This invention relates to locksets or latch assemblies and associated trim assemblies, and in particular to anti-ligature assemblies designed to thwart attempts to affix or hang ligatures to the door handle.
In special care environments and institutional settings, there is sometimes a need for furniture and room designs, including ligature-resistant door trim designs, that eliminate opportunities for a person to harm themselves. For example, if a door includes an inside handle, the handle should not provide an attachment point for a ligature that would enable a person to hang or strangle themselves.
Industry representatives have begun drafting a standard for hardware ligature attachment resistance. Under one proposal, a ligature-resistant device would be required to withstand a test wire comprising a nylon cord, plastic coated fabric, or plastic coated metal core with a diameter of 20 thousandths of an inch and a breaking strength of at least 4.5 foot-pounds. The test wire would be tied with a slip knot around the device as closely to the mounting fixture (e.g., an escutcheon) as possible, and a load of 1.1 foot-pounds would be applied sequentially in five directions, four at right angles in a direction parallel with the mounting fixture, and one perpendicular and away from the mounting fixture. To qualify as a ligature-resistant device, the test wire should slip off the device under each of those conditions.
A door latch assembly comprises a door latch, an escutcheon, and a handle mounted to the escutcheon for movement along a guided linear path between a default non-operative position and an operative latch-retracting position. The handle includes a shroud that maintains contact with the escutcheon regardless of the position of the handle on the escutcheon and covers a linear slot in the escutcheon along which the handle rides.
The escutcheon and a back plate mounted to the door surface houses an activator plate that moves linearly with the handle. The activator plate has a cam surface that, when in the operative latch-retraction position, contacts a cooperating part of a spindle-mounted rotary hub, causing the spindle to rotate and retract the latch.
The door latch assembly is suitable for both mortise and tubular latch assemblies. It is also suitable to be assembled in both vertical and horizontal positions. In an anti-ligature embodiment, the handle includes no apertures for attachment of a ligature, and the trim assembly is capable of satisfying the proposed industry standard described in the background section of the application.
These and other features of the invention will be appreciated in connection with the drawings and the detailed description below.
The invention will now be described in reference to the following drawings in which:
In describing preferred and alternate embodiments of the technology described herein, as illustrated in
The escutcheon 30 has a planar outer surface 32 and tapered side surfaces 33, the only parts that are exposed to the outside of the door after being mounted. The escutcheon 30, together with a back plate 94 that is mounted to it via posts 92, houses a linearly moving activator plate 70, a rotary hub 75 with a spindle aperture that mounts onto a spindle (not shown) projecting out of the mortise or tubular latch body 15, and a spring 85 that biases the activator plate away from its operatively engaging position with the rotary hub 75. The escutcheon 30 is designed so that the entire escutcheon 30, except for the guide ribs 37, can be cast. The guide ribs 37 alone are machined, and to a tight tolerance that provides a close anti-ligature fit between the handle 50 and the escutcheon 30. Also, the two posts 10 closest to the rotary hub 75 index the trim assembly 20 to the latch body 15.
The handle 50 is a full-hand handle that provides twist-free, spring-biased linear operation. The handle 50 comprises an elongated crescent-shaped hand-hold 56 with a smooth outer projecting surface 57 and opposite inwardly recessed or indented hand-engaging portions 58 for grasping by a hand to operate the door handle. The outer crescent shape of the handle subtends an angle of less than 180 degrees, so that any ligature will, by force applied in any direction, including gravity, slip off of the handle 150. In non anti-ligature embodiments, the handle 50 has an opening between the outer projecting surface 57 and the base of the handle 50. In anti-ligature embodiments, the handle 50 has no opening through which a ligature could be passed. The handle 50 is both shaped and secured closely to the escutcheon 30, within a very tight tolerance, in a manner configured to inhibit looping or tying of a rope or other ligature device to the handle.
A concealed part of the handle 50 (concealed when mounted on the escutcheon 30) comprises a low-friction surface planar portion 61 with roundly tapered top and bottom edges 62 and an elongated guide block 54, centered along a center line of the planar portion 61. The guide block 54 is mounted for guided linear movement within a linear slot 35 of the escutcheon 30. The close tolerance between the slot's linear edges and the block's linear sides 55 resist rotational torque applied to the handle 50.
The anti-ligature handle 50 also comprises a shroud or skirt 52 formed continuously with the hand-hold 56. The shroud 52 has an edge 53 defining a closed boundary within a plane. When the handle 50 is mounted to the escutcheon 30, the edge 53 of the shroud 52 maintains continuous contact with the planar outer surface 32 of the escutcheon 30 regardless of the position of the handle 50 on the escutcheon 30. As the handle 50 travels along the length of the slot 35, the shroud 52 completely conceals the slot 35 regardless of the position of the handle 50 on the escutcheon 30.
As best illustrated in
The activator plate 70 also has a spring tab 71 on which one end of a coil spring 85 is mounted, biasing the activator plate 70 into a non-operative position that does not engage the rotary hub 75 into a latch-retracting position.
It will be understood that many modifications could be made to the embodiments disclosed herein without departing from the spirit of the invention. Having thus described exemplary embodiments of the present invention, it should be noted that the disclosures contained in the drawings are exemplary only, and that various other alternatives, adaptations, and modifications may be made within the scope of the present invention. Accordingly, the present invention is not limited to the specific embodiments illustrated herein, but is limited only by the following claims.
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572148 | Sep 1945 | GB |