intermesh.

Furthermore, it is expedient if the sleeve-shaped component consists of a material whose thermal expansion coefficient is +/- 20 % of the coefficient of thermal expansion of the material of the stanzpaketierten component. This ensures sufficient torque transmission at fluctuating temperatures.

In an advantageous embodiment, the stanzpaketierte component is designed as a rotor part of a motor. Preferably, the shaft is provided axially outside the press connection with a compensating coupling and to the compensating coupling, a transmission is connected. The press connection thus establishes a connection between the engine and the transmission. As a compensating coupling, for example, an Oldham coupling, such as in the DE 10 2007 049 072 A1 shown used. A possible gear to be used, namely a superposition gear, is for example in the DE 10 2006 007 651 A1 disclosed. A superposition gear may be in the form of a three-shaft gear, for example, wave gear or swash plate gear. Here, the adjusting shaft of the transmission could simultaneously represent the shaft on which the press connection exists.

In a use according to the invention, the press connection described above is used in electrical machines, in particular an electric motor.

Further details, features, combinations of features and effects on the basis of the invention will become apparent from the following description of preferred, exemplary embodiments of the invention and from the drawings. These show in:

1 an embodiment of the press connection according to the invention in a perspective sectional view,

2 Representation of a positive connection between stanzpaketierten and sleeve-shaped component,

3 an embodiment of the sleeve-shaped member with a continuous slot in perspective,

4 a further embodiment of the sleeve-shaped member with four slots arranged in perspective,

5 a schematic representation of the installation point of the press connection.

In the 1 An embodiment of the press connection according to the invention is shown in a perspective sectional view. The arrangement of the press connection comprises a shaft 1 , a sleeve-shaped component 2 and a stanzpaketiertes component 3 , On the wave 1 is the sleeve-shaped component 2 and on the sleeve-shaped component 2 is the stamped component 3 pressed. The sleeve-shaped component 2 has a continuous axial slot 4 on. The stamped component 3 represents a part of the rotor of an electric motor. In the stanzpaketierten component 3 are close to the outside diameter recesses 5 introduced, which extend continuously in the axial direction. In these recesses 5 magnets, preferably permanent magnets, of the rotor are inserted.

The 2 provides a positive connection between the stanzpaketierten component 3 and the sleeve-shaped component 2 This is in the stanzpaketierten component 3 a recess 6 brought in. The recess 6 may be in the form of a continuous or interrupted groove extending in the axial direction. The press connection material of the sleeve-shaped component 2 in the recess 6 pushed. This results in anti-rotation due to the positive connection in the radial and, if necessary, axial direction and thus to increase the torque transmission.

The 3 and 4 show embodiments of the sleeve-shaped component according to the invention 2 on. In the 3 is a sleeve-shaped component 2 with a continuous straight slot 4 shown. Furthermore, the sleeve-shaped component 2 at both axial ends 7 a circumferential rounding 8th on. In the 4 while the sleeve-shaped component has four slots 4 on. The slots 4 are arranged at a distance of 90 °, so that two slots 4 are opposite. The two opposite slots 4 are each at the same axial end 7 of the sleeve-shaped component 2 arranged. The slots 4 are also not continuous as in 3 but have a certain length in the sleeve-shaped component 2 ends. In the 4 overlap the slots 4 in the axial direction. The ends 9 the slots 4 in the sleeve-shaped component 2 ends are rounded. Furthermore, the sleeve-shaped component 2 at both axial ends 7 one circumferential chamfer each 10 on.

The 5 shows a schematic representation of the installation point of the press connection. The press connection between shaft 1 , sleeve-shaped component 2 and stamped component 3 lies in an electric motor 11 , The wave 1 is at the opposite end, on which the press connection is arranged, with a compensating coupling 12 Mistake. The compensation coupling 12 For example, an Oldham clutch is in turn on a transmission 13 by means of a gear shaft 14 connected. The gear 13 points next to the gear shaft 14 also an input shaft 15 , for example, designed as Pulley or gear, and an output shaft 16 on. The output shaft 16 either directly represents the camshaft or is rotatably connected to the camshaft.

LIST OF REFERENCE NUMBERS

1

 wave

2

 Sleeve-shaped component

3

 Stamped packetized component

4

 slot

5

 Recess for magnet

6

 recess

7

 Axial end of the sleeve-shaped component

8th

 curve

9

 The End

10

 chamfer

11

 electric motor

12

 Flexible coupling

13

 transmission

14

 gear shaft

15

 Input shaft gear

16

 Output shaft gear

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102010031399 A1 [0003]
• DE 102012110147 A1 [0003]
• DE 102007049072 A1 [0013]
• DE 102006007651 A1 [0013]

Cited non-patent literature

• Standard ISO 8752 [0008]

Claims (10)

Press connection of a stanzpaketierten component ( 3 ) with a wave ( 1 ), characterized in that between the stanzpaketierten component ( 3 ) and the wave ( 1 ) a sleeve-shaped component ( 2 ) is present, wherein the stanzpaketierte component ( 3 ) on the sleeve-shaped component ( 2 ) and this ( 2 ) on the shaft ( 1 ) is pressed. Press connection according to claim 1, characterized in that the sleeve-shaped component ( 2 ) at least one slot ( 4 ) having. Press connection according to one of the preceding claims, characterized in that the sleeve-shaped component ( 2 ) a flange in the radial direction outwardly at an axial end ( 7 ) having. Press connection according to claim 1 or 2, characterized in that the sleeve-shaped component ( 2 ) at at least one axial end ( 7 ) a circumferential chamfer ( 10 ) or a circumferential rounding ( 8th ) having. Press connection according to one of the preceding claims, characterized in that the sleeve-shaped component ( 2 ) consists of steel material. Press connection according to one of the preceding claims, characterized in that the stanzpaketierte component ( 3 ) with the sleeve-shaped component ( 2 ) and these two components ( 2 . 3 ) with the wave ( 1 ) are pressed so that a positive connection is formed. Press connection according to one of the preceding claims, characterized in that the sleeve-shaped component ( 2 ) consists of a material whose coefficient of thermal expansion is +/- 20% of the coefficient of thermal expansion of the material of the stanzpaketierten component ( 3 ) is. Press connection according to one of the preceding claims, characterized in that the stanzpaketierte component ( 3 ) is designed as a rotor part of a motor. Press connection according to one of the preceding claims, characterized in that the shaft ( 1 ) axially outside the press connection with a compensating coupling ( 12 ) and at the compensating coupling ( 12 ) a gearbox ( 13 ) connected. Use of the press connection according to claim 1 to 9 in electrical machines, in particular an electric motor ( 11 ).

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