Embodiments described herein relate generally to door latches, and more particularly to latch operator connection apparatus for a mortise lock that is inserted in a mortise in the edge of a door.
A mortise lock includes a housing with, among other things, a hub rotatably disposed in the housing and operatively connected through linkages to a latch bolt. Rotating the hub in one direction effects linear retraction of the latch bolt. A latch operator such as a knob or a lever handle is provided for rotating the hub. A spindle, which is usually square in cross section, connects the latch operator and the hub. The hub defines a receptacle, also usually square, for nonrotatably receiving the spindle. When either handle is rotated or depressed, the hub rotates, which results in retraction of the latch bolt, allowing opening of the door. Two separate hubs may be provided in a mortise lock, where inside and outside latch operators independently operate each hub. The two hubs are coaxial, but are functionally separate from one another.
Some configurations of a spindle may include a unitary spindle that extends through the case and is secured at each end to the inside and outside latch operators, respectively. In this arrangement, the inside handle is permanently engaged with the hub and the outside handle. A second configuration consists of separate spindles for each of the latch operators. The separate spindles may be joined at their inner ends by an “all-thread” threaded rod such that the spindles are connected but may rotate relative to one another. This second configuration can be used with a single hub or two independent hubs. In the latter arrangement, the latch operators separately actuate the hub or hubs. Assembly and disassembly may require significant time and effort.
In accordance with one embodiment, a spindle connecting device for a mortise lock is provided. The mortise lock includes a housing and a latch bolt disposed at least in part in the housing. The latch bolt is adapted for reciprocal linear movement and is operable with a latch operator. The device includes a first hub defining a central opening about an axis of rotation, with the first hub adapted to operatively communicate with the latch bolt to transmit force to retract the latch bolt. A first spindle has a longitudinal axis, a first end, and a second end. The first end is adapted to be received in the opening in the first hub and to apply rotational force to the first hub. The second end of the first spindle is adapted to operatively communicate with the latch operator. A securing element is provided that is moveable between a first position in which the securing element engages the first spindle and the first spindle is secured to the first hub, and a second position in which the securing element is disengaged from the first spindle and the first spindle may be freely removed from the opening in the first hub. In some such embodiments, the first spindle defines a first peripheral groove proximate to the first end. The securing element may be adapted for reciprocal linear movement in the housing, movable in a direction substantially perpendicular to the longitudinal axis of the first spindle. The securing element may also engage the first spindle by part of the securing element being received in the first peripheral groove, and the securing element may be disengaged from the first spindle by the securing element being completely outside the first peripheral groove.
In some embodiments, the securing element includes a first end, a second end, and two spaced, parallel sides extending from the first end, each side including a lip portion spaced from the first end, and the part of the securing element received in the groove in the first position is part of the lip portion. In such embodiments, the two sides of the securing element define opposing slots in the sides aligned with the direction of linear movement of the securing element, and further include a retaining element slidably mounted to the securing element between the two sides and in the slots of the securing element and adapted to be mounted to the housing, and means for biasing the first end of the securing element away from the retaining element.
In accordance with another embodiment, another spindle connecting device is provided. The device includes a first hub defining a central opening about an axis of rotation. The first hub is adapted to operatively communicate with the latch bolt to transmit force to retract the latch bolt. A first spindle has a longitudinal axis, a first end, and a second end, and the first end adapted to be received in the opening in the first hub and to apply rotational force to the first hub. The first spindle defines a first peripheral groove proximate to the first end, and the second end of the first spindle is adapted to be mounted to the latch operator. Means for securing the first spindle to the first hub at the first peripheral groove are provided. In some embodiments, a second spindle is provided having a longitudinal axis, a first end, and a second end, and the second spindle first end is adapted to be received in the opening in the second hub and to apply rotational force to the second hub. The second spindle defines a second peripheral groove proximate to the first end, and the second end of the second spindle is adapted to operatively communicate with the latch operator. The means for securing the first spindle to the first hub also secures the second spindle to the second hub at the second peripheral groove.
In accordance with another embodiment, a mortise lock operable with a latch operator is provided. The mortise lock includes a housing, a latch bolt disposed at least in part in the housing for reciprocal linear movement, a first hub, a first spindle, and a securing element. The first hub defines a central opening about an axis of rotation and is in operative communication with the latch bolt to transmit force to retract the latch bolt. The first spindle has a longitudinal axis, a first end, and a second end. The first end is received in the opening in the first hub to apply rotational force to the first hub. The second end of the first spindle is in operative communication with the latch operator. The securing element is moveable between a first position in which the securing element engages the first spindle and the first spindle is secured to the first hub, and a second position in which the securing element is disengaged from the first spindle and the first spindle may be freely removed from the opening in the first hub.
In some embodiments, the securing element includes a first end, a second end, and two spaced, parallel sides extending from the first end, each side including a lip portion spaced from the first end, and the part of the securing element received in the groove in the first position is part of the lip portion. In such embodiments, the two sides of the securing element define opposing slots in the sides aligned with the direction of linear movement of the securing element, and further include a retaining element slidably mounted to the securing element between the two sides and in the slots of the securing element and mounted to the housing, and means for biasing the first end of the securing element away from the retaining element.
