The present invention relates to ceiling mounted curtain tracks which have hinged sections which facilitate the loading and unloading of curtains by allowing easier access to the track and to an improved locking mechanism which releases and secures the hinged section's alignment with the balance of the track to which it is hinged.
Ceiling mounted curtain tracks have been adopted for a variety of uses including travelling curtains such as those used in hospitals to establish privacy for certain spaces such as the area around a patient's bed. But the loading and unloading of curtain carriers posed a difficulty because these tracks were adjacent to the ceiling and access to them frequently required a ladder or stepstool which in turn posed a safety risk.
A system was developed in which a portion of the curtain track was hinged so that it could swing down from the ceiling and provide easier access. Curtains attached to carriers adapted to be loaded on the curtain track could be more easily suspended from or removed from such ceiling tracks by sliding these carriers on to the hinged section which had been lowered. Once the curtains were thus loaded onto the lowered hinged section, it could be swung into alignment with the rest of the track and a portion of the carriers from which the curtains were suspended could be slid on to the rest of the track by grasping the suspended curtains without the necessity of being adjacent to the ceiling. Such an approach is described in U.S. Pat. No. 4,599,763.
However, such an approach required a mechanism to secure the hinged section when it was in alignment with the balance of the track and a latching mechanism was developed which interacted with a fixed bracket as described in the above mentioned patent. Persons operating this latching mechanism while standing on the floor faced in accordance with its intended use faced some difficulties. Among others it was not easy to tell if the mechanism had been locked against release of the hinged section and the mechanism did not always readily latch when the hinged section was brought into contact with the fixed bracket.
Therefore there was a need for a locking mechanism which functioned in this environment in a simple and reliable manner to lock and release the hinged section and give a clear and unambiguous indication when the mechanism was locked to the fixed bracket.
The present invention involves a simple but elegant lock mechanism which functions to secure and release a hinged section of a ceiling track for traveling curtains based on the interaction of a generally oval shaped lock knob with a receiver with a generally oval shaped aperture and elastically deformable side walls, each of which has a gap in which a tip of the lock knob located at the end of its long axis can seat when the lock knob is rotated such that its long axis is generally perpendicular to the long axis of the oval shaped aperture. These side walls are spaced from the axis of rotation of the lock knob such that they are elastically forced outward by the tips of the lock knob as the lock knob rotates from having its long axis parallel to the long axis of the aperture in the bottom wall of the receiver to having its long axis perpendicular to the long axis of this aperture and having these tips seated in the gaps in these walls. The gaps are configured such that when the tips seat in them, these tips project into these gaps allowing at least a partial relaxation of the elastic deformation of the sidewalls. The side walls are constructed such that when the tips seat in the gaps and at least a portion of this elastic deformation is relieved an audible sound is produced. In a preferred embodiment, the lock knob has a ring spaced downwardly from the bottom of its generally oval shaped portion which has a size such that it will not pass through the aperture and has an upper surface which engages the bottom surface of the bottom wall of the receiver. It is spaced from the bottom surface of the generally oval shaped portion of the lock knob to define a gap which accommodates the bottom wall of the receiver when the lock knob is rotated such that its long axis is not aligned with the long axis of said aperture. It is also preferred that the lock knob have a downwardly depending cylindrical shaft about which it rotates. In a particularly preferred construction this shaft connects the oval upper portion of the lock knob to its lower ring and has a diameter which will pass through the aperture.
In a preferred embodiment, the lock knob is rotationally affixed to a flange which is in turn affixed to the hinged section of the ceiling track. In a particularly preferred embodiment, a shaft passes through an aperture in this flange and is secured to the lock knob. It is especially preferred that the lock knob have a recess in its bottom surface into which the top of this shaft is seated.
In a preferred embodiment, the side walls of the receiver are constructed of an injection moldable polymer. In a particularly preferred embodiment, the side walls are so constructed that rotating the lock knob from a locked position with its tips seated in the gaps of the side walls to an open position in which its long axis is aligned with the long axis of the aperture in the bottom wall of the receiver and the lock knob can pass through this aperture is within the manual capacity of an average person. In an especially preferred embodiment, the sidewalls have partial gaps between their lower edges and the bottom wall of said receiver to reduce the amount of force (or torque) necessary to deflect these walls outward to allow full rotation of the lock knob. In a preferred implementation of this approach, these horizontal gaps run from the vertical gaps in which the tips of the lock knob seat part way to where they join the other side walls of the receiver which cross the long axis of the aperture of the bottom wall of the receiver.
In a further preferred embodiment, the gaps in the side wall interact with the tips of the lock knob so that it is readily apparent that these tips have seated in these gaps. This typically involves these tips projecting out of these gaps and being of a distinctive color which contrasts with that of the side walls carrying the gaps. It also involves the placement and orientation such that these gaps and the tips projecting through them are readily visible to a person operating the lock mechanism while standing on the floor.
