DE102018212199A1 - multi-plate clutch - Google Patents

Abstract

The invention relates to a multi-plate clutch for a drive train leading to vehicle wheels of a vehicle, with a radially outer, hollow-cylindrical outer plate carrier (20) and a radially inner inner plate carrier (10), between which a clutch pack (24) with alternately layered outer and inner plates ( 13, 22) is arranged, each of which is axially displaceable on an inner toothing (21) of the outer disk carrier (20) or on an outer toothing (12) of the inner disk carrier (10), with the multi-plate clutch being assigned a parking lock (P) which in inserted state (SZ) blocks the vehicle wheels and in the disengaged state (FZ) releases the vehicle wheels. According to the invention, the inner disk carrier (10) or the outer disk carrier (20) for forming the parking lock (P) has a locking toothing (11, 12, 21, 23) which interacts with a pawl (40) of the parking lock (P) State (SZ) of the pawl (40) in toothed engagement with the locking toothing (11, 12, 21, 23) of the inner or outer disk carrier (10, 20), and in the designed state (FZ) the pawl (40) apart from toothed engagement the locking teeth (11, 12, 21, 23) of the inner or outer disk carrier (10, 20).

Description

The invention relates to a multi-plate clutch, in particular for a motor vehicle, according to the preamble of claim 1.

In modern motor vehicles, in addition to a parking brake, which preferably acts on the rear wheels, an additional parking brake is often also provided, which secures the motor vehicle against rolling away. Such a parking brake is usually arranged in the transmission of the motor vehicle and acts on a component in the transmission that is connected directly to the wheels of an axle. This component is usually the output shaft of the transmission.

For such a parking brake, an additional gear wheel, the parking lock wheel, is provided on the output shaft, in whose toothing a parking lock pawl engages, which prevents the output shaft from rotating relative to the gear housing. These known parking brake systems have the disadvantage that the parking lock wheel must be accommodated on the output shaft, as a result of which the installation space for such a transmission increases in the axial direction and the overall vehicle mass. In addition, such a transmission has an increased manufacturing and cost expenditure and an increased inertia mass of the output shaft.

DE 100 29 628 A1 describes a torque transmission device with an overload-protected parking lock, the maximum parking brake torque being set via an axially preloaded multi-plate clutch.

DE 10 2006 046 712 A1 describes a generic parking lock device for a motor vehicle, wherein a pawl engages in an external toothing of a component on the output shaft of a transmission or in a parking lock gear with an external toothing.

The object of the invention is to provide a multi-plate clutch which is of compact design with little production and cost expenditure and has a low mass of inertia.

The object is solved by the features of claim 1. Preferred developments of the invention are disclosed in the subclaims.

According to the characterizing part of patent claim 1, the multi-plate clutch for forming the parking lock on the inner disk carrier or on the outer disk carrier has a locking toothing which interacts with a pawl of the parking lock. When inserted, the pawl meshes with the locking teeth of the inner or outer disk carrier. In the designed state, the pawl is out of mesh with the locking teeth of the inner or outer disk carrier.

The inner or outer disk carrier is preferably connected to a driving shaft or an output shaft via a connecting flange which extends radially inwards.

In a preferred embodiment, the outer disk carrier and the inner disk carrier are arranged in a clutch housing and / or the locking teeth of the parking lock are arranged on the outer circumference of the outer disk carrier. In particular, a first installation space is provided in the radial direction between the outer disk carrier and the clutch housing, in which the pawl is at least partially arranged.

Alternatively, the locking teeth are arranged on the inner circumference of the outer disk carrier and the inner teeth of the outer disk carrier are extended to form the locking teeth with an axial projection in the axial direction beyond the clutch pack. Particularly preferably, a second space is provided between the inner and outer plate carrier and a third space is provided between the inner and outer plate carrier and the housing, in which the pawl is at least partially arranged, in particular axially adjacent to the clutch pack.

The inner disk carrier is preferably of hollow cylindrical design and / or delimits a radially inner fourth installation space in which the pawl is at least partially arranged. Alternatively or optionally, the locking teeth can be formed on the inner circumference of the inner disk carrier.

In a further preferred exemplary embodiment, the locking teeth are arranged on the outer circumference of the inner disk carrier and in particular the outer teeth of the inner disk carrier are extended to form the locking teeth with an axial protrusion in the axial direction beyond the clutch pack. Particularly preferably, a second space is provided between the inner and outer plate carrier and a third space is provided between the inner and outer plate carrier and the housing, in which the pawl is at least partially arranged, in particular axially adjacent to the clutch pack.

