A steering column assembly comprises a mounting bracket (100), a steering column (200), a plurality of friction plates (300), a plurality of inner spacers (501), and a locking mechanism (400). The friction plates (300) are fixed to the steering column (200) and attached to a side of the mounting bracket (100). The friction plates (300) are movable with respect to the mounting bracket (100). The inner spacers (502) are interleaved with the plurality of friction plates (300). Each inner spacer (502) has a scored outer surface (540). The locking mechanism (400) is operable to press the inner spacers (501) and friction plates (300) together to lock the steering column (200) with respect to the mounting bracket (100).

A steering column assembly comprises a mounting bracket (100), a steering column (200), a plurality of friction plates (300), a plurality of inner spacers (501), and a locking mechanism (400). The friction plates (300) are fixed to the steering column (200) and attached to a side of the mounting bracket (100). The friction plates (300) are movable with respect to the mounting bracket (100). The inner spacers (502) are interleaved with the plurality of friction plates (300). Each inner spacer (502) has a scored outer surface (540). The locking mechanism (400) is operable to press the inner spacers (501) and friction plates (300) together to lock the steering column (200) with respect to the mounting bracket (100).

Reinforcing ribs (33a and 33b) are provided between mounting plate parts (30a and 30b) and support plate parts (31a and 31b) forming a support bracket (18a). Side plate parts (40a and 40b) forming a distance bracket (17a) are disposed between the support plate parts (31a and 31b), and an outer column (13a). When an adjustment lever (26a) is operated to hold a steering wheel at a position after adjustment, a steering column (6a) is pushed toward an upper side by column pressing parts (42a and 42b) provided at the side plate parts (40a and 40b), and, therefore, a pair of widened parts (43a and 43b) provided at upper parts of the side plate parts (40a and 40b) are pushed and expanded to the outside in a width direction. The widened parts (43a and 43b) are sandwiched between the support plate parts (31a and 31b) and the outer column (13a).

Reinforcing ribs (33a and 33b) are provided between mounting plate parts (30a and 30b) and support plate parts (31a and 31b) forming a support bracket (18a). Side plate parts (40a and 40b) forming a distance bracket (17a) are disposed between the support plate parts (31a and 31b), and an outer column (13a). When an adjustment lever (26a) is operated to hold a steering wheel at a position after adjustment, a steering column (6a) is pushed toward an upper side by column pressing parts (42a and 42b) provided at the side plate parts (40a and 40b), and, therefore, a pair of widened parts (43a and 43b) provided at upper parts of the side plate parts (40a and 40b) are pushed and expanded to the outside in a width direction. The widened parts (43a and 43b) are sandwiched between the support plate parts (31a and 31b) and the outer column (13a).

A steering column assembly includes a steering shaft, a shroud, a support bracket and a clamping mechanism which clamps the shroud to the bracket. When the clamping mechanism is unclamped, the clamping mechanism permits the shroud to pivot about the pivot assembly to enable the steering column assembly to be adjusted for rake. The pivot assembly further includes a sleeve, a ring shaped busing, and a set of circumferentially arranged spacer members. The ring-shaped bushing defines a set of circumferentially spaced resilient members that each define a contact surface that contacts one of the sleeve and the bore. The spacer members are arranged alternately with the resilient members around the whole or a substantial part of the bushing.

A cargo handling vehicle includes a universal joint that allows an upper shaft to swing with respect to a lower shaft around a predetermined horizontal axis, a column tube that covers an outer periphery of the upper shaft, and a lockable gas spring that supports the upper shaft via the column tube. The gas spring is disposed under the column tube and connects a cowl with the column tube. The column tube has a cowl backing bracket that is disposed on a side of the universal joint and connected to the cowl, and the cowl supports the cowl backing bracket swingably around the horizontal axis.

A cargo handling vehicle includes a universal joint that allows an upper shaft to swing with respect to a lower shaft around a predetermined horizontal axis, a column tube that covers an outer periphery of the upper shaft, and a lockable gas spring that supports the upper shaft via the column tube. The gas spring is disposed under the column tube and connects a cowl with the column tube. The column tube has a cowl backing bracket that is disposed on a side of the universal joint and connected to the cowl, and the cowl supports the cowl backing bracket swingably around the horizontal axis.

A steering device includes a column unit, a front bracket, a lock bolt, a rear bracket provided with a tilting guide hole, and a second urging member. The column unit is provided with a bumping portion that restricts the column unit from rising by coming into contact with the rear bracket before the lock bolt abuts onto an upper end inner circumferential edge of the tilting guide hole in accordance with rotation of the column unit.

A steering device includes a column unit, a front bracket, a lock bolt, a rear bracket provided with a tilting guide hole, and a second urging member. The column unit is provided with a bumping portion that restricts the column unit from rising by coming into contact with the rear bracket before the lock bolt abuts onto an upper end inner circumferential edge of the tilting guide hole in accordance with rotation of the column unit.

A telescope drive assembly for a steering column assembly includes a column jacket moveable in a rake direction and defining a tapered slot. The telescope drive assembly also includes a telescope actuator assembly operatively coupled to the column jacket to move the column jacket in a telescope direction. The telescope drive assembly further includes a telescope drive bracket operatively coupled to the telescope actuator assembly and to the column jacket, the telescope drive bracket and the column jacket rotatable about a common axis in the rake direction. The telescope drive assembly yet further includes a telescope guide disposed between the telescope drive bracket and the column jacket, the telescope guide disposed at least partially within the tapered slot and translatable within the tapered slot in the telescope direction.