Systems and methods for determining proximity of architectural structure coverings. A user device receives a broadcast signal from each of a plurality of architectural structure coverings. An ordered list of the plurality of the architectural structure coverings is then maintained based on the broadcast signal. At least a portion of the ordered list is displayed on a display of the user device.

A smart sunshade curtain with a replaceable battery is provided which comprises a cross beam and mounting components covered on both ends of the cross beam; a power mechanism is disposed in the cross beam and has a drawer that may be pulled out of or pushed into one end of the cross beam, and battery assemblies are arranged in the drawer; a drive mechanism is disposed at the other end of the cross beam opposed to the power mechanism; the power mechanism transmits power to the drive mechanism to drive an output mechanism to move a curtain cloth. In the above structure, the batteries are arranged in sequence in the drawer mounted inside the cross beam, which facilitates spatial arrangement design of internal elements of the cross beam and prevents the batteries from being exposed to the outside, thereby improving aesthetics of the smart curtain.

A shade adapted for covering a classroom viewing window and assisting with compliance with emergency protocol during an emergency is disclosed. The shade may include a plurality folds connected to each other by a plurality of hinges configured to cover a classroom viewing window. Emergency related information and status indicators may be revealed upon the unfolding of the shade to assist teachers, school officials, police, and others to comply with established school emergency protocol. The shade further fulfills the requirement that the classroom viewing window be covered during an emergency lockdown. The shade may function as a standard “Exit” sign during non-emergency time. Another shade may include a case holding a material portion with handles that enable the shade to be moved up and down.

A battery-powered motorized window treatment for covering at least a portion of a window may be adjusted into a service position to allow for access to at least one battery that is powering the motorized window treatment. A headrail of the motorized window treatment may be adjusted to the service position to allow for easy replacement of the batteries without unmounting the headrail and without requiring tools. The motorized window treatment may comprise brackets having buttons that may be actuated to release the headrail from a locked position, such that the head rail may be rotated into the service position. The headrail easily rotates through a controlled movement into the service position, such that a user only needs one free hand available to move the motorized window treatment into the service position and change the batteries.

Systems and methods for configuring a user device to remotely control a plurality of architectural structural coverings are described. A user device receives a plurality of broadcast signals from a plurality of architectural structural coverings. Each individual broadcast signal is associated with an individual architectural structural covering and relays position information for the individual architectural structural covering. Each broadcast signal is also associated with an individual entry in a list of entries displayed on a user interface of the user device. Each entry comprises a representation of an architectural structural covering having a displayed position that matches position information from the broadcast signal and a position control for controlling a physical position of the associated architectural structural covering. When a user adjusts the position via the position control, an adjusted position instruction is sent to the associated architectural structural covering. The displayed position of the representation on the UI is changed to mirror a change in the physical position of the architectural structural covering as the user device observes broadcast position data from the architectural structural covering.

The window treatment includes a top member, a shade unit, and an outdoor temperature indication arrangement. The top member is adapted for mounting at a ceiling of the window frame. The shade unit is downwardly suspended from the top member and being moved between a closed position and an opened position, wherein at the closed position, the shade unit is moved for covering the window glass to control an amount of light in a space, and at the opened position, the shade unit is moved for uncovering the window glass. The outdoor temperature indication arrangement is formed with the shade unit for indicating an outdoor temperature when the shade unit is moved at the closed position.

A leading wire of pull cord of release wheel in a window blind is disclosed. In the beginning that the release wheel reels the pull cord, the winding angle of the pull cord can be defined that the wound reel can be neatly ordered. In a location of winding hub of the release wheel close to an inner spoke side, at least a piercing hole is transfixed along an inscribed tangent. In addition, a winding definer is further disposed in the direction at which the pull cord is spinning out, allowing the direction of an initial reeling coil to be defined in advance, so that the reel can be wound orderly.

A cord retractor for a window covering comprises a housing and a driving wheel, a reeling wheel, a spring, a friction member and a unidirectional transmission mechanism. The driving wheel and the reeling wheel can rotate with each other. The spring is coupled with the driving wheel and is wound on or unwound from the driving wheel according to a rotating direction of the driving wheel. The friction member is in a closed loop shape and surrounding a shaft of the housing. The unidirectional transmission mechanism is coupled with the friction member and the reeling wheel, and operated in different operation modes according to a rotating direction of the reeling wheel, by which the friction member provides constant resistance to the rotation of the reeling wheel when the reeling wheel rotates in a first direction, and stops providing resistance when the reeling wheel rotates in a second direction.

A mounting assembly for a roller window shade includes a mounting bracket, a motor coupled with a shade tube of the shade, a battery, a charging port and a power source that can be magnetically attached to the charging port. The mounting bracket includes a body having a first surface and a second surface and a protrusion fixedly coupled with the body and extending perpendicularly from the second surface. The first surface bears against a flat surface. The motor defines a recess that receives the protrusion. The battery is in electrical communications with the motor and the charging port. The mounting bracket and shade tube can obscure the battery from view. The power source can be a power cord that can be magnetically attached to the charging port using a attachment rob having a grasping end.

Examples of the present disclosure relate to various aspects of architectural structure coverings. A particular aspect relates executing a reset mode for one or more of architectural structure coverings. In said aspect, reset data is sent by an architectural structure covering indicating that this covering is in the reset mode. A user device receives the reset data, presents a user interface that identifies selectable reset actions. Upon a user selection of one of the reset actions, a reset instruction about the reset action is sent from the user device to the architectural structure covering that then performs the reset action.