A slide rail assembly includes a first rail, a second rail, a first bracket, a second bracket and a supporting feature. The first rail is configured to be mounted to a rack through the first bracket and the second bracket. The second rail is movable relative to the first rail and is configured to carry a carried object. The supporting feature is arranged on the first bracket. When the second rail is located at a predetermined position relative to the first rail, an end of the second rail is not extended beyond the supporting feature, and the supporting feature is configured to support a predetermined portion of the carried object.

A universal mounting system is provided for use in connection with substantially any type of electronic equipment so was to reduce or substantially avoid the need for rail kids or other mounting assemblies that are its equipment specific for mounting equipment to racks. In one implementation, a uniform mounting system (101) includes a number of rail and slider assemblies (112). Each of the rail and slider assemblies includes a slider that is slightly mounted on a support rail. Each of the slider is includes mounting flange is and brackets for mounting the slider to a piece of equipment. The mounting flanges 116 that's collectively define a segmented vertical rail. A safety stop mechanism can be used to define very a offset figurations of the equipment with respect to a front end of the rack.

Disclosed is a universal jig for charging and discharging a secondary battery cell. The universal jig includes a cell zig assembly including: a cell receiving part for receiving the secondary battery cell thereon; and a zig for a positive electrode terminal and a zig for a negative electrode terminal disposed above the cell receiving part and in contact with a positive electrode terminal and a negative electrode terminal of the secondary battery cell to apply current thereto, respectively; and a zig rotation inducing assembly connected, via a rotation center shaft thereof, to one face or an opposite face of the cell zig assembly on which the zig for the positive electrode terminal and the zig for the negative electrode terminal are disposed, wherein the zig rotation inducing assembly allows the cell zig assembly to rotate around the rotation center shaft.

The present disclosure describes an equipment rack for a telecommunications cabinet. The equipment rack allows a telecommunications cabinet to be reconfigured such that telecommunications equipment can be vertically mounted therein. The equipment rack includes a structural rail configured to be mounted within the telecommunications cabinet, an insert plate configured to fit within a cavity of the structural rail and be secured to the structural rail, and a bracket configured to be secured to the to the insert plate and configured such that a piece of telecommunications equipment can be mounted thereto.

A mobile terminal comprises a first frame, a second frame capable of slidably moving from the first frame in a first direction or a second direction which is an opposite direction of the first direction, and a driving unit slidably moving the second frame, wherein the driving unit includes a motor coupled to the first frame, a pinion gear rotated by a rotational force transferred from the motor, a gear rack extended in the first direction and coupled to the second frame, moving in the first direction or the second direction when the pinion gear is rotated, a guide rail coupled with the gear rack, and a guide block coupled to the first frame, moving along the guide rail.

A universal rail mounting kit for mounting a rack-mountable computing device within a computer rack is provided. The universal rail mounting kit includes a rack-mountable sliding rail configured to be attached to the computer rack, a device-mountable receiving rail configured to be attached to the rack-mountable computing device and configured to receive the rack-mountable sliding rail when the rack-mountable computing device is installed in the computer rack, and a device-mountable securing rail configured to be attached to the rack-mountable computing device and configured to secure the rack-mountable computing device to the computer rack after the device-mountable receiving rail has received the rack-mountable sliding rail.

A dummy chassis includes a first frame bar, a second frame bar and a connection member. The first frame bar has a first long side and a first engaging portion. The second frame bar has a second long side and a second engaging portion. The connection member has two end portions which are located oppositely. The first end portion has a third engaging portion. The second end portion has a fourth engaging portion. A width of the connection member is less than a length of the first frame bar and a length of the second frame bar.

A constrainer includes a base and two arms mechanically coupled to the base. The base and two arms receive a device while the constrainer is in a first state and, while the constrainer is transitioning from the first state to a second state and while the device is disposed in the constrainer, place the device in a predetermined orientation.

A system includes a tray, where the tray includes a rail and a bracket that secures the rail to a networking device such that the rail is distanced from a surface of the networking device. A support post is removably coupled to the rail. The support post includes a first support member and a second support member vertically displaced from the first support member, where each of the first and second support members includes a support structure that supports a cable connected with a port at the surface of the networking device and routes the cable away from the networking device to another location distanced from the networking device. The cable supported by the first support member is separated and segregated from the cable supported by the second support member. With minimal touch, a support post can be moved from one location to another along the rail.

Carriers may be adapted, or configured, to allow devices received thereby to move towards and away from an interface end region. When devices are positioned proximate the interface end region of the carriers, interfaces of the devices may be presented by the carriers for operable coupling to an enclosure. When devices are positioned away from the interface end region of the carriers, interface adapters may be coupled to the interfaces of the devices, which may present a different interface for operable coupling to an enclosure.