Abstract: A cordless retractable shade including an operating system for the shade that varies a biasing force of a spring to counterbalance the shade. The bottom rail of a retractable shade can be raised or lowered, and due to the operating system remains in any selected position of the covering between fully extended and fully retracted, without the use of operating cords. The system includes a method of negating and reversing the spring bias effect at a strategic position whereby the flexible vanes of the shade can be adjusted between open and closed.
Type:
Grant
Filed:
July 23, 2018
Date of Patent:
February 2, 2021
Assignee:
HUNTER DOUGLAS INC.
Inventors:
Stephen P. Smith, Kent A. Smith, Galen B. Rhodes, Stephen M. Winters, Kenneth M. Faller
Abstract: A speed regulating assembly for coupling to a roller tube for regulating a deployment speed of a covering of an architectural-structure covering is disclosed. The speed regulating assembly may include a detachable adapter for enabling a singular sized speed regulating device to be used regardless of the size of the roller tube. That is, by utilizing a detachable adapter for coupling to the roller tube, any change in the size of the roller tube only requires a different sized adapter. In addition, the speed regulating assembly may be configured so that during covering retraction, the speed regulating assembly is disengaged so that any input rotation from the roller tube is not transmitted to the speed regulating device. However, during covering deployment, the speed regulating assembly is engaged so that any input rotation from the roller tube is transmitted to the speed regulating device thereby regulating the speed of covering deployment.
Abstract: A coupling system for mounting a tile to a framework of a building is disclosed. In one example of an embodiment, the coupling system includes a support bar arranged and configured for coupling to the tile and one or more clips coupled to the support bar. In one example of an embodiment, the clips include a tile-mounting opening for coupling the clips to the support bar and a frame-mounting opening for coupling the clips to the framework of the building to thereby couple the tile to the framework of the building. In one example of an embodiment, the support bar is arranged and configured for receipt within a longitudinal channel formed in the tile.
Abstract: A power assist module for use in roller tube driven products, such as roller shades. The module may be pre-wound prior to installation in a roller tube and retains its pre-wound condition, even after use, when removed from the roller tube.
Abstract: In one aspect, a covering for an architectural structure may include a shade panel and a bottom rail assembly coupled to the shade panel. The bottom rail assembly may include a rail housing and a roller extending within the rail housing, with the shade panel being looped around the roller such that the bottom rail assembly is vertically supported by the shade panel as the panel is moved between extended and retracted positions. In addition, the relative positioning of the roller within the rail housing may be adjusted, as desired, between the top and bottom ends of the bottom rail housing.
Abstract: A covering for an architectural opening may include a brake assembly including a first housing, a clutch on which the first housing may be mounted, a sleeve, a second housing attached to the sleeve, and a spring element attached to the second housing. The brake assembly may permit relatively unrestricted rotation of the first housing in a first direction, and impart rotational resistance to rotation of the first housing in a second direction. A method for assembling a covering for an architectural opening may include coupling a clutch to a first housing, coupling the clutch to a sleeve, coupling a second housing to the sleeve, mounting the second housing over a hub, and positioning a torsion spring between the hub and the second housing. The brake assembly may be used to impart rotational resistance to extension of a shade member, such as to resist unintended extension of the shade member.
Abstract: A power assist module for use in roller tube driven products, such as roller shades. The module may be pre-wound prior to installation in a roller tube and retains its pre-wound condition, even after use, when removed from the roller tube.
Abstract: A covering for an architectural covering is provided. The covering may include a rotatable outer roller, a rotatable inner roller, a first shade secured to the outer roller, and a second shade secured to the inner roller. The outer roller may define an elongated slot extending along a length of the outer roller and opening to an interior of the outer roller. The inner roller may be received within the outer roller and may define a central longitudinal axis. The first shade may be retractable onto and extendable from the outer roller. The second shade may extend through the elongated slot and may be retractable onto and extendable from the inner roller. The elongated slot may be substantially horizontally aligned with the central longitudinal axis of the inner roller when the first shade is in a fully extended position.
Type:
Application
Filed:
August 17, 2020
Publication date:
December 3, 2020
Applicant:
Hunter Douglas Inc.
Inventors:
Nickolas C. Buccola, JR., Terrence M. Drew, Kenneth M. Faller, Kent A. Smith
Abstract: Example motor assemblies for architectural coverings are described herein. An example motor assembly includes a motor, a first switch to trigger the motor to retract an architectural covering, a second switch to trigger the motor to extend the architectural covering, and an actuator positioned to activate the first switch when the actuator is rotated in a first direction and to activate the second switch when the actuator is rotated in a second direction. Also described herein are example lever actuators for motor assemblies of architectural coverings. An example lever actuator detaches from the motor assembly to prevent excess force on the motor assembly that could otherwise detrimentally affect the motor assembly.
Type:
Grant
Filed:
October 18, 2017
Date of Patent:
December 1, 2020
Assignee:
Hunter Douglas Inc.
