A drawer glide mechanism can include a first elongate guide member, a second elongate glide member, a ball bearing component, and a v-notch socket. The first elongate guide member includes a distal end that is configured to fit within an opening in the v-notch socket. The drawer glide mechanism can further include one or more floating members and fixed members.

A pull-out guide has a guide rail, a running rail, which is mounted in a displaceable manner on the guide rail, and a braking device disposed between the guide rail and the running rail for braking the movement of the running rail relative to the guide rail. The braking device has at least one friction element, which is arranged between the running rail and the guide rail and can be displaced along a sliding surface by way of a contact pressure. The pull-out guide can thus be braked with continuous forces over a long period of time.

A pull-out guide has a guide rail, a running rail, which is mounted in a displaceable manner on the guide rail, and a braking device disposed between the guide rail and the running rail for braking the movement of the running rail relative to the guide rail. The braking device has at least one friction element, which is arranged between the running rail and the guide rail and can be displaced along a sliding surface by way of a contact pressure. The pull-out guide can thus be braked with continuous forces over a long period of time.

The invention concerns a telescopic rail comprising a first rail element with two running surfaces, a second rail element with two running surfaces, at least one rolling body cage for positioning a plurality of rolling bodies. Such telescopic rails are found to suffer from the disadvantage that the rail elements and the rolling body cages all have to be designed to be moveable relative to each other. Accordingly, the invention proposes providing a telescopic rail in which the rolling body cage is secured to the first rail element so that the rolling bodies perform a sliding movement with respect to the running surfaces of the first rail element and the rolling bodies perform a sliding movement with respect to the running surfaces of the second rail element or roll on the running surfaces of the second rail element.

An assembly is to be mounted on a drawer slide to provide dampening to a drawer for an enclosure. The enclosure includes a front wall having a cutout area with merging lower and side edges. The drawer slide includes a stationary member mounted to the enclosure and a sliding member attached to the drawer. The assembly includes; a dampening mechanism having front and rear ends, the dampening mechanism configured to prevent slamming of the drawer during closing and to maintain the drawer in a closed position, the dampening mechanism having a hook that engages an activator mounted on the drawer; a front mounting bracket attached to the front end of the dampening mechanism, the front mounting bracket configured to mount to and engage the side edge of the cabinet and the stationary member of the drawer slide; and a rear mounting bracket attached to the dampening mechanism rearwardly of the front mounting bracket, the rear mounting bracket configured to mount to and engage the stationary member of the drawer slide.

A drawer pull-out guide includes at least two guide rails displaceably supported relative to one another, and at least one running carriage having load-transmitting rolling bodies. The running carriage is displaceably supported between the at least two guide rails, and the guide rails, upon a movement of the at least one running carriage, adopt a predefined relative position to one another, provided that no malposition of the guide rails to one another is present. A compensation device compensates for a malposition of the guide rails. The compensation device includes an actuating device to be actuated by one of the guide rails, and the actuating device compensates for the malposition upon an actuation. A switching device is provided for switching the actuating device of the compensation device out of engagement with the guide rail if the predefined relative position of the guide rails to another is present.

A drawer pull-out guide includes at least two guide rails displaceably supported relative to one another, and at least one running carriage having load-transmitting rolling bodies. The running carriage is displaceably supported between the at least two guide rails, and the guide rails, upon a movement of the at least one running carriage, adopt a predefined relative position to one another, provided that no malposition of the guide rails to one another is present. A compensation device compensates for a malposition of the guide rails. The compensation device includes an actuating device to be actuated by one of the guide rails, and the actuating device compensates for the malposition upon an actuation. A switching device is provided for switching the actuating device of the compensation device out of engagement with the guide rail if the predefined relative position of the guide rails to another is present.

A drawer glide mechanism can include a first elongate guide member, a second elongate guide member, a ball bearing component, a v-notch socket, a release mechanism, and/or a roller support. The first elongate guide member can include a distal end that is configured to fit within an opening in the v-notch socket. The drawer glide mechanism can further include one or more floating members and fixed members. In some cases, the drawer glide mechanism includes a release member configured to facilitate separation of the first and second elongate guide members when actuated and to inhibit or prevent accidental separation of the first and second elongate guide members.

A drawer glide mechanism can include a first elongate guide member, a second elongate guide member, a ball bearing component, a v-notch socket, a release mechanism, and/or a roller support. The first elongate guide member can include a distal end that is configured to fit within an opening in the v-notch socket. The drawer glide mechanism can further include one or more floating members and fixed members. In some cases, the drawer glide mechanism includes a release member configured to facilitate separation of the first and second elongate guide members when actuated and to inhibit or prevent accidental separation of the first and second elongate guide members.

A slide rail assembly includes a first rail, a second rail, a blocking feature, and a component. The two rails can be displaced with respect to each other. The blocking feature is provided at one of the two rails, and the component at the other of the two rails. When the second rail is at a predetermined position with respect to the first rail, a blocking portion of the blocking feature and a predetermined portion of the component are blocked by each other to prevent the second rail from being displaced with respect to the first rail from the predetermined position in a predetermined direction. One of the blocking portion and the predetermined portion forms a non-vertical structure.