Patent application number | Description | Published |
20100019902 | Portable security system and method - A portable security system includes a sensing unit where the sensing unit is conformed to sense its own movement and to send a movement signal. An alarm is provided such that the alarm is activated to produce an alarm signal after receipt of the movement signal from the sensing unit. | 01-28-2010 |
20100269988 | Counterbalanced motorized shade roll system and method - In a window covering system with a shade roll, a counterbalanced motorized shade roll system includes a shade roll with a hollow interior connected with a window covering system. A motor is located within the hollow interior. A torsion spring is also located within the hollow interior of the shade roll and the torsion spring is connected with the motor on one end and with the hollow interior on another end. Batteries are also located within the hollow interior of the shade roll opposite from the motor and after the connection of the torsion spring with the hollow interior of the shade roll such that the torsion spring does not surround the batteries. | 10-28-2010 |
20110032073 | System and Methods for Automatically Moving Access Barriers Initiated by Mobile Transmitter Devices - A discrete add-on control system for a barrier operating system is provided. The control system includes a mobile transmitter, a barrier state transmitter a controller and an indicator. The mobile transmitter automatically and periodically generates a mobile signal. The barrier state transmitter generates a barrier state signal. The controller is connected to the barrier operating system, receives the mobile signal and the barrier state signal, and commands the barrier operating system to move a barrier based upon the mobile signal and the barrier state signal. The indicator indicates a condition of the barrier. | 02-10-2011 |
20110203748 | High Efficiency Roller Shade - The present invention advantageously provides a motorized roller shade that includes a shade tube, a motor/controller unit and a power supply unit. The motor/controller unit is disposed within the shade tube, and includes a bearing, rotatably coupled to a support shaft, and a DC gear motor. The output shaft of the DC gear motor is coupled to the support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to the mounting bracket. | 08-25-2011 |
20110203754 | Method for Operating a Motorized Roller Shade - The present invention advantageously provides methods for manually and/or remotely controlling a motorized roller shade that includes a shade attached to a shade tube, a DC gear motor disposed within the shade tube and a microcontroller. One method includes detecting a manual movement of the shade using a sensor, determining a displacement associated with the manual movement, and, if the displacement is less than a maximum displacement, moving the shade to a different position by energizing the DC gear motor to rotate the shade tube. Another method includes receiving a command from a remote control, and moving the shade to a position associated with the command by energizing the DC gear motor to rotate the shade tube. | 08-25-2011 |
20110272106 | Anti-reversible power spring apparatus and method - In a shade system with a bracket supporting a shade storage roll, an anti-reversible power spring apparatus includes at least one biasing system connected with the storage roll wherein the biasing system includes a biasing member with a first end and a second end wherein the first end moves with the storage roll as the storage roll rotates and wherein the second end is held stationary with reference to the storage roll when the storage roll rotates in one direction but not when the storage roll rotates in a second direction. A support for the at least one biasing system is provided wherein the support includes a protrusion that holds the second end against movement when the storage roll is rotated in the one direction but which allows passage of the second end past the protrusion when the storage roll is rotated in the second direction. | 11-10-2011 |
20120024485 | Modular anti-reversible power spring apparatus and method - In a shade system with a bracket supporting a shade storage roll, an anti-reversible power spring apparatus includes a biasing member and a housing with a receiver end and a connector end where the housing encloses the biasing member and the receiver end and the connector end contain the biasing member within the housing. A connector device is connected with the housing and a receiver device is connected with the housing where the connector is connectable with a receiver and where the receiver is connectable with a connector. | 02-02-2012 |
