A slide rail assembly includes a first rail, a second rail, a working member and a contact feature. The second rail and the first rail are movable relative to each other. The working member is mounted to a connecting part arranged on one of the first rail and the second rail. The contact feature is arranged on the other one of the first rail and the second rail. At least one space is defined between the working member and the connecting part. When the slide rail assembly is in a retracted state, the working member is configured to block the contact feature, in order to prevent the second rail from being moved from a predetermined position along one direction.

A refrigerator includes a refrigerator main body; and a drawer guide assembly configured to guide movement of a drawer relative to the refrigerator main body. The drawer guide assembly include a first rail coupled to a side engagement portion of the drawer and operable to transfer a load of the drawer in a downward direction, and a second rail coupled to a sidewall of the refrigerator main body and configured to guide movement of the first rail. The second rail is configured to reduce impact between the drawer and the refrigerator main body responsive to drawer movement relative to the refrigerator main body.

A refrigerator includes a refrigerator main body; and a drawer guide assembly configured to guide movement of a drawer relative to the refrigerator main body. The drawer guide assembly include a first rail coupled to a side engagement portion of the drawer and operable to transfer a load of the drawer in a downward direction, and a second rail coupled to a sidewall of the refrigerator main body and configured to guide movement of the first rail. The second rail is configured to reduce impact between the drawer and the refrigerator main body responsive to drawer movement relative to the refrigerator main body.

A refrigerator includes a refrigerator main body forming an exterior of the refrigerator, a drawer configured to contain items stored in the refrigerator; and a drawer guide assembly coupled to the drawer and configured to support and guide movement of the drawer. The drawer guide assembly includes: a first rail coupled to a side engagement portion of the drawer and operable to transfer a load from the drawer in a downward direction. The first rail includes: a first end coupled to a first end portion of the drawer, a second end coupled to a second end portion of the drawer, and a second rail disposed at a sidewall of the refrigerator main body and configured to guide movement of the first rail.

A refrigerator includes a refrigerator main body forming an exterior of the refrigerator, a drawer configured to contain items stored in the refrigerator; and a drawer guide assembly coupled to the drawer and configured to support and guide movement of the drawer. The drawer guide assembly includes: a first rail coupled to a side engagement portion of the drawer and operable to transfer a load from the drawer in a downward direction. The first rail includes: a first end coupled to a first end portion of the drawer, a second end coupled to a second end portion of the drawer, and a second rail disposed at a sidewall of the refrigerator main body and configured to guide movement of the first rail.

A driving mechanism includes a first elastic member, a first locking device, a second elastic member and a second locking device. The first locking device is configured to allow the elastic member to release a first elastic force in an unlocking state. The second locking device is connected to the second elastic member. When a first furniture part is moved a predetermined distance relative to a second furniture part from an open position toward a retracted position, the first locking member is switched from the unlocking state to a locking state in order to accumulate the first elastic force, and the first furniture part is moved from the open position to the retracted position in response to a second elastic force of the second elastic member.

A motor control center (MCC) includes a cabinet, a bus located within the cabinet, a partition vertically partitioning the inside of the cabinet, and an MCC unit located on the partition and including a clip connected to the bus, a first guide located on a lower surface of the MCC unit and having a protrusion part, and a second guide located on an upper surface of the partition and slidably guiding the first guide in a forward/backward direction, wherein the second guide has rise limiting parts limiting rise of the protrusion part in order to limit rise of the first guide, and thus, separation of the MCC unit is minimized, and since the MCC unit is mounted in a normal position, high reliability is obtained.

A cabinet quick release structure includes an upper sliding rail assembly, a bracket having front and rear positioning blocks, a tray, left and right latch devices and a lower sliding rail assembly arranged so that when dismounting a wooden cabinet from a cabinet housing, a user pulls a latch block of the front positioning block, and then pushes an inner sliding rail of the upper sliding rail assembly backward to move front and rear positioning rods of an inner sliding rail respectively out the front and rear positioning blocks, and then disengages the left and right latch devices from a bottom locating frame of the lower sliding rail assembly. When mounting the wooden cabinet, the front positioning rod of the inner sliding rail is locked by the latch block while the rear positioning rod is located in the rear positioning block and the latch devices engage the bottom locating frame.

A cabinet quick release structure includes an upper sliding rail assembly, a bracket having front and rear positioning blocks, a tray, left and right latch devices and a lower sliding rail assembly arranged so that when dismounting a wooden cabinet from a cabinet housing, a user pulls a latch block of the front positioning block, and then pushes an inner sliding rail of the upper sliding rail assembly backward to move front and rear positioning rods of an inner sliding rail respectively out the front and rear positioning blocks, and then disengages the left and right latch devices from a bottom locating frame of the lower sliding rail assembly. When mounting the wooden cabinet, the front positioning rod of the inner sliding rail is locked by the latch block while the rear positioning rod is located in the rear positioning block and the latch devices engage the bottom locating frame.

A sliding shelf assembly for a refrigerator appliance is provided. The sliding shelf assembly includes a shelf support frame that is slidably mounted inside the chilled chamber of the refrigerator appliance. A connecting arm couples the shelf support frame to the door such that the shelf support frame slides out of the chilled chamber as the door is opened. Moreover, the shelf support frame slidably receives refrigerator shelves that may slide independently of the shelf support frame. The sliding shelf assembly thereby simplifies storage on the refrigerator shelves, improves accessibility of the chilled chamber, and improves consumer satisfaction with the refrigerator appliance.