NZ790166B2 - Pushbutton mechanisms for locksets - Google Patents
Pushbutton mechanisms for locksetsInfo
- Publication number
- NZ790166B2 NZ790166B2 NZ790166A NZ79016620A NZ790166B2 NZ 790166 B2 NZ790166 B2 NZ 790166B2 NZ 790166 A NZ790166 A NZ 790166A NZ 79016620 A NZ79016620 A NZ 79016620A NZ 790166 B2 NZ790166 B2 NZ 790166B2
- Authority
- NZ
- New Zealand
- Prior art keywords
- component
- spindle
- orientation
- plunger
- pair
- Prior art date
Links
Abstract
exemplary pushbutton mechanism is configured for use with a lockset including a spindle and a plunger extending into the spindle, and generally includes a first component, a second component, and a cam interface. The first component is configured for rotational coupling with the plunger and for axial coupling with the spindle, and is rotatable between a locking orientation and an unlocking orientation. The second component is configured for rotational coupling with the spindle and for axial movement relative to the first component and the spindle, and is axially movable between a depressed position and a projected position. The cam interface is configured to correlate rotation of the first component with axial displacement of the second component, wherein axial displacement of the second component between a depressed position and a projected position rotationally displaces the first component between a locking orientation and an unlocking orientation. The pushbutton mechanism may be utilized to retrofit thumbturn configuration locksets or allow interchangeable between pushbutton or thumbturn mechanisms at manufacturing and/or installation of the lockset due to having the same locking mechanism.
Claims (32)
1. A lockset, comprising: an inside housing; an inside spindle rotatably mounted to the inside housing; an outside housing; an outside spindle rotatably mounted to the outside housing; a latchbolt mechanism including a latchbolt having an extended position and a retracted position; a center spindle engaged with the latchbolt mechanism such that rotation of the center spindle drives the latchbolt from the extended position to the retracted position, wherein the center spindle is coupled with the inside spindle; a lock selectively coupling the outside spindle with the center spindle, the lock having an unlocked state in which the lock rotationally couples the outside spindle with the center spindle, the lock having a locked state in which the lock rotationally decouples the outside spindle from the center spindle; a plunger engaged with the lock and extending into the inside spindle, the plunger rotatable between an unlocking orientation corresponding to the unlocked state and a locking orientation corresponding to the locked state; and a pushbutton mechanism mounted in the inside spindle, the pushbutton mechanism comprising: a first component axially coupled with the inside spindle and rotationally coupled with the plunger for joint rotation between the unlocking orientation and the unlocking orientation; a second component rotationally coupled with the inside spindle and mounted for axial movement relative to the first component and the inside spindle, wherein the second component is axially movable between a depressed position and a projected position; and a cam interface defined at least in part by the first component and the second component; wherein the cam interface is configured to rotate the first component and the plunger from the unlocking orientation to the locking orientation in response to axial displacement of the second component from the projected position to the depressed position; and wherein the cam interface configured to axially drive the second component from the depressed position to the projected position in response to rotation of the first component and the plunger from the locking orientation to the unlocking orientation.
2. The lockset of claim 1, further comprising a retainer plate mounted in the inside spindle, wherein the first component is engaged with the retainer plate such that the retainer plate restricts axial movement of the first component.
3. The lockset of claim 2, wherein the first component comprises a pair of deflectable clip arms engaged with the retainer plate such that the first component is rotatably coupled with the retainer plate.
4. The lockset of claim 1, wherein the second component comprises a spline seated in a slot of the inside spindle such that the second component is rotationally coupled with the inside spindle and is axially slidable relative to the inside spindle.
5. The lockset of claim 1, wherein the pushbutton mechanism further comprises a hub rotationally and axially coupled with the inside spindle; wherein the first component is rotatably mounted in the hub; and wherein the second component is slidably engaged and rotationally coupled with the hub.
6. The lockset of claim 1, wherein the cam interface comprises: a first pair of helical ramps defined by the first component; and a second pair of helical ramps defined by the second component; and wherein the first pair of helical ramps is engaged with the second pair of helical ramps.
7. A lock apparatus, comprising: a spindle; a plunger extending into the spindle; and a pushbutton mechanism, comprising: a first component rotationally coupled with the plunger and axially coupled with the spindle; a second component rotationally coupled with the spindle and axially movable relative to the first component and the spindle; and a cam interface engaged with the first component and the second component, wherein axial displacement of the second component rotationally displaces the first component; wherein the cam interface is configured to move the first component from an unlocking orientation to a locking orientation in response to movement of the second component from a projected position to a depressed position; and wherein the cam interface is configured to move the second component from the depressed position to the projected position in response to movement of the first component from the locking orientation to the unlocking orientation.
8. The lock apparatus of claim 7, wherein the cam interface comprises: a pair of ramps; and a pair of followers engaged with the pair of ramps.
9. The lock apparatus of claim 7, further comprising a hub that is axially and rotationally coupled with the spindle; wherein the hub restricts axial displacement of the first component relative to the hub; wherein the hub restricts rotation of the second component relative to the hub.
10. The lock apparatus of claim 7, wherein movement of the second component from a projected position to a depressed position causes a corresponding rotation of the first component from an unlocking orientation to a locking orientation; and wherein movement of the first component from the locking orientation to the unlocking orientation causes a corresponding axial displacement of the second component from the depressed position to the projected position.
11. The lock apparatus of claim 7, wherein the first component comprises a cylindrical body portion rotatably mounted in the spindle, and a post extending from the cylindrical body portion and into engagement with the second component; and wherein the post partially defines the cam interface.