20120031571 | High Efficiency Roller Shade - A motorized roller shade is provided. The motorized roller shade includes a shade tube in which a motor unit, a controller unit and a power supply unit are disposed. The controller unit includes a controller to control the motor. The power supply unit includes at least one bearing rotatably coupled to a support shaft. The motor unit includes at least one bearing, rotatably coupled to another support shaft, a DC gear motor and a counterbalancing device. The output shaft of the DC gear motor is coupled to the support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to a mounting bracket. | 02-09-2012 |
20120090797 | Motorizable shade system and method - A motorizable shade system and method consists of a header system where the header system includes an integral header attachment connection. At least one cord spool is provided within the header system and is connected with at least one suspension cord and a shade is suspended from the at least one suspension cord. A motor assembly attachment connection is provided in a motor assembly that is conformed to connect with the integral header attachment connection and the motor assembly also includes a motor assembly electrical connector. A power system with a power attachment connection is provided that is conformed to connect with the integral header attachment connection. The power system also includes a power system electrical connector that is conformed to connect with the motor assembly electrical connector. The motorizable shade system operates manually unless and until a motor assembly and power system are connected with the integral header attachment connection and the cord spool. | 04-19-2012 |
20120111509 | Motorizable tilt shade system and method - A motorizable tilt shade system includes a header system where the header system includes an integral header attachment connection. At least one cord spool is provided within the header system and is connected with at least one suspension cord. A shade is suspended from the at least one suspension cord and a tilt cord pulley is connected with the at least one cord spool. A tilt cord is connected with the tilt cord pulley and with the shade such that the tilt cord and tilt cord pulley cooperate to tilt the shade. A drive shaft receiver is connected with the tilt cord pulley such that movement of the drive shaft receiver moves the tilt cord pulley. | 05-10-2012 |
20120225340 | Battery holder apparatus and method - A battery holder apparatus and method includes a sleeve with an inside surface and an outside surface where the sleeve is flexible. A battery receiving space is created within the sleeve where the battery receiving space expands and the sleeve flexes to accommodate a battery when inserted therein and the inside surface at least partially contacts the battery. And a connection device is provided on the outside surface of the sleeve. | 09-06-2012 |
20130087296 | Automatic releasable top down shade system and method - An automatic releasable top down shade system includes a header. A release mechanism is provided that is conformed to connect with the header. A shade with an upper section and a lower section is provided where the upper section of the shade is connected with both the header and the release mechanism and where the lower section is connected with the release mechanism. A lift cord supports the shade and the lift cord is also connected with the release mechanism such that the lift cord activates the release mechanism. | 04-11-2013 |
20130098561 | Pivoting Valance System for Shades or Blinds and a Method for Pivoting a Valance - A system for supporting a window covering is provided. The system includes: a bracket assembly having a stationary portion and a pivoting portion; a valance pivotally connected to the bracket assembly; a first lock configured to lock the valance to the pivoting portion of the bracket assembly; and a second lock that, when engaged, locks the valance to the stationary portion of the bracket assembly. A method of concealing a window covering may also be provided. The method may include: providing a bracket assembly configured to support the window covering; providing a valence attached to the bracket assembly; pivoting the valance on the bracket assembly to selectively expose and conceal the window covering; locking the valance to a pivoting portion of the bracket assembly; and locking the valence to a stationary portion of the bracket assembly. | 04-25-2013 |
20130099714 | HIGH EFFICIENCY ROLLER SHADE AND METHOD FOR SETTING ARTIFICIAL STOPS - The present invention advantageously provides a motorized roller shade that includes a shade tube, a motor/controller unit and a power supply unit. The motor/controller unit is disposed within the shade tube, and includes a bearing, rotatably coupled to a support shaft, and a DC gear motor. The output shaft of the DC gear motor is coupled to the support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to the mounting bracket. | 04-25-2013 |
