DE10306994A1 - Motor vehicle differential lock has axially, radially movable shift rod whose rotary operation enables continuous and repeatedly updatable movement of shift fork into any axial position on shift rod - Google Patents

Abstract

The device has a lock actuator (2) that is controlled by an actuator (20) and that has an axially movable shift fork (8) and an interacting shift collar (15) that operates the locking elements of the differential lock (1). Rotary operation of an axially and radially movable shift rod (5) enables continuous ands repeatedly updatable movement of the fork into any axial position on the shift rod.

Description

The invention relates to a differential lock Motor vehicle according to the preamble of claim 1.

Differential locks are from the prior art known from motor vehicles, the lock actuation can be actuated by pressurized air. The shifting force thus generated is generated by a shift fork associated with the lock actuation transferred to a shift sleeve, which acts on the locking elements of the differential lock. The Shift fork is placed on a within the lock actuation Shift rod arranged in a certain axial position, whereby at the same time the axial position of those connected to the shift fork Shift sleeve both in the engaged as well in the disengaged State is defined. The axial positioning of the shift fork on the shift rod is common by using shims to be placed on the shift rod different thickness realized.

From the DE 44 42 117 C2 a controllable differential lock for a differential gear of a motor vehicle is known, in which a locking device which is effective on the differential gear is provided and can be actuated by a hydraulic or pneumatic working circuit.

The invention is based, which technical representation and the manual adjustability of a lock actuation of a To optimize the differential lock of a motor vehicle.

This object is achieved by the Features of claim 1 solved.

This is a differential lock of a motor vehicle, which with an actuator, for example a compressed air actuation or a hydraulic actuation or the same, controllable lock actuation the locking elements of the Drives differential lock. The lock actuation essentially has an axially displaceable shift fork and one interacting with it and the locking elements driving shift sleeve. The shift fork is axially and radially displaceable within the lock actuation mounted shift rod and - for the purpose of needful adjustment the lock actuation - by means of a rotary operation the shift rod in the lock actuation can be continuously and repeatedly updated Can be brought into any axial position on the shift rod. The The shift fork is on the shift rod after every turning operation The shift rod remains permanently in any of these axial positions fixed.

Thus, in the solution according to the invention advantageously by a problem-free, for example manual rotating operation the shift rod any desired axial position of the shift fork steplessly achievable on the shift rod and with high setting precision. By the one end of the shift fork given fixation the shift rod is additional the axial position of the other end associated with the shift fork Shift sleeve in the area of the differential lock of the differential established. If wear occurs within the locking elements the differential lock is a simple readjustment of the position at any time the shift fork on the shift rod possible without this time-consuming disassembly of the lock actuation components required would. By the execution options mentioned below let yourself the adjustment effort of the lock actuation further advantageous Reduce way.

According to a further embodiment According to the invention, the shift fork can have an internal thread be provided, which on an at least in sections on the Shift rod provided external thread is axially adjustable. The self-fixing Axial position of the shift fork on the shift rod can be determined by a between Internal and external threads provided self-locking. When the Shift rod and another on the shift fork support the same by means of the shift sleeve, the shift rod in the lock housing such be rotatable, that the respective self-fixing axial position the shift fork is set on the shift rod.

According to a further embodiment of the extension, the shift rod can be on the end face of its one axial end a complementary profile have, which is under positive and positive locking with a drive profile if necessary, a separate one, for example manually actuated Adjusting tool corresponds. With this adjustment tool the Rotational movement of the shift rod in the lock actuation can be carried out.

According to a further embodiment the complementary profile of the invention can correspond to the corresponding Drive profile either after removing a lock housing cover arranged on the lock housing or by opening one in the lock case cover arranged adjustment opening accessible be made. The adjustment opening can when not in use by a cover provided for this purpose be sealed. If necessary, when making available the adjustment opening the connections the actuator unchanged on the lock housing stay arranged.

According to a further embodiment of the invention, the adjustment opening provided for the passage of the drive profile can at the same time provide a supply hole for the lock actuation controllable actuator. In this case, the connections of the actuating device must be removed at short notice to make the adjustment opening accessible.

