1. Field of the Invention
The present invention relates to door pulls and door handles which are resistant to being locked or secured to another door handle or other object.
2. Description of Related Art
There are building spaces which are prone to being secured by an unauthorized person or group for inappropriate access restriction. These spaces are meant to be accessed by the public with the access being required for the public's safety. Door handles may generally be used by the unauthorized person or group to secure the door or doors in a closed position by fastening a device about the handle and either another corresponding handle or an item attached to a nearby wall, ceiling or floor. A door handle is needed in building areas prone to unauthorized personnel attempting to secure doors which are meant to be accessible.
Bearing in mind the problems and deficiencies of the prior art, it is therefore an object of the present invention to provide a door handle which is resistant to being locked or secured to another door handle or other object.
It is another object of the present invention to provide a method of using door handles which are resistant to being locked or secured to another door handle or other object.
A further object of the invention is to provide a method of making door handles which are resistant to being locked or secured to another door handle or other object.
It is yet another object of the present invention to provide a door handle which is resistant to being locked or secured to another door handle or other object by providing rotatability to the door handle.
Still other objects and advantages of the invention will in part be obvious and will in part be apparent from the specification.
The above and other objects, which will be apparent to those skilled in the art, are achieved in the present invention which is directed to a door handle pull securable to a surface of a door hinged on one edge thereof for preventing the securing of lockable items thereto. The door handle pull comprises a flat door handle grip extending from the door at an acute angle with respect to the door surface and in a direction away from the door surface. The door handle grip having a width tapering from a wider width adjacent the door to a narrower width near a distal end with an edge on the hinge side of the door extending at an acute angle to vertical. The tapered width of the grip and acute angle of the grip edge resists attachment of a locking device to the grip and urges a locking device downward off of the grips as the door is opened and the locking device is tightened. The door handle pull may include a door handle plate securable to the door surface, the door handle plate having at least one edge and including the flat door handle grip extending from the door handle plate edge at an acute angle. The door handle grip may be rotatable with respect to the door handle plate to increase the angle of the grip edge with respect to vertical and further prevents a locking device from being attached to the grip. The door handle pull may comprise a pair of the door handle pulls, each pull being secured to one of a pair of doors at adjacent edges thereof, the tapering angled edges of the door handle grips being on opposite sides of the door handle pulls to prevent a locking device from being attached between the pair of door handle grips. The door handle grip may extend from a door handle plate disposable on the door surface. The grip may be stamped from door handle plate. The lower end of the grip may be parallel to the door surface. The grip taper may be non-symmetrical.
Another aspect of the present invention is directed to a method of preventing the securing of a lockable item to a door having a hinge on one edge thereof. The method comprises providing a door handle pull having a flat door handle grip extending from the door at an acute angle with respect to the door surface and in a direction away from the door surface. The door handle grip has a width tapering from a wider width adjacent the door to a narrower width near a distal end with an edge on the hinge side of the door extending at an acute angle to vertical. The tapered width of the grip and acute angle of the grip edge resists attachment of a locking device to the grip and urges a locking device downward off of the grips as the door is opened and the locking device is tightened. The method includes mounting the door handle pull on the surface of the door adjacent a door edge opposite the hinged edge and placing a restraining device around the grip of the door handle pull. The tapered width of the grip causes the restraining device to fall below the grip distal end when the restraining device is released by the user or when the door is opened.
Another aspect of the present invention is directed to a door handle pull securable to a surface of a door hinged on one edge thereof for preventing the securing of lockable items thereto. The door handle pull comprises a door handle plate disposable on the door surface and a flat door handle grip extending from the door handle plate at an acute angle with respect to the door handle plate and in a direction away from the door handle plate. The door handle grip has a width tapering from a wider width at the door handle plate to a narrower width near the distal end with an edge on the hinge side of the door extending at an acute angle to vertical. The tapered width of the grip and acute angle of the grip edge resists attachment of a locking device to the grip and urges a locking device downward off of the grips as the door is opened and the locking device is tightened. The door handle grip may be rotatable with respect to the door handle plate to increase the angle of the grip edge with respect to vertical and further prevents a locking device from being attached to the grip. The door handle pull may comprise a pair of the door handle pulls, each pull being secured to one of a pair of doors at adjacent edges thereof, the tapering angled edges of the door handle grips being on opposite sides of the door handle pulls to prevent a locking device from being attached between the pair of door handle grips. The grip maybe stamped from door handle plate. The lower end of the grip may be parallel to the door handle plate.
Another aspect of the present invention is directed to a method of making a door handle grip for attaching to a surface of a door which prevents the securing of lockable items to the door handle grip. The method comprises providing an elongated flat door handle plate, forming an incision on the door handle plate, the incision forming a tongue in a central location in the door handle plate, the tongue remaining attached to the door handle plate along an upper portion of the tongue and urging the tongue outward from the door handle plate surface at an angle acute to the door handle plate surface. The method may include bending an end portion of the distal end of the tongue until the end portion is substantially parallel to the door handle plate. The incision may be formed with a laser. The tongue may have a width tapering from a wider width at the door handle plate to a narrower width near the distal end of the tongue. The incision may be formed by a stamping process. The forming of the tongue at an acute angle and bending of the end portion of the tongue may be performed during the stamping process.