20130180666 | ROLLER SHADE COUNTER BALANCING AND BLIND ATTACHING METHOD AND APPARATUS - A roller shade is provided. In some embodiments, the roller shade may include: a roller assembly; an inner portion of the roller assembly having an attaching structure for attaching to a mount; an outer portion of the roller assembly located on the roller assembly radially outward from the inner portion; a slot in the outer portion; and an insert dimensioned to be slidably received into the slot along with a portion of a shade to thereby attach the shade to the roller assembly. A method of attaching a shade to a roller assembly may also be provided. | 07-18-2013 |
20130213591 | High Efficiency Roller Shade - A method for controlling a motorized roller shade is provided. The motorized roller shade includes a shade attached to a shade tube, a microcontroller and a DC gear motor disposed within the shade tube. The DC gear motor includes a housing fixed to the shade tube and an output shaft coupled to a support shaft fixed to a mounting bracket. The method includes receiving a command from a remote control, and moving the shade to a position associated with the command by energizing the DC gear motor to rotate the shade tube and the DC gear motor housing while the DC gear motor output shaft and support shaft remain fixed. | 08-22-2013 |
20130220560 | ROLL TYPE BLIND OR SHADE SYSTEM CONFIGURED TO BE EASILY CONVERTED BETWEEN MOTORIZED AND MANUAL OPERATION - There is provided a motorized roller shade that includes a roller shade tube including an outer surface, an inner surface defining an inner cavity, and two end portions. The motorized shade further includes a shade attached to the outer surface of the roller shade tube, a counterbalancing unit configured to provide a counterbalancing force to the shade, and the roller shade tube further comprising substitution configurations to allow the roller shade tube to receive and operate with either a motor assembly or a manual operation assembly. | 08-29-2013 |
20130255890 | MOTORIZABLE TILT SHADE SYSTEM AND METHOD - A motorizable tilt shade system includes a header system where the header system includes an integral header attachment connection. At least one cord spool is provided within the header system and is connected with at least one suspension cord. A shade is suspended from the at least one suspension cord and a tilt cord pulley is connected with the at least one cord spool. A tilt cord is connected with the tilt cord pulley and with the shade such that the tilt cord and tilt cord pulley cooperate to tilt the shade. A drive shaft receiver is connected with the tilt cord pulley such that movement of the drive shaft receiver moves the tilt cord pulley. A counterbalance assembly including a negative gradient spring is connected to the drive shaft thereby providing an approximately constant tension on the tilt cord pulley. | 10-03-2013 |
20130264976 | HIGH EFFICIENCY ROLLER SHADE AND METHOD FOR SETTING ARTIFICIAL STOPS - The present invention advantageously provides a motorized roller shade that includes a shade tube, a motor/controller unit and a power supply unit. The motor/controller unit is disposed within the shade tube, and includes a bearing, rotatably coupled to a support shaft, and a DC gear motor. The output shaft of the DC gear motor is coupled to the support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to the mounting bracket. | 10-10-2013 |
20130276995 | COUNTERBALANCED ROLL TYPE BLIND OR SHADE SYSTEM HAVING A CONFIGURATION TO UTILIZE AN EXTERNAL POWER SUPPLY OR AN EXTERNAL MOTOR CONTROLLER - A motorized roller shade includes a roller shade tube including an outer surface, an inner surface defining an inner cavity, and at least one end portion, a shade attached to the outer surface of the roller shade tube, and a counterbalancing unit configured to provide a counterbalancing force to the roller shade. The motorized shade further includes a motor configured to provide rotational exertion to the roller shade, a controller configured to provide control signals to the motor, a power supply configured to provide power at least to one of the motor and the controller, and a transfer device configured to transfer one of the control signals to the motor that is configured to rotate and power to the controller that is configured to rotate from a stationary external source. | 10-24-2013 |
20130285580 | QUICK CHANGE BATTERY ARRANGEMENT FOR MOTORIZED SHADE - The present invention advantageously provides a motorized roller shade that includes a shade conduit having an outer surface upon which a shade is attached and an inner surface defining an inner cavity. The motorized shade also comprises a motor disposed within the inner cavity along with a controller coupled to the motor that controls the motor. The motorized roller further comprises a power supply sleeve having an interior space, wherein the power supply sleeve is disposed within the inner cavity, wherein the power supply sleeve is coupled to the motor. The sleeve may be accessed by an access port that extends between the outer surface and the inner surface. | 10-31-2013 |