Inventors:
James M. Anthony, Charles Culver Gidden Cooper, Peter Zagone, Stephen T. Wisecup, Jan Pruegner, Robert Witt, Joerg Schierz, Kevin M. Dann, Daniel A. Huber, Paul A. Brayford, Douglas J. Lorenz, James Kolozs, Ronald Holt, Todd Nelson, Shelby Jared Yenzer
Abstract: A covering for an architectural-structure covering is disclosed. The covering is formed from a plurality of assembled strips of fabric material joined together. Each assembled strip of fabric material may include a fabric material including inner and outer surfaces, and top and bottom ends. A first slat may be coupled to the inner surface of the fabric material adjacent the top end thereof, the first slat having a first contact surface. A second slat may be coupled to the outer surface of the fabric material adjacent the bottom end thereof, the second slat having a second contact surface. The first contact surface of the first slat of a first assembled strip is preferably nested with the second contact surface of the second slat of an adjoining second assembled strip. The second contact surface of the second slat may be partially covered by the piece of fabric material.
Abstract: A covering for an architectural opening is provided. The covering may include a roller rotatable about a longitudinal axis, a shade associated with the roller, and an operating system operably associated with the roller. The operating system may include a base, a drive mechanism, a transmission, an actuator arm, and an engagement arm. The drive mechanism may be associated with the base to provide an input torque. The transmission may be associated with the drive mechanism to selectively transmit the input torque to the roller. The actuator arm may be associated with the base to indirectly set a rotation direction of the roller. The engagement arm may be associated with the base and engageable with the transmission.
Abstract: A perimeter light blockout system for minimizing light leakage between light gaps such as, for example, between the sides of a covering (e.g., shade) of an architectural-structure covering and the interior side surfaces of a window frame, or between the covering and the outer surface of an interior wall is disclosed. The perimeter light blockout system including a light blocking device and a mounting element for coupling the light blocking device to the interior side surface of the window frame, or the outer surface of the interior wall. The light blocking device may include rear and front channel members. The mounting element may be a mounting extrusion. Alternatively, the mounting element may be a spring clip. In use, the light blocking device may be adapted and configured so as not to contact the covering as the covering moves between extended and retracted positions. The mounting element may include a degree of adjustment so that the light blocking device may be aligned with an out-of-skew window frame.
Type:
Application
Filed:
August 7, 2020
Publication date:
November 19, 2020
Applicant:
Hunter Douglas, Inc.
Inventors:
Patrick E. FOLEY, Paul JOSEPHSON, Mark SCHWANDT, Donald J. CLARK, Wendell B. COLSON, Paul G. SWISZCZ, Stephen T. WISECUP, Benjamin J. MADDEN, Fred BOULD, Kwan Hon Anson CHEUNG, Byron LEE
Abstract: A cord wrapping mechanism converts linear motion to circular motion for use in coverings for architectural openings. The cord is guided onto a spool.
Type:
Grant
Filed:
August 21, 2017
Date of Patent:
November 10, 2020
Assignee:
Hunter Douglas Inc.
Inventors:
Richard Anderson, Robert E. Fisher, II, Donald E. Fraser, Steven R. Haarer
Abstract: A system and method for laser sealing an edge portion of a covering of an architecture-structure covering is disclosed. In one embodiment, after cutting a covering of an architectural-structure covering to an appropriate size, lasering the cut edge portions or surfaces of the covering to seal the cut edge portions or surfaces of the covering to prevent fraying. The beam of the laser may be positioned to contact the cut edge portions or surfaces of the covering in a plane of the fabric. Subsequently, the beam of the laser scans or moves across the surface of the cut edge portion of the covering. In use, the beam of the laser is arranged and configured to apply heat to the surface of the fabric material at discrete points or spots to vaporize any loose fibers located along the cut edge portion of the covering.
Type:
Application
Filed:
April 8, 2020
Publication date:
October 22, 2020
Applicant:
Hunter Douglas, Inc.
Inventors:
David Lynch, Stephen T. Wisecup, Patrick Foley, Wayne Rayman
Abstract: A bottom rail for a covering of an architectural-structure covering is disclosed. In one example of an embodiment, the bottom rail includes a first or front member, and a second or rear member. The first and second members are arranged and configured to be coupled to each other with a bottom portion of a covering positioned in between the first and second members. Thus arranged, the first member is coupled to the second member, and the covering is securely coupled to the bottom rail. In addition, and/or alternatively, the covering may be received within the bottom rail along a tortuous pathway. In addition, and/or alternatively, the bottom rail may include a front profile or surface that substantially corresponds to a front profile of battens extending across a width of the covering. Moreover, the bottom rail may enclose the lowermost batten so that consistent spacing of the battens is maintained.
Type:
Application
Filed:
March 25, 2020
Publication date:
October 8, 2020
Applicant:
Hunter Douglas, Inc.
Inventors:
Nickolas C. Buccola, JR., Michael S. Goldberg, Thanh Vu
Abstract: A base structure and associated method for converting the base structure into an operable vane on a shade for an architectural opening. The base structure includes a back sheet and a front sheet attached together in engagement regions spaced along the length of the back sheet and front sheet. The front sheet is separated into front strip sections having a free end. Operating elements are positioned along the back sheet and situated so as to move relative thereto. The operating elements are attached adjacent to a free end of the front strip. Movement of the operating elements actuates the free end of the front strip to move from a closed position to an open position as desired by the user.
Type:
Application
Filed:
June 15, 2020
Publication date:
October 1, 2020
Applicant:
Hunter Douglas, Inc.
Inventors:
Ronald Holt, Marcus Long, Kelly Q. Rahn, Jason T. Throne, Stephen T. Wisecup