DE102011104249B4 - Spindle nut for a spindle drive and method for mounting the same on a spindle of the spindle drive - Google Patents

Abstract

Spindle nut (10) for mounting on a spindle (26) of a spindle drive (58), the spindle nut (10) having an internal thread (12), characterized in that the internal thread (12) is formed by shell-shaped thread areas (14, 16) which, with respect to an axial alignment of the internal thread (12), are axially offset from one another in two different axial sections (18, 20) and in the assembled state of the spindle nut (10) on opposite sides (22, 24) of the spindle (26), wherein the spindle nut (12) has a recess (28, 30) in each of the axle sections (18, 20) on the side (24, 22) opposite the respective thread area (14, 16) for tilting the spindle nut (10) onto the spindle ( 26) and for pivoting the pushed-on spindle nut (10) into the state mounted on the spindle (26).

Description

The invention relates to a spindle nut for a spindle drive of a clutch adjusting device, the spindle nut having an internal thread.

Such a spindle nut is known from a path-controlled wear adjustment device for adjusting clutch pressure plates (TAC). The WO 2009/056092 A1 shows a spindle drive with a spindle nut for a clutch adjusting device having this spindle drive.

It is an object of the invention to provide a spindle nut which can be mounted particularly easily and quickly on a corresponding spindle.

The object is achieved according to the invention by a spindle nut with the features of claim 1. Preferred embodiments of the invention are specified in the subclaims.

In the case of the spindle nut according to the invention, it is provided that the internal thread is formed by shell-shaped threaded areas which are axially offset with respect to an axial alignment of the internal thread in two different axial sections and in the assembled state of the spindle nut on opposite sides of the spindle. The spindle nut has a recess in each of the axle sections on the side opposite the respective threaded region for tilting the spindle nut onto the spindle and for pivoting the pushed-on spindle nut into the state mounted on the spindle. The recesses of the two axle sections form a channel for pushing the spindle nut onto the spindle, the channel extending in an orientation tilted relative to the axis of the internal thread. The recesses continue to extend to a respective end of the spindle nut. By means of this shape of the recesses, the pushed-on spindle nut can be pivoted into an assembled state in which an external thread of the spindle engages in the internal thread of the spindle nut formed by the thread areas. Such a spindle nut enables quick and uncomplicated assembly, in which the nut does not have to be screwed onto the spindle. Screwing the spindle nut onto the spindle in this way would be very time-consuming.

The thread areas of such a spindle nut can be produced / formed directly with this shaping by means of primary shaping processes (for example sintering, casting, extrusion).

According to a preferred embodiment of the invention it is provided that each of the thread areas has an opening angle θ in the range of 90 ° ≤ θ ≤ 180 °. With an opening angle θ in this angular range, there is sufficient thread surface for interaction with the external thread of the spindle. At the same time, this angular range enables convenient and time-saving assembly by tilting the spindle nut onto the spindle and then pivoting the spindle nut into an assembled state in which the internal thread of the spindle nut engages in the external thread of the spindle and the function of the arrangement Spindle and spindle nut of a spindle drive is fully guaranteed.

According to a preferred embodiment of the invention it is provided that the recesses each form a groove, the corresponding thread areas forming the groove base and side walls running parallel to a pivoting plane forming the groove walls to form the respective groove. Such guides support the pivoting of the spindle nut relative to the spindle in the pivoting plane as guides.

According to a further preferred embodiment of the invention, it is provided that the spindle nut is formed in one piece or at least the threaded areas are connected to one another in one piece. Such a spindle nut can be used immediately without any preparatory measures.

Advantage is the spindle nut or at least the part of the spindle nut that integrally connects the threaded areas with each other, a component produced by a master molding process. This component is in particular a component produced by sintering, casting or extrusion.

According to a further preferred embodiment of the invention, it is provided that the spindle nut has at least one radially protruding area with an engagement and / or rear grip structure for transmitting the axial movement of the spindle nut to a component to be moved. The radially protruding area is in particular a radially protruding arm.

In particular, it is provided that the radially protruding area is arranged on one of the sides. The area is preferably arranged on the side of an axle section on which the associated threaded area is also arranged.

The invention further relates to a spindle drive with a spindle and a spindle nut mentioned above. The spindle drive is in particular a spindle drive for an adjusting device Clutch. In such an adjusting device of a clutch, the spindle drive drives an adjusting ring via the engagement and / or rear grip structure of the spindle nut. The spindle has an external thread that fits the internal thread of the spindle nut.

