A steering device according to the present invention has: a column pipe; a hanger bracket; an outer column that covers the column pipe in such a manner that the column pipe can move in a front-back direction; a fixed bracket that sandwiches the outer column; a fastening tool that has a bolt shaft and an operation lever portion, is inserted into a long hole of the hanger bracket, and locks and unlocks the outer column and the fixed bracket; a stopper member that is provided in the bolt shaft and swings as the bolt shaft rotates; and a telescopic regulating member that moves in the front-back direction together with the column pipe. The stopper member is capable of coming into abutment with the telescopic regulating member in an unlocked state but is not capable of coming into abutment with the telescopic regulating member in a locked state.

A steering device according to the present invention has: a column pipe; a hanger bracket; an outer column that covers the column pipe in such a manner that the column pipe can move in a front-back direction; a fixed bracket that sandwiches the outer column; a fastening tool that has a bolt shaft and an operation lever portion, is inserted into a long hole of the hanger bracket, and locks and unlocks the outer column and the fixed bracket; a stopper member that is provided in the bolt shaft and swings as the bolt shaft rotates; and a telescopic regulating member that moves in the front-back direction together with the column pipe. The stopper member is capable of coming into abutment with the telescopic regulating member in an unlocked state but is not capable of coming into abutment with the telescopic regulating member in a locked state.

An extendable steering column assembly includes a steering shaft, an energy absorption device, and a self-locking telescope actuator. The steering shaft is configured to rotate about an axis, and includes a forward shaft portion mounted for rotation to a fixed support structure, and a rearward shaft portion mounted for rotation to a jacket. The rearward shaft portion is configured to axially translate with the jacket. The energy absorption device is engaged to the jacket. The telescope actuator includes a rod extending along a centerline, a nut threaded to the rod, and a casing in operable contact with the nut. Rotational motion along with axial translational motion is induced between the rod and the nut when at least in at least a power state.

An extendable steering column assembly includes a steering shaft, an energy absorption device, and a self-locking telescope actuator. The steering shaft is configured to rotate about an axis, and includes a forward shaft portion mounted for rotation to a fixed support structure, and a rearward shaft portion mounted for rotation to a jacket. The rearward shaft portion is configured to axially translate with the jacket. The energy absorption device is engaged to the jacket. The telescope actuator includes a rod extending along a centerline, a nut threaded to the rod, and a casing in operable contact with the nut. Rotational motion along with axial translational motion is induced between the rod and the nut when at least in at least a power state.

Construction is achieved of a steering device that is capable of preventing impact going forward from being applied to a support bracket even when a steering wheel is vigorously displaced to a front-end position when adjusting the forward-backward position of the steering wheel. Part of the stopper member 28 is supported by a fastening member such as a housing 10a. When an outer column 22a is displaced forward in a state in which the forward-backward position of the steering wheel can be adjusted, a portion that displaces forward together with the outer column 22a hits a pair of stopper surfaces 41 of the stopper member 28 before an adjustment rod hits a pair of long telescopic-adjustment holes.

Construction is achieved of a steering device that is capable of preventing impact going forward from being applied to a support bracket even when a steering wheel is vigorously displaced to a front-end position when adjusting the forward-backward position of the steering wheel. Part of the stopper member 28 is supported by a fastening member such as a housing 10a. When an outer column 22a is displaced forward in a state in which the forward-backward position of the steering wheel can be adjusted, a portion that displaces forward together with the outer column 22a hits a pair of stopper surfaces 41 of the stopper member 28 before an adjustment rod hits a pair of long telescopic-adjustment holes.

First teeth of a first tooth member that moves together with an upper jacket mesh with second teeth of a second tooth member. The second tooth member includes a received portion received by a receiving surface of a receiving member (energy absorption member). The second tooth member is rotatably supported by a fulcrum that is formed on the receiving surface at a contact position between the receiving surface and the received portion and is movable in a column axis direction. A guide shaft supported by a support member that is supported by a lower jacket is inserted into an elongated hole of the second tooth member, thereby guiding the second tooth member in a meshing and unmeshing direction.

First teeth of a first tooth member that moves together with an upper jacket mesh with second teeth of a second tooth member. The second tooth member includes a received portion received by a receiving surface of a receiving member (energy absorption member). The second tooth member is rotatably supported by a fulcrum that is formed on the receiving surface at a contact position between the receiving surface and the received portion and is movable in a column axis direction. A guide shaft supported by a support member that is supported by a lower jacket is inserted into an elongated hole of the second tooth member, thereby guiding the second tooth member in a meshing and unmeshing direction.

A steering column comprising a first jacket and a second jacket that is axially movable with respect to the first jacket. The first jacket includes an aperture. An energy absorbing apparatus includes a strap body extending between a first end and a second end and a curved portion located between the first end and the second end. The first end includes a first connector and the second end includes a second connector selectively connected to the first connector through the aperture in the first jacket.

A steering column comprising a first jacket and a second jacket that is axially movable with respect to the first jacket. The first jacket includes an aperture. An energy absorbing apparatus includes a strap body extending between a first end and a second end and a curved portion located between the first end and the second end. The first end includes a first connector and the second end includes a second connector selectively connected to the first connector through the aperture in the first jacket.