12. A pushbutton mechanism configured for use with a lockset including a spindle and a plunger extending into the spindle, the pushbutton mechanism comprising: a first component configured for rotational coupling with the plunger and for axial coupling with the spindle; a second component configured for rotational coupling with the spindle and for axial movement relative to the first component and the spindle; and a cam interface engaged with the first component and the second component, wherein axial displacement of the second component between a depressed position and a projected position rotationally displaces the first component between a locking orientation and an unlocking orientation.
13. The pushbutton mechanism of claim 12, wherein the cam interface comprises a first ramp and a first follower engaged with the first ramp such that the first ramp and the first follower drive the first component from the unlocking orientation to the locking orientation in response to movement of the second component from the projected position to the depressed position.
14. The pushbutton mechanism of claim 12, wherein the cam interface comprises a ramp and a follower engaged with the ramp such that the ramp and the follower drive the second component from the depressed position to the projected position in response to movement of the first component from the locking orientation to the unlocking orientation.
15. The pushbutton mechanism of claim 12, wherein the cam interface comprises a pair of ramps and a pair of followers engaged with the pair of ramps.
16. The pushbutton mechanism of claim 12, wherein the pushbutton mechanism is modular.
17. The pushbutton mechanism of claim 12, further comprising a hub configured for axial and rotational coupling with the inside spindle; wherein the first component is rotatably mounted to the hub such that the hub restricts axial displacement of the first component relative to the hub; and wherein the second component is slidably mounted to the hub such that the hub restricts rotation of the second component relative to the hub.
18. The pushbutton mechanism of claim 12, wherein the cam interface comprises a pair of helical ramps and a pair of followers engaged with the helical ramps; wherein a first of the helical ramps is engaged with a first of the followers such that movement of the second component from the projected position to the depressed position causes a corresponding rotation of the first component from the unlocking orientation to the locking orientation; and wherein a second of the helical ramps is engaged with a second of the followers such that movement of the first component from the locking orientation to the unlocking orientation causes a corresponding axial displacement of the second component from the depressed position to the projected position.
19. The pushbutton mechanism of claim 18, wherein the second component comprises at least one helical ridge defining the pair of helical ramps; and wherein the first component comprises at least one slot defined by the pair of followers.
20. The pushbutton mechanism of claim 18, wherein one of the first component or the second component comprises the pair of helical ramps; and wherein the other of the first component or the second component comprises the followers.
21. The pushbutton mechanism of claim 20, wherein the second component comprises the pair of helical ramps; and wherein the first component comprises a second pair of helical ramps defining the pair of followers.
22. The pushbutton mechanism of claim 20, wherein the first component comprises the pair of helical ramps; and wherein the second component comprises a pair of projections defining the pair of followers.
23. The pushbutton mechanism of claim 12, wherein the first component comprises a cylindrical body portion configured for rotational mounting in the spindle, and a post extending from the cylindrical body portion and into engagement with the second component; and wherein the post partially defines the cam interface.
24. The pushbutton mechanism of claim 23, wherein the first component further comprises a pair of deflectable clip arms configured for rotational coupling with a retainer plate installed in the spindle.
25. The pushbutton mechanism of claim 12, further comprising a pushbutton mounted to the second component, wherein the first component extends into the pushbutton when the second component is in the depressed position.
26. A system including the pushbutton mechanism of claim 12, and further comprising the lockset; wherein the first component is rotationally coupled with the plunger and is axially coupled with the spindle; and wherein the second component is rotationally coupled with the spindle is axially movable relative to the first component and the spindle.
27. A method of installing a pushbutton mechanism to a lockset including a spindle rotatable about an axis, and a plunger extending into the spindle, the method comprising: rotationally coupling a first component with the plunger; axially coupling the first component with the spindle; rotationally coupling a second component with the spindle; and engaging the first component and the second component via a cam interface such that axial displacement of the second component between a projected position and a depressed position is correlated with rotation of the first component and the plunger between an unlocking orientation and a locking orientation.
28. The method of claim 27, wherein the lockset further comprises a lock engaged with the plunger such that rotation of the plunger between the unlocking orientation and the locking orientation is correlated with movement of the lock between an unlocked state and a locked state; and wherein the method further comprises causing the cam interface to rotate the first component and the plunger from the unlocking orientation to the locking orientation in response to movement of the second component from the projected position to the depressed position, thereby moving the lock from the unlocked state to the locked state.
29. The method of claim 27, wherein the lockset further comprises a lock engaged with the plunger such that rotation of the plunger between the unlocking orientation and the locking orientation is correlated with movement of the lock between an unlocked state and a locked state; and wherein the method further comprises rotating the plunger and the first component from the locking orientation to the unlocking orientation in response to movement of the lock from the locked state to the unlocked state, thereby causing the cam interface to drive the second component from the depressed position to the projected position.
30. The method of claim 27, further comprising removing an existing turnpiece from the plunger, thereby exposing a chamber into which the first component and the second component are subsequently installed.
31. The method of claim 27, further comprising engaging a pushbutton with the first component such that the first component and the pushbutton are rotationally and axially coupled with one another.
32. The method of claim 27, further comprising: manually driving the second component from the projected position to the depressed position, thereby causing the cam interface to rotate the first component and the plunger from the unlocking orientation to the locking orientation, thereby moving the lock from an unlocked state to a locked state; and moving the lock from the locked state to the unlocked state, thereby rotating the plunger and the first component from the locking orientation to the unlocking orientation, thereby causing the cam interface to drive the second component from the depressed position to the projected position. 115 119
Publications (2)
| Publication Number | Publication Date |
|---|---|
| NZ790166A NZ790166A (en) | 2025-01-31 |
| NZ790166B2 true NZ790166B2 (en) | 2025-05-01 |
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