The present invention relates to a lock, and more particularly, to an anti-break lock which prevents the lock from being unlocked even if the core is taken out.
The conventional lock is disclosed in
However, the unauthorized persons usually pick the top beads and the bottom beads in the cores 30 and to rotate the cam 20 to unlock the lock. If the arrangement of the top beads and the bottom beads is too complicated, the unauthorized persons break the case 10 at the position where the hole 101 is located as shown in
The regulations for locks require the locks to have certain unlock times, levels of durability, fire-proof, the number of parts, material and specification. However, for combination locks, the small sized locks are difficult to obtain the required sets of combination numbers which need at least five sets of top and bottom beads. As shown in
The present invention intends to provide an anti-break lock which prevents the core from being unlocked even if the core is taken out.
The present invention relates to an anti-break lock and comprises a case having a body and a fixing hole defined through the body. Two rods respectively extend from two ends of the body and two rings extend radially from the body. The axis of the rings and the axis of the rods are parallel to each other. A space is defined between the two rings.
Preferably, the body has at least one passage which communicates with one of the rings. The ring is engaged with an engaging block. The engaging block has a recess which is located corresponding to the at least one passage and smaller than the at least one passage. A pad is engaged with the recess. The at least one passage is located at one end of the body and a resilient member and a stop pin are received in the at least one passage. The resilient member biases the stop pin which has a first shoulder defined in the first end thereof and facing the resilient member. A second shoulder is defined in the second end of the stop pin and located corresponding to the at least one passage and the recess. A contact portion extends from the second shoulder and is located corresponding to the recess. The body has a room which communicates with the at least one passage. A resilient piece and an engaging member are received in the room. The engaging member is located corresponding to the first shoulder and biased by the resilient piece to contact the stop pin. The contact portion contacts the pad which is removed from the recess. The stop pin is then pushed by the resilient member to insert the contact portion into the recess. The stop pin is then removed from the room. The engaging member is biased by the resilient piece and passes through the conjunction portion between the at least one passage and the room. The first shoulder of the stop pin is stopped by the engaging member and cannot move to its initial position.
Preferably, a cam is located in the space and connected to the engaging block. The engaging block has a core installed thereto which is located corresponding to the cam. The pad is pushed by the contact portion and in contact with the core. The engaging block has a stepped surface in axial direction and a slot. A driving member is located in the engaging block and has a protrusion located corresponding to the slot. The cam has an engaging portion located corresponding to the stepped surface. The engaging block and the cam are connected to each other. The cam has an insertion path defined in the inner periphery thereof and the insertion path is located corresponding to the protrusion. The core has a slide slot which is located at an end of the core that is connected to the engaging block.
Preferably, the body has two passages which are located symmetrically to each other and the engaging blocks are engaged with the rings. The engaging blocks are located symmetrically to each other. Each of the cores has a push member which contacts the driving member and the two driving members are located symmetrically to each other. Each of the driving members has a central hole and a link extends through the central holes so as to move the driving members. When one of the push members is pushed, the driving member pushes the protrusion of the other driving member to be removed from the insertion path.
Preferably, a sleeve is connected to the rod which has at least one pin hole. The sleeve has a connection hole which is located corresponding to the at least one pin hole. A positioning pin extends through the at least one pin hole and the connection hole.
Preferably, the rod has a sleeve mounted thereto which receives the core. The rings are respectively mounted to the cores. The sleeve has at least one slit and the core has a groove which is located corresponding to the at least one slit. The groove has a positioning plate extending therefrom and the positioning plate reaches the sleeve. The positioning plate has two notches. The groove has two locking pieces on two ends thereof and the locking pieces are fixed to the notches.