20130306250 | Multiple shade apparatus and method - A multiple shade apparatus and method includes a shade system with a shade header with end caps. A first shade roll is provided with a first shade connected with the first shade roll and the first shade includes a first bottom bar. The first shade roll is connected with the shade header. A second shade roll is provided with a second shade connected with the second shade roll and the second shade includes a second bottom bar. The second shade roll is also connected with the shade header. A first connector device is provided that is connected with the first shade and a second connector is connected with the second shade. A detachment device connected with the shade system is provided for automatically disconnecting the first connector and the second connector. | 11-21-2013 |
20130312920 | MOTORIZED SHADE WITH THE TRANSMISSION WIRE PASSING THROUGH THE SUPPORT SHAFT - A roll shade system is disclosed. The roll shade system includes a motor configured to remain stationary during operation of the motor, a support shaft supporting the motor wherein the support shaft is configured to remain stationary during operation of the motor, and a roll shade tube configured to be rotatable about the motor and the support shaft during operation of the motor. The roll shade system further includes stationary components including a wiring connector, an input wiring system, a bearing, an antenna, a coaxial cable, a motor controller, a counterbalance spring. The roll shade system also includes rotatable components including a bearing housing and one or more O-rings. | 11-28-2013 |
20130333848 | MOTORIZED ROLLER SHADE CONFIGURED FOR LARGER SHADE APPLICATIONS - A motorized roller shade includes a shade tube, including an outer surface upon which a shade is attached, an inner surface defining an inner cavity and two end portions, and a motor having an output shaft coupled to a support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to a mounting bracket. The motorized roller shade further includes a counterbalancing unit configured to provide a counterbalancing force to the shade, a power supply unit, electrically coupled to the motor, configured to supply power to the motor, and an adaption component including at least one of a length adaptation component and a diameter adaptation component arranged within the shade tube and configured to adapt at least one of the motor and the counterbalancing unit to be used with a larger shade tube. | 12-19-2013 |
20140008027 | HIGH EFFICIENCY ROLLER SHADE AND METHOD FOR SETTING ARTIFICIAL STOPS - The present invention advantageously provides a motorized roller shade that includes a shade tube, a motor/controller unit and a power supply unit. The motor/controller unit is disposed within the shade tube, and includes a bearing, rotatably coupled to a support shaft, and a DC gear motor. The output shaft of the DC gear motor is coupled to the support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to the mounting bracket. | 01-09-2014 |
20140014281 | Shade with a Shear Pin and Method for Pretensioning a Shade - A roller shade is provided. The roller shade may include: a roller; an axle located in the roller; an adjustable counterbalancing mechanism configured to counter balance a rotation of the roller wherein the counterbalancing mechanism is configured to impart a rotational force on the roller and the rotational force is adjusted by rotating the axle; and a locking mechanism attached to the roller and configured to lock the axle at a given angular orientation, wherein the locking mechanism includes a shear pin. A method of tensioning a counterbalancing mechanism may also be provided. The method may include: mounting the counterbalancing mechanism to a shaft; mounting the lock wheel to the shaft; turning the shaft to tension the counterbalancing mechanism; and inserting a shear pin into a hole in the lock wheel to lock the shaft in place. | 01-16-2014 |
20140076503 | ROTATABLE DRIVE ELEMENT FOR MOVING A WINDOW COVERING - A curtain assembly comprises a rotatable drive element wherein at least one helical guide structure is formed on, or into, the outer surface of the drive element. A drive attachment element having a structure that communicates with the helical guide structure to move the drive attachment element axially along the drive element when the drive element is rotated. Specific embodiments incorporate either a manual or motor-driven rotation assembly for rotating the drive element. Further specific embodiments involve a helical guide structure that comprises a helical groove and a structure that comprises a tooth that engages with the helical groove. | 03-20-2014 |
