A portion of the disclosure of this patent document contains material which is subject to copyright protection. The copyright owner has no objection to any reproduction by anyone of the patent disclosure, as it appears in the United States Patent and Trademark Office patent files or records, but otherwise reserves all copyright rights whatsoever.
This present invention relates to a lock for door, and more particularly to a lock for door that is capable of converting electric mode to manual mode through a clutch mechanism.
The lock mainly adapted to be installed to the door has various different patterns. A general door lock is designed for using a key to open or lock the door from outside while the interior configuration of the door is configured to lock or unlock the door in a rotation manner. In addition, a more advanced door lock is designed as electric mode. For example, the door lock is operated through a password or fingerprint from outside of the door, such as the technology embodied as electric mode door lock disclosed in the U.S. patent number U.S. Ser. No. 10/364,594B2. However, in order to prevent the electric mode door lock from being unable to operate due to malfunction, it is necessary to additional provide a manual mode therefor at the same time. But, at present, the structure of converting between the electric mode and manual mode is so complex that it is not only difficult to be assembled, but also has a relatively higher manufacturing cost. Therefore, it is an objective of the present invention to provide a lock for door with simple structure that substantially reduces the manufacturing cost in view of the above drawbacks and deficiencies.
An advantageous of the present invention is to provide a lock for door with simple structure and lower manufacturing cost.
Accordingly, a lock for door comprises an outer case, an inner case connected with the outer case by screwing, a locking latch assembly arranged between the inner case and the outer case, a lock rotor arranged between the out case and the locking latch assembly, a lock bolt configured to be linked with the locking latch assembly, and a rotating member pivotally provided in the inner case, wherein the locking latch assembly comprises a first latch shell, a second latch shell butted with the first latch shell, and a upper rotor member, a clutch transmission set, a deceleration gear set, and a motor arranged between the first latch shell and the second latch shell. The upper rotor member has a cylindrical shape and is pivotally arranged in the first latch shell. Two top butting elements are protrudedly formed on one end face thereof, a protruding wing is formed on each side thereof, a through hole is axially penetrated therethrough. The clutch transmission set comprises a linking gear pivotally sleeved on the upper rotor member, a clutch gear pivotally arranged on the second latch shell, and an resilient element arranged between the clutch gear and the second latch shell, wherein two first grooves are formed in opposite directions at an inner circular surface of the linking gear, and two second grooves are intervally formed in opposite directions at the inner linking gear in such a manner that each of the two first groove is positioned between two of said grooves correspondingly, wherein the first grooves are arranged for the corresponding protruding wings to engage therewith respectively while allowing the protruding wings to rotate for an appropriate angle. The clutch gear is arranged coaxially adjacent to the linking gear, wherein the inner circular surface of the clutch gear forms two opposing engaging grooves correspondingly and two opposing protruding lug elements integrally protruded on an end face of the linking gear, such that the engaging grooves are configured for the corresponding top butting elements being engaged therein respectively while the protruding lug elements are engaged in the two corresponding second grooves respectively, wherein each of the protruding lug elements is allowed to rotate at an appropriate angle in the corresponding second groove. The deceleration gear is meshed with the clutch gear and driven by the motor to rotate the clutch gear. The lock rotor comprises a key control member arranged in the outer case, and a rotary handle extended from the key control member, wherein the rotary handle is configured to be capable of passing through the through hole of the upper rotor member fittingly for driving the upper rotor member to rotate. The lock bolt comprises a rack meshed with the linking gear and a bolt lock body extended from the rack, wherein the rack can be driven by the linking gear to link the bolt lock part to slide with respect to the bolt case for selectively forming a locking or unlocking state.
When the deceleration gear set is driven by the motor, the deceleration gear set immediately drives the clutch gear to rotate. The clutch gear drives the linking gear to rotate by the protruding lug elements and then to move the rack and the bolt lock body. When the rotary handle is manually driven to rotate, the upper rotor member is rotated with the rotary handle, so that the top butting elements push the clutch gear for an axial displacement to compress the resilient element to cause the protruding lug elements detached and separated from the second grooves respectively, and that the upper rotor member continues to rotate, so that the protruding wings drive the linking gear to rotate and then move the rack and the bolt lock body. Accordingly, the lock for door can be switched smoothly between the electric mode and the manual mode according to the design of the clutch transmission set of the locking latch assembly. However, the construction of the components of the clutch transmission group is simple, which makes the overall structure of the door lock simple too. Therefore, the assembly is also relatively simple that saves material cost and assembling cost.