According to a preferred embodiment of the invention, the spindle drive furthermore has a spindle holder and / or a drive pinion. Such spindle drives are known in particular as spindle drives with a spindle holder and drive pinion for an adjusting device of a clutch.

Finally, the invention also relates to a method for mounting an above-mentioned spindle nut on a spindle of a spindle drive, the method comprising the following steps: (a) a tilted pushing of the spindle nut onto the spindle through a channel formed by the recesses of the two axial sections and (b) pivoting the pushed-on spindle nut into an assembled state, in which an external thread of the spindle engages in the internal thread of the spindle nut formed by the thread areas. Such a method enables a quick and uncomplicated assembly of the spindle nut on the spindle, in which the nut does not have to be screwed onto the spindle. Such a screwing of the spindle nut onto the spindle would be very time-consuming.

According to a preferred embodiment of the invention, the arrangement of the spindle and the spindle nut mounted thereon is then inserted into a spindle holder of the spindle drive. The spindle holder or another component of the spindle drive has a guide surface which prevents the nut from pivoting back (tipping back). This prevents loosening of the positive thread connection between the spindle and the spindle nut.

• 1: eine Schnittdarstellung einer Spindelmutter gemäß einer ersten bevorzugten Ausführungsform der Erfindung,
• 2A und 2B: verschiedene Ansichten der in 1 gezeigten Spindelmutter,
• 3A und 3B: Montageschritte zur Montage der in 1 gezeigten Spindelmutter auf eine Spindel eines Spindeltriebs und
• 4: Spindeltrieb und Verstellring (Rampenring) für eine Nachstelleinrichtung einer Kupplung.

In the following, the invention is explained by way of example with reference to the accompanying drawings using preferred exemplary embodiments, the features shown below being able to represent an aspect of the invention both individually and in combination. Show it:

• 1 1 shows a sectional illustration of a spindle nut according to a first preferred embodiment of the invention,
• 2A and 2 B : different views of the in 1 shown spindle nut,
• 3A and 3B : Assembly steps for assembling the in 1 shown spindle nut on a spindle of a spindle drive and
• 4 : Spindle drive and adjusting ring (ramp ring) for adjusting a clutch.

The 1 shows a spindle nut 10 in a sectional view. This spindle nut 10 has an internal thread 12 on which of two shell-shaped thread areas 14 . 16 is formed. These thread areas 14 . 16 are with respect to an axial alignment of the internal thread 12 axially offset from each other in two different axis sections 18 . 20 arranged so that these thread areas 14 . 16 in the assembled state of the spindle nut 10 on opposite sides 22 . 24 one (in the 3A . 3B and 4 shown) in the internal thread 12 lying spindle 26 are arranged. The spindle nut 10 points in each of the intercepts 18 . 20 on the respective thread area 14 . 16 opposite side 24 . 22 a respective material recess 28 . 30 on. These recesses 28 . 30 form a channel 32 to slide on the spindle nut 10 on the spindle 26 from who is in an opposite axis 34 of the internal thread 12 tilted alignment 36 extends. The recesses 28 . 30 continue to extend to each end 38 . 40 the spindle nut 10 , Because of this shape of the recesses 28 . 30 the screwed-on spindle nut 10 be pivoted into an assembled state in which an external thread of the spindle 26 into that from the thread areas 14 . 16 formed internal thread 12 the spindle nut 10 attacks. The recesses 28 . 30 are therefore recesses 28 . 30 to tilt the spindle nut 10 on the spindle 22 and for pivoting the pushed-on spindle nut 10 in the assembled state. Each of the recesses 28 . 30 forms with the imaginary bore of the internal thread 12 one groove each 42 . 44 , with the corresponding thread ranges 14 . 16 the groove base and side walls running parallel to a pivoting plane 46 . 48 the groove walls of the respective groove 42 . 44 form.

Such a spindle nut 10 enables a quick and uncomplicated assembly where the mother 10 not on the spindle 26 must be screwed on. Such screwing on the spindle nut 10 on the spindle 26 to assemble would be very time consuming.

The spindle nut 10 points in one of the intercepts 18 one as an arm 50 trained radially protruding area 52 with an interventional structure 54 for transmitting the axial movement of the spindle nut 10 on a component to be moved, namely the in 4 adjustment ring shown 56 ,

The spindle nut 10 is a one-piece component manufactured by a primary molding process. This component, here the complete spindle nut 10 itself is a component produced by sintering or alternatively by casting or extrusion.

