The present invention relates to a safety locking mechanism for a lockset having a cover plate, a support plate, and a lock body. The safety locking mechanism includes a locking push rod having a direction-limiting shaft and a cylindrical rod, a locking stopper, and a locking compression spring. The
The present invention relates to a safety locking mechanism for a lockset having a cover plate, a support plate, and a lock body. The safety locking mechanism includes a locking push rod having a direction-limiting shaft and a cylindrical rod, a locking stopper, and a locking compression spring. The direction-limiting shaft is mounted at one end of the cylindrical rod and the other end of the cylindrical rod passes through the support plate and presses against the cover plate. The locking stopper is rotatably mounted on the cylindrical rod and has a front end and a back end being close against the support plate and the lock body respectively. The lock body is provided with a direction-limiting groove. The direction-limiting shaft is mounted in the direction-limiting groove. The locking compression spring is mounted between the direction-limiting shaft and a bottom end of the direction-limiting groove in a compressed manner.
대표청구항▼
1. A safety locking mechanism for a lockset, having a cover plate and a lock body, comprising: a locking push rod having a direction-limiting shaft and a cylindrical rod, wherein the direction-limiting shaft is mounted at a first end of the cylindrical rod, the cylindrical rod defines a helical incl
1. A safety locking mechanism for a lockset, having a cover plate and a lock body, comprising: a locking push rod having a direction-limiting shaft and a cylindrical rod, wherein the direction-limiting shaft is mounted at a first end of the cylindrical rod, the cylindrical rod defines a helical inclined surface at a adjacent to the direction-limiting shaft, the helical inclined surface protruding from the cylindrical rod and axially extending along the surface of the cylindrical rod, and a second end of the cylindrical rod presses against the cover plate of the lockset;a locking stopper defines a specially-shaped hole, wherein the specially-shaped hole includes a space having a cross-section similar to the cross-section of the helical inclined surface such that the helical inclined surface section of the locking push rod fits into the specially-shaped hole, the locking stopper is rotatably mounted on the cylindrical rod, a front end of the helical inclined surface is inserted into the specially-shaped hole, and when axially moving in the specially-shaped hole, the helical inclined surface drives the locking stopper to rotate only in a radial direction,wherein the lock body comprises a lock tongue for locking and unlocking the lockset, a locking shaft for providing the safety lock mechanism to the lockset by locking the lock tongue when the cover plate is removed, and the lock body defines a direction-limiting groove having the same cross-sectional shape as the direction-limiting shaft, the direction-limiting shaft is fitted in the direction-limiting groove allowing the direction-limiting shaft to be slidable in the direction-limiting groove only in an axial direction, and a locking compression spring is mounted between the direction-limiting shaft and a bottom end of the direction-limiting groove in a compressed manner to elevate the locking push rod, rotate the locking stopper and lock the lock tongue when the cover plate is removed. 2. The safety locking mechanism for a lockset according to claim 1, wherein the lockset further comprises a support plate, and a first end of the locking stopper faces the support plate and a second end of the locking stopper faces the lock body, respectively. 3. The safety locking mechanism for a lockset according to claim 1, wherein an inner surface of the specially-shaped hole comprises a helical surface fitted with the helical inclined surface, and when the helical inclined surface passes through the specially-shaped hole, the helical surface is driven by the helical inclined surface to rotate radially. 4. The safety locking mechanism for a lockset according to claim 3, wherein after when the cover plate is removed, the locking push rod is elevated by the compression force of the locking compression spring, the locking push rod axially moves upward, and the helical inclined surface drives the locking stopper to rotate through the specially-shaped hole radially. 5. The safety locking mechanism for a lockset according to claim 2, wherein when the locking push rod presses against the cover plate, the locking stopper is located outside a moving passage of the locking shaft of the lockset. 6. The safety locking mechanism for a lockset according to claim 2, wherein when the cover plate is removed from the support plate, the locking stopper rotates to an intersection with a moving passage of the locking shaft of the lockset. 7. The safety locking mechanism for a lockset according to claim 2, wherein the direction-limiting shaft is fixed at one end of the locking push rod, and the other end of the locking push rod passes through the specially-shaped hole of the locking stopper and the support plate in order, and presses against the cover plate. 8. The safety locking mechanism for a lockset according to claim 7, wherein the locking shaft is used to control locking and rotation of the lock tongue of the lockset. 9. The safety locking mechanism for a lockset according to claim 1, wherein the cross-sectional shape of the direction-limiting shaft comprises a polygon. 10. The safety locking mechanism for a lockset according to claim 1, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction. 11. The safety locking mechanism for a lockset according to claim 2, wherein the cross-sectional shape of the direction-limiting shaft is a polygon. 12. The safety locking mechanism for a lockset according to claim 3, wherein the cross-sectional shape of the direction-limiting shaft is a polygon. 13. The safety locking mechanism for a lockset according to claim 4, wherein the cross-sectional shape of the direction-limiting shaft is a polygon. 14. The safety locking mechanism for a lockset according to claim 2, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction. 15. The safety locking mechanism for a lockset according to claim 3, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction. 16. The safety locking mechanism for a lockset according to claim 4, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction. 17. The safety locking mechanism for a lockset according to claim 5, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction. 18. The safety locking mechanism for a lockset according to claim 6, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction. 19. The safety locking mechanism for a lockset according to claim 7, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction. 20. The safety locking mechanism for a lockset according to claim 8, wherein the direction-limiting shaft comprises a circular shaft, the circular shaft defines an axial key groove, the direction-limiting groove comprises a matching limiting key on an inner wall of the direction-limiting groove, the limiting key fits in the axial key groove and is slidable in the key groove in an axial direction to ensure that the locking push rod moves only in the axial direction.
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이 특허에 인용된 특허 (41)
Laspesa, Eric; Nadeau, Jean-Paul; Borg, Evrard, Activated-stroke actuator, in particular for an automobile safety system for the protection of pedestrians.
Clark Thomas R. (Lexington KY) Dawson Gerald L. (Lexington KY) Scherer Paul T. (Lexington KY), Anti-attack interlocks for a combination lock mechanism.
Johansson, Torsten; Magnusson, Claes; Anderson, Glenn; Scally, Charles R.; Wittig, J. Michael; Koveal, Stefan Matthew; Vickers, James H.; Rundle, Jr., Alfred George, Latch.
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