A hem bar of a cable guided shade adapted to be removably attached to a pair of cables secured along opposite sides of a structural opening. The hem bar comprises a pair of cable engaging portions disposed at two opposite ends of the hem bar. Each cable engaging portion comprises a tubular body with a longitudinal channel extending therein and a slot traversing the tubular body from the top end to the bottom end of the tubular body. The hem bar may removably and slidably engage the pair of cables by twisting the hem bar in a first direction to align each slot in the cable engaging portions with a length of the respective cable, inserting the cables through the slots into the channels in the cable engaging portions of the hem bar, and twisting the hem bar in a second direction, opposite the first direction, to capture the cables within the channels in the cable engaging portions.

A break-out door sensor system is provided. In one aspect, the system includes: a door; a sensor located on the door; a trigger connected to the door and located proximate to the sensor and configured to move to an actuating position, and when in the actuating position, the trigger contacts the sensor causing the sensor to emit a signal, the trigger being biased away from the actuating position; and a camming surface on the trigger, wherein dimensions of the trigger and the trigger's location on the door with respect to the sensor including the location and dimensions of the camming surface are selected to cause the trigger to move to the actuating position when the camming surface moves against door guide forming a channel and the trigger moves out of the channel.

A motorized shade for covering a window, a door, or a wall opening is provided that can be actuated by touching its hem bar. The motorized shade, such as a roller shade, comprises a shade material extending from a top end to a bottom end, a hem bar assembly connected to the bottom end of the shade material, and a shade drive unit operably connected to the top end of the shade material. The hem bar assembly comprises a touch sensing module adapted to detect a user touching the hem bar assembly and transmit a control signal in response to the detected touch. The shade drive unit comprises a motor and a motor control module adapted to receive the control signal and control the motor to open or close the shade material. The control signal can be wirelessly transmitted from the touch sensing module to the motor control module.

A sensing edge is made in segments that can be used to determine at which point along the edge an obstruction occurred. Data collected can be used to determine a point in a process that the fault occurred by addressing each segment individually or as a whole. A programmable controller can be operatively coupled to the sensing edge, and can include logic to control the door and/or other equipment using data collected from the sensing edge.

A sensing edge is made in segments that can be used to determine at which point along the edge an obstruction occurred. Data collected can be used to determine a point in a process that the fault occurred by addressing each segment individually or as a whole. A programmable controller can be operatively coupled to the sensing edge, and can include logic to control the door and/or other equipment using data collected from the sensing edge.

A sensing edge is made in segments that can be used to determine at which point along the edge an obstruction occurred. Data collected can be used to determine a point in a process that the fault occurred by addressing each segment individually or as a whole. A programmable controller can be operatively coupled to the sensing edge, and can include logic to control the door and/or other equipment using data collected from the sensing edge.

An universal automatic tensioning system, for roller blinds and awnings with side rails, comprising a crossbar (2) equipped with a spring pin (6) that can move along a side guide (3) that defines the rail for the shift of the awning (1), characterized in that it includes one or more fixed clip(s) (4) that can be hooked by the spring pin (6) causing the locking of the roller blind (1); a further movement of the awning's crossbar (2) will force the spring pin (6) engaging with a mobile flap (5) that works as a sort of bridge for the spring pin (6), causing the unlocking of the crossbar (2), so as to realize the setting for the automatic tensioning of the roller blind (1).

The present invention concerns a motorized door comprising an array of n detection cells distributed along the length of the leading edge, capable of detecting the presence and distance, x, from said detection cell of a body positioned between said detection cell and a distal transverse edge. The detection cells are coupled to a CPU which triggers different actions during the closing of the shutter, depending on the proportion, P=n1/n of the number, n1, of detection cells identifying the presence of a body at a same time located at a distance, xxs, wherein xs is a predefined safety distance. (a) if PPs, wherein Ps is a predefined safety proportion, the detected body is considered as an accidental obstacle and the CPU is programmed to instantly stop the movement of the shutter; (b) if P>Ps, the CPU considers that the detected body is a distal transverse edge defining the end of the closure run, and orders to decrease the closing speed of the shutter until the leading edge contacts the distal transverse edge.

A sensing edge is made in segments that can be used to determine at which point along the edge an obstruction occurred. Data collected can be used to determine a point in a process that the fault occurred by addressing each segment individually or as a whole. A programmable controller can be operatively coupled to the sensing edge, and can include logic to control the door and/or other equipment using data collected from the sensing edge.

A motorized shade for covering a window, a door, or a wall opening is provided that can be actuated by touching its hem bar. The motorized shade, such as a roller shade, comprises a shade material extending from a top end to a bottom end, a hem bar assembly connected to the bottom end of the shade material, and a shade drive unit operably connected to the top end of the shade material. The hem bar assembly comprises a touch sensing module adapted to detect a user touching the hem bar assembly and transmit a control signal in response to the detected touch. The shade drive unit comprises a motor and a motor control module adapted to receive the control signal and control the motor to open or close the shade material. The control signal can be wirelessly transmitted from the touch sensing module to the motor control module.