초록 ▼

A suspension system for a window covering that eliminates the use of pull cords is provided. The suspension system includes a control module having a winding drum and a spring disposed about an axle. A friction member or reaction member is also provided to offset difference in the force exerted by t

A suspension system for a window covering that eliminates the use of pull cords is provided. The suspension system includes a control module having a winding drum and a spring disposed about an axle. A friction member or reaction member is also provided to offset difference in the force exerted by the spring on a suspension cord versus the weight of the window covering member.

대표청구항 ▼

1. A window covering comprising: a head rail having a longitudinal axis;a weighted element;a window cover material connected between the head rail and the weighted element;a rotary axle placed in the head rail along the longitudinal axis; anda plurality of control modules placed in the head rail and

1. A window covering comprising: a head rail having a longitudinal axis;a weighted element;a window cover material connected between the head rail and the weighted element;a rotary axle placed in the head rail along the longitudinal axis; anda plurality of control modules placed in the head rail and coupled with the rotary axle at spaced-apart positions along the longitudinal axis, wherein each of the control modules includes: a housing;a winding drum pivotally assembled in the housing, wherein the winding drum includes a first and a second drum portion adapted to mount with the rotary axle, the first and second drum portions being formed integrally with the winding drum;a suspension cord having a first and a second end, the first end being connected with the first drum portion, and the second end extending outside the housing and being connected with the weighted element; anda spring connected with the second drum portion, the spring being operable to bias the winding drum and the rotary axle for rotation in a direction to wind the suspension cord around the first drum portion;wherein the rotary axle passes through the winding drum and the spring. 2. The window covering of claim 1, wherein the spring of at least one of the control modules is a constant force spring. 3. The window covering of claim 1, wherein the second drum portion has a diameter smaller than a diameter of the first drum portion. 4. The window covering of claim 1, wherein the springs in the control modules impart a raising force that counteracts a downward weight force applied at the weighted element to keep the weighted element stationary at any heights relative to the head rail. 5. The window covering of claim 1, wherein the winding drums rotate synchronously via the connection of the rotary axle. 6. The window covering of claim 1, further comprising a friction member that engages with the suspension cord. 7. A control module suitable for assembling with a window covering, the control module comprising: a rotary axle having a length adapted to receive the placement of multiple cord connections spaced-apart from one another along a width of the window covering;a housing;a winding drum pivotally assembled in the housing, wherein the winding drum includes a spindle that is fixedly connected therewith, the winding drum and the spindle being adapted to respectively mount with the rotary axle when the control module is assembled with the window covering;a suspension cord having a first and a second end, the first end being connected with the winding drum, and the second end extending outside the housing; and a spring mounted around the spindle, the spring being operable to bias the winding drum for rotation in a direction to wind the suspension cord around the winding drum; wherein when the control module is assembled with the rotary axle, the spring, the spindle and the winding drum are disposed coaxial about the rotary axle, the rotary axle respectively passes through the housing, the winding drum and the spindle, and the length of the rotary axle is substantially longer than the housing and the winding drum. 8. The control module of claim 7, wherein the spring is a constant force spring. 9. The control module of claim 7, wherein the spindle has a diameter smaller than a diameter of the winding drum. 10. The control module of claim 7, wherein the housing has two opposite side surfaces provided with aligned openings for passage of the rotary axle there-through. 11. The control module of claim 7, wherein the spindle and the winding drum are formed integrally with each other. 12. The control module of claim 7, further comprising a friction member that engages with the suspension cord. 13. The control module of claim 12, wherein the friction member includes a hook. 14. A window covering comprising: a head rail having a longitudinal axis;a weighted element;a window cover material connected between the head rail and the weighted element;a rotary axle placed in the head rail along the longitudinal axis; anda plurality of control modules placed in the head rail and coupled with the rotary axle at spaced-apart positions along the longitudinal axis, wherein each ofthe control modules includes: a housing;a winding drum pivotally assembled in the housing, wherein the winding drum includes a spindle that is fixedly connected therewith, the winding drum and the spindle being respectively mounted with the rotary axle;a suspension cord having a first and a second end, the first end being connected with the winding drum, and the second end extending outside the housing and being connected with the weighted element; anda spring connected with the spindle, the spring being operable to bias the winding drum and the rotary axle for rotation in a direction to wind the suspension cord around the winding drum;wherein the rotary axle passes through the winding drum, the spindle and the spring. 15. The window covering of claim 14, wherein the spring of at least one of the control modules is a constant force spring. 16. The window covering of claim 14, wherein the spindle has a diameter smaller than a diameter of the winding drum. 17. The window covering of claim 14, wherein the springs in the control modules impart a raising force that counteracts a downward weight force applied at the weighted element to keep the weighted element stationary at any heights relative to the head rail. 18. The window covering of claim 14, wherein the winding drums of the control modules rotate synchronously via the connection of the rotary axle. 19. The window covering of claim 14, further comprising a friction member that engages with the suspension cord.