Dual mechanism lock

A dual mechanism lock; a combination lock structure is embedded into a external cylinder by a flexibly moving fixing plate; a combination wheel mechanism comprising a plurality of combination wheels and a latching wheel; the latching wheel can be embedded into the fixing plate; the other end of the fixing plate is coupled to an elastic member at the top portion in the lock body; the lock body is coupled to an external cylinder by the coupling base; an internal cylinder is sheathed into the external cylinder; the internal cylinder includes a lock core, such that the outer end of the external cylinder is a knob; a lock tongue is disposed at the inner end of the external cylinder; the key or the combination lock can produce coupling and detachment for the external cylinder through the lock core of the internal cylinder.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates to a dual mechanism lock, more particularly to a lock structure that simultaneously comprising two mechanisms: the combination lock mechanism and the key lock mechanism.

2. Description of the Prior Art

In FIG. 1 , a prior-art dual mechanism lock structure comprises a lock body 1 a , and the lock body 1 a further comprises a casing 11 a and a bottom cover 12 a , and the bottom cover 12 a having a combination lock structure 2 a , wherein the combination lock structure 2 a is brought into action by a fixing plate 3 a , and can produce coupling and detachment movements by working together with a knob 4 a and a tongue 5 a , which can give a single locking function. If the user forgets the numbers, then the lock cannot be unlocked, and it would be nice to have a key to open the lock. In view of the shortcomings of the prior art mentioned above, which are the subjects of improvements for a long time, hence the inventor of the present invention based on years of experience accumulated from the engagement in the related industry conducted extensive research to provide a more practical lock, resolve the foregoing shortcomings, and invented the present invention.

SUMMARY OF THE INVENTION

Therefore, the primary objective of the present invention is to provide a dual mechanism lock comprising a lock body, which simultaneously has two lock mechanisms: a combination lock mechanism and a key lock mechanism. The user just needs a set of numbers to unlock the combination lock or a key to unlock the key lock, and thus gives a more convenient way for the application. The present invention is characterized in that the combination lock mechanism works together with the fixing plate and produces an indirect control to the lock tongue, and will not interfere the key lock mechanism by directly controlling the lock tongue.

To attain the foregoing purpose, the structure of the present invention comprises a lock body in which a combination lock structure, an internal cylinder and an external cylinder of a key lock are disposed; the combination lock structure is embedded into a fixing groove on the external cylinder at a lateral side of a fixing plate on the combination lock structure; the combination wheel mechanism comprising a plurality of combination wheels, and each combination wheel further comprising a numbered wheel and a latching wheel, and each numbered wheel is pivotally coupled to the lock body; a spring is disposed at the axle bush; each latching wheel can be embedded into the guiding groove of the fixing plate; the other end of the fixing plate is coupled to an elastic member at the top portion in the lock body; the lock body is coupled to an external cylinder by the coupling base; an internal cylinder is sheathed into the external cylinder; the internal cylinder includes a lock core, such that the outer end of the external cylinder is a knob; a keyhole is disposed at an end surface of the knob; a lock tongue is disposed at the inner end of the external cylinder; the key can produce a coupling and detachment movement for the external cylinder through the lock core of the internal cylinder, and also can release the fixing plate from the latch by rotating the knob on the external cylinder with the correct numbers for the numbered wheel of the combination lock.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

To make it easier for our examiner to understand the objective of the invention, structure, innovative features, and performance, we use a preferred embodiment together with the attached drawings for the detailed description of the invention.

Please refer to FIG. 2 to FIG. 3 . The dual mechanism lock of the present invention comprises a lock body 1 , and the lock body 1 is composed of an upper casing 11 and a lower casing 12 ; an upper accommodating space 13 is disposed in the upper casing 11 , and an upper pivotal base 15 is on the other side; a lower accommodating space 14 is disposed in the lower casing 12 , and a lower pivotal base 16 is on the other side, such that the upper casing 11 is coupled securely to the lower casing 12 ; a plurality of upper groove holes 17 are disposed at the inner surface of the upper casing 11 , and a plurality of lower groove holes 18 are also disposed at the inner surface of the lower casing; a plurality of side holes 19 is disposed on the side surface of the upper casing 11 ; a plurality of through holes 10 are disposed at the top surface, and the lock body 1 has a combination lock mechanism 2 and a key lock mechanism 4 .

The combination lock mechanism 2 comprises a plurality of combination wheels 20 and a fixing plate 30 ; each combination wheel 20 has a numbered wheel 21 and a latching wheel 22 ; a plurality of labeled numbers 23 are equidistantly disposed on the outer surface of the numbered wheel 21 and it allows only one labeled number 21 to be shown in the corresponding through hole 10 ; a plurality of protruded points 212 are disposed on the inner surface of the numbered wheel 21 , and veins 25 are disposed on the lateral side such that part of the veins 25 is exposed through the side hole 19 of the upper casing 11 , and the user can rotate the numbered wheel 21 through the side hole 19 , and the number wheel 21 has a central hole 211 .

A plurality of concave holes 222 are disposed on the outer surface of the latching wheel 22 , and a unidirectional fixed-point protruded portion 24 is disposed on the inner surface of the latching wheel 22 , and the latching wheel 22 has a central hole 221 ; each of the numbered wheels 20 has an axle 26 passing through the central hole 211 of the numbered wheel 21 , and the central hole 211 of the latching wheel 22 , and then both ends of the axle 26 are coupled to the corresponding upper groove holes 17 and the lower groove holes 18 in the lock body 1 respectively. The upper groove hole 17 can be omitted and the axle 26 could be integrally coupled to the upper casing 11 .

