This disclosure relates generally to latch assemblies; in particular, this disclosure relates to latch assemblies for selectively holding residential and/or commercial doors in a closed position.
A latch assembly is used for maintaining a door in a closed position using a bolt that moves between extended and retracted positions. In existing latches, the bolt is actively pushed and pulled between its extended and retracted positions. This pulling and pushing of the bolt requires a certain level of torque for the movement, which can present challenges for certain persons, such as the elderly, to exert sufficient torque to actuate the latch. Poor door preparation and environment factors can exacerbate these difficulties. For example, poor door preparation can create friction between the bolt and strike plate or pocket that increases the torque required to actuate the latch.
Another challenge with existing latches is adjustability. Latches need to fit the backset of the door, which is the distance between the door's edge to the center of the bore hole. Existing latch assemblies have limited adjustability for backset and can typically only be changed between two preset backset dimensions (e.g., 2.375 and 2.75 inches). Therefore, a consumer must determine a backset measurement to properly install a latch, which makes installation more complex and unforgiving to door prep.
According to the present disclosure, assemblies, components and methodologies are provided for mounting a latch having an infinite backset (between the predetermined standard backsets) that allows opening and closing of doors with minimum application of torque on a door handle. In illustrative embodiments, a latch assembly is provided with a housing and a latch moveable between a latched position with a bolt extending out of the housing and an unlatched position in which the bolt is substantially inside the housing. A latch arm is coupled to the latch and configured to move to permit the latch to move between its latched and unlatched positions. Means for infinitely adjusting the backset is provided so that the lock assembly can be installed in a door without a predetermined backset measurement position. The means for infinitely adjusting the backset may slide along the latch arm along a predetermined path so that the backset can be adjusted to any position along the predetermined path during installation as needed. The means for infinitely adjusting the backset may further comprise a floating latch actuator coupled to the latch arm and an elongated slide opening in the housing, wherein the floating latch actuator is aligned with the elongated slide opening.
In some embodiments, a latch assembly comprises a housing and a bolt that pivots from a latched position during opening of a closed door. The latch arm is coupled to the latch and moves to permit the bolt to pivot from its latched position. In an illustrative embodiment, the latch assembly includes means for unblocking movement of the latch bolt. Once the bolt is unblocked, opening the door away from the door jamb (by pushing/pulling the door) will cause the latch bolt to swing so that the amount of force required to open or unlatch the door is reduced because the bolt will not drag (or apply an opposite force) on the strike on its way out of the strike box. The means for unblocking movement may include a latch actuator with a latch arm receiver sized to receive a portion of a latch arm and a biasing spring configured to bias the latch arm into a blocked position to block movement of the latch bolt. When the latch assembly is unblocked, the bolt is free to rotate when the door is pushed/pulled and a force is applied to the bolt.
In some embodiments, a latch assembly is provided with a housing and a latch that is moveable between a latched position and an unlatched position during opening and closing of a door. The latch assembly may include means for preventing unlatching of the bolt by having a latch arm that blocks pivoting of the bolt in a first position, and allowing unlatching of the bolt in a second position that unblocks the bolt to allow it to freely rotate.
Additional features of the present disclosure will become apparent to those skilled in the art upon consideration of illustrative embodiments exemplifying the best mode of carrying out the disclosure as presently perceived.
The present disclosure will be described hereafter with reference to the attached drawings which are given as non-limiting examples only, in which:
The disclosure generally relates to a latch assembly. The latch assembly is disclosed in one embodiment as part of a door handle assembly. The latch assembly as disclosed does not require activation (pull or push of the bolt) directly from the turning action of the door handle. Rather, the door handle will unblock the bolt, thereby allowing the bolt to rotate freely upon pushing or pulling the door. By providing a blocking and unblocking mechanism, rather than a direct translation mechanism that retracts the bolt, a lower torque will be required to release the bolt irrespective of the frictional conditions on the latch assembly. In some embodiments, the latch assembly has an infinite or variable backset that does not require a standardized or predetermined backset to function correctly.
When opening the door 7, the latch assembly 1 is typically actuated by rotating a door handle, which could be a door knob, door lever, or other handle device. Unlike existing latch assemblies, however, the door handle is used to unblock the bolt 6, which allows the bolt 6 to freely pivot to the unlatched position upon pushing/pulling the door 7, instead of a direct mechanical push/pull translation to extend/retract the bolt. Embodiments are also contemplated in which latch assembly 1 could be employed in an electronic lock in which the latch assembly 1 may be actuated with a motor or other electronically-controlled mechanism to unblock the bolt 6. In this example, there is an exterior door handle 15 and an interior door handle 3 that could each actuate the latch assembly 1 to unblock the bolt 6 to allow opening of the door 7. In this example, the bolt 6 includes an angled surface 23 that slopes toward the exterior door handle 15 and a flat surface 67 that extends generally perpendicular to the latch assembly 1 and faces the interior door handle 3. When the door is being closed, the angled surface 23 acts as a cam with the door jamb (not shown) to move the bolt 6 within the latch assembly 1. When the door is closed, the flat surface 67 acts as a block against the door jamb to prevent the bolt 6 from being moved from engagement with the door jamb when the bolt 6 is blocked from pivotal movement (i.e. prevent the bolt 6 from moving to the unlatched position to permit opening of the door).