20140076505 | METHOD AND APPARATUS FOR LINKED HORIZONTAL DRAPERY PANELS HAVING VARYING CHARACTERISTICS TO BE MOVED INDEPENDENTLY BY A COMMON DRIVE SYSTEM - A curtain assembly comprises a rotatable drive element wherein at least one helical guide structure is formed on, or into, the outer surface of the drive element. A drive attachment element having a structure that communicates with the helical guide structure to move the drive attachment element axially along the drive element when the drive element is rotated. Specific embodiments incorporate either a manual or motor-driven rotation assembly for rotating the drive element. Further specific embodiments involve a helical guide structure that comprises a helical groove and a structure that comprises a tooth that engages with the helical groove. Further specific embodiments relate to a system with linked horizontal drapery panels having varying characteristics that are moved independently by a common drive system. | 03-20-2014 |
20140076508 | DRAPERY TUBE INCORPORATING BATTERIES WITHIN THE DRAPERY TUBE, WITH A STOP FOR FACILITATING THE LOADING AND UNLOADING OF THE BATTERIES - Embodiments of the invention relates to a motorized system for moving vertical blinds, curtains, draperies, or other window coverings. Specific embodiments can, optionally, also be manually operated. When motorized, the power supply can be batteries stored or housed in a tube or portion of a shaft, with a spring biased mechanism to assist during removal and/or loading of the batteries. In a specific embodiment, the stop can be triggered by the user to remove one battery at a time, and can allow the user to load batteries in a manner in which the battery or batteries already loaded in the chamber are held in the chamber. A specific embodiment incorporates a drapery tube with a hollow interior, or drapery shaft with one or more hollow portions, to form an enclosure that can house the motor and the power supply, such as batteries. If desired, the motor controls and an optional RF receiver for the motor can also be housed within the tube. In an embodiment, the batteries can be easily changed or replaced through the end of the tube or shaft, wherein the system has a stop, or release trigger, that can allow only one battery at a time to be loaded or unloaded, to assist in loading and unloading the batteries. In an embodiment, an end cap, such as a twist lock end cap can be positioned over the end of the tube or shaft when batteries are not being loaded or unloaded. | 03-20-2014 |
20140090789 | HIGH EFFICIENCY ROLLER SHADE - A motorized roller shade is provided. The motorized roller shade includes a shade tube in which a motor unit, a controller unit and a power supply unit are disposed. The controller unit includes a controller to control the motor. The power supply unit includes at least one bearing rotatably coupled to a support shaft. The motor unit includes at least one bearing, rotatably coupled to another support shaft, a DC gear motor and a counterbalancing device. The output shaft of the DC gear motor is coupled to the support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to a mounting bracket. | 04-03-2014 |
20140133019 | HIGH EFFICIENCY MOTORIZED ROLLER SCREEN AND METHOD OF OPERATION - The invention advantageously provides a deployable screen system that includes a roller tube, a motor/controller unit and a power supply unit. The motor/controller unit is disposed within the roller tube, and includes a bearing, rotatably coupled to a support shaft, and a DC gear motor. The output shaft of the DC gear motor is coupled to the support shaft such that the output shaft and the support shaft do not rotate when the support shaft is attached to the mounting bracket. The deployable screen system is operable by tugging, manual movement and wireless control. The DC gear motor is underpowered by a plurality of batteries positioned within the roller tube. In this way a novel, useful and nonobvious deployable screen system is presented. | 05-15-2014 |
20140262058 | LOW-POWER ARCHITECTURAL COVERING - An architectural covering is provided. The architectural covering includes: shade material; the shade material operatively connected to a motor unit such that movement of the motor unit causes movement of the shade material; the motor unit comprising a DC motor and a shaft connected to the DC motor; a power supply unit electrically connected to the motor unit; a controller unit electrically connected to the motor unit, the controller unit having a microprocessor; and a rotation detector configured to detect rotation of the motor unit and upon detection of rotation of the motor unit transmit a signal to the microprocessor, wherein the microprocessor of the controller unit is configured to power an encoder unit in response to determination of manual movement of the shade material. A motor and control unit for an architectural covering may be provided. | 09-18-2014 |
