Claims
- 1. In a door lock mechanism having a cylindrical knob sleeve or the like on which a knob or handle is rotatably mounted, a retainer for retaining the knob or handle on the knob sleeve, the knob sleeve having an inner face, means for connecting the knob against rotation on the knob sleeve comprising
- a separate driver mounted transversely in the knob sleeve in a spaced-relation to the retainer, and
- a drive lug on the driver, the drive lug projecting radially from the knob sleeve into positive engagement with an inward-opening recess in the knob, the drive lug being formed with a weak section adapted to shear under a predetermined torque to release the torque-transmitting connection between the knob and knob sleeve.
- 2. The door lock mechanism of claim 1 wherein the driver includes a generally rectangular body portion, and the drive lug includes a proximal portion integrally fixed to one end of the body portion and a distal portion carrying said weak section.
- 3. The door lock mechanism of claim 2 wherein the driver is substantially flat and includes a pair of shoulders at opposite sides of the lug to engage the inner face at one side of the knob sleeve for positioning the driver in the knob sleeve, an opening in the driver intersecting the inner face at the opposite side of the knob sleeve, and a resilient retainer in said opening and projecting into engagement with the wall of the knob sleeve to retain the driver in place in the knob sleeve.
- 4. The door lock mechanism of claim 2 wherein the distal portion of the drive lug includes a plurality of break-away ears, said ears being of such cross section and material that the ears will shear in the shear plane between the knob and the knob sleeve under a predetermined torque so as to break away from the drive lug and permit the knob to rotate on the knob sleeve.
- 5. The door lock mechanism of claim 4 wherein the driver is formed of sintered low-density powdered metal.
- 6. The door lock mechanism of claim 4 wherein the driver is formed of steel sheet stock.
- 7. The door lock mechanism of claim 3 wherein the resilient retainer is a resilient ball of rubber or the like received in said opening to resiliently engage the knob sleeve to retain the driver in the knob sleeve.
- 8. The door lock mechanism of claim 1 wherein the driver comprises a generally flat, rectangular body portion slidably received in a relatively wide slot at one side of the knob, said lug being narrower than said body portion and extending slidably through a relatively narrower slot at the opposite side of the knob sleeve, said body portion forming a shoulder at the side of the lug which engages the inner face of the knob sleeve adjacent the narrower slot to position the driver in the knob sleeve, the body portion having an opposite end face adapted to abut a surrounding knob portion so that the driver is trapped in place when the knob is mounted on the knob sleeve.
- 9. The lock mechanism as in claim 8 with the addition of means acting between the driver and knob sleeve for releasably retaining the driver in place in the absence of a surrounding knob portion.
- 10. The lock mechanism as in claim 9 in which said driver retaining means comprises a resilient ball press-fitted in an opening in the driver and projecting therefrom into engagement with the inner edge of said relatively wide slot.
- 11. Lock mechanism comprising
- knob sleeve or the like and a knob or the like rotatably mounted on the sleeve,
- a retainer for retaining the knob on the knob sleeve,
- a transverse opening in the sleeve to receive a separate driver in spaced-relation to the retainer, and an inward-opening recess in the knob to receive a drive lug on the driver for transmitting torque from the knob to the sleeve,
- a break-away driver having a body portion mounted on the transverse opening in the sleeve and having a drive lug extending through a close-fitting opening of the sleeve and into the recess of the knob to establish a torque-transmitting connection between the knob and sleeve,
- said lug being adapted to break away under a predetermined torque so as to release said torque-transmitting connection.
- 12. Lock mechanism as in claim 11 in which said lug is formed of low-density powdered metal.
- 13. Lock mechanism as in claim 11 in which said lug is formed with a weak section adapted to shear at the shear plane between the knob and sleeve.
- 14. Lock mechanism as in claim 12 in which said lug is formed with a weak section adapted to shear at the shear plane between the knob and sleeve.
- 15. Lock mechanism as in claim 11 in which said lug is formed with an end recess and ears at the sides of the lug extending across the shear plane between the knob and sleeve and adapted to shear in such plane at said predetermined torque.
- 16. Lock mechanism as in claim 12 in which said lug is formed with an end recess and ears at the sides of the lug extending across the shear plane between the knob and sleeve and adapted to shear in such plane at said predetermined torque.
- 17. Lock mechanism as in claim 16 in which the end recess of the lug is in the form of an arcuate concavity.
- 18. Lock mechanism comprising
- a knob sleeve or the like and a knob or the like rotatably mounted on the sleeve,
- a transverse opening in the sleeve to receive a driver, and an inward-opening recess in the knob to receive a drive lug on the driver for transmitting torque from the knob to the sleeve,
- a driver having a body portion slidably received in one end of said transverse opening and having a shoulder to engage an inner surface of the sleeve to position the driver in the sleeve, said driver having a lug projecting therefrom to engage in the knob recess to establish a torque-transmitting connection between the knob and sleeve,
- and means to retain the driver in the recess comprising a resilient ball-like member mounted in a transverse hole in the driver and projecting therefrom into retaining engagement with the sleeve.
- 19. Lock mechanism comprising
- a tubular sleeve having transverse slots in its opposite walls,
- a member mounted in said slots, said member being slidably inserted through one of said slots and extending into the opposite slot and having means to stop the member at a predetermined position in the sleeve,
- and means to retain said member in said position comprising a resilient ball-like member press-fitted in a transverse oepning in said member and protruding therefrom into engagement with an edge of said one slot.
- 20. In a door lock mechanism having a cylindrical knob sleeve or the like on which a knob or handle is rotatably mounted, the knob sleeve having an inner face, means for connecting the knob sleeve and the knob for torque transmission therebetween comprising
- a driver mounted transversely in the knob sleeve and having a ball-receiving opening in close proximity to the inner face of the knob sleeve, and a drive lug protruding from the driver to positively engage an inward-opening recess in the knob or the like, and
- a rubber ball received in the ball-receiving opening to resiliently engage the knob sleeve so that the driver is retained within the knob sleeve for rotation therewith.
Parent Case Info
This application is a continuation-in-part of our co-pending application U.S. Ser. No. 503,769, filed June 13, 1983, which was a continuation-in-part of our co-pending application U.S. Ser. No. 06/270,825, filed June 5, 1981, designated to issue as U.S. Pat. No. 4,394,821 on July 26, 1983.
US Referenced Citations (4)
Non-Patent Literature Citations (1)
Entry |
Walter E. Best et al., application Ser. No. 503,769, filed Jun. 13, 1983 (Drawings and Abstract). |
Continuation in Parts (2)
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Number |
Date |
Country |
Parent |
503769 |
Jun 1983 |
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Parent |
270825 |
Jun 1981 |
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