1. Field of Invention
The present invention is related to a padlock and, more particularly, to a padlock with double locking effects.
2. Relate Prior Art
Padlocks include combination (or “numeral”) padlocks and key-operable padlocks. The combination padlocks include a numeral-wheel type and a button type. These padlocks are used in various fields. For example, Taiwanese Patent Nos. 369068 and 498918 disclose key-operable padlocks, and Taiwanese Patent Nos. 32470 and 46563 disclose combination padlocks.
Deeming a trunk, a suitcase, a briefcase, a bag or the like suspicious, U.S. customs workers are authorized to break its lock or locks for security check. Such a damaged lock is a loss of a user and causes the user trouble and inconvenience.
To avoid the above-mentioned problems, the U.S. government regulates that lock manufacturers must provide the U.S. customs with a standard key for opening their locks. According to this regulation, several lock manufacturers all over the world are allowed to manufacture such locks.
It is therefore tried by the applicant to provide a locking apparatus which meets the regulation of the U.S. government. In case a user forgets to bring his key or forgets an unlocking number, the locking apparatus provides the user with another measure for unlocking it.
The present invention is therefore intended to obviate or at least alleviate the problems encountered in prior art.
It is therefore the primary objective of the present invention to provide a padlock with double effects. The padlock meets the regulation of U.S. government. In case a user forgets to bring his key or forgets the unlocking number, the padlock provides the user with another measure for unlocking it.
To achieve the primary objective of the present invention, there is provided a padlock including a lock body, a shackle, a first locking unit and a second locking unit. The lock body includes a first compartment, a second compartment, a first lock hole in communication with the first compartment and a second lock hole in communication with the second compartment. The first locking unit is movable in the first compartment between a locking position for locking a first end of the shackle in the first lock hole and an unlocking position for allowing the first end of the shackle to be removed from the first lock hole. The second locking unit is movable in the second compartment between a locking position for locking a second end of the shackle in the second lock hole and an unlocking position for allowing the second end of the shackle to be removed from the second lock hole. The first and second locking units are operable independent of each other.
The present invention can be best understood through the following description and accompanying drawings wherein:
Other objectives, advantages and features of the present invention will become apparent from the following description referring to the attached drawings.
The present invention will be described by the detailed illustration of the embodiments referring to the drawings wherein:
Referring to
The lock body 10 includes first and second lock holes 101 corresponding to the locking units 11 and 12, respectively. Each lock hole 101 consists of an aperture 1011 and a reduced slot 1012 in communication with the aperture 1011 (
The lock body 10 consists of two halves 105 joined together. The lock body 10 includes first and second chambers defined therein. The first chamber includes an upper portion 103 in communication with the first lock hole 101 and a lower portion 104 in communication with the upper portion 103. The second chamber includes an upper portion 103 in communication with the second lock hole 101 and a lower portion 104 in communication with the upper portion 103. The locking units 11 and 12 are disposed in the lower portions 14 of the first and second compartments, respectively.
A swinging restraining block 13 is disposed in the upper portion 103 of the first compartment, above the combination locking unit 11. The swinging restraining block 13 includes a slot 131 for receiving a rod 102 extended between the halves 105 of the lock body 10, in the upper portion 103 of the first compartment. Thus, the swinging restraining block 13 can be swung left and right and moved up and down in the upper portion 103 of the first compartment. A pushing edge 132 extends from a lower end of the swinging restraining block 13.
A rotary restraining block 14 is disposed in the upper portion 103 of the second compartment, above the key-operable locking unit 12. An upper end of the rotary restraining block 14 includes an eccentric section 141. A lower end of the rotary restraining block 14 is operatively connected to the upper end of the key-operable locking unit 12. The eccentric section 141 can be rotated to block and open the aperture 1011 of the second lock hole 101.
The first and second ends 21 of the shackle 20 are movable relative to each other. A first insert 22 is connected to the first end 21 of the shackle 20. A second insert 22 is formed on the second end 21 of the shackle. Each insert 22 includes a head 221 and a reduced neck 222. The head 221 of each insert 22 can be inserted into and removed from the lock body 10 through the aperture 1011 of a related lock hole 101. The neck 222 of each insert 22 can be laterally moved in and along the slot 1012 to prevent the head 221 of the same from getting out of the lock body 10.
The combination locking unit 11 includes a numeral wheel set 111 and a driving rod 112. An upper portion of the driving rod 112 is in contact with the swinging restraining block 103. A lower portion of the driving rod 112 is inserted in and controlled by the numeral wheel set 111. When the numeral wheel set 111 is turned to a correct combination of numerals (or “unlocking number”), the driving rod 112 can be moved axially in the numeral wheel set 111. Thus, the swinging restraining block 13 can be biased and/or moved up and down to axially push the driving rod 112. On the contrary, when the numeral wheel set 111 is not turned to the unlocking number, the driving rod 112 cannot be moved axially. Under such a circumstance, the swinging restraining block 13 is stopped and prevented from being biased or moved up and down.
The key-operable locking unit 12 includes a lock sleeve 121 and a lock core 122 fitted in the lock sleeve 121 (
Referring to FIGS. 3A through 3CC, the numeral wheel set 111 is turned to the unlocking number so that the driving rod 112 can be moved axially in the numeral wheel set 111. Thus, the swinging restraining block 13 can be biased and/or moved up and down. When a user laterally moves the insert 22 toward the aperture 1011 of the first lock hole 101, the first insert 22 swings and lowers the swinging restraining block 13. Now, the pushing edge 132 of the swinging restraining block 13 lowers the driving rod 112. Accordingly, the swinging restraining block 13 can be pushed away from the aperture 1011 of the first lock hole 101. Hence, the first insert 22 can be removed from the lock hole 101.
