DE3939050A1 - Differential gear for motor vehicle - has pumping device to return oil flowing through ventilation hole - Google Patents

Abstract

The differential gear for a motor vehicle has an inner housing (7), which forms part of the crown wheel, and encloses the bevel pinions (2, 9). These bevel pinions (2, 9) mesh with the pinion (10) which is mounted on the hollow shaft (13) which is connected to one of the half shafts. The bore (15) of the hollow shaft (13) and the hole (18) in the end cover (17) serve to ventilate the interior of the inner housing (7). Any oil which flows into the chamber (16) at the end of the hollow shaft (13) is pumped to the bearing (8) by the pumping effect produced by the radial holes (20) as the hollow shaft (13) rotates. USE - Differential gears for motor vehicles.

Description

The invention relates to a transmission for power vehicles according to the preamble of the main claim.

The drive elements in such gears are oil-lubricated, so that the gearbox faces the outside is sealed. For a reliable seal is a Pressure equalization of the interior of the gearbox with outside environment. For this is after the DE-GM 66 05 915 a ventilation hole in the gearbox housing provided.

To prevent oil leakage in all operating conditions To prevent the vent hole, this must be on one Oil splash-proof space inside the gearbox Be arranged housing. Such an arrangement usually requires prak to determine table trials.

The object of the invention is a generic Develop gearbox so that the Ent ventilation hole associated construction work on the gearbox is reduced.  

The essence of the invention is otherwise Unused space for a shaft for driving or driving to use the gearbox for a ventilation hole. In addition, the weight of the shaft is reduced the vent hole. It is automatically in an oil-free room under all operating conditions, because connected to the shaft and immersed in the oil Transmission elements drive the oil through the one acting centrifugal force from the vent hole keep away.

An embodiment of the subject of the invention is characterized in that the vent hole in a section with a reduced length Has cross-section. Small amounts of oil within the Vent holes can therefore also be stopped the motor vehicle, that is, not rotating Wave, do not get outside.

In a further embodiment of the invention object goes from the vent hole Radial bore penetrating the shaft in the Interior of the housing leads. This ensures does that in a transverse direction of the motor vehicle arranged shaft and no oil when cornering can flow out through the vent hole. Because the oil is on the rotating shaft Centrifugal force on the inner wall of the vent bore and thus pressed into the radial bore.

An embodiment of the subject matter of the invention a chamber inside the shaft facing the Vent hole an enlarged cross section having. When air and oil are mixed internally  half of the gearbox with the formation of oil foam, which in the vent hole can penetrate, the burst Bubbles of the oil foam in an advantageous manner on the over vent hole to the chamber. The resulting Oil collects in the chamber and is thereby in advantageously at the exit into the external environment hindered.

One way to make liquefied remains of the oil foam the chamber back into the interior of the transmission convey, offers the arrangement of the above radial bore emanating from the chamber.

The shaft can be simplified in terms of production following embodiment of the subject matter of the invention achieve. A lid with an opening is on attached to the shaft. It forms the cross section reduced section of the vent hole.

In a further embodiment of this embodiment the chamber is at the outer end of the Wave and is delimited from the lid to the outside. This simplifies the manufacture of the chamber.

A further exemplary embodiment is characterized by this records that the radial bore to a within the Gearbox leads annular space. It is in radial Direction through the housing of the gearbox and through the Wave limited. In the axial direction there is a wave sealing ring and a cone producing a pumping action roller bearings are a limitation for the shaft on the one hand the shaft seal on its sliding surface lubricated with the shaft and on the other hand superfluous Oil flowing through the vent hole in the annular Space comes from the tapered roller bearing into the interior of the transmission is returned.

A preferred embodiment of the invention is in the following description and the corresponding Drawing shown in more detail. Show it:

Fig. 1 shows the diagram of a differential gear for a motor vehicle,

Fig. 2 shows the detail A from Fig. 1 on an enlarged scale and the representation of a venting arrangement for the differential gear.

