DOOR LOCK

Abstract

A door lock includes a main lock ensemble and two auxiliary lock ensembles. Each of the two auxiliary lock ensembles connects the main lock ensemble with a long bar. The main lock ensemble includes a housing with a pivotal part being connected to a horizontal bar and a lock tongue, each of two ends of the horizontal bar connecting with one said long bar to switch the auxiliary lock ensembles locked and unlocked. A lock chip is disposed in the housing. The lock chip includes an accommodating hole with a recess for accommodating a rotatable lock core. A pushing block that is disposed on the lock core extends into the recess.

Description

BACKGROUND OF THE INVENTION

Field of Invention

The invention relates to a door lock and, in particular, to a door lock whose transmission mechanism is controlled by a key.

Related Art

FIG. 9 shows a conventional door lock. In its housing 90, a key retracts a lock tongue 91 and opens it. Also a knob drives another lock tongue 92 to retract and open. They connect the auxiliary lock ensembles 93 on both ends of the door. Therefore, to open the lock, one has to use a key and turn the knob. Such a door lock structure is more complicated and expensive. It is thus an objective of the invention to solve this problem.

SUMMARY OF THE INVENTION

An objective of the invention is to provide a lock whose transmission mechanism is controlled by a key. It simplifies the door lock components and the structure thereof. The cost can thus be decreased.

To achieve the above objective, the door lock includes a main lock ensemble and two auxiliary lock ensembles. Each of the two auxiliary lock ensembles connects the main lock ensemble with a long bar. The main lock ensemble includes a housing with a pivotal part being connected to a horizontal bar and a lock tongue. Each of two ends of the horizontal bar connects with one said long bar to switch the auxiliary lock ensembles locked and unlocked. A lock chip is disposed in the housing. The lock chip includes an accommodating hole with a recess for accommodating a rotatable lock core with a pushing block extending into the recess. When the lock core is driven to rotate, the pushing block pushes the lock chip to move toward the horizontal bar so as to block the horizontal bar from shifting and stop the pivotal part dragging the lock tongue.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will become more fully understood from the detailed description given herein below illustration only, and thus is not limitative of the present invention, and wherein:

FIG. 1 is a three-dimensional view of the transmission mechanism in the disclosed door lock;

FIG. 2 is a three-dimensional assembly view of the transmission mechanism in the main lock ensemble of the invention;

FIG. 3 is a three-dimensional exploded view of the transmission mechanism in the main lock ensemble of the invention;

FIG. 4 shows the structure of the disclosed main lock ensemble and the bottom of the pivotal part;

FIG. 5 is a schematic view showing the transmission for the main lock ensemble to close the lock;

FIG. 6 is a schematic view showing the transmission for locking the door lock;

FIG. 7 is a schematic view showing the transmission for the main lock ensemble to open the lock;

FIG. 8 is a schematic view showing the transmission for opening the door lock; and

FIG. 9 shows the transmission mechanism of a conventional door lock.

DETAILED DESCRIPTION OF THE INVENTION

The present invention will be apparent from the following detailed description, which proceeds with reference to the accompanying drawings, wherein the same references relate to the same elements.

Please refer to FIGS. 1 to 8 for an embodiment of the invention, which is only an example. This embodiment provides a door lock whose transmission mechanism is controlled by a key. The door lock includes a main lock ensemble A at the center of the door and an auxiliary lock ensemble B on each side of the door. The main lock ensemble A and the auxiliary lock ensembles B on both sides are connected by a long bar C, respectively. The main lock ensemble A includes a housing 1. The center of the housing 1 has a pivotal part 2 that automatically returns to its original position after pivotally rotating to a fixed angle. As it rotates, the pivotal part 2 drives a first connecting bar 21 to move horizontally and a second connecting bar 22 to pivotally swing at the same time. As the first connecting bar 21 moves horizontally, it drives a third connecting bar 23 to swing. One end of the third connecting bar 23 leads a horizontal bar 3 to move horizontally. One end of the housing 1 has a position limiting element 11 that positions the horizontally bar 3 at the unlock state. Both ends of the horizontal bar 3 connect to the long bars C in connection with the auxiliary lock ensembles B, thereby switching the auxiliary lock ensembles B locked and unlocked. When the second connecting bar 22 swings, it leads a lock tongue 4 to retract into or extend out of the housing 1. A lock chip 6 is disposed at an end of the housing 1. An accommodating hole 63 with a recess 64 is provided on the lock chip 6 for accommodating a rotatable lock core 5 with a pushing block 51 extending into the recess 64. As the lock core 5 rotates, the lock chip 6 is pushed to move horizontally by the pushing block 51 so as to block the horizontal bar 3 from moving. It also prevents the pivotal part 2 from retracting the lock tongue 4.