The 2A shows the spindle nut 10 in a view where the from the recess 28 formed groove 42 in one of the axis sections 18 is clearly visible. The spindle nut 10 points in this intercept 18 on the one hand 22 inside the thread area 14 and outside the radially protruding arm 50 on. The thread area 14 forms a groove base and that from one side 22 to the other side 24 mother 10 side walls running parallel to each other 46 . 48 form the groove walls of the groove 42 ,

The 2 B shows the spindle nut 10 in a view where the one from the other recess 30 formed other groove 44 in the other of the intercepts 20 is clearly visible. The spindle nut 10 points in this other intercept 20 on the other hand 24 inside the thread area 16 on. The thread area 16 forms a groove base and that from one side 22 to the other side 24 mother 10 side walls running parallel to each other 46 . 48 form the groove walls of the other groove 44 ,

The 3A and 3B show the two central assembly steps for assembling the in 1 shown spindle nut 10 on the spindle 26 a spindle drive 58 , The spindle drive shown here 58 points next to the spindle 26 and the spindle nut 10 also a non-rotatable with the spindle 26 connected drive pinion 60 at one end of the spindle 26 on.

• Ein in 3A gezeigtes verkipptes Aufschieben der Spindelmutter 10 auf die Spindel 26 durch den von den Ausnehmungen 28, 30 in den beiden Achsabschnitten 18, 20 gebildeten Kanal 32 (Pfeil 62) und ein in 3B gezeigtes Verschwenken (Pfeil 64) der zuvor aufgeschobenen Spindelmutter 10 in einen montierten Zustand, bei dem ein Außengewinde der Spindel 26 in das von den Gewindebereichen 14, 16 gebildete Innengewinde 12 der Spindelmutter 10 greift. Der Kippwinkel der Ausrichtung 36 der Längsachse der Spindel 26 gegenüber der Achse 34 des Innengewindes 12 liegt bei 42° ± 5°.

For mounting a spindle nut mentioned above 10 on a spindle 26 a spindle drive 58 the following steps are planned:

• An in 3A shown tilted sliding of the spindle nut 10 on the spindle 26 by the of the recesses 28 . 30 in the two axis sections 18 . 20 formed channel 32 (Arrow 62 ) and an in 3B shown pivoting (arrow 64 ) of the spindle nut that was previously pushed on 10 in an assembled state in which an external thread of the spindle 26 into that from the thread areas 14 . 16 formed internal thread 12 the spindle nut 10 attacks. The tilt angle of the alignment 36 the longitudinal axis of the spindle 26 opposite the axis 34 of the internal thread 12 is 42 ° ± 5 °.

Such a quick and easy assembly of the spindle nut 10 on the spindle 26 unscrews the nut 10 on the spindle 26 superfluous. The shape of the mother 10 is chosen so that there is a sufficiently large opening between the thread areas 14 . 16 is available. Then becomes the mother 10 to the spindle 26 swiveled (tilted), there are the thread forms from nut 10 and spindle 26 , Then the arrangement of spindle 26 and mounted spindle nut 10 in a spindle holder 66 of the spindle drive 58 used.

4 shows the spindle drive 58 in addition to an adjustment ring (ramp ring) 56 an adjusting device for a clutch, not shown, of a vehicle. The spindle drive 58 points the spindle 26 who have favourited Spindle Nut 10 , the drive pinion 60 and the spindle bracket 66 on. The spindle nut 10 engages with the engagement structure 54 on the arm 50 into a recess designed as a breakthrough 68 in the adjustment ring 56 on.

An additional guide transverse to the axial direction of the coupling device is by a parallel to the spindle drive 58 arranged guide surface 70 possible, for example on the spindle holder 66 is trained. Furthermore, the spindle nut 10 formed in such a way that one of the adjustment rings is adjusted for wear 56 counterforce exerted (arrow 72 ) a positive engagement between the thread areas and the spindle 26 amplifying torque (arrow 74 ) on the spindle nut 10 exercises.

Is the spindle 26 with the mother 10 in the holder 66 can be used through the at least one guide surface 70 a swinging back (tilting back) of the mother 10 be prevented. Loosening the positive thread connection between the internal thread 12 and external thread is prevented.

