As shown in the
The housing 12 is tubular with a smooth inner cylindrical surface 20 and an outer surface 22. Outer surface 22 has a plurality of longitudinal fins 24. The purpose of fins 24 is to engage a mandrel 26 that support a window treatment 28. One end of housing 12 has an enlarged head 30 formed with a plurality of radially running teeth 32.
The clutch 14 includes a hollow shaft 40. One end of shaft 40 is formed with two axially extending fingers 42 (seen in
The opposite end of the shaft 40 terminates with a tubular boss 42 having an enlarged diameter and holding a flat torsion spring 44 with two end tangs (with only one tang 50 being visible) near the end of the shaft 40. Tang 50 extends radially outward. The other tang extends radially inward and is received in a hole in the shaft 40 (not shown). Shaft 40 is provided at its opposite end with an annular rib 51.
Clutch 14 further includes a toroidal actuator 46. Actuator 46 has an inner cylindrical surface 48 with an annular groove (not shown) sized and shaped to accept the annular rib 51. Actuator 46 is also formed with one or more slots 60 on its outer surface. The actuator 46 is shaped to fit over the opposite end of the shaft 40, as shown in
Shaft 40 of clutch 14 also includes a plurality of radial teeth 52A, 52B of said opposite end.
Once the actuator 46 of clutch 14 is assembled, the teeth 52A, 52B of shaft 40 are disposed between the fingers 54A, 54B. Fingers 54A, 54B are oriented toward each other, as seen in
As previously mentioned, the tang 50 of spring 44 is received and engaged by slot 58 of the actuator 46. Since the other end of the spring 44 is captured by the shaft 40, the radial movement of the actuator 46 in the clockwise direction causes the spring 44 to wind tighter around the shaft 40, and radial movement of the actuator 46 in the counterclockwise direction causes the spring 44 to unwind so that it is separated slightly from the shaft 40.
Because of the properties described herein, the elements of the mechanism 10 (except for the spring 44) are preferably made of a suitable plastic material by molding or other well known means. The spring 44 is preferably made of steel or other similar material and has a square or rectangular cross section to present a larger contact surface with the surface of the shaft 40 and the inner surface of the housing 12. The diameter of housing 12 is chosen so that when the spring 44 is unwound, the spring 44 is in intimate contact with the inner surface of housing 12. As a result of this arrangement, when the actuator 46 is in the first position, the shaft 40 of clutch 14 and the housing 12 are free to rotate with each other. When the actuator 46 is in the second position, the spring 44 is unwound sufficiently to come into contact with the inner surface of the housing 12. As a result, the housing 12 is free to rotate with respect to the shaft 40 in the clockwise because this type of rotation tightens the spring 44 just enough so that the outer surface of the spring 44 separates from, or slides with respect to, the inner surface of the housing 12. However, if the housing 12 is rotated in an opposite direction, the spring 44 expands and forms a frictional engagement with the inner surface of the housing 12, thereby effectively locking the housing 12 and the shaft 40 together so that one cannot rotate without the other.
Spool 18 is formed of two circular elements 70 and 84 (see
Tubular section 76 of inner circular element 70, is assembled with ribbon 94 wound thereon to define spool 18. The spool 18 is attached to the housing 12 and the other elements inserted in the housing, with the teeth 32 of housing head 30 cooperatively engaging the grooves 82 of inner circular element 70. The prongs 92 of circular element 84 snap into slot 60 formed along the outer surface of actuator 4 to form an interference fit between the spool and the actuator 46.
A window treatment 28 with mechanism 10 is assembled and installed as follows. The inner surface of the shaft 40 is provided with a plurality of radial ribs 96 (see
The mechanism 10 operates as follows. Initially, sheet 29 of window treatment 28 is wound all the way on the mandrel 26 and the actuator 46 is thus in its first position. The ribbon 94 is unwound from surface 78 of element 70 and its free end 94A is hanging unwound along a side of the window opening. In this configuration, the window mechanism 10 is in its open position in order to allow light and air to come through the window opening. In order to close the window treatment 28, the ribbon 94 is pivoted upward as at B (in
The mechanism 10 can be modular to accommodate several different types of window treatments and several different types of window/door openings. For this purpose, as shown in
Numerous modifications may be made to this invention without departing from its scope, as defined in the appended claims.
This application claims priority to U.S. provisional application Ser. No. 60/845,319 filed on Sep. 18, 2006 and incorporated herein by reference.
Number | Date | Country | |
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60845319 | Sep 2006 | US |