Electronic storage cabinet lock

Abstract

An electronic storage cabinet lock includes a lock housing, a lock core, a circuit board, a motor assembly, a clutch mechanism and a battery assembly that are installed in an outer shell. A button assembly and a handle are mounted on the outer side of the outer shell. A cam is mounted on the motor assembly. One end of the lock core is secured in a shaft hole of the handle. When a password is correctly inputted, the button assembly transmits information to the circuit board to control the motor assembly to operate. The cam is driven to rotate to control the open state or closed state of the clutch mechanism. The handle can rotate to drive the lock core to rotate, thereby rotating a lock tongue to open the lock.

Claims

1. An electronic storage cabinet lock, comprising a lock housing, a lock core, a circuit board, a motor assembly, a clutch mechanism and a battery assembly that are installed in an outer shell; a button assembly being mounted on an outer side of the outer shell, the button assembly, the motor assembly and the battery assembly being electrically connected to the circuit board, wherein when a password is correctly inputted, the button assembly transmits information to the circuit board and the circuit board controls the motor assembly to operate, a cam being mounted on an output shaft of the motor assembly; a handle being mounted on the outer side of the outer shell, the lock core being installed in the lock housing, one end of the lock core, having a lock hole, being secured in a shaft hole of the handle, wherein the lock hole is formed in the one end of the lock core and exposed on an outer side of the handle, a lock tongue mounted on the lock core being exposed on an inner side of the outer shell; the clutch mechanism being located between the cam and the handle, the clutch mechanism being a mechanical clutch, wherein when the motor assembly drives the cam to rotate, the clutch mechanism is controlled by the cam to be in a disengaged state or an engaged state, the handle can be rotated to drive the lock core to rotate, so that the lock tongue is rotated to unlock the lock.

2. The electronic storage cabinet lock as claimed in claim 1, wherein the clutch mechanism includes a hasp, an operating lever and a clasp, the hasp and the operating lever are installed in the outer shell in a lever manner, the clasp is rotatably installed in the outer shell, an operating lever spring is installed between the operating lever and the outer shell, a clasp spring is installed between the clasp and the outer shell, one end of the hasp cooperates with the cam, another end of the hasp cooperates with one end of the operating lever, another end of the operating lever cooperates with an inner side of the clasp, an outer side of the clasp is formed with an engaging block to cooperate with an engaging groove formed on an inner side of the handle, when the motor assembly drives the cam to rotate until the cam presses the hasp, the hasp is tilted, and the tilted hasp further presses the operating lever so that the operating lever is also tilted, the tilted operating lever releases the clasp so that the clasp can rotate, the clutch mechanism is in the disengaged state, and the handle can be rotated to unlock the lock.

3. The electronic storage cabinet lock as claimed in claim 2, wherein one end of the hasp is formed with an arc-shaped surface to cooperate with the cam, the other end of the hasp is formed with a press head to cooperate with one end of the operating lever, and a middle portion of the hasp is supported on a fulcrum in the outer shell.

4. The electronic storage cabinet lock as claimed in claim 2, wherein the other end of the operating lever is formed with a protrusion to cooperate with a groove of the clasp for positioning the clasp.

5. The electronic storage cabinet lock as claimed in claim 2, wherein the engaging block of the clasp and the engaging groove of the handle each have an arc shape to cooperate with each other.

6. The electronic storage cabinet lock as claimed in claim 1, wherein a first sealing ring is provided between a back of the handle and the outer shell.

7. The electronic storage cabinet lock as claimed in claim 1, wherein a second sealing ring is provided between the lock core and the outer shell.

8. The electronic storage cabinet lock as claimed in claim 1, wherein one end of the lock core, having the lock hole, is provided with a dust cover and a washer.

9. The electronic storage cabinet lock as claimed in claim 1, wherein a sealing pad is provided on the inner side of the outer shell.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 is an exploded view of the present invention;

(2) FIG. 2 is an assembled sectional view of the present invention;

(3) FIG. 3 is a schematic view of the handle and the outer shell;

(4) FIG. 4 is an exploded view of the clutch mechanism and the outer shell;

(5) FIG. 5 is a schematic view of the hasp;

(6) FIG. 6 is a schematic view showing the inner side of the clasp;

(7) FIG. 7 is a schematic view showing the outer side of the clasp;

(8) FIG. 8 is a schematic view showing the inner side of the handle;

(9) FIG. 9 is a schematic view of the lock core;

(10) FIG. 10 is an exploded view of the motor assembly;

(11) FIG. 11 is a schematic view showing the clutch mechanism in an engaged state;