On the contrary, when the numeral wheel set 111 is not turned to the unlocking number, the driving rod 112 cannot be axially moved so that the swinging restraining block 13 is restrained by the upper end of the driving rod 112. Thus, the swinging restraining block 13 continues to block the aperture 1011 of the first lock hole 101. The first insert 22 cannot cause the swinging restraining block 13 to open the aperture 1011 of the first lock hole 101. The first insert 22 is restricted in the slot 1012 of the first lock hole 101.
Refer to FIGS. 4A through 4CC, the key 30 is inserted in the keyhole 1211 and turned so that the lock core 122 drives the rotary restraining block 14. The eccentric section 141 does not block the aperture 1011 of the second lock hole 101, thus allowing the insert 22 to be moved from the slot 1012 to the aperture 1011 of the second lock hole 101. Then, the insert 22 can be removed from the second lock hole 101.
On the contrary, when the key 30 is turned to the locking position, the second insert 22 is restrained in the second lock hole 101 by the eccentric section 141 of the rotary restraining block 14. Therefore, the second insert 22 cannot be moved from the slot 1012 to the aperture 1011 of the second lock hole 101. Accordingly, the second insert 22 cannot be removed from the lock hole 101.
Referring to FIGS. 5A through 5CC, a shackle 20A includes first and second link-type rigid elements 21 according to a second embodiment of the present invention. Upper ends of the link-type rigid elements 21 are pivotally connected to each other by a pivot 212 so that lower ends of the link-type rigid elements 21 can be moved relative to each other. The second embodiment is otherwise identical to the first embodiment.
Referring to FIGS. 6A through 6AA, a padlock includes a transversely movable restraining block 14A according to a third embodiment of the present invention. An eccentric shaft 1221 is formed at the upper end of the lock core 122. The transversely movable restraining block 14A includes a channel 142 defined therein and an upright section 141A formed thereon. The third embodiment is otherwise identical to the first embodiment.
The key 30 is inserted in the keyhole 1211 and turned so that the eccentric shaft 1221 of the upper end of the lock core 122 is swung in the channel 142 to drive the transversely movable restraining block 14A. Accordingly, the upright section 141A of the transversely movable restraining block 14A does not block the aperture 1011 of the second lock hole 101, thus allowing the second insert 22 to move from the slot 1012 to the aperture 1011 of the second lock hole 101. Then, the second insert 22 can be removed from the second lock hole 101.
On the contrary, the user can use the key 30 to turn the key-operable locking unit 12 to a locking position where the second insert 22 is restrained in the lock hole 101 by the upright section 141A of the transversely movable restraining block 14A. Therefore, the second insert 22 cannot be moved to the aperture 1011 from the slot 1012 of the second lock hole 101. Accordingly, the second insert 22 cannot be removed from the second lock hole 101.
Referring to
The key 30 is inserted in the keyhole 1211 and turned to an unlocking position so that the guiding slope 1222 of the lock core 122 causes the swinging column 14B to bias the swinging column 14B. Therefore, the section 141B does not block the aperture 1011 of the lock hole 101 so that the second insert 22 can be moved from the slot 1012 to the aperture 1011 of the second lock hole 101 and removed from the second lock hole 101.
On the contrary, the user can use the key 30 to turn the key-operable locking unit 12 to a locking position. Therefore, the second insert 22 is restrained in the lock hole 101 by the section 141 B of the swinging column 14B. That is, the second insert 22 cannot be moved from the slot 1012 to the aperture 1011 of the second lock hole 101. Accordingly, the insert 22 cannot be removed from the lock hole 101.
Referring to
The key 30 is inserted into the keyhole 1211 and turned so that the slope 1223 of the lock core 122 allows the longitudinally movable restraining block 14C to descend. Therefore, the section 141C of the longitudinally movable restraining block 14C does not block the aperture 1011 of the second lock hole 101 so that the insert 22 can be moved from the slot 1012 to the aperture 1011 of the second lock hole 101 and removed from the lock hole 101.
On the contrary, the user can use the key 30 to turn the key-operable locking unit 12 to a locking position where an upper planar face 1224 of the lock core 122 contacts the bottom of the longitudinally movable restraining block 14C to move the longitudinally movable restraining block 14C upward. The second insert 22 is restrained in the second lock hole 101 by the section 141C of the upper end of the longitudinally movable restraining block 14C. That is, the second insert 22 cannot be moved from the slot 1012 to the aperture 1011. Accordingly, the second insert 22 cannot be removed from the second lock hole 101.
Referring to
The present invention includes been described by the detailed illustration of the preferred embodiment. Those skilled in the art can derive variations from the preferred embodiment without departing from the scope of the present invention. Therefore, the preferred embodiment shall not limit the scope of the present invention defined in the claims.
Number | Date | Country | Kind |
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93201230 | Jan 2004 | TW | national |
The present patent application is a continuation application of U.S. patent application Ser. No. 10/833076 of which the entire disclosure is incorporated herein.
Number | Date | Country | |
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Parent | 10833076 | Apr 2004 | US |
Child | 11777287 | Jul 2007 | US |