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Synchronizers are the most critical parts of a manual transmission. There are classical calculations available for the synchronizer design and studies are available for the normal functioning of synchronizer rings which describes how the synchronizer behaves in the event of gear shifting. The objective of this study is to describe the synchronizer behavior when synchronizers are not functional, i.e., in other gear engaged condition and the rings are free. This study describes the failure mechanism of the unused synchronizer rings which are moving freely in the packaging space. The findings of this synchronizer design cannot be limited only for synchronizer performance and standard durability calculations. To ensure proper function of synchronizer rings and to achieve the required life the external parameters like clearances, lubrication, clutch design for dampening torsional vibration from the engine are to be considered.

This paper presents the detailed design of a Single Rail Internal Gear Shift System for a 5-speed manual transmission of a load carrier vehicle. Gear shifting in manual transmissions is achieved by actuating a synchronizer sleeve and engaging it with the required gear. Actuation of synchronizer sleeves is effected by gear shift forks which are supported in the transmission by a rail/shaft. Conventional 5-speed transmissions use Multi Rail Gear shift systems, wherein each of the forks viz. Fork 1-2, Fork3-4 & Fork 5th, for actuating the synchronizer sleeves, are supported by and fixed to individual rails. This paper presents the design of a Single Rail Gear shift system, wherein all the gear shift forks will be supported on a common rail/shaft, thus making the entire system compact and reducing the system weight. The Single Rail, in the proposed design, apart from supporting the three forks, also serves to actuate the Reverse Gear, which is of sliding mesh type in this case.