1. Field of the Invention
The present invention relates generally to tubular lock mechanisms and, more specifically, to such lock mechanisms as which incorporates an adjustable backset. More particularly, the present invention discloses an improved backset assembly incorporating modified inner and outer casing parts, as well as a novel “T” shaped hook portion associated with a sandwichingly disposed actuating plate, for the purpose of providing improved backset adjustment.
2. Description of the Prior Art
The prior art is well documented with examples of tubular lock assemblies with some form of adjustable backset structure. In particular, a desirable feature of such assemblies is the ability to conform to both longer and shorter backsets.
A first example of a tubular lock with backset adjustability is set forth in U.S. Pat. No. 6,293,597, issued to Huang, and which teaches a latch bolt cylinder engaged with a casing consisting of two casing parts. An actuating plate is mounted between the casing parts and includes two separate teeth and protrusions. A follower plate, including two separate teeth, is in close contact with the actuating plate and to which the protrusions bear against. A spindle of the tubular lock bears against two teeth of the follower plate, thereby allowing the actuating plate to retract the latch bolt indirectly. Alternatively, the actuating plate can be directly actuated to retract the latch bolt.
Another example of the prior art is set forth in U.S. Pat. No. 6,257,630, issued to Huang, and which teaches a tubular lock including a latch bolt cylinder that may be extended beyond the doorplate or retracted there into. A casing consists of two casing parts and is engaged to an inner end of the latch bolt cylinder. An actuating plate is mounted between the casing parts and includes two teeth and a number of protrusions. A follower plate is removably held by the protrusions and also has two teeth. A spindle of the tubular lock bears against the teeth of the follower plate or the actuating plate, thereby allowing the actuating plate to retract the latch bolt directly or indirectly. A movable plate is mounted between the casing parts and may be extended beyond the casing parts. The movable plate includes a positioning hole through which one of two mounting posts of the tubular lock extends.
Finally, another version of a latch bolt mechanism is disclosed in U.S. Pat. No. 6,334,635, again issued to Huang, and which differs from Huang '630 in that it teaches the teeth associated with the actuating plate as including a block formed thereon, the blocks being pressed against by a follower plate that also includes two teeth. When either tooth of the actuating plate or follower plate is pressed against by a spindle of the lockset, the latch bolt is retracted. An extension casing is mounted around the plates and movable toward or away from the latch bolt housing. The extension casing includes a first hole and a second hole through which the spindle of the lockset is selectively extended.
The present invention discloses a latch design with adjustable backset and latch bolt features and which provides structural improvements over prior art latch designs. In particular, the present latch design provides an improved configuration associated with the inner and outer casing portions, as well as the intermediately disposed actuating portion, and such as to provide for improved backset adjustment and operation.
A handle is rotatably mounted to a housing, with a spindle extending from the handle in rotatably slaved fashion and a pair of fixed mounting rods extending from the housing in parallel fashion relative to the spindle. The backset subassembly is arranged in substantially perpendicular extending fashion relative to the spindle and mounting rods, the backset operatively engaging the handle and, in turn, actuating a latch bolt assembly to linearly withdraw in a direction towards the backset upon rotation of the handle.
Features of the backset include an inner casing part, an outer spaced apart and aligning casing part, and a linearly actuating plate and a follower plate sandwichingly engaged between the inner and outer casing parts. Each of the inner and outer casing parts having a specified shape and size and each includes a centrally located and aligning opening through which extends the spindle and in combination with at least first and second pairs of individual positioning holes arranged on opposite sides of the central aligning openings and for receiving the mounting rods therethrough. In a preferred arrangement, a third and outermost pair of aligning holes supplements the first side located pair of holes.
The actuating plate further includes a lengthwise extending and open interior for facilitating passage therethrough by the spindle and mounting rods. The actuating plate further includes an extending end exhibiting oppositely extending hook portions for engaging the latch bolt assembly. The follower plate seats between the casing parts and against the actuating plate to facilitate extension and retraction of the latch bolt assembly, the follower plate being linearly repositioned between shorter and longer backset positions relative to the casing parts.
The latch bolt assembly further includes a cylinder shaped and interiorly open body within which is mounted a bolt in spring biasing fashion, a stem portion extending from the bolt including gripping tabs for seating the hook portions of the actuating plate and for thereby translating said linear retraction of the actuator plate to the bolt.
Reference will now be made to the attached drawings, when read in combination with the following detailed description, wherein like reference numerals refer to like parts throughout the several views, and in which:
Referring to
Although not shown, the latch assembly is incorporated into a door and door jamb application, and whereby suitable recess configurations are pre drilled or otherwise pre formed between the door and opposing door jamb. It is further understood that all of the components comprising the latch, backset and latch bolt are preferably constructed from a durable and high strength steel or other metal.