Fig. 1 shows a differential gear 1 with a housing 3 , in which an input shaft driven by the engine of a motor vehicle is meshed via a bevel gear 5 with a ring gear 6 . A differential housing 7, which is fixedly connected to the ring gear 6 , sits rotatably within the housing 3 via a tapered roller bearing 8 , which is shown in FIG. 2.

Within the differential housing 7 two mutually diametrically positioned pinions 2 and 9 are mounted, which transmit drive from the input shaft 4 and the differential case shaft 7 to the wheels 10 and 11. FIG. These engage in a shaft 12 or 13 via a positive toothing 14 . In each case one shaft 12 or 13 leads to a rear wheel in the case of rear-wheel drive and to a front wheel of a motor vehicle in the case of front-wheel drive.

The differential gear 1 is vented via a vent hole 15 which, according to FIG. 2, penetrates the shaft 13 in the axial direction. The ventilation bore 15 leads to a chamber 16 delimiting from the shaft 13 and a cover 17th The lid 17 is oil-tight via a press fit with the shaft 13 a related party. An opening 18 connects the vent hole 15 via the chamber 16 to the external environment of the differential gear 1 .

When the vehicle is at a standstill, the oil level lies within the housing 3 below the ventilation hole 15 . When the motor vehicle is moving, the ring gear 6, which is immersed in the oil sump, conveys the oil to higher points relative to the ventilation hole 15 . If the vehicle is braked or experiences a transverse acceleration, it cannot be ruled out that oil flowing downwards from the upper region of the housing 3 will enter the ventilation bore 15 and from there into the chamber 16 . The centrifugal force from the chamber 16 flows into an annular space 21 via radial bores 19 , 20 within the shaft 13 .

This is limited radially by the shaft 13 and by a bearing cover 22 in the housing 3 . The axial extension of the annular space 21 is predetermined by the tapered roller bearing 8 and a shaft sealing ring 23 for the shaft 13 . The tapered roller bearing 8 is arranged so that it produces a pumping action for the oil entering the annular space 21 into the interior of the housing 3 . Small amounts of oil that get into the ring-shaped space 21 are used to lubricate the shaft sealing ring 23 relative to the shaft 13 .

Claims (8)

1. Gearbox for motor vehicles with a housing from which a shaft leads to the input or output of the gearbox to the outside, a vent hole on the gearbox allowing pressure equalization from the interior of the housing to the external environment, characterized in that the vent hole ( 15 ) is arranged in the axial direction and within the shaft ( 13 ) and is located above the oil level in the gear housing (housing 3 ). 2. Transmission according to claim 1, characterized in that the vent hole ( 15 ) in its longitudinal extension has a portion (opening 18 ) with a reduced cross-section. 3. Transmission according to claim 1 or 2, characterized in that a radial bore ( 19 , 20 ) inside half of the shaft ( 13 ) of the vent hole ( 15 ) leads into the interior of the housing ( 3 ). 4. Transmission according to one of claims 1 to 3, characterized in that the vent hole ( 15 ) to a chamber ( 16 ) within the shaft ( 13 ) is formed, the chamber ( 16 ) having a larger than the vent hole ( 15 ) Has cross section. 5. Transmission according to claim 3 and 4, characterized in that the radial bore ( 19 , 20 ) extends from the chamber ( 16 ). 6. Transmission according to one of claims 2 to 5, characterized in that a with an opening ( 18 ) provided cover ( 17 ) is fixed to the shaft ( 13 ) and forms the section reduced in cross section. 7. Transmission according to claim 6, characterized in that the chamber ( 16 ) at the outer end of the shaft ( 13 ) and is delimited from the cover ( 17 ) to the outside. 8. Transmission according to one of claims 2 to 6, characterized in that the radial bore ( 19 , 20 ) leads to an inside the gear (differential gear 1 ) annular space ( 21 ) which radially through the housing ( 3 ) and the shaft ( 13 ) and axially by a shaft seal (shaft sealing ring 23) and a pumping effect from the annular space ( 21 ) into the interior of the housing ( 3 ) producing tapered roller bearing ( 8 ) for the shaft ( 13 ).