The locking toothing formed on the outer circumference of the outer disk carrier is preferably arranged in radial alignment with the inner toothing of the outer disk carrier, that is to say without axial offset between the locking toothing and the inner toothing.

The locking toothing formed on the inner periphery of the inner disk carrier is preferably arranged in radial alignment with the outer toothing of the inner disk carrier, that is to say without axial offset between the locking toothing and the outer toothing.

In a further exemplary embodiment, the inner disk carrier and / or the outer disk carrier is produced as a deep-drawn sheet metal part in a sheet metal forming process, the deep-drawn sheet metal part having a cylindrical peripheral wall. In the manufacture of the inner disk carrier, the external toothing is embossed into the cylindrical peripheral wall, to be precise with the formation of a corresponding external toothing negative shape on the inner circumference of the inner disk carrier. Alternatively or optionally, the internal toothing is embossed into the cylindrical peripheral wall of the sheet metal part in the manufacture of the outer disk carrier, specifically to form a corresponding internal toothing negative shape on the outer periphery of the inner disk carrier. In particular, the internal toothing negative form and / or the external toothing negative form forms the locking toothing for the parking lock.

The locking pawl preferably has two or more locking teeth which engage in two or more tooth gaps of the internal or external toothing.

Exemplary embodiments of the invention are described below with reference to the attached figures.

• 1 in einer schematischen Schnittansicht ein erstes Ausführungsbeispiel einer erfindungsgemäßen Lamellenkupplung mit einer erfindungsgemäßen Parksperre,
• 2 in einer weiteren schematischen Schnittansicht das erste Ausführungsbeispiel der erfindungsgemäßen Lamellenkupplung,
• 3 in einer schematischen Schnittansicht ein zweites Ausführungsbeispiel der erfindungsgemäßen Lamellenkupplung mit der erfindungsgemäßen Parksperre,
• 4 in einer weiteren schematischen Schnittansicht das zweite Ausführungsbeispiel der erfindungsgemäßen Lamellenkupplung,
• 5 in einer schematischen Schnittansicht ein drittes Ausführungsbeispiel der erfindungsgemäßen Lamellenkupplung mit der erfindungsgemäßen Parksperre,
• 6 in einer weiteren schematischen Schnittansicht das dritte Ausführungsbeispiel der erfindungsgemäßen Lamellenkupplung,
• 7 in einer schematischen Schnittansicht ein viertes Ausführungsbeispiel der erfindungsgemäßen Lamellenkupplung mit der erfindungsgemäßen Parksperre,
• 8 in einer weiteren schematischen Schnittansicht das vierte Ausführungsbeispiel der erfindungsgemäßen Lamellenkupplung, und
• 9 in einer schematischen Schnittansicht ein weiteres Ausführungsbeispiel der erfindungsgemäßen Parksperre in der erfindungsgemäßen Lamellenkupplung.

Show it:

• 1 a schematic sectional view of a first embodiment of a multi-plate clutch according to the invention with a parking lock according to the invention,
• 2 in a further schematic sectional view the first embodiment of the multi-plate clutch according to the invention,
• 3 a schematic sectional view of a second embodiment of the multi-plate clutch according to the invention with the parking lock according to the invention,
• 4 in a further schematic sectional view the second embodiment of the multi-plate clutch according to the invention,
• 5 a schematic sectional view of a third embodiment of the multi-plate clutch according to the invention with the parking lock according to the invention,
• 6 in a further schematic sectional view the third embodiment of the multi-plate clutch according to the invention,
• 7 a schematic sectional view of a fourth embodiment of the multi-plate clutch according to the invention with the parking lock according to the invention,
• 8th in a further schematic sectional view the fourth embodiment of the multi-plate clutch according to the invention, and
• 9 In a schematic sectional view, another embodiment of the parking lock according to the invention in the multi-plate clutch according to the invention.

1 shows a schematic sectional view of a first embodiment of the multi-plate clutch according to the invention, which to a longitudinal axis 1 rotationally symmetrical and in one housing 70 is arranged. The multi-plate clutch includes an outer plate carrier 20 , which via a radially inwardly extending connecting flange 60 with a wave 61 connected is. Radially inside the outer disk carrier 20 is an inner disk carrier 10 arranged, via a radially inwardly extending connecting flange 50 with a wave 51 connected is. The wave 51 and the wave 61 run coaxially to each other and between the outer disk carrier 20 and the inner disk carrier 10 is a clutch pack 24 arranged, the several outer slats alternately layered in the axial direction 22 and inner slats 13 having. The outer slats 22 are in an internal toothing 21 of the outer disk carrier 20 Slidably mounted in the axial direction. The inner slats 13 are in an external toothing 12 of the inner disk carrier 10 Slidably mounted in the axial direction.