As shown in
As clearly referenced in
In relevant part, the backset assembly includes an inner casing part 28 and an outer spaced apart and aligning casing part 30. As will be described in additional detail, a linearly actuating plate 32 and a follower plate 34 are sandwichingly engaged between the inner 28 and outer 30 casing parts.
Each of the inner 28 and outer 30 casing parts have a specified shape and size and include a centrally located and aligning opening (see arcuate shaped openings defined by inner boundary edges 36 and 38) and through which extends the spindle 16. In combination, first and second pairs of individual positioning and aligning holes (see at 40 & 42 and at 44 & 46) are arranged on opposite sides of the central aligning openings for parts 28 and 30, and for receiving the mounting rods 18 and 20 therethrough. A third pair of apertures 48 & 50 are further illustrated in association with the casing parts 28 and 30 and are positioned in likewise aligning fashion between the first pair of apertures 40 & 42 and the arcuate central openings 36 and 38.
The actuating plate 32 further includes a lengthwise extending and open interior 52 for facilitating passage therethrough by the spindle 16 and mounting rods 18 and 20. The actuating plate 32 further exhibits an extending end with oppositely arrayed hook portions 54 and 56 (see also enlarged view of
The follower plate 34 seats between the casing parts 28 and 30 and in sliding fashion against the actuating plate 32 to facilitate extension and retraction of the latch bolt assembly 26. The follower plate 34 is further linearly repositioned between shorter and longer backset positions relative to the casing parts. To facilitate such action, the follower plate 34 includes a first edge extending and arcuate recess 58 terminating, at opposite ends, in a pair of teeth 60 and 62 (these being dimensioned such as to receive the key apertures defined in circumferential offset along the spindle 16 as previously described at 22 and 24). A second opposite edge including a likewise central extending and arcuate recess 64.
In a shorter backset position, a selected on of the teeth 60 or 62 engages the rotating spindle, simultaneously with contacting protrusions associated with end legs, see at 66 and 68 of the actuating plate 32 extending opposite the hook portions 54 and 56 thereof, and to indirectly retract the bolt assembly 26. In the longer backset position, the follower plate 34 is moved longitudinally relative to the inner 28 and outer 30 casing parts, such that the first arcuate recess 58 is positioned in alignment with a selected pair of aligning and individual positioning holes (e.g. at 40 and 42) through which a selected mounting rod 18 extends, and further such that the second arcuate recess 64 of the follower plate 34 operates as an axle bearing against the spindle 16 in order to rotate at a fixed point.
Additional features associated with the backset includes the follower plate 34 exhibiting a pair of bead shaped protrusions, see at 70 and 72 in the rotated view of
The actuating plate 32 further exhibits a specified and generally flattened configuration with the opposite extending hook portions 54 and 56 each further including a substantially rectangular shape. A pair of inner arcuate edges, see at 78 and 80 as best shown in
Additional features of the inner casing part 28 includes a pair of angularly extending side walls 82 and 84, first and second pairs of finger portions 86 & 88 and 90 & 92 extending from first and second (typically end) locations of each of the side walls 82 and 84. Reference is also made to the enlarged view of
The inner casing portion 28 further includes an integral and forward extending blade portion 102, this inserting through a slot shaped aperture 104 (see
The outer casing part 30 further includes a first pair of linearly edge extending gripping portions, at 108 & 110 (again also
Additional features of the actuating plate 32 include its open interior (see as previously shown at 52) defining a larger interior aperture (see opposing inner walls 120) located approximate the end legs 66 and 68. An interconnecting and narrowed aperture (see further opposing inner walls 122) extends forwardly in a direction towards the hook portions 54 and 56.
Referring now to
A stem portion 128 (
Referring again to
The latch bolt assembly further includes a disk portion, see at 142, this being insertable within the open end of the cylinder shaped body 124. A pair of circumferentially spaced apart end stops are shown at 144 and 146 (see in phantom in
A secondary shoulder plate, at 154, is supported upon a surface of the bolt retracting stem portion 128, and for guidably supporting a secondary spring 156 which is secured at opposite ends to aligning and seating locations associated with both the anti-theft pin 136, at 158, as well as with a pin 160 mounted in extending fashion to an end wall surface of the bolt cylinder 124, and through which the slot shaped aperture 104 is defined. A support plate 162 is secured in integrally extending fashion relative to the open end of the bolt assembly body 124. A face plate 164 is sandwichingly engaged against the underlying support plate 162 and further defines an interior aperture 166 (
Having described my invention, other and additional preferred embodiments will become apparent to those skilled in the art to which it pertains, and without deviating from the scope of the appended claims.