The drag on the mother 10 is oriented so that the thread forms interact optimally during the readjustment movement (during operation).

For a complete description of the adjustment device (not shown as a whole) of the friction clutch, its mode of operation is briefly outlined again by way of example below. For details on the general functioning of the adjusting device, please refer to the one mentioned at the beginning WO 2009/056092 A1 directed.

In order to compensate for axial wear of friction linings of the clutch as well as other similar effects, which cause an axial gap between the counterpressure plate and the pressure plate, such as loss of setting, and to operate a disc spring over its life in the same, force-optimized position as the position between the pressure plate and the clutch housing the adjusting ring (ramp ring) arranged between the plate spring and the pressure plate 56 twisted until the gap is compensated. This adjustment ring 56 is provided with complementary counter ramps of corresponding ramps aligned in the circumferential direction.

In the event of wear, this ring is driven by the spindle drive 58 twisted. After wear has been detected, a drive pawl engages positively in the external teeth of the pinion 60 on. The pinion rotates during an actuating movement of the pressure plate relative to the clutch housing 60 and thus the spindle drive 58 by means of on the spindle 26 arranged spindle nut 10 the adjusting ring 56 , Wear is detected by the fact that in the actuation path that is increased due to the shortage, the otherwise on an external teeth of the pinion 60 sliding drive pawl snaps into the external teeth.

LIST OF REFERENCE NUMBERS

10

spindle nut

12

inner thread

14

threaded portion

16

threaded portion

18

intercept

20

intercept

22

page

24

page

26

spindle

28

recess

30

recess

32

channel

34

axis

36

alignment

38

The End

40

The End

42

groove

44

groove

46

Side wall

48

Side wall

50

poor

52

Area

54

engagement structure

56

adjusting

58

spindle drive

60

pinion

62, 64

arrow

64

arrow

66

spindle mount

68

recess

70

guide surface

72, 74

arrow

Claims (10)

Spindle nut (10) for mounting on a spindle (26) of a spindle drive (58), the spindle nut (10) having an internal thread (12), characterized in that the internal thread (12) is formed by shell-shaped thread areas (14, 16) which, with respect to an axial alignment of the internal thread (12), are axially offset from one another in two different axial sections (18, 20) and in the assembled state of the spindle nut (10) on opposite sides (22, 24) of the spindle (26), wherein the spindle nut (12) has a recess (28, 30) in each of the axle sections (18, 20) on the side (24, 22) opposite the respective thread area (14, 16) for tilting the spindle nut (10) onto the spindle ( 26) and for pivoting the pushed-on spindle nut (10) into the state mounted on the spindle (26). Mother after Claim 1 , characterized in that each of the threaded areas (14, 16) has an opening angle θ in the range of 90 ° ≤ θ ≤ 180 °. Mother after Claim 1 or 2 , characterized in that the recesses (28, 30) each form a groove (42, 44), the corresponding threaded areas (14, 16) forming the groove base and side walls (46, 48) of the nut running parallel to a pivoting plane. 10) form the groove walls to form the respective groove (42, 44). Mother one of the Claims 1 to 3 , characterized in that the spindle nut (10) is formed in one piece or at least the threaded areas (14, 16) are integrally connected to one another. Mother after Claim 4 , characterized in that the spindle nut (10) or at least the part of the spindle nut (10) which connects the threaded regions (14, 16) to one another in one piece is a component produced by an original molding process. Mother after one of the Claims 1 to 5 , characterized by at least one radially protruding area with an engagement and / or rear grip structure (54) for transmitting the axial Movement of the spindle nut (10) on a component to be moved. Mother after one of the Claims 1 to 6 , characterized in that the radially projecting region (52) is arranged on one of the sides (22, 24). Spindle drive with a spindle (26) and a spindle nut (10) according to one of the Claims 1 to 7 , Spindle drive after Claim 8 , characterized by a spindle holder (66) and / or a drive pinion (60). Method of assembling a spindle nut (10) according to one of the Claims 1 to 7 on a spindle (26) of a spindle drive, characterized by the following steps: - tilted pushing of the spindle nut (10) onto the spindle (26) through a channel (18, 20) formed by the recesses (28, 30) of the two axle sections (18, 20) 32) and - pivoting of the pushed-on spindle nut (10) into an assembled state in which an external thread of the spindle (26) engages in the internal thread (12) of the spindle nut (10) formed by the thread areas (14, 16).

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