Abstract:
A remote control for a wireless load control system, the remote control comprising: a housing having a front surface and an outer periphery defined by a length and a width; an actuator provided at the front surface of the housing; a wireless transmitter contained within the housing; and a controller contained within the housing and coupled to the wireless transmitter for causing transmission of a wireless signal in response to an actuation of the actuator, the wireless transmitter and the controller adapted to be powered by a battery contained within the housing; wherein the length and the width of the housing are slightly smaller than a length and a width of a standard opening of a faceplate, respectively, such that the outer periphery of the housing is adapted to be received within the standard opening of the faceplate when the housing and the faceplate are mounted to a vertical surface.
Abstract:
Provided is an operation apparatus including a main body section including an operation section including a first operation section for performing a record operation of an image pickup device and a display section that displays an image transmitted from the image pickup device, and a fixation section that fixes the main body section to an attachment object. The first operation section and the display section are both located on a first face of the main body section.
Abstract:
A mounting frame may be configured as a self-adjusting mounting frame that biases itself against a surface of structure. The mounting frame may be a component, for example, of a remote control device or a faceplate assembly. The mounting frame may be configured to bias a rear surface of the mounting frame against the surface of a structure. The mounting frame may include biasing members. Each biasing member may include an attachment portion and a pair of resilient spring arms that suspend the attachment portion relative to a perimeter wall of the mounting frame such that the attachment portion is spaced further from the rear surface of the mounting frame than locations where the spring arms extend from the mounting frame. The rear surface of the mounting frame may be defined by the perimeter wall.
Abstract:
A remote control for a wireless load control system, the remote control comprising: a housing having a front surface and an outer periphery defined by a length and a width; an actuator provided at the front surface of the housing; a wireless transmitter contained within the housing; and a controller contained within the housing and coupled to the wireless transmitter for causing transmission of a wireless signal in response to an actuation of the actuator, the wireless transmitter and the controller adapted to be powered by a battery contained within the housing; wherein the length and the width of the housing are slightly smaller than a length and a width of a standard opening of a faceplate, respectively, such that the outer periphery of the housing is adapted to be received within the standard opening of the faceplate when the housing and the faceplate are mounted to a vertical surface.
Abstract:
Provided is an operation apparatus including a main body section including an operation section including a first operation section for performing a record operation of an image pickup device and a display section that displays an image transmitted from the image pickup device, and a fixation section that fixes the main body section to an attachment object. The first operation section and the display section are both located on a first face of the main body section.
Abstract:
A remote control for a wireless load control system, the remote control comprising: a housing having a front surface and an outer periphery defined by a length and a width; an actuator provided at the front surface of the housing; a wireless transmitter contained within the housing; and a controller contained within the housing and coupled to the wireless transmitter for causing transmission of a wireless signal in response to an actuation of the actuator, the wireless transmitter and the controller adapted to be powered by a battery contained within the housing; wherein the length and the width of the housing are slightly smaller than a length and a width of a standard opening of a faceplate, respectively, such that the outer periphery of the housing is adapted to be received within the standard opening of the faceplate when the housing and the faceplate are mounted to a vertical surface.
Abstract:
A suspension system for mounting a touch surface of a pressure sensitive touch display or panel. The suspension system comprises a frame and a flexible suspension membrane connected to the touch surface and the frame, the membrane allowing frictionless movement of the touch surface along the z-axis and resisting movement of the touch surface within the x-y plane. At least one force sensor is connected beneath the touch surface, whereby the touch surface is pre-loaded against the at least one force sensor.
Abstract:
A remote control unit organizing device (10) consisting of a mounting base (20), a bracket (22) and a rotatable barrel (24). The bracket (22) has a first end (26) affixed to a base member and a second end (28) connected to a wrist rest. A solid body (30) extends between the first end (26) and the second end (28) of the bracket (22). A dowel (32) extends from the bracket (22) at an angle relative to the mounting base (20) to serve as an axle. The barrel (24) is inserted over the dowel (32) and rotates about said dowel (32). A plurality of remote control units (38) can be adhered to the outside of the barrel (24) and when the barrel is rotated, a selected one of the plurality of remote control units can be brought into alignment with a user's hand when the user's wrist is positioned in the wrist rest.
Abstract:
A control housing is provided which encases a control board. The housing has a cover and a backing which are fixed together to secure the control board within the housing. The control board includes a plurality of switches, and the housing includes a plurality of corresponding buttons to activate the switches. The cover includes a cover surface having at least one button hole in register with the control board switch; operating insignia integrally formed on the cover surface adjacent the button hole; and a membrane which closes said button hole to form a button surface. The insignia is exposed through the membrane to be exposed and visible. The membrane is fused to the cover, thereby providing a housing which is sealed to substantially prevent gases, liquids or solids from entering the housing.
Abstract:
A device for convenient retention and storage of an audio/video component remote control unit. The device for attaching the remote control unit to a surface. The device having a cradle for receiving therein the audio/video component remote control unit and a cord extending therefrom for attaching to the remote control unit.