This application is based on and claims priority to German Application No. DE102013002379.3, filed on Feb. 6, 2013 and German Application No. DE102013204921.8, filed on Mar. 20, 2013 in Germany, which are both hereby incorporated by reference in their entirety.
The present disclosure relates generally to distribution gearboxes that are operable for distributing drive torque produced by a drive unit of a motor vehicle to a first axle and a second axle of the motor vehicle.
The statements in this section merely provide background information related to the present disclosure and may not necessarily constitute prior art.
Distribution gearboxes, commonly referred to as transfer gearboxes, are gearboxes that are operable for splitting a drive torque produced by the drive unit of a motor vehicle to a plurality of outputs. Transfer gearboxes of this type are typically used in motor vehicles having a drivetrain configured to provide either permanent or switchable four-wheel or all-wheel drive modes of operation. Such transfer gearboxes are typically operable to distribute the drive torque produced by the drive unit to two driven axles of the vehicle, the distribution being predefined or capable of being freely selected depending on the particular design of the transfer gearbox. In order for it to be possible to control the transmission and distribution of drive torque to the two axles of the motor vehicle, a clutch unit is provided which, for example, affords the option to the driver of the motor vehicle to select between a first or permanent two-wheel drive mode, in which the drive of the vehicle takes place exclusively via a primary axle, and a second or automatic four-wheel drive mode, which is also known as an “on-demand drive mode”. In this second mode, a certain proportion of the drive torque is transmitted to the wheels of the other axle (a secondary axle) depending on the driving conditions, in order to provide temporary four-wheel drive.
EP 1 582 777 A2 discloses a distribution gearbox equipped with a chain sprocket. The chain sprocket is mounted by means of a dedicated bearing with respect to the housing.
The centre differential for a vehicle with four-wheel drive in accordance with DE 38 05 284 A1 has an input shaft, a clutch and a chain sprocket, the latter being mounted on both sides in a manner which is fixed to the housing. DE 37 05 064 A1 also discloses a mounting of this type.
The distribution gearbox of US 2008/308354 A1 discloses a mounting of the chain sprocket on the input shaft by means of radial needle bearings.
DE 10 2007 057 984 A1 describes a distribution gearbox with a chain drive and a clutch. Lubricant is delivered by a delivery device from an oil sump which lies below the chain drive into regions which are situated above.
This section provides a general summary of the disclosure and is not intended to be a comprehensive disclosure of its full scope or all of its features, aspects and objectives.
It is an object of the present disclosure to provide a distribution gearbox in a form which is improved with respect to the known solutions.
This object is achieved by a distribution gearbox configured and operable for distributing a drive torque produced by a drive unit of a motor vehicle to a first axle and a second axle of the motor vehicle, and which includes a housing, an input shaft, a clutch unit which is seated coaxially with respect to the input shaft, and a chain sprocket associated with a power transfer mechanism which can be driven by the clutch unit and by way of which a drive movement of the input shaft can be transmitted through the power transfer mechanism to an output shaft, and wherein the chain sprocket is mounted on a neck-shaped reduced portion of the housing.
Furthermore, the function and construction of a distribution gearbox and a transfer gearbox are described first of all, in which the present invention is preferably used.
Further areas of applicability will become apparent from the detailed description provided herein. The description and specific examples in this summary are intended for purposes of illustration only and are not intended to limit the scope of the present disclosure.
The drawings described herein are for illustrative purposes only of selected embodiments and not all possible embodiments and/or implementation covered by the present disclosure, it being understood that the drawings are not intended to limit the scope of the present disclosure.
The following description is merely exemplary in nature and is not intended to limit the present disclosure, its applications, configurations or uses. It should be understood that throughout the drawings, corresponding reference numerals indicate similar or corresponding parts and features.
The present disclosure is generally related to distribution gearboxes, otherwise known and referred to as transfer gearboxes or transfer cases, of the type adapted for use in a drivetrain of a motor vehicle for distributing drive torque produced by a drive unit to a first or primary axle and a second or secondary axle. The transfer gearbox may include an input shaft driven by the power unit, a first output shaft arranged to transfer drive torque from the input shaft to the first axle, a second output shaft drivingly connected to the second axle, a power transfer mechanism drivingly connected to the second output shaft, and a clutch unit that can be selectively or automatically actuated to connect one of the input shaft and the first output shaft to the power transfer mechanism for transferring a portion of the drive torque to the second axle.
Accordingly, the present disclosure is generally related to transfer gearboxes of the type adapted for use in the all-wheel drive or four-wheel drive drivetrains of motor vehicles. The present disclosure is furthermore generally directed to an arrangement for rotatably mounting a rotary component of the power transfer mechanism on a neck-shaped hub portion of a housing associated with the transfer gearbox. The present disclosure is furthermore generally directed to arrangements for lubricating rotary components associated with the transfer gearbox.
With reference now to the drawings,
In accordance with the embodiment of transfer gearbox 15 shown in
By way of actuation of clutch unit 47 via actuation of clutch actuator 51 in the engaging direction of friction clutch 49, an increasing proportion of the drive torque which is introduced into transfer gearbox 15 via input shaft 41 can be transmitted via power transfer mechanism 59 to second output shaft 45.
If, however, clutch unit 47 is open and friction clutch 49 is released, the components of drivetrain 10 which are assigned to second output shaft 45 also rotate during driving of the motor vehicle, although no drive torque is transmitted via this portion of drivetrain 10. In order to prevent this, disconnect clutch 63 which has already been mentioned in the above text is provided at front axle 31 (secondary axle). If disconnect clutch 63 is opened in the case of an open clutch unit 47, that portion of drivetrain 10 which lies in between is brought to a standstill, which ultimately prevents chain drive assembly 59 from also being rotated unnecessarily. This method of operation is also called the disconnect mode.