In addition, the clutch pack has 24 a printing plate 30 on under a force in the axial direction and in the direction of the outer slats 22 and inner slats 13 can be moved, whereby the multi-plate clutch is closed. The wave 51 is frictionally engaged with the shaft when the multi-plate clutch is closed 61 connected.

Between the housing 70 and the outer circumference of the outer disk carrier 20 is a parking lock according to the invention P housed for their placement between the housing 70 and the outer circumference of the outer disk carrier 20 a radially extending installation space 71 is provided. The parking lock P includes a bracket 41 and one on the bracket 41 pivoting pawl 40 that at least in part of the external toothing 23 , the locking teeth, the outer plate carrier 20 engages and the outer disk carrier 20 thereby against rotation about the longitudinal axis 1 blocked. The locking teeth are in radial alignment with the internal gearing 21 arranged and there is no axial offset between the locking teeth and the internal teeth 21 , The bracket 41 is on the housing 70 attached and the inner disk carrier 10 can also have internal teeth 11 exhibit.

2 shows in a schematic sectional view AA perpendicular to the longitudinal axis 1 the first embodiment of the multi-plate clutch according to the invention. In an inserted condition SZ there is a ratchet tooth 43 the pawl 40 almost form-fitting with the external toothing 23 meshes with teeth and blocks the rotation of the outer disk carrier 20 , especially in the direction of rotation 2 to the longitudinal axis 1 , By turning the pawl 40 about an axis of rotation 42 can the pawl 40 from the inserted state SZ in an interpreted state FZ (shown in dashed lines) and the rotation of the outer disk carrier 20 around the longitudinal axis 1 be released.

3 shows a schematic sectional view of a second embodiment of the multi-plate clutch according to the invention. The second exemplary embodiment differs from the first exemplary embodiment in that the parking lock according to the invention P at least in part of the internal toothing 21 of the outer disk carrier 20 , the locking teeth, engages. For housing the parking lock P is the external toothing 21 by an axial protrusion Δx ₂ in the axial direction and to the parking lock P towards the clutch pack 24 extended beyond. The parking lock P is axially spaced from the clutch pack 24 arranged.

For housing the parking lock P becomes a space 72 needed, which is in the axial direction between the inner disk carrier 10 and the outer disk carrier 20 as well as the housing 70 located. In addition, there is an installation space 73 needed, which is between the inner disk carrier 10 and the outer disk carrier 20 extends. In addition, the internal toothing 21 of the outer disk carrier 20 in the axial direction via the clutch pack 24 through the axial projection Δx ₂ extended.

4 shows in a schematic sectional view AA the second embodiment of the multi-plate clutch according to the invention. The ratchet tooth is in the inserted state SZ 43 the pawl 40 with the internal toothing 21 almost form-fitting in tooth engagement and blocks the outer disk carrier 20 against rotation, especially in the direction of rotation 2 to the longitudinal axis 1 , By turning the pawl 40 about the axis of rotation 42 can the pawl 40 from the inserted state SZ in the designed state FZ (shown in dashed lines) and a rotation of the outer disk carrier 20 around the longitudinal axis 1 be released.

In the first and in the second exemplary embodiment, the outer disk carrier is 20 a deep-drawn sheet metal part, which was produced in a sheet metal forming process. The outer disk carrier 20 thereby has a hollow cylindrical shape with a cylindrical peripheral wall and an external toothing embossed in the cylindrical peripheral wall during the forming process 23 on. As a result of the forming process, an inner toothing is additionally formed on the inner circumference of the cylindrical circumferential wall 23 Corresponding external toothing negative form, an internal toothing 21 of the outer disk carrier 20 , out.

The outer disk carrier 20 is on the shaft in the first and second embodiments 61 , the output shaft, rotatably connected to at least one vehicle wheel of a motor vehicle. By blocking the rotation of the outer disk carrier 20 around the longitudinal axis 1 the motor vehicle is thus secured against rolling away. In addition, the inner disk carrier 10 over the wave 52 , the driving shaft, connected to a drive motor of the motor vehicle.