Referring now to
In the example shown, the bolt 6 is pivotally connected to the inner sleeve 8 with a pivot pin 60. The bolt 6 is configured to at least partially pivot about the pivot pin 60 between its latched and unlatched positions when the door is being opened (e.g. when the bolt 6 is being moved out of engagement with the door jamb/strike plate of the door). A latch arm 12 selectively blocks pivoting of the bolt 6. In the embodiment shown, the latch arm 12 has a proximal end 61 and a distal end 20. The proximal end 61 includes a blocking surface 63 that is movable between a blocked position (as shown in for example
As explained below, when a door handle is rotated to open the door, a torque blade (not shown) of a door handle will move the distal end 20 of the latch arm 12 from a first position (as shown for example in
In the embodiment shown, a spring return 10 urges the bolt 6 to the latched position in which the bolt 6 extends out of the open end of the sleeve 2. As shown, the spring return 10 is coupled with the pin 60 and has a first end 66 engaged with the bolt 6 and a second end 68 engaged with a cross-member 70 of the latch arm 12. With this configuration, the first end 66 of the spring return 10 urges the bolt 6 towards the latched position extending out of the sleeve 2. Accordingly, when the latch arm 12 moves to the second position in which the bolt 6 is unblocked, when the user pushes/pulls the door 7, this force on the flat surface 67 of bolt 6 will overcome the urging of the spring return 10 to pivot the bolt 6 within the sleeve 2. As the door continues to open and the bolt 6 clears the door jamb, no additional force will be applied to the bolt 6, and the spring return 10 will naturally urge the bolt 6 back to the latched position in which the bolt 6 extends out of the sleeve 2.
As illustrated, for example, in
In an illustrative embodiment, the arm receiver 18 may be moveable via a camming action when the arm receiver 18 is rotated upon opening the door. For instance, in one embodiment, the arm receiver 18 may float in and be movable relative to a cam block 17 (see
In various embodiments, the arm receiver 18 may be engaged with a cam plug 29 that is fixed to a bottom surface of the cartridge 4. The cam plug 29 is secured to the cartridge and does not rotate, but includes one or more surfaces that interact with the arm receiver 18 when the arm receiver 18 rotates. As illustrated in
When the door is being closed, the angled surface 23 of the bolt 6 acts as a cam against the door jamb. This allows the inner sleeve 8 to slide further inside the sleeve 2 against the biasing of the push spring 14 to clear the door jamb for opening the door. Although the push spring 14 is shown as a spring that lies on a side of arm 12, it may be a larger spring that completely surrounds arm 12 and lies in axial alignment with inner sleeve 8 to provide equal force and equal biasing of the sleeve 8 to the extended position towards proximal end of the sleeve 2.
In the example shown, the dead latch 32 is located between guide prongs 34 of the bolt 6 and, when fully extended, has an end that is flush with a proximal end of the bolt 6. As shown, the dead latch 32 is coupled to the arm 12 via a U-shaped blocker 36 and a lock lever 40. The lock lever 40 has a dead latch receiver 44 for a distal end of the dead latch 32 to be received. The lock lever 40 is connected to and pivotable relative to the blocker 36, via pivot points 42 formed in each side of the U-shaped blocker 36. In this embodiment, the sleeve 2 and inner sleeve 8 each include blocker receiver openings 38 through which the ends of the blocker 36 may extend to block translation of the inner sleeve 8 and free rotation of bolt 6 when activated as best seen in
As seen in
As can be seen in
Although the present disclosure has been described with reference to particular means, materials and embodiments, from the foregoing description, one skilled in the art can easily ascertain the essential characteristics of the invention and various changes and modifications may be made to adapt the various uses and characteristics without departing from the spirit and scope of the invention.
Illustrative examples of the latch assembly and method of use disclosed herein are provided below. An embodiment of the latch assembly may include any one or more, and any combination of, the examples described below.
Example 1 is a latch assembly that includes a sleeve, a bolt, and a latch arm. The bolt is movable between a latched position in which the bolt extends out of the sleeve and an unlatched position in which the bolt is substantially inside the sleeve. The latch arm is positioned within the sleeve and includes a blocking surface movable between a blocking position that blocks the bolt from moving from the latched position to the unlatched position and an unblocked position that allows the bolt to move between the latched position to the unlatched position.
In Example 2, the subject matter of Example 1 is further configured such that the bolt is configured to pivot from the latched position, the bolt pivoting about an axis substantially transverse with a longitudinal axis of the sleeve.