Alternatively, the present invention provides an anti-break lock and comprises a case having a body and two rings extend radially from the body. A space is defined between the two rings. The body has at least one passage which communicates with one of the rings. The ring is engaged with an engaging block. The engaging block has a recess which is located corresponding to the at least one passage and smaller than the at least one passage. A pad is engaged with the recess. The at least one passage is located at one end of the body and a resilient member and a stop pin are received in the at least one passage. The resilient member biases the stop pin which has a first shoulder defined in the first end thereof which faces the resilient member, and a second shoulder is defined in the second end of the stop pin and located corresponding to the at least one passage and the recess. A contact portion extends from the second shoulder and is located corresponding to the recess. The body has a room which communicates with the at least one passage. A resilient piece and an engaging member are received in the room. The engaging member is located corresponding to the first shoulder and biased by the resilient piece to contact the stop pin. The contact portion contacts the pad which is removed from the recess. The stop pin is then pushed by the resilient member to insert the contact portion into the recess. The stop pin is then removed from the room. The engaging member is biased by the resilient piece and passes through the conjunction portion between the at least one passage and the room. The first shoulder of the stop pin is stopped by the engaging member and cannot move to its initial position.
Preferably, a cam is located in the space and connected to the engaging block. The engaging block has a core installed thereto which is located corresponding to the cam. The pad is pushed by the contact portion and in contact with the core. The engaging block has a stepped surface in axial direction and a slot. A driving member is located in the engaging block and has a protrusion located corresponding to the slot. The cam has an engaging portion located corresponding to the stepped surface. The engaging block and the cam are connected to each other. The cam has an insertion path defined in the inner periphery thereof and the insertion path is located corresponding to the protrusion. The core has a slide slot which is located at an end of the core that is connected to the engaging block.
Preferably, the body has two passages which are located symmetrically to each other and the engaging blocks are engaged with the rings. The engaging blocks are located symmetrically to each other. Each of the cores has a push member which contacts the driving member and the two driving members are located symmetrically to each other. Each of the driving members has a central hole and a link extends through the central holes so as to move the driving members. When one of the push members is pushed, the driving member pushes the protrusion of the other driving member to be removed from the insertion path.
Preferably, a sleeve is connected to the case and has a core received therein. The rings are mounted to the core. The sleeve has at least one slit and the core has a groove which is located corresponding to the at least one slit. The groove has a positioning plate extending therefrom and the positioning plate reaches the sleeve. The positioning plate has two notches. The groove has two locking pieces on two ends thereof and the locking pieces are fixed to the notches.
When the lock is damaged and the core is taken out, the pad is removed from the recess and the stop pin is pushed by the resilient member so that the contact portion is inserted into the recess. Therefore, even if the core is taken out from the lock, the cam is not rotatable so that the lock is not unlocked. Furthermore, when the stop pin is removed from the room, the engaging member is biased by the resilient piece and passes through the conjunction portion between the passage and the room. The first shoulder of the stop pin is stopped by the engaging member and cannot move to its initial position. Accordingly, the unauthorized persons cannot move the stop pin by using a tool. The lock cannot be unlocked from the damaged side, while the owner can unlock the lock from the other side. Besides, desired lengths and numbers of the sleeves and the cores can be assembled to increase the safety feature of the lock.
In addition, the sleeve of the lock of the present invention has a slit and the core has a groove corresponding to the slit. A positioning plate is located in the groove to reduce the length of the sleeve and five sets of top and bottom beads can be installed, so that the lock of the present invention meets the international standard for locks and has satisfied anti-theft feature.
The present invention will become more obvious from the following description when taken in connection with the accompanying drawings which show, for purposes of illustration only, a preferred embodiment in accordance with the present invention.
Referring to
A cam 4 is located in the space 14 and connected to the engaging block 2. The engaging block 2 has a core 5 installed thereto which is located corresponding to the cam 4. The pad 3 is pushed by the contact portion 1523 and in contact with the core 5. The core 5 has at least one bottom bead 53. The engaging block 2 has a stepped surface 22 in axial direction and a slot 23. A driving member 6 is located in the engaging block 2 and has a protrusion 61 located corresponding to the slot 23. The cam 4 has an engaging portion 41 which is located corresponding to the stepped surface 22. The engaging block 2 and the cam 4 are connected to each other. The cam 4 has an insertion path 42 defined in the inner periphery thereof and the insertion path 42 is located corresponding to the protrusion 61. The core 5 has a slide slot 51 which is located at an end of the core 51, the end is connected to the engaging block 2. The slide slot 51 is located corresponding to the protrusion 61. The rings 13 are respectively connected with the engaging blocks 2 which are located symmetrically to each other. The driving members 6 are located symmetrically to each other. Each of the cores 5 has a push member 62 which contacts the driving member 6 and the two driving members 6. Each of the driving members 6 has a central hole 63 and a link 64 extends through the central holes 63 so as to move the driving members 6. When one of the push members 62a is pushed, the driving member 6a pushes the protrusion 61b of the other driving member 6b to be removed from the insertion path 42.