5 shows a schematic sectional view of a third embodiment of the multi-plate clutch according to the invention, which differs from the first embodiment in that the parking lock according to the invention P on the inner circumference of the inner disk carrier 10 is arranged. The inner disk carrier 10 is of hollow cylindrical design and delimits a construction space which extends radially inwards 74 who is responsible for housing the parking lock P is provided. The parking lock P engages at least in part of the internal toothing 11 of the inner disk carrier 10 , the locking teeth, and blocks the inner disk carrier 10 against rotation, especially in the direction of rotation 2 to the longitudinal axis 1 ,

6 shows in a schematic sectional view AA perpendicular to the longitudinal axis 1 the third embodiment of the multi-plate clutch according to the invention. The bracket 41 on the pawl 40 is rotatably attached, is fixed to the housing 70 clamped. When inserted SZ the ratchet tooth engages 43 the pawl 40 almost form-fitting in the internal toothing 11 one, which serves as locking teeth in this embodiment, and blocks the inner disk carrier 10 against rotation around the longitudinal axis 1 , By turning the pawl 40 about the axis of rotation 42 can the pawl 40 from the inserted state SZ in the designed state FZ (shown in dashed lines) and thus the inner disk carrier 10 for a rotation around the longitudinal axis 1 be released.

7 shows a schematic sectional view of a fourth embodiment of the multi-plate clutch according to the invention, which differs from the first embodiment in that the parking lock according to the invention P at least in part of the external toothing 12 of the inner disk carrier 10 , the locking toothing, engages and thereby by a rotation, in particular in the direction of rotation 2 to the longitudinal axis 1 blocked. The locking teeth are in radial alignment with the internal teeth 11 arranged and there is no axial offset between the locking teeth and the internal teeth 11 , For housing the parking lock P is the external toothing 12 by an axial protrusion Δx ₁ in the axial direction and to the parking lock P towards the clutch pack 24 extended beyond. In addition are in the housing 70 the installation space 72 in the axial direction and the installation space 73 in the radial direction between the outer disk carrier 20 and the inner disk carrier 10 intended.

8th shows in a schematic sectional view AA the fourth embodiment of the multi-plate clutch according to the invention. When inserted SZ stands the ratchet tooth 43 the pawl 40 almost form-fitting in mesh with the external teeth 12 and the inner disk carrier 10 is against rotation about the longitudinal axis 1 blocked. By turning the pawl 40 about the axis of rotation 42 can the pawl 40 from the inserted state SZ in the designed state FZ (shown in dashed lines) and the rotational movement of the inner disk carrier 10 around the longitudinal axis 1 be released.

In the third and fourth exemplary embodiments, the inner disk carrier is 10 a deep-drawn sheet metal part, which was produced in a sheet metal forming process. The inner disk carrier 10 thereby has a hollow cylindrical shape with a cylindrical peripheral wall and an external toothing embossed in the cylindrical peripheral wall during the forming process 12 on. As a result of the forming process, an inner toothing is additionally formed on the inner circumference of the cylindrical circumferential wall 12 Corresponding external toothing negative form, an internal toothing 11 of the inner disk carrier 10 , out.

The inner disk carrier 10 is on the shaft in the third and fourth embodiments 51 , the output shaft, be rotatably connected to at least one vehicle wheel of a motor vehicle. By blocking the rotation of the inner disk carrier 20 around the longitudinal axis 1 the motor vehicle is thus secured against rolling away. In addition, the outer disk carrier 20 over the wave 61 , the driving shaft, connected to a drive motor of the motor vehicle.

9 shows in a sectional view AA a further embodiment of the parking lock according to the invention P , The pawl 40 has two ratchet teeth 43 on that in two adjacent tooth gaps 25 the external toothing 12 of the inner disk carrier 10 intervene almost positively and so the inner disk carrier 10 on a rotation around the longitudinal axis 1 , especially in the direction of rotation 2 prevent. By providing two ratchet teeth 43 on the pawl 40 the tooth load is in the inserted state SZ the parking lock P for each individual ratchet tooth 43 reduced, causing the pawl 40 can be dimensioned more compact overall.

QUOTES INCLUDE IN THE DESCRIPTION

This list of documents listed by the applicant has been generated automatically and is only included 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.