Regardless of the arrangement of the Verstellöffnung in the lock housing cover can be provided by providing this adjustment opening of the complementary profile removing the lock case cover advantageously omitted. This is an additional one Simplified the setting of the lock actuation.

According to a further embodiment the invention, the drive profile as a in the lock housing cover rotatable and axially displaceable insert, which prevents leakage of a pressure medium of the actuating device through seals to the lock housing cover is sealed off. The inside of the housing the drive profile insert can be attached to the outside of the housing separate tool that can be attached with positive and non-positive connection axially displaced inwards be what initially Drive profile in the complementary profile introduced is. By then manual rotation of the separate tool and thus the The drive profile of the insert, the shift rod in the lock housing can be rotated. In this version no assembly work on the barrier housing is advantageously required, around the setting in the lock housing make.

According to a further embodiment The invention provides the self-locking provided between the internal and external threads for example by a clamping part arranged between the internal and external thread or by an adhesive or by a between internal and external thread provided thread pitch errors are given. Thus, in advantageously an automatic adjustment the shift fork on the shift rod is effective in the operation of the vehicle be avoided.

According to a further embodiment the invention can for the exact positioning of the shift fork the internal and external threads on the selector rod as fine threads be carried out with a small thread pitch.

According to a further embodiment the shift rod to one axial end of the invention to a larger diameter and in the lock housing axially displaceably mounted piston section, on which the complementary profile is provided on the face. To an alternative embodiment of the invention, the piston section be a separate component attachable to the shift rod, which the complementary profile on the front having.

According to a further embodiment the invention can be used as an actuator a pneumatic actuation or a hydraulic actuation or an electrical or mechanical actuation or the like is provided his.

The differential lock can be in one Trucks or buses can be provided.

The invention is based on a the drawing shown embodiment described in more detail.

Show it:

1 in a sectional sectional view of a lock actuation of a differential lock according to the invention for motor vehicles and

2 in a sectional sectional view of a conventional lock actuation of a differential lock of a motor vehicle.

In 1 is a partial and a sectional view of part of a lock actuation according to the invention 2 a differential lock 1 of a differential 19 of a motor vehicle shown. For example, a truck or omnibus can be provided as the motor vehicle. With the differential lock shown here 1 is a lock actuation 2 surrounding barrier housing 3 above a differential case 17 of the differential 19 arranged.

In the version shown here are lock housings 3 and differential housing 17 given by two separate components or alternatively they can be implemented by a single component.

The lock actuation 2 is by an actuator shown only schematically here 20 controllable. As an actuator 20 For example, pneumatic actuation or hydraulic actuation or the like can be provided. The lock actuation 2 points inside their lock case 3 essentially an axially displaceable shift rod mounted at each end 5 on, on this a shift fork 8th can be arranged self-locking in any axial position. The shift fork 8th protrudes through a in the connection area of the lock housing 3 and a differential case 17 of the differential 19 intended opening 18 to the inside of the differential 19 , The shift fork engages there 8th with their shift fork end 8th / 2 in a circumferential groove not specified here with one with the locking elements of the differential lock 1 interacting shift sleeve 15 on. The one in the lock actuation 2 arranged shift rod 5 has a complementary profile on the front of its one axial end 13 in which, in this exemplary embodiment, a drive profile corresponding to this in a force-fitting and positive manner 14 a separate adjustment tool that can be provided if necessary 12 can be introduced. Using the separate adjustment tool 12 is the shift rod 5 in the lock housing 3 rotatable in such a way that the shift fork 8th - Under their other support on the shift sleeve 15 - Stepless, self-fixing and repeatedly updated can be placed in any axial position on the shift rod 5 is feasible.

As an adjustment tool 12 conventional manual tools can be used. The lock actuation 2 can in a particularly advantageous manner continuously and without dismantling the components of the lock actuation compared to conventional designs 2 can be set. For setting the axial position of the shift fork 8th on the shift rod 5 is in this version, first of all the lock housing 3 the lock actuation 2 locking lock housing cover 4 easily removable. This is the front of the shift rod 5 arranged complementary profile 13 exposed and thus for the subsequent use of the drive profile 14 of the adjustment tool 12 made accessible.

