A linear guide system has at least a first rail element and a second rail element, which are mounted to be linearly slidable opposite one another in and counter to an extraction direction, a linear drive, which includes a rotatable drive shaft and an electric motor configured for the transmission of a torque to the drive shaft. The linear drive is configured such that a rotational movement of the drive shaft causes a linear movement of the first and second rail elements relative to one another in or counter to the extraction direction. A locking element is provided, which can be set and reset between an unlocked position and a locked position, which, for blocking the rotational movement of the drive shaft in the locked position, is configured so as to engage in a form-locking or force-locking manner with an engaging element connected to the drive shaft in a rotationally fixed manner or configured as a portion of the drive shaft. An actuator is provided, which is configured for setting the locking element towards the engaging element from the unlocked position into the locked position, as well as for resetting the locking element from the locked position into the unlocked position.

A telescoping slide system comprising a left-side telescoping slide assembly and a right-side telescoping slide assembly that each include interconnected slide members moveable to extend and retract among a retracted-storage stage and an extended-service stage. Each telescoping slide assembly includes a stationary slide member, a intermediate slide member that moves relative to the stationary slide member in a channel formed in the stationary slide member, and a load-carrying slide member that moves relative to the stationary slide member and the intermediate slide member in a channel formed in the intermediate slide member.

A slide rail assembly includes a first rail, a second rail, and a blocking member. The blocking member is arranged adjacent to the rear end of the first rail and can be operated so as to enter or exit a blocking state. The blocking member in the blocking state serves to block the rear end of the second rail. When the blocking member is not in the blocking state, and the second rail reaches a rearwardly extended position after displacement with respect to the first rail, the rear end of the second rail extends beyond the rear end of the first rail.

A slide rail assembly includes a first rail, a second rail and a mounting member. The mounting member is arranged with a third rail and a fourth rail. Wherein, the third rail is movable relative to the first rail, and the second rail is movable relative to the fourth rail.

A slide rail assembly includes a first rail, a second rail, a mounting member, a third rail and a fourth rail. The mounting member includes a first part, a second part and a third part. The first and second parts are connected to the third parts and are respectively extended along different directions. The mounting member has a first side and a second side. The third rail is connected to the first part of the mounting member and located at the first side of the mounting member. The third rail is movable relative to the first rail. The fourth rail is connected to the second part of the mounting member and located at the second side of the mounting member. The second rail is movable relative to the fourth rail.

A slide rail assembly includes a first rail, a second rail, a mounting member, a third rail, a fourth rail and an engaging member. The mounting member includes a first part, a second part and a third part. The first part and the second part are connected to the third part and respectively extended along different directions. The third rail is connected to the first part of the mounting member, and the third rail is movable relative to the first rail. The fourth rail is connected to the second part of the mounting member, and the second rail is movable relative to the fourth rail. The engaging member is movably mounted to the mounting member. The engaging member is configured to allow the mounting member to be synchronously moved with the second rail along a predetermined direction.

A drawer pull-out guide includes a first rail and a second rail displaceable relative to one another, and a running carriage with a rolling body. The running carriage is displaceably arranged between the first rail and the second rail over a travelling path. A limiting element is arranged on the first rail or on the second rail, and the limiting element limits the travelling path of the running carriage. A damping device is arranged on the running carriage for dampening a movement of the running carriage over a damping path when the running carriage abuts against the limiting element. At the end of a maximum damping path of the running carriage, a stop of the first rail and a counterstop of the second rail abut against each other and thereby stop a movement of the second rail relative to the first rail.

A slide rail mechanism includes a first slide rail assembly, a second slide rail assembly and an unlocking handle. Each of the slide rail assemblies comprises a first rail, a second rail and a locking member. The first rail and the second rail are movable relative to each other. The locking member is configured to lock the second rail relative to the first rail at a predetermined position. The locking handle is movably mounted between the first slide rail assembly and the second slide rail assembly. When the unlocking handle is moved from a first position to a second position, the unlocking handle is configured to drive the locking member to move in order to unlock the second rail relative to the first rail at the predetermined position.

A drawer pull-out guide includes a first rail and a second rail displaceable relative to one another, and a running carriage with a rolling body. The running carriage is displaceably arranged between the first rail and the second rail over a travelling path. A limiting element is arranged on the first rail or on the second rail, and the limiting element limits the travelling path of the running carriage. A damping device is arranged on the running carriage for dampening a movement of the running carriage over a damping path when the running carriage abuts against the limiting element. At the end of a maximum damping path of the running carriage, a stop of the first rail and a counterstop of the second rail abut against each other and thereby stop a movement of the second rail relative to the first rail.

A slide rail assembly includes a first rail, a second rail, a third rail, a locking member and an operating member. The second rail is movable relative to the first rail between a first position and a second position. The third rail is movable relative to the second rail. The locking member is mounted to the second rail. When the second rail is located at the second position, the locking member is configured to lock a portion of the first rail, such that the second rail is not movable relative to the first rail from the second position toward the first position. The operating member is configured to be operated by a user to unlock the portion of the first rail from the locking member.