The present invention is concerned with a latching mechanism for a hinged section of a ceiling track for travelling curtains which can be lowered or raised by a person standing on the floor beneath the ceiling track using a wand which interacts with the latching mechanism. The latching mechanism should function such that there is no ambiguity as to when it is locked and should be easy to operate. It should be capable of being operated numerous times without any noticeable deterioration in its operation. It is preferred that it be constructed of injection moldable parts.
The latching mechanism comprises a generally oval shaped lock knob which is preferably rotatably attached to the hinged section and a receiver which has a generally oval shaped aperture in its bottom wall adapted to receive the lock knob and gapped side walls to restrain the lock knob from rotation when the tips at the ends of the long axis of the lock knob are seated in the gaps of these side walls. The gaps in the side walls are preferably placed such that these tips seat in theses gaps when the lock knob has been rotated so that its long axis is approximately perpendicular to the long axis of the aperture in the bottom wall of the receiver. The side walls themselves are preferably constructed of an elastically deformable material and are spaced such that the tips at the ends of the long axis of the lock knob force them outward when the lock knob is rotated. These tip interact with the side walls such that when these tips seat in the gaps in these sidewalls, the side walls relax inward toward the axis of rotation of the lock knob and in so doing produce a readably audible sound. It is preferred that these tips protrude through these gaps so as to be visible when viewing the outside of these side walls. This visibility may preferably be enhanced by giving these tips a distinctive color which contrasts with the exterior surfaces of these side walls.
It is preferred for ease of manufacturability and minimization of cost that as many of the elements of the latching mechanism as possible be made of injection moldable polymer. It is particularly preferred that the lock knob, receiver and connector be injected molded.
It is preferred to construct both the side walls of the receiver and at least the tips of the lock knob of polymers which have a reasonably low coefficient of friction but also have a good resistance to frictional wear such that the tips slide smoothly over the inside surface of the side walls and can do so many times without any significant wear being apparent. It is also preferred to construct the side walls of the receiver of a polymer which will sustain a deflection of at least about 0.10 of an inch but still have a reasonable degree of resistance to deflection. It is particularly preferred to use a polymer with a flexural modulus of at least about 350,000 psi as determined by ASTM D790. The well known thermoplastic engineering resins are preferred. The acetal resins are particularly preferred as displaying a good balance of cost, formability and mechanical properties.
A latching mechanism was constructed in accordance with
The lock knob had a long axis of 1.22 inches and a short axis of 0.875 inches. The radius at the ends of the long axis was 0.188 inches and the radius at the ends of the short axis was 0.875 inches. The radius of the bottom ring was 1.063 inches. The distance between the bottom of the wings of the generally oval shaped portion of the lock knob and the top of the circular ring was 0.150 inches. The ring was 0.150 inches high and the complete lock knob was 0.850 inches high. The lock knob had a centered circular recess with a diameter of 0.520 inches and a height of 0.250 inches which was surmounted by a rectangular recess 0.125 inches high, 0.471 inches long and 0.208 inches wide.
A bottom securing member with an upper cylindrical section 0.497 inches in diameter and 0.425 inches high was permanently positioned into the cylindrical recess in the bottom of the lock knob. The top of this cylindrical section carried a centered rectangular section 0.150 inches high, 0.445 inches long and 0.197 inches wide. This bottom securing member had a bottom securing member 1.0 inches in diameter and 0.750 inches high. It passed through an aperture in the flange of the connector which was 0.520 inches in diameter. This flange was 0.125 inches thick.
The lock knob was red and the side walls of the receiver were white.
The lock knob passed easily through the aperture in the bottom wall of the receiver and was repeatedly rotated until its tips seated in the vertical gaps and then rotated back so that it could pass through the aperture in the bottom wall of the receiver. The rotation in either direction was well within the digital capacity of the average person. Each time these tips seated in the vertical gaps a readily perceived click was heard and the red tips were readily visible when viewing the vertical gaps. When the tips were seated in the gaps the connector was securely held against any downward movement.
While only certain features of the invention have been illustrated and described herein, many modifications and changes will occur to those skilled in the art. It is, therefore, to be understood that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.
Number | Name | Date | Kind |
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293339 | Martin | Feb 1884 | A |
1267279 | Scalpelli | May 1918 | A |
3396834 | Luckey et al. | Aug 1968 | A |
3913204 | Finkbeiner | Oct 1975 | A |
4599763 | Toder | Jul 1986 | A |
7788769 | Wicker et al. | Sep 2010 | B2 |
7935137 | Gorhan et al. | May 2011 | B2 |
Number | Date | Country |
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3942866 | Aug 1990 | DE |
Number | Date | Country | |
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20130152344 A1 | Jun 2013 | US |