The following description is disclosed to enable any person skilled in the art to make and use the present invention. Preferred embodiments are provided in the following description only as examples and modifications will be apparent to those skilled in the art. The general principles defined in the following description would be applied to other embodiments, alternatives, modifications, equivalents, and applications without departing from the spirit and scope of the present invention.
Referring to
The locking latch assembly 2 comprises a first latch shell 21, a second latch shell 22 butted with the first latch shell 21, an upper rotor member 3 arranged between the first latch shell 21 and the second latch shell 22, a clutch transmission set 4, a deceleration gear set 5, and a motor 6. A hollow pivot ring 211 is formed at a central portion of the first latch shell 21, and a hollow receiving ring 221 is integrally formed at a central portion of the second latch shell 22. The upper rotor member 3 has a cylindrical shape and is pivotally arranged in the pivot ring 211 of the second latch shell 21, wherein two top butting elements 31 are protrudedly formed on one end face of the upper rotor member 3, a protruding wing 32 is formed on each side of the upper rotor member 3, and a through hole 33 is axially penetrated through the upper rotor member 3. The clutch transmission set 4 comprises a linking gear 41 pivotally sleeved on the upper rotor member 3, a clutch gear 42 pivotedly arranged on the receiving ring 221 of said second latch shell 22, and at least a resilient element 43 arranged to be sleeved on the receiving ring 221 and positioned between the clutch gear 42 and the second latch shell 22 for pressing against both the clutch gear 42 and the second latch shell 22. The linking gear 41 of the clutch transmission set 4 has two first grooves 411 intervally formed in opposite directions at an inner circular surface of the linking gear 41, and two second grooves 412 intervally formed in opposite directions at the inner circular surface of the linking gear 41 in such a manner that each of the two first grooves 411 is positioned between two of the second grooves 412 correspondingly, wherein the two first grooves 411 are arranged for the corresponding protruding wings 32 to engage therewith respectively, while allowing the two protruding wings 32 to rotate in the two first grooves 411 respectively for an appropriate angle. The clutch gear 42 is arranged coaxially adjacent to the linking gear 41, wherein the inner circular surface of the clutch gear 42 forms two opposing engaging grooves 421 correspondingly and two opposing protruding lug elements 422 integrally protruded on an end surface of the linking gear 41, such that the engaging grooves 421 are configured for the corresponding top butting elements 31 being engaged therein respectively while the two protruding lug elements 422 are engaged in the two corresponding second grooves 412 respectively, wherein each of the protruding lug elements 422 is allowed to rotate at an appropriate angle in the corresponding second groove 412. The deceleration gear set 5 adapted for engaging with the clutch gear 32 comprises a plurality of gears having different sizes, which are axially and rotatably arranged between the first latch shell 21 and the second latch shell 22 and driven by the motor 6 to rotate for driving the clutch gear 42 to rotate.
The lock rotor 13 comprises a key control member 131 arranged in the outer case 11, and a rotary handle 132 extended from the key control member 131, wherein the rotary handle 132 is configured to be capable of passing through the through hole 33 of the upper rotor member 3 fittingly for driving the upper rotor member 3 to rotate. Since the structural design between the key control member 131 and the rotary handle 132 is conventional technology (referring to the patent application Ser. No. 09/202,818 of the Republic of China) that is not repeatedly described here.
The lock bolt 14 is arranged inside a bolt case 7 by which the lock bolt is installed on the door. The lock bolt 14 and the bolt case 7 are inserted between the first latch shell 21 and the second latch shell 22 in a conventional configuration that is not repeated here. The lock bolt 14 comprises a rack 141 meshed with the linking gear 41 and a bolt lock body 142 extended from the rack 141, wherein the rack 141 can be driven by the linking gear 41 to link the bolt lock part 142 to slide with respect to the bolt case 7 for selectively forming a locking or unlocking state.
The rotating member 15 is connected with the rotary handle 132 through the receiving ring 221, such that when the rotating member 15 is rotated, the rotary handle 132 is able to be driven to rotate and thus linking the clutch transmission set 4 to move correspondingly. It is worth mentioning that, at this time, the rotary handle 132 can be rotated relatively to the key control member 131.
An electrical actuation process of the lock 1 for a door comprises the following steps. Firstly, to lock in an electric mode under an unlocked state as shown in
When the lock 1 for door is in the locked state as shown in
Through the configuration and design of the clutch transmission set 4 of the locking latch assembly 2, the lock 1 for door can be switched smoothly between the electric mode and the manual mode. However, each component of the clutch transmission set 4 is remained simple in structure that simplifies the overall structure of the lock 1 too while it is simpler in assembling and more cost effective in material cost and assembling cost.
Number | Date | Country | Kind |
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109215408 | Nov 2020 | TW | national |