The features of the invention believed to be novel and the elements characteristic of the invention are set forth with particularity in the appended claims. The figures are for illustration purposes only and are not drawn to scale. The invention itself, however, both as to organization and method of operation, may best be understood by reference to the detailed description which follows taken in conjunction with the accompanying drawings in which:
In describing the preferred embodiment of the present invention, reference will be made herein to
The handcuff and lock resistant door pull and handle of the present invention is described herein in two embodiments, one stationary and one with a moving pull component. The stationary embodiment may be used on most door applications except where a narrow door stile version is required, in which case the moveable embodiment may be used.
Another embodiment of the restraint resistant handle is shown in
As shown in
A method of preventing the securing of a lockable item to a door having a hinge on one edge thereof comprises providing the door handle pull as described above, mounting the door handle pull on the surface of the door adjacent a door edge opposite the hinged edge and placing a restraining device around the grip of the door handle pull, wherein the tapered width of the grip causes the restraining device to fall below the grip distal end when the restraining device is released by the user or when the door is opened.
In an example of the door handle pull, the material may ⅛″ thick stainless steel. The pulls may be made out at least 0.050″ thick 17-4PH stainless steel to better resist bending in the field. The overall length may be approx. 10¼″ by 3½″ wide, about 8″ of the pull comprising a door handle plate portion mounted flush against the door. The handle grip portion of the pull then angles away from the door at approximately a 50 degree angle to achieve approximately a 1¾″ door clearance distance. The handle grip portion may extend downward parallel to the door for another 1″ length. The handle grip portion has a tapered width so that on the hinge side edge there may be a relieving angle at approximately 35 degrees from vertical that runs from the flush mounted surface of the handle plate portion to the lower end of the grip handle. This angle is what achieves the resistance to and prevents the pair of handles from being locked or handcuffed together to prevent free egress. By utilizing gravity and the relief angle, anything that is wrapped around the two pulls will not have a flat surface or pinch point to secure to, and the increasing relief angle causes a natural loosening of the locking device when the door is opened, causing the locking device to fall to the ground.
The rotatable and moveable embodiment is the same as above but may be used for narrow stile or other applications. Because of the decreased handle width there may only be a 12 degree angle that can be put on the grip portion of the pull. However, by adding a moving pull component of 12 degrees, i.e., permitting the handle grip portion to rotate around a pivot point on the handle plate portion, a combined grip edge angle of about 24 degrees per side can be achieved, which is adequate for the natural loosening described above. The degree of pivoting may be any that results in an angle of edge up to 90 degrees to vertical.
The pull of the present invention designed with safety in mind including the criteria that two pulls side by side cannot easily be latched together so that the door is prohibited from being opened, preventing egress. The door pull of the present invention may be retrofitted in place to original pulls to cover previous holes in the door from prior hardware. Additionally the door pull may be manufactured with identical tapers on both pull side edges so they are not handed in the event that an installer installed them backwards that they might otherwise be banded together.
Both embodiments utilize tapered angles that repel ligature from securing door shut and preventing egress. With the combination of the angles and gravity the ligature should easily fall to the ground.
Retrofit Design—For the retrofit design, the handle piece may be cut from a location somewhere inside the push plate and then the handle piece is formed. There is stainless steel plate surrounding all four sides of the handle grip piece. The stainless steel plate surrounding the handle gives it the ability to cover existing openings or flaws on an existing door. The retrofit design has the ability to make the handle at a location that is preferable to the customer, top of the plate, center, or bottom of the plate. The plate handle creates an opportunity of adding a cylinder location. This embodiment allows adjustment of the handle location, allows for various cylinder options and may be non-handed.
New Construction Design—For the new construction design, the handle piece may be formed at the bottom of the plate. Stainless steel plate is only on the top of the handle. This design is aesthetically pleasing and the above plate area gives the opportunity of adding a hole location for a cylinder. This embodiment allows for various cylinder options and may also be non-handed.
The handle portion of the new construction design may be larger than the handle portion of the retrofit design. Both embodiments have handles that are easy to grasp.
The objects of the invention as delineated at the beginning of the application have each been met including providing a door handle which is resistant to being locked or secured to another door handle or other object, providing a method of using door handles which are resistant to being locked or secured to another door handle or other object and providing a method of making door handles which are resistant to being locked or secured to another door handle or other object. The object of providing a door handle which is resistant to being locked or secured to another door handle or other object by providing rotatability to the door handle has also been met.
While the present invention has been particularly described, in conjunction with a specific preferred embodiment, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. It is therefore contemplated that the appended claims will embrace any such alternatives, modifications and variations as falling within the true scope and spirit of the present invention.
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