The present invention relates to an electronic gear shifter assembly for a dual-mode flying and driving vehicle. The electronic gear shifter assembly may include a lever moveable between a first shifting path that includes at least one drive-related operating position, and a second shifting path that includes at least one flying-related operating position.

A shift-lever assembly of a manual transmission is provided. The assembly includes a lower lever that is rotatable forward and backward with respect to a shift-lever housing and is connected with one of a shift cable and a selection cable. Additionally, an upper lever is coupled to the lower lever to be rotatable left and right and is connected with a remaining one of the cables.

A structure for fixing a shift cable comprises a protective tube for receiving the shift cable therein, a connection tube installed outside the protective tube, a damper installed outside the connection tube to attenuate radial and axial vibration, a main casing which is installed outside the damper and forms a clearance for assembly with a mounting bracket, a sub-casing which is detachably coupled to the main casing by means of an axial assembly guide portion, and a cover which is supported by means of an elastic member with respect to the sub-casing and is installed such that an axial displacement of the cover is restricted with respect to the main casing.

A method of providing improved control and response to an electronic transmission range selection system comprehends providing a virtual null position for the electronic transmission range selection device including the steps of determining the current position of the shift lever, confirming the position of the shift lever, virtual Null and physical Reverse to Neutral confirmation timer thresholds are selected, the timers are incremented, a determination is made that the timers have started, a determination is made that the virtual Null timer has expired, whereupon a virtual Null request is generated. Subsequent steps determine if the physical Neutral timer has expired and command the transmission to Neutral. In related method steps, a current range of the transmission is determined, the state of a shift interlock button is determined, and certain shift changes are accepted or rejected.

The repair of shift cable ends in various motor vehicles without the replacement of the entire shift cable is accomplished using a specialized bushing that operably couples the shift lever and shift cable end. In particular embodiments, the shift cable end is seated in an installation tool and a specialized bushing is inserted into the shift cable end by applying a compressive force to the bushing and the installation tool. The installation tool is removed and the shift lever is inserted into the bushing. The bushing has a coupling means to simulate the factory installed coupling mechanism, a securing means for maintaining the bushing's alignment and securing it within the shift cable end, and a pressure-relief means for relieving pressure within the bushing as the lever is inserted into the bushing. In some embodiments, the hushing has a compression means for allowing the bushing to be easily compressed into the shift cable end without deformation.

A shifting device for a vehicle includes a rotary operating member and a base member. The rotary operating member includes a rotary shaft. The base member has a bearing surface around a bearing hole. The rotary shaft is fitted in the bearing hole, and the bearing surface receives an outer circumferential surface of the rotary shaft. A pair of flat surfaces are provided on the outer circumferential surface of the rotary shaft. The pair of flat surfaces are configured such that one flat surface of the pair of flat surfaces is located between a pair of circumferential end edges of the bearing surface, within a predetermined rotating angle range of the rotary operating member.

In a power transmission device in which a first power transmission path is formed by engagement of a first clutch and a dog clutch and a second power transmission path is formed by engagement of a second clutch, the first clutch is released from a state where the first clutch and the dog clutch are engaged, and when a front-rear rotation speed difference of the dog clutch becomes equal to or greater than a predetermined value after the start of a clutch-to-clutch gear shift for engaging the second clutch, complete release control for releasing the first clutch to lower the torque capacity of the first clutch is performed.

A target reaching rotational speed set during a torque phase is set to a value higher than an actual engine rotational speed, the value being higher as one of a vehicle acceleration and an engine rotational speed gradient is larger. That is, as the acceleration is steeper, the target reaching rotational speed is set to a value closer to an upper limit rotational speed or rotational speeds proximate thereto. Thus, a display rotational speed displayed on a tachometer at the end of the torque phase becomes high rotational speed. Accordingly, there is provided a display control device for a vehicle that enables a driver to feel the use of engine performance to the limit.

An exemplary shift lever includes a mounting assembly, a flexible member coupled to the mounting assembly, and an interface coupled to the flexible member. The flexible member is resilient so as to provide a selected biasing force at a predetermined deformation angle, and flexible enough to elastically deform across a selected angular range. The mounting assembly is configured for connection with the input shaft of a transmission, and the interface is configured for connection with an output of a drive selector.

A connector end piece of a control cable from a vehicle transmission to a ball joint of a part of a gearshift or of a part of the transmission, where the end piece is intended to go over the cable and includes a radial window able to receive, by engagement, a cover having an inner threaded portion, where the cover is movable from a disengaged position to an engaged position in which it engages with a threaded end portion of the cable and locks said cable in position. The end piece comprises an end annular portion, coaxial with the cable, and receiving a security ring, said security ring being movable from an unlocked position to a locked position in which the cover is in disengaged position, the ring holds the cover in the disengaged position and prevents the cover from moving into the engaged position; and when the cover is in engaged position, the ring holds the cover in the engaged position and prevents the cover from moving into the disengaged position.