A pole mount system has an enclosure, an enclosure mounting assembly, and a clamp system. The enclosure mounting assembly is affixed to the exterior of the enclosure. The clamp system grips the pole. The enclosure mounting assembly and the clamp system have complementary fastening structures to secure the enclosure to the pole.

The present invention proposes a device for fixing communication equipment, which couples communication equipment with a communication pole, the device comprising: a plurality of fixing brackets which surround an outer circumferential surface of a communication pole and are coupled to each other so as to be coupled to the communication pole; a fastening groove which is formed at each of the fixing brackets and coupled to a connecting bracket; a fixing groove connected to the fastening groove; and a fixing assembly which is disposed at the fixing groove and includes a leaf spring which protrudes toward the fastening groove or is inserted into the fixing groove. Other embodiments are also possible.

A shielded locking system for securely closing a lid on an enclosure, such as a grade level utility vault, including an L-bolt connected to a spring-biased slide member positioned on the underside of the lid that rotates in a slotted housing that securely retains the L-bolt under the lid, the slide member engaging an abutment on the inside of the enclosure when the lid is forced down over an opening in the enclosure by downward force on the lid which progressively causes the latch to retract against the spring-bias from contact with the abutment and then snaps the latch into a spring-biased locking position under the abutment, and a non-conductive cover positioned over and connected to the locking system to shield the L-bolt from electrical conductivity from within the enclosure.

The disclosed apparatus may include (1) an FRU that (A) is designed to mate with a backplane of a telecommunications system and (B) facilitates communication among computing devices within a network and (2) at least one multi-bar ejector that (A) is coupled to the FRU, (B) fastens to a housing of the telecommunications system to enable the FRU to mate with the backplane of the telecommunications system, and (C) includes a spring coupled to at least one bar of the multi-bar ejector that, when the multi-bar ejector is fastened to the housing of the telecommunications system, applies a force on the FRU that pushes the FRU toward the backplane of the telecommunications system. Various other apparatuses, systems, and methods are also disclosed.

This application discloses power distribution equipment and a power distribution system. The power distribution equipment includes a power distribution device and a power distribution box, where the power distribution device is capable of being inserted into and removed from the power distribution box; a connection port is disposed at a first end of the power distribution device, where the connection port is used to connect a power cable or a user load line; a power connection terminal is disposed at a second end of the power distribution device, where the power connection terminal is used to plug into a busbar inside the power distribution box; and the connection port and the power connection terminal are connected inside the power distribution device. A design in which the power distribution device is capable of being inserted into and removed from the power distribution box simplifies operation and improves convenience.

The present disclosure describes a module for a telecommunications pole. The module may include a main base plate configured such that telecommunications equipment can be mounted thereto, a top frame member and a bottom frame member coupled to opposing ends of the main base plate and extending outwardly from, and generally perpendicularly to, the main base plate; and a plurality of side frame members coupled to the top and bottom frame members, each side frame member extending collinearly with the main base plate. The top, bottom and side frame members each include a plurality of recesses and protrusions configured and/or positioned such that the top, bottom, and side frame members may be aligned and assembled within the telecommunications pole. Module assemblies and methods of assembling the modules are also described herein.

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.

A modular electronics enclosure includes a rear frame, a first L-shaped piece and a second L-shaped piece joined to form a box-shaped shell having a floor, a ceiling, a rear wall and first and second opposed side walls that define an internal cavity. The first L-shaped piece includes a wall panel and a top panel that form the ceiling and the first side wall of the shell. The second L-shaped piece includes a wall panel and a bottom panel that form the floor and the second side wall of the shell. The rear frame forms the rear wall of the shell.

A low passive intermodulation (PIM) cable hangers system includes several types of universal bases that each include a standard end effector receptacle integrally formed with a mounting adapter designed to interface with a support structure having a particular shape. For example, a first type of universal base includes a pole adapter, and a second type of universal base includes an angle adapter. The standard end effector receptacle is designed to receive a standard fitting integrally formed into a range of end effectors, such as a low-PIM barrel cable block, a low-PIM junction box for receiving snap-in cable hangers, and a low-PIM dual-rod cable hanger allowing different types of universal bases to be mixed and matched interchangeably with different types of end effectors. Cable ties are used to secure the universal bases and end effectors to support structures, such as pole supports and angle supports.

A top of stack mounting component. The top of stack mounting component includes a side portion, the side portion being configured to be mounted to a side of a rack; and, an information handling system retention member, the information handing system retention member preventing upward movement of an information handling system as the information handling system is removed from the rack and passes a potential tipping point where more weight of the information handling system is out of the rack as compared to the portion of the weight of the information handling system which is within the rack.