Abstract: An adapter assembly for a pedestal mount for an electronic device is provided. An assembly for mounting a pedestal mount for an electronic device includes a weldment including a mount plate having a first surface and a second surface, a mount pipe is coupled to the mount plate and extends perpendicularly from the second surface of the mount plate, the first surface of the mount plate configured to receive a base of the pedestal mount, the mount pipe including a non-threaded portion coupled to the mount plate and a threaded portion; an adapter block configured to mate in a recess of a structure, the adapter block including a first aperture configured to receive the mount pipe; and a fastener configured to be disposed over the threaded portion of the mount pipe to secure a portion of the structure between the mount plate and adaptor block.

Abstract: The present disclosure relates to touchless, pushbutton exit devices, systems and methods thereof. A touchless, pushbutton exit device of the present disclosure is a touchless door-control device designed to provide both contactless, fail-safe, egress/exit control as well as push-button egress/exit control. The touchless, pushbutton exit device can be used in conjunction with a host of existing security devices (e.g., Fire, Alarm Panel, and Access Control), or as a stand-alone solution. The present disclosure provides for at least three types of exit devices, i.e., an Infrared (IR) version, a Doppler (radar) version and a low-power radar-based version. When motion is detected within a predetermined distance (e.g., about 5.5 inches for the Infrared version or about 24 inches for the Doppler version) of a faceplate of the exit device, an onboard relay is activated, providing control for intermittent as well as continuous duty locking devices.

Abstract: The present disclosure provides for an adjustable camera enclosure. The camera enclosure includes a housing, a camera mounting assembly, and a base. The housing is aligned along a longitudinal axis and includes a hollow interior, a first end, a second end and an aperture through a wall of the housing. The aperture extends in a direction parallel to the longitudinal axis. The camera mounting assembly is disposed in the hollow interior of the housing and slidable within the hollow interior along the longitudinal axis. The camera mounting assembly can receive a camera such that a lens of the camera is oriented to the aperture of the housing. The base is coupled to the second end of the housing and is mountable to a surface. The base is rotatable about the longitudinal axis relative to the surface to rotate the housing about the longitudinal axis.