In accordance with another embodiment, a method of assembling a spindle in a mortise lock operable with a latch operator is provided. The mortise lock includes a housing, a latch bolt disposed at least in part in the housing for reciprocal linear movement, a hub, a spindle, and a securing element. The hub defines a central opening about an axis of rotation, the hub in operative communication with the latch bolt to transmit force to retract the latch bolt. The spindle has a longitudinal axis, a first end, and a second end. The first end is received in the opening in the hub to apply rotational force to the hub. The spindle defines a peripheral groove proximate to the first end, and the second end of the spindle is adapted to be mounted to the latch operator. The securing element is disposed in the housing for reciprocal linear movement, with the securing element movable in a direction substantially perpendicular to the longitudinal axis of the spindle. The method includes inserting the first end of the spindle into the opening in the hub, and contacting the securing element with the first end of the spindle. The first end of the spindle is advanced further into the opening in the hub to move the securing element out of the path of the first end of the spindle. Then the first end of the spindle is further advanced into the opening in the hub until the groove in the spindle reaches the securing element and the securing element advances into the groove. In some embodiments, the method further includes applying force to the securing element to move the securing element out of the groove, and withdrawing the first end of the spindle from the opening in the hub.
For a more complete understanding, reference should now be had to the embodiments shown in the accompanying drawings and described below. In the drawings:
The embodiments of a door latch operator connection device described herein may be for use with a conventional mortise lock for a conventional door, including, for example, a door hinged on a vertical edge or a sliding door. Moreover, it is understood that the overall construction of the mortise lock components and the door is not critical. Accordingly, although exemplary embodiments will be described in detail herein with respect to a mortise lock function, detailed explanations of the functioning of the mortise lock components are deemed unnecessary for understanding by one of ordinary skill in the art.
Certain terminology is used herein for convenience only and is not to be taken as a limitation. For example, words such as “front,” “back,” “top,” “bottom,” “rear,” “upper,” “lower,” “left,” “right,” “horizontal,” “vertical,” “upward,” and “downward” merely describe the configuration shown in the figures. The components may be oriented in any direction and the terminology, therefore, should be understood as encompassing such variations unless specified otherwise.
Referring now to the drawings, wherein like reference numerals designate corresponding or similar elements throughout the several views, an embodiment of a mortise lock for use on a conventional hinged door is shown in
The mortise lock 40 includes a housing 42, which includes a case 44, a cover 46 mounted to the case 44 with fasteners, shown as screws 48, and a base front 50 also mounted to the case 44. The base front 50 is conventionally mounted to a recessed area in the door edge. An armor front 52 is mounted to the base front 50 with screws 53 that extend through holes 54 in the base front 50, and covers the front side of the base front 50. The mortise lock 40 is mounted to the door with screws (not shown) that extend through holes 55 at the top and bottom of the base front 50. Reinforcing 56 is provided on the back side of the base front 50 around the holes 55. Direction arrow 58 shows the general designations of front and back of the mortise lock 40, with front being at the armor front 52.
In the embodiment shown, the armor front 52 has an aperture 60 for a latch 62. Spindles 64 are operatively connected to the latch 62, and latch operators, in this case levers 68, are connected to the spindles 64.
In
The housing cover 46 is truncated in
The spindles 64 may be elongated and substantially square in cross section. The spindles 64, as shown in this embodiment, may have the same shape and be duplicate parts. The inner end 100 of each spindle 64 may be tapered or have beveled corners, and proximate to the inner end 100 is a peripheral groove 104. At the peripheral groove 104 the spindles 64 may have a circular cross section. An opening 108 is provided on one face of each spindle 64 to receive a roll pin 110 that is disposed in an aperture 112 through the collar 114 of the levers 68. An opening in each lever 68 at the collar 114 receives an outer end 122 of the adjacent spindle 64, and has longitudinal notches 126 to prevent the spindle 64 from rotating relative to the lever 68.
As shown in
Spaced from the front end 130 of the spindle catch 90, and, in the embodiment shown, at the back end 132 of the spindle catch 90, the sides 134 extend upward and form lips 144. The lips 144 may be substantially U-shaped, with the open end facing the front of the mortise lock 40. At the closed end of the “U” is an engagement portion 146. The engagement portion 146 has an arc-shaped recess, and is received in the peripheral groove 104 in the adjacent spindle 64. The shape of the recess permits the spindle 90 to rotate, while the engagement portion 146 is within the groove 104.
The hubs 82, 84 include a central portion 150, 152 and an arm 154, 156 extending from the central portion 150, 152. The hubs 82, 84 are rotatably disposed in the mortise lock case 44, and are operatively connected to a latch bolt 160 (
The lips 144 of the spindle catch 90 axially position the hubs 82, 84, as the hubs 82, 84 are mounted substantially between the lips 144. A collar 166 on each hub extends axially outside the lips 144, and a slot 168 is provided in each collar 166 that receives the engagement portion 146 of the lips 144 to allow the engagement portion 146 to reach the groove 104 in the spindle 90. When the engagement portion 146 is in the groove 104, the engagement portion 146 impedes withdrawal of the spindle 90 from the receptacle 164.
The components of the mortise lock housing 42, the spindle catch 90, the spindles 64, the hubs 82, 84, and the levers 68 may generally be metal, such as carbon steel or stainless steel, or other material as selected by one of ordinary skill in the art. The retainer 92 may be, for example, plastic, such as nylon in one embodiment, or other material as selected by one of ordinary skill in the art.
To remove the spindle 64 from the hub 82, 84, first the armor front 52 (
Although only a few exemplary embodiments have been shown and described in considerable detail herein, it should be understood by those skilled in the art that we do not intend to be limited to such embodiments since various modifications, omissions and additions may be made to the disclosed embodiments without materially departing from the novel teachings and advantages, particularly in light of the foregoing teachings. Accordingly, we intend to cover all such modifications, omission, additions and equivalents as may be included within the spirit and scope as defined by the following claims. In the claims, means-plus-function clauses are intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Thus, although a nail and a screw may not be structural equivalents in that a nail employs a cylindrical surface to secure wooden parts together, whereas a screw employs a helical surface, in the environment of fastening wooden parts, a nail and a screw may be equivalent structures.
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