According to another embodiment, not shown here, the lock housing cover 4 in the process of setting the lock operation 2 in an advantageous manner on the lock housing 3 remain. The drive profile 14 of the adjustment tool 12 for example after dismantling a connection of the actuating device 20 through a supply hole provided for this purpose 16 in the lock housing cover 4 passed through and in the complementary profile aligned with this 13 of the piston section 11 for the purpose of turning the shift rod 5 be introduced.

According to another embodiment, not shown here, the drive profile 14 - in alignment with the corresponding complementary profile 13 - in the lock housing cover 4 be formed as part of an axially displaceable insert which can be rotated therein and which prevents the actuating device from escaping a pressure medium 20 seals with the seals provided. Advantageously, that for the actuating device 20 planned supply well 16 to the integrated drive profile 14 be arranged offset.

The shift rod is independent of the respective design 5 to the side of the actuator 20 with an enlarged piston section 11 provided, which in the lock housing 3 is axially displaceable and which is by a working medium of the actuator 20 can be pressurized. The piston section 11 is circumferential with a sealing ring seal 21 Mistake. End of the piston section 11 is the lock housing 3 with a lock case cover 4 locked. Between the lock case 3 and lock housing cover 4 is a seal 22 intended. The shift rod 5 is in the embodiment shown here in one piece with the enlarged piston section 11 educated. According to another embodiment variant, not shown here, the shift rod can 5 and the enlarged piston section 11 be formed by two separate components. Regardless of the type of shift rod 5 is the complementary profile provided on the front side of this 13 in the enlarged piston section 11 accommodated.

The front of the shift rod 5 intended complementary profile 13 can be realized for example by a hexagon socket or the like. The one with the complementary profile 13 corresponding drive profile 14 of the adjustment tool 12 is therefore realized in this embodiment variant by an external hexagon. According to another embodiment variant not shown here, the complementary profile can 13 and the drive profile 14 be formed by other deviating profiles, provided that they correspond to one another in a form-fitting manner.

One in the lock case 3 arranged section of the shift fork 8th has a shift fork ring 8th / 1 on, inside this an internal thread 9 is provided. This internal thread 9 is self-locking and continuously adjustable axially on an external thread 7 arranged, which in sections on the shift rod 5 is provided.

On the shift rod 5 is a between an inner shoulder of the lock housing, not specified here 3 and an end face of the shift fork ring 8th / 1 a feather 6 arranged, which is realized here for example by a coil spring.

The coil spring 6 causes the lock actuation after the pressure has been removed 2 through the actuator 20 an axial reset of the shift rod 5 within the lock actuation 2 , This is the same with the shift rod 5 connected shift fork 8th and the related shift sleeve 15 reset in the axial direction.

The shift fork 8th is on the shift rod 5 fixed in any axial position in such a way that the purpose of preventing an unwanted adjustment between internal 9 and external thread 7 provided self-locking, for example by a between 9 and external thread 7 arranged, not shown here is given clamping part. Instead of a clamping part, an alternate between 9 and external thread 7 provided glue or an intended thread pitch error.

For the exact positioning of the shift fork 8th on the shift rod 5 is the inside 9 and external thread 7 designed as a fine thread with a small thread pitch.

In 2 is a differential lock in a sectional view 1 with a lock actuation 2 of a differential 19 a motor vehicle according to the prior art. The above in this embodiment above the differential 19 arranged lock actuation 2 is via an actuating device indicated only schematically here 20 controllable. By means of the actuator 20 is therefore the shift rod 5 ent against the spring force of one in the lock housing 3 the lock actuation 2 arranged coil spring 6 slidable in the axial direction. This allows the on the shift rod 5 arranged shift fork 8th the at the differential lock 1 effective shift sleeve 15 move in the axial direction and have a locking effect. The adjustment of the axial position of the shift fork 8th on the shift rod 5 is given in this conventional embodiment in that on the shift rod 5 can be arranged and between an axial stop of the lock housing, not specified here 3 one hand and one end of the shift fork 8th on the other hand shims 10 are provided. The shims 10 can be in any number and thickness on the shift rod 5 be predictable. The axial setting of the shift fork 8th on the shift rod 5 depends on the available thicknesses of the shims 10 possible in graded intervals. Correcting the axial setting requires reopening and partial disassembly of the lock actuation 2 ,