20140262067 | METHODS AND SYSTEMS FOR MECHANICALLY OPERATING A GROUP OF SHADES OR BLINDS - A shade system includes a plurality of shade assemblies each including an elongated shade tube having an inner surface defining an inner cavity, an outer surface for winding receipt of a flexible shade, at least one coupling end, and an axis of rotation; a connector assembly having a first coupling unit secured to the inner surface at the coupling end of a first shade tube and a second coupling unit secured to the inner surface at the coupling end of a second shade tube substantially adjacent the first shade tube, the first coupling unit and the second coupling unit cooperating to transfer an applied torque from the first shade tube to the second shade tube; an end bracket for rotatably supporting a free end portion of a shade tube when attached to a supporting structure; and a mounting bracket for adjusting the connector assembly. | 09-18-2014 |
20140262076 | STOP FOR GUIDE RAILS ON A BLACKOUT CURTAIN OR SHADE - Embodiments of the invention relate to a stop configured to be positioned in a track channel of a guide rail for guiding a shade. Further embodiments relate to a guide rail and stop combination, where the guide rail and stop combination are configured to be used for guiding a shade. Still further embodiments relate to a shade system incorporating one or more guide rails for guiding a shade and at least one stop positioned with respect to the guide rail to control the travel of bottom bar interconnected with the shade. | 09-18-2014 |
20140368322 | CRADLE SYSTEM, MULTI FUNCTION REMOTE AND METHOD OF USE - A multi-function remote control and cradle system is presented. The remote fits within the opening of a standard light-switch faceplate and is magnetically held within a cradle which is connected to a conventional electrical box in the wall. The remote control includes a dwell function wherein when a button is pressed for less than a predetermined amount of time a first signal is sent, wherein when a button is pressed for more than a predetermined amount of time a second signal is sent. The remote control also includes a plurality of scene buttons wherein when pressed a plurality of architectural coverings are moved to a predetermined position. The remote control also includes a channel selector and a jog function wherein a unique signal is sent for each jog position between a fully open position and a fully closed position. | 12-18-2014 |
20140376747 | VOICE CONTROL OF LIGHTS AND MOTORIZED WINDOW COVERINGS - A system for simultaneous wireless control of lights and motorized window coverings that include sheer interior shade material and blackout exterior shade material. The system includes a voice activation module which is wirelessly connected to a plurality of motorized window coverings using a first transceiver and a first wireless protocol and a plurality of lights using a second transceiver and a second wireless protocol. The voice activation module is preprogrammed to listen for a trigger phrase followed by any one of a number commands. Once the trigger phrase and a command are recognized, the wireless device transmits an over-the-air signal to the plurality of motorized window coverings and lights. The wireless device also includes an indicator that provides a visual or audible indication to the user that the trigger phrase, and/or a command has been recognized. | 12-25-2014 |
20150013920 | BATTERY POWERED VENETIAN AND ROMAN SHADE SYSTEM AND METHODS OF USE - A Venetian shade and Roman shade assembly is presented having a header with a drive shaft assembly positioned in the header, the drive shaft having a plurality of lift and tilt spool assemblies. A motor controller assembly is removably positioned within the header and connected to the drive shaft assembly. The motor controller assembly includes a motor, a plurality of batteries and a motor controller that is wirelessly controllable by a remote. When the motor of the motor controller assembly is activated, the motor rotates the drive shaft assembly thereby raising or lowering the shade material as well as tilting the shade material. | 01-15-2015 |
20150041080 | METHOD FOR OPERATING A MOTORIZED ROLLER SHADE - An architectural covering is provided. The architectural covering includes: shade material; the shade material operatively connected to a motor unit such that movement of the motor unit causes movement of the shade material; the motor unit comprising a DC motor and a shaft connected to the DC motor; a power supply unit electrically connected to the motor unit; a controller unit electrically connected to the motor unit, the controller unit having a microprocessor; and a rotation detector configured to detect rotation of the motor unit and upon detection of rotation of the motor unit transmit a signal to the microprocessor, wherein the microprocessor of the controller unit is configured to power an encoder unit in response to determination of manual movement of the shade material. A motor and control unit for an architectural covering may be provided. | 02-12-2015 |