A lock member 7, disposed outside the housing 1, is configured to the lock core 5. The lock member 7 has a keyhole 71 for inserting a key and a control portion 72 that is connected with the lock core 5. As the lock member 7 is turned by the key, the control portion 72 is simultaneously driven to rotate the lock core 5.

A fixed post 14 is disposed in the housing 1. A spring 15 is connected between the fixed post 14 and the lock core 5 for pulling the lock core 5 back after it rotates.

The center of the pivotal part 2 has an axle hole 24 for the axle bar of a knob to go through. Its bottom has an extension part 25. The top of the pivotal part 2 has two stopping walls 26. The top of the extension part 25 has a first driving part 251 that drives the first connecting bar 21 to move horizontally. The bottom of the pivotal part 2 has a long arc groove 27 and a long arc wall 28. The pivotal part 2 further has a first long arc hole 29 through its top and bottom surfaces.

Both ends of the first long arc hole 29 are provided with a plate 291. The bottom of each plate 291 has a stopping part 291a. The housing has a second long arc hole 12 corresponding to each of the stopping parts 291a. The stopping part 291a of each plate 291 extends into the corresponding second long arc hole 12. A compressed spring 292 is disposed in the first long arc hole 29, with both ends urging against the two plates 291. The compressed spring 292 in the first long arc hole 29 has a long arc plate 293 whose length is shorter than the first long arc hole 29.

The second connecting bar 22 has a protruding part 221 at the pivotal place. The protruding part 221 is disposed in the long arc groove 27. A driving wall 222 is formed next to the protruding part 221 of the second connecting bar 22 for the long arc wall 28 to push as the pivotal part 2 rotates.

The second connecting bar 22 has a first notch 223 at the other end of the pivotal place. One end of the lock tongue 4 has a connecting part 41 disposed in the first notch 223.

A second notch 224 is formed between both ends of the second connecting bar 22. The housing 1 has a protruding post 13 corresponding to the second notch 224. When the second connecting bar 22 swings downward, it urges against the protruding post 13 and stays at its horizontal position for the lock tongue to extend out of the housing 1.

One end of the third connecting bar 23 is pivotally disposed on the housing 1. Its other end has a second driving part 231. A protruding post 232 is provided between the two ends. One end of the first connecting bar 21 has a third notch 211. The first driving part 251 is located in the third notch 211. As the pivotal part 2 rotates, the first driving part 251 pushes the first connecting bar 21 in the third notch 211 to move horizontally. It also drives the third connecting bar 23 to swing. The second driving part 231 of the third connecting bar drives the horizontal bar 3 to move horizontally.

Both ends of the horizontal bar 3 connect to the long bars C of the auxiliary lock ensemble B, respectively. One end has a fourth notch 31 for the second driving part 231 to be disposed therein. The other end has a concave part 32. When the horizontal bar 3 moves toward the position limiting element 11, the lock is opened. The position limiting element 11 is elastic and makes a sound when it engages the concave part 32, indicating a successful positioning.

The lock chip 6 has a blocking part 62. The horizontal bar 3 has another blocking part 33 on the end opposite to the lock chip 6. When the lock chip 6 moves toward the horizontal bar 3, the blocking part 62 and the blocking part 33 block each other, preventing the horizontal bar 3 to move horizontally.

According to the above-mentioned door lock structure, the rotation of the lock core 5 moves the lock chip 6 horizontally. As shown in FIGS. 5 to 8, it controls whether the horizontal bar 3 can move sideways. When the lock core unlocks the lock, as shown in FIGS. 5 and 6, one can rotates the pivotal part 2 via the knob. This brings the lock tongue 4 into the housing 1. It further drives the two long bars C and thus the two auxiliary lock ensembles B to unlock the lock. Therefore, the invention features in the simple transmission mechanism of the door lock and cheaper component costs.

Although the invention has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiments, as well as alternative embodiments, will be apparent to people skilled in the art. Therefore, it is contemplated that the appended claims will cover all modifications that fall within the true scope of the invention.