Disconnect clutch 63 may be, for example, a claw clutch. It can be provided that disconnect clutch 63 is assigned a dedicated control unit. It is advantageous in many cases, however, if clutch unit 47 and disconnect clutch 63 are actuated by a common control unit.
Mainshaft 42 has its input shaft portion 41 supported at the gearbox output via a centering seat 74. Here, the output of main gearbox 13 is to be understood to mean the output shaft of a gearbox which is to be shifted manually or automatically. The gearbox output shaft will have a splined portion with external splines sized to engage internal splines 75 formed in a corresponding shaft cavity 77, and a non-splined portion adapted to be retained in centering seat 74, thereby supporting mainshaft 42 on the input side portion 41. As a result, an input-shaft bearing assembly (typically located on the left between input shaft 41 and first housing section 67) can be omitted as shown in the embodiment illustrated. It can also be provided in accordance with a further embodiment to arrange a small, radial supporting bearing which is considerably reduced in comparison to an otherwise customary size at this point between first housing section 67 of housing 65 and input shaft 41.
With continued reference to
The actuator system associated with clutch unit 47 requires axial support. In the exemplary embodiment of
In accordance with the following, the lubricating function associated with transfer gearbox 15 will now be described. In the state in accordance with
A baffle plate 101 defines a small oil reservoir 103 in conjunction with a housing rib portion 105 of first housing section 67, which oil reservoir 103 is filled by oil sprayed off of chain 62 in response to rotation of drive gearwheel 57. Oil can flow through a supply bore 107 formed in inlet neck portion 83 and into an intermediate space 109 formed between input shaft portion 41 of mainshaft 42 and first housing section 67 and enclosed by a sealing ring 111. If space 109 surrounding input shaft portion 41 is filled with oil, both radial needle bearing 85 and axial needle bearing 91 are supplied with oil. A deflection plate 113 which rotates with chain sprocket 57 divides the oil supply for the two needle bearings 85 and 91. Furthermore, under centrifugal force, deflection plate 113 produces an accumulation space which backs up the oil as far as the inner edge and also forces the oil into axial needle bearing 91 counter to the centrifugal force. The lubrication of radial needle bearing 85 from the inside to the outside also ensures that frictional corrosion does not occur, since needle bearing 85 can be supplied sufficiently with oil.
The lubrication in the disconnect mode—all-wheel drive function not present, chain 62 and chain sprocket 57 are at a standstill wherein
In the disconnect mode—chain sprocket 57 is at a standstill—, it is not necessary to supply oil to radial needle bearing 85. Another small oil reservoir 115 is formed in the lower region as a result of deflection plate 113, which small oil reservoir 115 supplies the needles of axial needle bearing 91 for a relatively long time with a small quantity of oil. As long as oil reservoir 103 (formed by baffle plate 101—the underside is shown here in accordance with
In the version of transfer gearbox 15 constructed in accordance with
Number | Date | Country | Kind |
---|---|---|---|
10 2013 002 379 | Feb 2013 | DE | national |
10 2013 204 921 | Mar 2013 | DE | national |
Number | Name | Date | Kind |
---|---|---|---|
2726557 | Ackerman | Dec 1955 | A |
2740304 | Sheppard | Apr 1956 | A |
2857780 | Ball | Oct 1958 | A |
2932977 | Ball | Apr 1960 | A |
3103831 | De Corte | Sep 1963 | A |
3407893 | Hill | Oct 1968 | A |
3714836 | Pierce, Jr. | Feb 1973 | A |
4431073 | Nagao | Feb 1984 | A |
4444073 | Moroto | Apr 1984 | A |
4718303 | Fogelberg | Jan 1988 | A |
4848508 | Smirl | Jul 1989 | A |
5044892 | Pettitt | Sep 1991 | A |
5083986 | Teraoka | Jan 1992 | A |
5651749 | Wilson | Jul 1997 | A |
5665020 | Kamada | Sep 1997 | A |
5702321 | Bakowski | Dec 1997 | A |
5704867 | Bowen | Jan 1998 | A |
5718653 | Showalter | Feb 1998 | A |
5856709 | Ibaraki | Jan 1999 | A |
5915513 | Isley, Jr. et al. | Jun 1999 | A |
8277359 | Sakaue | Oct 2012 | B2 |
20020137591 | Frost | Sep 2002 | A1 |
20080308354 | Gratzer et al. | Dec 2008 | A1 |
20090215567 | Iwasaki | Aug 2009 | A1 |
Number | Date | Country |
---|---|---|
1513692 | Jul 2004 | CN |
101445055 | Jun 2009 | CN |
102414481 | Apr 2012 | CN |
3705064 | Feb 1988 | DE |
3805284 | Sep 1988 | DE |
102007057984 | Jun 2009 | DE |
1582777 | Oct 2005 | EP |
1415872 | Dec 1975 | GB |
2686290 | Dec 1997 | JP |
1019990023682 | Mar 1999 | KR |
1020100007783 | Jan 2010 | KR |
1020100118453 | May 2010 | KR |
Entry |
---|
Search Report dated Nov. 24, 2015 from corresponding Chinese patent application Serial No. CN201400448978. |
Number | Date | Country | |
---|---|---|---|
20140335984 A1 | Nov 2014 | US |