The protruded point 212 on the inner side of the numbered wheel 21 is embedded into the concave hole 222 of the latching wheel 22 on the inner surface of the latching wheel 22 , such that the numbered wheel 21 drives the latching wheel 22 to rotate simultaneously through the contact surfaces. A spring 27 is disposed on each of the axle 26 ; an inner flange 223 is disposed on the central hole 221 of the latching wheel 22 (as shown in FIG. 3A ) for pressing against an end of the spring 27 , and the other end of the spring 27 presses against the inner surface of the lower casing 12 .

The fixing plate 30 is mounted onto the protruded latching portion 24 of latching wheel 22 , and a guiding groove 31 is disposed at the fixing plate 30 , and the guiding grooves 31 allows the embedment of each of the protruded latching portion 24 . The latching protruded portion 24 is formed by removing two cutaway sections 241 from a circumference, and an end of the cutaway section 241 has a hooked flange 242 (as shown FIG. 3 B). Each guiding groove 31 of the fixing plate 30 has a circular hole 32 corresponsive to the periphery of the latching wheel 22 such that the latching protruded portion 24 can be rotated in the circular hole 32 . When the fixing plate rotates, it allows the bar-shape latching protruded portion 24 to slide towards the guiding groove 31 , and the latching wheel 22 and the numbered wheel 21 can no longer rotate.

An end of the fixing plate 30 extends to the external cylinder 41 of the pivotal bases 15 , 16 , and the other end presses and couples to an elastic member 33 in the lock body 1 , and the elastic member 33 is a spring pressing a pressing plate 35 of the fixing plate 30 such that it can keep the numbered wheel 20 in the state of rotation, and its movement is shown in FIG. 4 to FIG. 6 . The internal cylinder directly drives the lock tongue 49 fixed by a small nut 491 to rotate.

The key lock mechanism comprises an external cylinder 41 , an internal cylinder 42 , and a lock core 43 ; the external cylinder is embedded between an upper pivotal base 15 and the lower pivotal base 16 in the lock body 1 ; the external cylinder 41 has a fixing groove 44 , such that the combination lock mechanism 2 embeds a fixing lateral side 34 of the fixing plate 30 to the fixing groove 44 of the external cylinder 41 ; the internal cylinder 42 is sheathed into the external cylinder 41 ; the internal cylinder 42 includes a lock core 43 ; the external cylinder 41 has at least one latching groove 45 . The ones shown in the figure is a pair of the latching grooves equidistantly disposed.

The internal cylinder 42 has at least one protruded member 46 , and the protruded member 46 is controlled by the lock core 43 for the contraction and extension movements. By inserting the protruded member 46 into the latching groove 45 , the lock core 43 will securely lock the internal cylinder 41 and the external cylinder 42 . The external cylinder 41 does not produce rotation, and the external end of the external cylinder 41 is coupled to a knob 47 , and the knob 47 extends and exposes itself out of the upper pivotal base 15 of the upper casing 11 , and a keyhole 48 is disposed in the end surface of the knob 47 ; the internal surface of the external cylinder 41 also protrudes out of the lower pivotal base 16 of the lower casing 12 , and couples to a lock tongue 49 ; the lock tongue 49 rotates as the external cylinder 41 rotates. The key 40 produces the coupling and detachment movements to the external cylinder 41 through the lock core 43 of the internal cylinder 42 such that the lock tongue 49 will rotate according to the rotation of the external cylinder 41 for unlocking the lock or reversing the rotation for the locking. The movements are shown in FIG. 7 to FIG. 9 .

A set of correct numbers can be used to adjust the numbered wheel of the combination lock in order to generate a sliding for the fixing plate 30 , and the knob 47 can be rotated to release the latch between the fixing plate 30 and the external cylinder 41 such that the lock tongue 49 rotates as the external cylinder 41 rotates for the unlocking. The knob 47 can be rotated back to the original position, and the numbered wheel is rotated to prohibit the fixing plate to generate a sliding movement for the locking. Therefore the combination lock and the key lock can independently generate a coupling or a detachment movement to the lock tongue, and also lock the large nut 161 to an appropriate position on an article such as the a suitcase.

In view of the foregoing structure, the design of the fixing plate applied to the present invention can be used together with the design of the external cylinder to work with the plane combination lock and key locks of any kind. In other words, the fixing plate working together with the external cylinder can accomplish the locking and unlocking of the combination lock; the cooperation of the external cylinder, internal cylinder, and the lock core can complete the locking and unlocking of the key lock. Both locks can be implemented and operated independently. Furthermore, the lock tongue of the present invention can work together with the implementation of the internal cylinder of the key lock in different configurations. Similarly, the external appearance of the lock body can be of different shape, and the combination lock according to the present invention has the reconfiguration function. In FIG. 6 , when the lock is totally unlocked, the spring on the numbered wheel has less pressure and allows the numbered wheel to freely rotate. The elasticity between the latching wheel and the numbered wheel is used to force them to rotate and change the number settings. Such arrangement can improve the security and gives a better usage to the lock structure, which is unlike the traditional lock mechanism.