The present disclosure relates to a spring winder having a winder base, pulleys disposed at one end of the winder base, at least one constant force spring disposed on the winder base, each constant force spring having an extension end, and a guard plate is disposed at one side of the extension end of each constant force spring. A curtain using the spring winder is also described having an upper beam; a lower beam; and a curtain disposed between the upper beam and the lower beam, the upper beam having a spring winder disposed therein; a fixed plug head disposed at one end of the upper beam, a fixed pulley plug head disposed at the other end of the upper beam, each constant force spring of the spring winder being connected to the fixed plug head, a cord winding around the pulleys, the cord being connected to the pulleys at the fixed pulley plug head after being connected to the curtain.

A resistance device includes a base having a channel, a friction member provided in the base, and a moving member adjacent to the friction member, wherein the moving member is located in the channel and is movable therein. A window covering applied with the resistance device includes a covering material and a lifting cord concurrently movable with the covering material. When the covering material is being retracted or extended, the lifting cord moves in two opposite directions, respectively. The lifting cord passes through the resistance device. When the lifting cord moves in either direction, it drives the moving member to move in the same direction as itself. The friction member provides different resistances to the lifting cord which moves in different directions.

A window covering for a window having a window frame. The window covering includes a headrail at the top of the window frame, and two window shades suspended from the headrail that can be selectively independently raised and lowered. Each of the window shades has a different light property. Accordingly the two window shades can be deployed selectively independently to achieve a desired property of light passing through the window shade.

A seal for a multiple-shade window covering array. The seal includes two or more coextensive shades for a window in a window frame. At least one of the shades is a cellular shade. Each shade operates independently without interference from other shades, and each shade has different light properties such that selectively raising and lowering one or more of the shades changes a light property for the window covering array. The seal also includes side seals anchored to the sides of the window frame.

A temperature system for a window shade includes temperature sensors coupled to a side seal for the window shade. The side seal is selectively movable into and out of position relative to the window shade. The temperature sensors convey temperature information to a controller for operating the window shade and the side seal. The controller operates the window shade and the side seals based at least in part upon the temperature information.

A scrolling unit for electric blinds includes a top box. An electric motor and a scrolling unit are located in the top box. The electric motor includes a shaft, a plate extends axially from the shaft. The scrolling unit includes a rotary part, and the plate is inserted into a slit defined axially in the rotary part. Two ropes are spirally wrapped to the rotary part. Multiple frames are located in the top box and separate the ropes apart. The diameter of the shaft of the electric motor is different from the diameter of the rotary part. The ropes are spirally wrapped to the rotary part and do not tangle with each other.

A top-down bottom-up window covering includes a first beam and a second beam, which are sequentially provided below a fixture, and a covering material connecting the first beam and the second beam. A first lifting structure is installed in the first beam, and a second lifting structure is installed in the second beam. The first lifting structure is adapted to operate as the first beam is being controlled to move toward or away from the fixture, and the second lifting structure is adapted to operate as the second beam is being controlled to move toward or away from the fixture. Whereby, the top-down bottom-up window covering can be easily assembled and maintained.

An actuation assembly for a continuous looped operator includes a slide assembly configured to laterally slide in a first direction and a second direction opposite the first direction, a first cord engagement member carried by the slide assembly, a second cord engagement member carried by the slide assembly, and a selector switch connected to the slide assembly, the selector switch receives a portion of the first cord engagement member and a portion of the second cord engagement member, the selector switch configured to move relative to the slide assembly between a first position and a second position.

A folding/unfolding device drives a reel shaft to rotate to thereby fold or unfold a shade of a window shade through a string. The folding/unfolding device includes a folding/unfolding unit is mounted to a top frame or a bottom frame of the shade and includes a screw rod on which a first gear is mounted. A second gear is mounted on the reel shaft and directly or indirectly meshes with the first gear. A single direction driving unit is mounted around and movable along the screw rod. When the single direction driving unit moves along the screw rod and towards the first gear, the screw rod is driven to rotate the reel shaft through the first and second gears. When the single direction driving unit moves along the screw rod and away from the first gear, the screw rod is not rotated.

The present disclosure concerns cable-covering tube assembly for a roller blind actuation cable, comprising a first cable-covering tube defining a cable-receiving cavity; and at least one tube connector extending at least partially in the cable-receiving cavity and comprising a cable-mounting portion couplable to the free end portion of the roller blind actuation cable; and a coupling portion couplable to the coupling portion of a similar tube connector. It also concerns a cable-covering tube system and a roller blind actuation assembly comprising first and second roller blind-operating systems having each a driving assembly and a unidirectional angular coupler, and a biasing member operatively coupling the driving assemblies and extending between their respective unidirectional angular couplers