The present application claims the benefit of Chinese Patent Applications 200820165084.4 filed Oct. 9, 2008 and 200820084381.6 filed Mar. 18, 2008, which are incorporated herein by reference.
The disclosure relates to a locking mechanism operable with a non-rotatable key.
The prior art is replete with various types of locks using a key. Such keys are of various types in accordance with the kinds of locks. Typically, one or both sides of such a key is formed with concave grooves. In the key making process, substantial time and expense is required.
Further, the process of operating a lock and making a key is very problematic. The key needs to be rotated and unlocked in the hole of a lock. This creates an opportunity for the key to be bent or the lock to be broken. Also, the concave portion on the sides of the key is limited in the changeable degree. Formation of sharp concave portions is impossible. This limits the number of combinations available from a single key design. Therefore, unlocking operations by a similar key is very easy which creates an opportunity for a skilled thief.
Accordingly, there is a need for locking device operable with a non-rotatable key that is simple to construct and inexpensive to manufacture.
In accordance with one aspect of the present invention, a card lock apparatus has a slot for receiving a key card with a plurality of perforations. The perforations align with a plurality of pins within the house of the card lock apparatus. The pins are moved upward by the inserted card and then urged downward into an aligned perforation. Each pin has a seat for supporting the biasing element and engaging a notch within the actuator. The position of the seat determines whether the actuator is moveable. When all seats are substantially aligned the actuator is traversable to an unlocked position by a manually moveable member. A manually moveable member disengages the device from the enclosure allowing the enclosure to open.
In an embodiment the apparatus is combined with a storage cabinet. The turn knob is fixed in the locked position until the actuator is moved to the unlocked position. In the unlocked position the turn knob is free to rotate which in turn rotates an arm connected to a latching mechanism within the cabinet. When the latching mechanism is moved to an unlocked position the drawers are free to open.
These and other features and advantages of the present invention will be better understood by reading the following detailed description, taken together with the drawings wherein:
A card lock mechanism adaptable to hinged doors, such as storage lockers, is illustrated in
The card lock mechanism of the disclosed device is contained within a housing 1. The housing supports the assembly and provides its structure. The mechanism includes a plurality of pins 14 which engage perforations 51 of the card 5. The pins 14 are slidably positioned to move linearly up and down within the housing 1. Each pin 14 is formed with a seat 17 for supporting a spring 19. The spring 19 fits over the pin 14 like a sleeve and rests on the seat 17. The spring 19 is contained between the housing 1 and the seat 17. The biasing force of the spring urges the pins 14 downward while allowing for an external force provided by inserting the card 5 to push the pins 14 upward.
The actuator 12 is combined with the bolt 22 to lock and unlock the mechanism. The actuator 12 has a long slot 15 along its length which is formed with a plurality of notches 16. The number depends on the number of pins 14. There is at least one more notch 16 than there are pins 14. For example, in an embodiment with five pins 14 there are six notches 16.
The notches 16 are formed to provide a space for the seats 17 of the pins 14 to linearly traverse. Each notch 16 has a symmetric upper portion 161 and lower portion 162. The seat 17 of each pin 14 is partially located within the respective notches 16 of the actuator 12 and is linearly traversable between the upper portion 161 and lower portion 162.
In an embodiment, the pins 14 are of at least two different sizes (referred to at long pins 141 and short pins 142) to provide for more combinations. In the illustrated embodiment, five pins 14 include a combination of long pins 141 and short pins 142. The length of the pin determines the resting position of the seat 17. In the illustrated embodiment, seats 17 of the long pins 141 rest in the long slot 15 while seats 17 of the two short pins 142 rest in the lower portions 162. With a seat 17 resting in the lower portion 162, the actuator 12 cannot move. In fact, the only way the actuator 12 can traverse is if all seats 17 are located near the center line of the long slot 15.
The pins 14 are urged upward when the card 5 is inserted into the slot 18. The thickness of the card 5 corresponds to the height of the symmetric upper portion 161 and the lower portion 162. When the card 5 is inserted into the slot 18 the pins 14 are urged upward. As the card 5 is pushed inward, the perforations 51 may align with the pins 14. If a perforation 51 in the card 5 aligns with the short pin 142 the short pin is urged into the hole. The seat 17 is positioned within the lower portion 162 which prevents the actuator 12 from traversing. On the other hand, if a perforation 51 in the card 5 aligns with a long pin 141 the seat 17 of the long pin 141 is positioned along the center line of the long slot 15. With the seat 17 positioned along the center line of the long slot 15, the actuator 12 can traverse. Only when all seats 17 of the pins 14 are aligned along the center line of the long slot 15 can the actuator 12 traverse.
A stop plate 121 is connected to a slide lock 13. The user may push the slide lock 13 to the right (
The user can remove the card 5 when the bolt 22 is disengaged. The short pins 142 are urged downward by the springs 19 which causes the seats 17 on the short pins 142 to return to rest in the lower portions 162 which locks the actuator 12 in position. When the user wishes to shut and lock the hinged door he may insert card 5 which causes the seats 17 to realign with the center line of the long slot 15. The slide lock 13 can move back to the locked position which in turn moves the actuator and causes the far notch 16 to move out of alignment with the far pin 14.
The disclosed device is capable of being designed with numerous combinations, such that the probability of any one card 5 opening an unintended door is extremely unlikely. This is advantageous for places that wish to have a high number of enclosures, such as gym locker rooms. For example, in the illustrated embodiment the locking mechanism can be disengaged only when the perforations 51 align with the long pins 141 and do not align with the short pins 142. As a result, the number of possible combinations is increased by varying the number of long pins 141 and short pins 142 and changing their respective position. Also, the location of the perforations 51 on the cards 5 can be changed to increase the number of combinations.
An alternate embodiment of the card lock mechanism is illustrated in
The turn knob 31 is connected to a pair of lock hooks 32 by linkages 321 which are pinned on the outer diameter of the turn knob 31. The lock hooks 32 are also biased toward each other by a spring 33. In the illustrated embodiment, when the fork plate 122 is disengaged from the turn knob 31 the turn knob 31 can rotate. When the turn knob 31 is rotated, the hooks 32 pivot outward which causes the hooks 32 to disengage the frame. The enclosure can now open.
The disclosed card lock mechanism may combine with storage boxes, such as the type for storing tools.
As shown in
In an embodiment, each drawer 4 also has a self-locking device on at least one side.
The far end of the pivoting arm 63 is formed as a latch 631. The latch 631 engages a hook 65 (
Starting from the drawer 4 in the closed position, the user grabs the handle 641 and pivots the plate 64 underneath the handle 641 upward. The plate is combined with the pivoting arm 63 which also rotates. The latch 631 connected to the pivoting arm 62 rotates toward the front of the drawer 4 compressing the torsion spring 62. The latch is now disengaged from the hook 65 and the drawer can move outward.
While the principles of the invention have been described herein, it is to be understood by those skilled in the art that this description is made only by way of example and not as a limitation as to the scope of the invention. Other embodiments are contemplated within the scope of the present invention in addition to the exemplary embodiments shown and described herein. Modifications and substitutions by one of ordinary skill in the art are considered to be within the scope of the present invention, which is not to be limited except by the following claims.
Number | Date | Country | Kind |
---|---|---|---|
200820084381.6 | Mar 2008 | CN | national |
200820165084.4 | Oct 2008 | CN | national |