Claims (10)

Differential lock ( 1 ) of a motor vehicle, with an actuator ( 20 ) controllable lock actuation ( 2 ), which is essentially an axially displaceable shift fork ( 8th ) and a co-operating, the locking elements of the differential lock ( 1 ) actuating shift sleeve ( 15 ), characterized in that by means of a rotary actuation within the lock actuation ( 2 ) axially and radially displaceable shift rod ( 5 ) the shift fork arranged on this ( 8th ) - for the purpose of setting the lock actuation as required ( 2 ) - infinitely and repeatedly updatable in any axial positions on the shift rod ( 5 ) can be brought, and that after each actuation of the shift rod ( 5 ) a self-locking axial position of the shift fork ( 8th ) on the shift rod ( 5 ) is set. Differential lock according to claim 1, characterized in that the shift fork ( 8th ) one with an internal thread ( 9 ) is provided, which is on an at least partially on the shift rod ( 5 ) provided external thread ( 7 ) is arranged to be infinitely variable axially, and that the self-fixing axial position of the shift fork ( 8th ) on the shift rod ( 5 ) by an between indoor ( 9 ) and external thread ( 7 ) provided self-locking is given and that when the selector rod is turned ( 5 ) and another end of the shift fork ( 8th ) the same is supported by means of the shift sleeve ( 15 ) the shift rod ( 5 ) in the lock housing ( 3 ) can be rotated in such a way that the respective self-fixing axial position of the shift fork ( 8th ) on the shift rod ( 5 ) is set. Differential lock according to one of claims 1 and 2, characterized in that the shift rod ( 5 ) a complementary profile on the front of their one axial end ( 13 ) which has a drive profile under positive and positive locking ( 14 ) a separate, for example manually operated setting tool ( 12 ) corresponds with which the rotary movement of the shift rod ( 5 ) in the lock actuation ( 2 ) is executable. Differential lock according to claim 2, characterized in that the complementary profile ( 13 ) for the corresponding drive profile ( 14 ) either after removing one on the lock housing ( 3 ) arranged lock housing cover ( 4 ) or by opening one on the lock housing cover ( 4 ) arranged adjustment opening ( 16 ) is made accessible. Differential lock according to claim 4, characterized in that for the passage of the drive profile ( 14 ) provided adjustment opening ( 16 ) at the same time a supply hole for the lock actuation ( 2 ) controllable actuating device ( 20 ) is. Differential lock according to one of claims 1 and 2, characterized in that the between inner ( 9 ) and external thread ( 7 ) provided self-locking, for example by a between ( 9 ) and external thread ( 7 ) arranged clamping part or an adhesive or by an intermediate ( 9 ) and external thread ( 7 ) provided thread pitch error is given. Differential lock according to one or more of the preceding claims 1 to 6, characterized in that for the exact adjustability of the axial position of the shift fork ( 8th ) on the shift rod ( 5 ) the interior ( 9 ) and external thread ( 7 ) is designed as a fine thread with a small thread pitch. Differential lock according to one or more of the preceding claims 1 to 7, characterized in that the shift rod ( 5 ) towards their one axial end towards a larger diameter and in the lock housing ( 3 ) axially displaceably mounted piston section ( 11 ) on which the complementary profile ( 13 ) is provided and that the piston section ( 11 ) either one on the shift rod ( 5 ) attachable separate component or a with the shift rod ( 5 ) is a jointly formed component. Differential lock according to claim 1 to 8, characterized in that as an actuating device ( 16 ) pneumatic actuation or hydraulic actuation or electrical or mechanical actuation or the like is provided. Differential lock according to claim 1 to 9 that they is provided in a truck or omnibus.