Patent literature cited

• DE 10029628 A1 [0004]
• DE 102006046712 A1 [0005]

Claims (10)

Multi-plate clutch for a drive train leading to vehicle wheels of a vehicle, with a radially outer, hollow-cylindrical outer plate carrier (20) and a radially inner inner plate carrier (10), between which a clutch pack (24) with alternately layered outer and inner plates (13, 22) in the axial direction is arranged, each of which is axially displaceable on an internal toothing (21) of the outer disk carrier (20) or on an outer toothing (12) of the inner disk carrier (10), the multi-plate clutch being assigned a parking lock (P) which, in the inserted state (SZ ) the vehicle wheels are blocked and the vehicle wheels are released in the designed state (FZ), characterized in that the inner disk carrier (10) or the outer disk carrier (20) has locking teeth (11, 12, 21, 23) to form the parking lock (P), which interacts with a pawl (40) of the parking lock (P), and that in the inserted state (SZ) Locking pawl (40) is in toothed engagement with the locking teeth (11, 12, 21, 23) of the inner or outer disk carrier (10, 20), and in the designed state (FZ) the locking pawl (40) is not meshed with the locking teeth (11, 12, 21, 23) of the inner or outer disk carrier (10, 20). Multi-plate clutch after Claim 1 , characterized in that the inner or outer disk carrier (10, 20) is connected via a radially inwardly extending connecting flange (50, 60) to a driving shaft (51) or an output shaft (61). Multi-plate clutch according to one of the Claims 1 or 2 , characterized in that the outer disk carrier (20) and the inner disk carrier (10) are arranged in a clutch housing (70), and / or that the locking teeth (23) of the parking lock (P) are arranged on the outer circumference of the outer disk carrier (20), and that in particular in the radial direction between the outer disk carrier (20) and the clutch housing (70) a first installation space (71) is provided, in which the pawl (40) is at least partially arranged. Lamellar support after Claim 3 , characterized in that the locking toothing (12) is arranged on the outer circumference of the inner disk carrier (10), and in particular that the outer toothing (12) of the inner disk carrier (10) to form the locking toothing (12) with an axial projection (Δx ₁ ) in the axial direction is extended beyond the clutch pack (24) and that in particular between the inner and outer plate carrier (10, 20) a third space (73) and in each case between the inner and outer plate carrier (10, 20) and the housing (70) fourth installation space (74) is provided, in which the pawl (40) is arranged at least partially, in particular axially adjacent to the clutch pack (24). Lamellar support after Claim 3 , characterized in that the locking toothing (21) is arranged on the inner circumference of the outer disk carrier (20), and in particular that the inner toothing (21) of the outer disk carrier (20) forms the locking toothing (21) with an axial projection (Δ _X2 ) in the axial direction is extended beyond the clutch pack (24) and that in particular between the inner and outer plate carrier (10, 20) a third space (73) and in each case between the inner and outer plate carrier (10, 20) and the housing (70) fourth installation space (74) is provided, in which the pawl (40) is arranged at least partially, in particular axially adjacent to the clutch pack (24). Multi-plate clutch after Claim 3 , characterized in that the inner disk carrier (10) is hollow cylindrical and / or delimits a radially inner second installation space (72) in which the pawl (40) is at least partially arranged, and / or that on the inner circumference of the inner disk carrier (10) Locking toothing (11) is formed. Multi-plate clutch after Claim 3 , characterized in that the locking toothing (23) formed on the outer periphery of the outer disk carrier (20) is arranged in radial alignment with the inner toothing (21) of the outer disk carrier (20), that is to say without axial offset between the locking toothing (23) and the inner toothing (21) , Multi-plate clutch after Claim 6 , characterized in that the locking toothing (12) formed on the inner circumference of the inner disk carrier (10) is arranged in radial alignment with the outer toothing (11) of the inner disk carrier (10), that is to say without axial offset between the locking toothing (12) and the outer toothing (11) , Multi-plate clutch according to one of the preceding claims, characterized in that the inner plate carrier (10) and / or the outer plate carrier (20) are produced as a deep-drawn sheet metal part in a sheet metal forming process, and that the deep-drawn sheet metal part has a cylindrical peripheral wall, and that in the Production of the inner disk carrier (10), the external toothing (12) can be impressed into the cylindrical circumferential wall, specifically with the formation of a corresponding external toothing negative shape on the inner circumference of the inner disk carrier (10), and / or that the internal toothing is produced during the production of the outer disk carrier (20) (21) can be impressed into the cylindrical peripheral wall of the sheet metal part, to form a corresponding one Internal toothing negative form on the outer circumference of the inner disk carrier (10), and that in particular the inner toothing negative form (21) and / or the outer toothing negative form (11) forms the locking toothing for the parking lock (P). Multi-plate clutch according to one of the preceding claims, characterized in that the pawl (40) has two or more locking teeth (43) which engage in two or more tooth gaps (25) of the internal or external teeth (11, 12, 21, 23) ,

Images