CS266290B1 - Control mechanism for differential gear closure - Google Patents

Abstract

The solution is designed for mechanical control the axially movable portion of the shutter differential in axles of mobile machinery. It consists of a control pin that has on with its forehead, an eccentrically spaced thumb pin axis by eccentricity value. On the surface the cylindrical surface of the pin is a circumferential groove into which the locking stop fits permanently attached to the axle body. eccentricity inch determines the working stroke of the moving part shutter and circumferential groove together with stop defines the end positions of the pivot and at the same time protects the eject pin. solution finds application wherever needed hold; a movable part of the rows of couplings into and is not available at all space, for example in construction incorporating differential locks into already produced axles.

Description

The invention solves a simple mechanical control of the axially movable part of the differential lock. .

So far known solutions of mechanical control off are made on the principle of transferring power through gear lever or forks that are movable or rotatably mounted in the housing .11 '-'lé ¹ I "I ·''I i ·>' and ¹ ye ' · I '·' ιΐνο, ΐι in i í *; t I., <Ίι,. '· <> •. • .ηίχΜ-Λ pi Innlor which npinvldln nlo is available in constructions already manufactured without shutter. The transmission of the shifting force by the lever is also solved in such a way that the lever is rotatably mounted by means of a pin in two places and at the same time the control Sasi lever behind the pin extends out of the body, which in turn causes sealing problems. In addition, when the shutter is closed, its axial locking against undesired disengagement and at the same time the limiting stop of the engaged and disengaged state must often be addressed. The control part of the shutter then adversely affects the installation dimensions in the body of the unit.

The disadvantages of the hitherto known systems are eliminated by the control mechanism of the differential lock of the stage of the invention, the essence of which consists in the fact that the control mechanism consists of an actuating pin on the front of which is a thumb eccentrically placed relative to the axis of the pin by an eccentricity value. At the same time, there is a circumferential groove on the cylindrical surface of the pin, into which the safety stop firmly connected to the body permanently fits. The eccentricity value determines the working stroke of the retractable part of the shutter. The circumferential groove, together with the stop, defines the extreme positions of rotation of the pin and at the same time secures the pin against sliding out of the body of the unit.

The solution according to the invention simplifies the construction by reducing the number of components and simplifying their production. It enables the structural incorporation of differential locks into machines already manufactured without a lock. All that is required is to make a hole in the axle body in a suitable place, into which a hub with a hole (eg by welding) is added. The shutter control mechanism is inserted into the hole from the outside and secured against sliding out with a safety stop. The fact that the control mechanism has a pin with an eccentrically placed thumb can prevent the engagement of the engaged shutter by a suitable position of this eccentricity. The differential lock control mechanism according to the invention forms a compact unit, allowing quick assembly by simply inserting the control pin from the outside into the axle body.

The drawing shows a specific constructional solution of the control mechanism according to the invention, where in fig. 1 is a longitudinal section of an axle with a differential lock, and FIG. 2 is a section in the transverse plane (side view).

The thumb 2 of the pin 1 of the shutter actuating mechanism fits into the radially groove of the axially movable part 6 of the differential lock, slidably mounted on the half-axle 7. The actuating pin has a circumferential groove 3 milled on its surface, into which a locking stop 4 fits, formed by the shank of a screw firmly screwed into the axle body 5 and secured in a suitable manner. The pin 1 is inserted into the axle body 5 from the outside and sealed with a seal 2. The actuating torque enters the pin 2 via a lever 8 which is firmly connected to the pin. The pivot lever 8, and thus the insertion stroke of the movable part 2 determines a stop of the insurance 4 · The maximum level of insertion of the movable part 6 is determined by an eccentricity e to the axis of pivot axis 2 inches 2. Location of eccentricity with respect to the circumferential groove 2 d ^e is chosen such that in the retracted position the movable part 6 has been locked against ejection by the thumb 2.

The proposed solution can be advantageously used in the additional installation of differential locks in already manufactured machines, as no complicated change of the casting of the unit body is required. The invention finds application wherever it is necessary to engage the movable part of the various couplings, even in those cases where there is little installation space for the use of other control systems.

Claims (1)

PRED MET OF THE INVENTION Actuating mechanism of the differential lock, namely its axially movable part, characterized in that it is formed by a pin (1) on the front of which the thumb (2) is eccentrically placed relative to the axis of the pin (1) by an eccentricity value and simultaneously on the cylindrical surface of the pin (1). ) there is a circumferential groove (3) into which the locking stop (4) is firmly connected to the body ('>).