In Example 3, the subject matter of Example 2 is further configured such that a bolt pin extends substantially transversely to the longitudinal axis of the sleeve, wherein the bolt is pivotally connected to the bolt pin.
In Example 4, the subject matter of Example 2 is further configured such that The latch assembly of claim 2, further comprises a spring return configured to urge the bolt to pivot towards the latched position.
In Example 5, the subject matter of Example 1 is further configured such that the latch arm pivots between a first position in which the blocking surface is in the blocking position and a second position in which the blocking surface is in the unblocked position.
In Example 6, the subject matter of Example 5 is further configured such that a latch arm pin extends substantially transversely with respect to a longitudinal axis of the sleeve, and the latch arm is pivotally connected to the latch arm pin.
In Example 7, the subject matter of Example 1 is further configured such that an inner sleeve is slidably received by the sleeve, and the inner sleeve interacts with the bolt and slides relative to the sleeve when the bolt is moved between the latched position and unlatched position.
In Example 8, the subject matter of Example 7 is further configured such that a biasing member is configured to urge the inner sleeve into engagement with the bolt.
In Example 9, the subject matter of Example 8 is further configured such that the biasing member naturally urges the bolt into the latched position.
In Example 10, the subject matter of Example 7 is further configured such that the bolt is configured to slideably move within the sleeve.
In Example 11, the subject matter of Example 10 is further configured such that the bolt is configured to pivot from the latched position, and the bolt pivots about an axis substantially transverse with a longitudinal axis of the sleeve.
In Example 12, the subject matter of Example 1 is further configured such that the latch assembly further includes an inner sleeve coupled to the latch arm and a means for preventing unlatching of the bolt. The inner sleeve is configured to slide longitudinally within the sleeve, and the inner sleeve urges the bolt toward the latched position. The means for preventing unlatching of the bolt includes blocking sliding movement of the inner sleeve in the housing.
In Example 13, the subject matter of Example 12 is further configured such that the means for preventing unlatching of the bolt includes a dead latch having a latch blade, a rotatable lever, and a blocker coupled to the latch arm and the rotatable lever. A force exerted on the latch blade results in rotation of the rotatable lever and further results in translation of a portion of the blocker into one or more openings in the inner sleeve to prevent sliding movement of the inner sleeve.
In Example 14, the subject matter of Example 13 is further configured such that the rotatable lever is in an angled position when the dead latch permits movement of the latch, and the rotatable lever rotates so that it is positioned parallel to a longitudinal axis of the housing when the dead latch prevents movement of the latch.
In Example 15, the subject matter of Example 13 is further configured such that the blocker is U-shaped and the rotatable lever includes an opening configured to receive a distal portion of the latch blade there through.
In Example 16, the subject matter of Example 13 is further configured such that the rotatable lever is configured to pivotally rotate about a point where the rotatable lever is attached to the blocker.
Example 17 is a latch assembly including a housing, a bolt, a latch arm, and a means for infinitely adjusting a backset of the latch assembly. The bolt is moveable between a latched position extending out of the housing and an unlatched position in which the bolt is substantially inside the housing. The latch arm is configured to move with the bolt when the bolt moves between the latched and unlatched positions. The means for infinitely adjusting a backset of the latch assembly permits adjustment relative to an elongated slide opening of the housing so that the latch assembly may be installed in a door without a predetermined backset measurement position.
In Example 18, the subject matter of Example 17 is further configured such that the means for infinitely adjusting the backset slides along the latch arm along a predetermined path so that the backset can be adjusted to any position along the predetermined path.
In Example 19, the subject matter of Example 17 is further configured such that the means for infinitely adjusting the backset includes a floating latch actuator coupled to the latch arm and to the elongated slide opening in the housing, wherein the floating latch actuator is aligned with the elongated slide opening.
Example 20 is a method of operating a latch assembly. The method includes the step of providing a latch assembly installed on a door, the latch assembly including a bolt moveable between a latched position and an unlatched position, and the latch assembly further including a latch arm movable between a first position that blocks pivoting of the bolt and a second position that does not block pivoting of the bolt. The method further includes moving the latch arm from the first position to the second position by rotating a door handle. The method further includes pivoting the bolt away the latched position and moving the bolt to the unlatched position by opening the door.
This application is a continuation of U.S. patent application Ser. No. 16/085,497, now U.S. Pat. No. 11,598,131, filed Sep. 14, 2018, which is a National Stage Application of PCT/US2017/022282, filed Mar. 14, 2017, which claims the benefit of U.S. Provisional Application No. 62/308,932, filed Mar. 16, 2016 which applications are incorporated herein by reference. To the extend appropriate, a claim of priority is made to each of the above disclosed applications.
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Number | Date | Country | |
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Parent | 16085497 | US | |
Child | 18093954 | US |