Claims

1. A door lock comprising: a main lock ensemble;two auxiliary lock ensembles respectively disposed at two sides of the main lock ensemble, each of the two auxiliary lock ensembles respectively connecting the main lock ensemble with a long bar;wherein the main lock ensemble includes a housing with a pivotal part being connected to a horizontal bar and a lock tongue, each of two ends of the horizontal bar connecting with one said long bar to switch the auxiliary lock ensembles locked and unlocked; a lock chip disposed in the housing includes an accommodating hole with a recess for accommodating a rotatable lock core with a pushing block extending into the recess; when the lock core is driven to rotate, the pushing block pushes the lock chip to move toward the horizontal bar so as to block the horizontal bar from shifting and stop the pivotal part dragging the lock tongue.

2. The door lock according to claim 1, wherein the pivotal part automatically returns to an original position after pivotally rotating to a fixed angle; the pivotal part drives a first connecting bar to move vertically and a second connecting bar to swing as the pivotal part rotates; a third connecting bar pivotally attached to the housing; the first connecting bar is movably mounted on the third connecting bar, the first connecting bar is capable of driving the third connecting bar to swing as the first connecting bar moves vertically; one end of the third connecting bar engages the horizontal bar with two ends to move vertically; the second connecting bar drives a lock tongue to retract into or extend out of the housing as the second connecting bar swings; a position limiting element within the housing positions the horizontal bar at an unlocked state.

3. The door lock according to claim 2, wherein the pivotal part has a top surface and a bottom surface, the pivotal part has an axle hole for an axle bar of a knob to go through, the bottom surface of the pivotal part has an extension part, the surface of the pivotal part has two stopping walls, the extension part has a first driving part for driving the first connecting bar to move vertically, the bottom surface of the pivotal part has a long arc groove and a long arc wall, and the pivotal part has a first long arc hole through the top and bottom surfaces thereof

4. The door lock according to claim 3, wherein the pivotal part has a plate on both ends of the first long arc hole, respectively; each of the plates has a stopping part; the housing has a second long arc hole corresponding to each of the stopping parts;the stopping part of each of the plates extends into the corresponding second long arc hole; a compressed spring with two ends is disposed in the first long arc hole with both ends urging against the two plates; and the compressed spring in the first long arc hole has a long arc plate whose length is shorter than the first long arc hole.

5. The door lock according to claim 3, wherein the second connecting bar has two ends and pivots about one of its ends, the second connecting bar has a protruding part at its pivoting end, the protruding part is disposed in the long arc groove, and a driving wall is formed next to the protruding part for the long arc wall to push as the pivotal part rotates.

6. The door lock according to claim 5, wherein the second connecting bar has a first notch at the non-pivoting end, and one end of the lock tongue has a connecting part disposed in the first notch.

7. The door lock according to claim 5, wherein the second connecting bar has a second notch between its two ends, the housing has a protruding post corresponding to the second notch, and the second connecting bar urges against the protruding post as the second connecting bar swings about its pivoting end; wherein the lock tongue extends out of the housing when the second connecting bar is urged against the protruding post.

8. The door lock according to claim 3, wherein one end of the third connecting bar is pivotally disposed in the housing and its other end has a second driving part, a protruding post is formed between the two ends, one end of the first connecting bar has a third notch, the second driving part is disposed in the third notch, the second driving part drives the first connecting bar to move vertically in the third notch as the pivotal part rotates, and the third connecting bar is driven to swing so that the second driving part thereof leads the horizontal bar to move vertically.

9. The door lock according to claim 8, wherein each end of the horizontal bar connects to one long bar of one auxiliary lock ensemble, one end of the horizontal bar has a fourth notch for the second driving part to be disposed therein; the other end thereof has a concave part; the lock is open when the horizontal bar moves toward the position limiting element; and the position limiting element is elastic and makes a sound when engaging the concave part, indicating a successful positioning.

10. The door lock according to claim 2, wherein the lock chip has a blocking part, the horizontal bar has another blocking part on the end opposite to the lock chip, and the two blocking parts block each other as the lock chip moves toward the horizontal bar, preventing the horizontal bar from moving vertically.

11. The door lock according to claim 2, wherein the housing has a fixed post for fasten a spring connected with the lock core.

12. The door lock according to claim 2, wherein a lock member outside the housing is configured to the lock core, the lock member includes a keyhole and a control portion connected with the lock core; the lock core is driven to rotate by turning the lock member with a key inserting into the keyhole.