A sleeve 7 is connected to the rod 12 which has at least one pin hole 121. The sleeve 7 has a connection hole 71 which is located corresponding to the at least one pin hole 121. A positioning pin 72 extends through the at least one pin hole 121 and the connection hole 71. The sleeve 7 has at least one top bead 74. The rod 12 has a sleeve 7 mounted thereto which receives the core 5. The rings 13 are respectively mounted to the cores 5. The sleeve 7 has at least one slit 73 and the core 5 has a groove 52 which is located corresponding to the at least one slit 73. The groove 52 has a positioning plate 8 extending therefrom and the positioning plate 8 reaches the sleeve 7. The positioning plate 8 has two notches 82. The groove 52 has two locking pieces 81 on two ends thereof and the locking pieces 81 are fixed to the notches 82.
A key 9 is able to be inserted into the core 5 and pushes the push member 62 when the key 9 is completely inserted into the core 5.
The two rods 12 on the two ends of the case 1 are connected to two sleeves 7 of different lengths, the engaging blocks 2 and the driving members 6 are connected with the cores 5 of different lengths and the cores 5 are located corresponding to the sleeves 7. By the arrangement, multiple combination numbers are available for the lock. The case 1 of the present invention is modularized so as to reduce the cost of inventory. The users can use the original cores 5 and sleeves 7 to be cooperated with the case 1 of the present invention to improve the safety feature. The users do not need to change the cores 5 and keys 9, and this makes the present invention be used in wider range.
As shown in
As shown in
As shown in
The present invention has the following advantages:
The two rods 12 on the two ends of the case 1 are connected to two sleeves 7 of different lengths, and the engaging blocks 2 and the driving members 6 are connected with the cores 5 of different lengths, so that the lock has multiple sets of combination numbers. The case 1 of the present invention is modularized so as to reduce the cost of inventory. The users can use the original cores 5 and sleeves 7 to be cooperated with the case 1 of the present invention to improve the safety feature. The users do not need to change the cores 5 and keys 9, and this makes the present invention be used in wider range.
The lock of the present invention can be equipped with one core 5 in the one passage 15 at one side of the lock. Alternatively, the body 11 may have two passages 15 which are located symmetrically to each other so that the lock can be locked or unlocked from both sides thereof. Even if the sleeve 7 on one end is damaged, the user can rotate the cam 4 from the other end to unlock the lock. When the sleeve 7 is damaged and the core 5 is taken out, the contact portion 1523 is inserted into the recess 21, and the stop pin 152 is removed from the room 16. The engaging member 162 passes through the conjunction portion between the passage 15 and the room 16. The first shoulder 1521 of the stop pin 152 is stopped by the engaging member 162 and cannot move to its initial position. This means that the unauthorized person cannot remove the stop pin 152 from the recess 21 and the lock cannot be unlocked.
The groove 52 has a positioning plate 8 extending therefrom and the positioning plate 8 reaches the sleeve 7. The groove 52 has two locking pieces 81 on two ends thereof and the locking pieces 81 clamp the positioning plate 8 so as to fix the core 5 to the sleeve 7. Therefore, the length of the case 1, the sleeve 7 and the core 5 can be reduced, while five sets of top beads 74 and bottom beads 53 are able to be installed to the sleeve 7 and the core 5 on one end of the lock, and this meets the requirements of the international standard for locks and has 30,000 combination numbers.
While we have shown and described the embodiment in accordance with the present invention, it should be clear to those skilled in the art that further embodiments may be made without departing from the scope of the present invention.