(12) FIG. 12 is a schematic view showing the clutch mechanism in a disengaged state;

(13) FIG. 13 is a schematic view showing the operation of the clutch mechanism;

(14) FIG. 14 is a schematic view of the present invention in a locked state; and

(15) FIG. 15 is a schematic view of the present invention in an unlocked state.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

(16) As shown in FIGS. 1 to 8, the present invention discloses a novel electronic storage cabinet lock, comprising a lock housing 21, a lock core 2, a circuit board 3, a motor assembly 4, a clutch mechanism 5 and a battery assembly 6 that are installed in an outer shell 1. A button assembly 7 is mounted on an outer side of the outer shell 1. The button assembly 7, the motor assembly 4 and the battery assembly 6 are electrically connected to the circuit board 3. The battery assembly 6 supplies power to the motor assembly 4 and the circuit board 3. When a password is correctly inputted, the button assembly 7 transmits information to the circuit board 3, and the circuit board 3 controls the motor assembly 4 to operate. A cam 41 is mounted on an output shaft of the motor assembly 4. A handle 8 is mounted on the outer side of the outer shell 1. The lock core 2 is installed in the lock housing 21. One end of the lock core 2, having a lock hole 22, is secured in a shaft hole 81 of the handle 8. The lock core 2 can be driven by the handle 8 to rotate for unlocking the lock. The lock hole 22 is exposed on the outer side of the handle 8 for unlocking the lock with an emergency key. A lock tongue 23 mounted on the lock core 2 is exposed on an inner side of the outer shell 1. The clutch mechanism 5 is located between the cam 41 and the handle 8. The clutch mechanism 5 is a mechanical clutch. When a password is correctly inputted, the motor assembly 4 drives the cam 41 to rotate. The clutch mechanism 5 is controlled by the cam 41 to be in a disengaged state. The handle 8 can be rotated to drive the lock core 2 to rotate, and the lock tongue 23 can be rotated to unlock the lock. When the handle 8 drives the lock tongue 23 to return to the initial position, the motor assembly 4 drives the cam 41 to rotate, and the clutch mechanism 5 is in an engaged state and returns to the initial position to hold the handle 8. The handle 8 cannot be rotated, thereby realizing the locking function.

(17) The structure of the present invention realizes an integrated design and simplifies the installation of the lock. The function of the emergency key is designed, which provides an emergency unlocking function when the electronic function fails, without damaging the lock or cabinet body. The motor-driven clutch mechanism design not only has high stability but also has safety performance.

(18) The clutch mechanism 5 of the present invention specifically includes a hasp 51, an operating lever 52, and a clasp 53. Both the hasp 51 and the operating lever 52 are installed in the outer shell 1 in a lever manner. The clasp 53 is rotatably installed in the outer shell 1 through a shaft 15 and a hole 534. An operating lever spring 521 is installed between the operating lever 52 and the outer shell 1 for returning the operating lever 52. A clasp spring 531 is installed between the clasp 53 and the outer shell 1 for returning the clasp 53. The clasp 53 has a spring groove 535 for installation of the clasp spring 531. One end of the hasp 51 cooperates with the cam 41, and the other end of the hasp 51 cooperates with one end of the operating lever 52. Preferably, one end of the hasp 51 is formed with an arc-shaped surface 511 to cooperate with the cam 41, and the other end of the hasp 51 is formed with a press head 512 to cooperate with one end of the operating lever 52. The middle portion of the hasp 51 is supported on a fulcrum 11 in the outer shell 1. The other end of the operating lever 52 cooperates with the inner side of the clasp 53. The outer side of the clasp 53 is formed with an engaging block 532 to cooperate with an engaging groove 82 formed on the inner side of the handle 8. Preferably, the other end of the operating lever 52 is formed with a protrusion 522 to cooperate with a groove 533 of the clasp 53 for positioning the clasp 53. The engaging block 532 of the clasp 53 and the engaging groove 82 of the handle 8 each have an arc shape to cooperate with each other. When the motor assembly 4 drives the cam 41 to rotate until the cam 41 presses the hasp 51, the hasp 51 is tilted, and the tilted hasp 51 further presses the operating lever 52 so that the operating lever 52 is also tilted. The tilted operating lever 52 releases the clasp 53 so that the clasp 53 can rotate. At this time, the clutch mechanism 5 is in a disengaged state, and the handle 8 can be rotated to unlock the lock. The design of the novel clutch mechanism of the present invention makes the structure more stable.

(19) The present invention further comprises a first sealing ring 12 between the back of the handle 8 and the outer shell 1 to prevent water seeping in through the joint of the handle 8 and the outer shell 1. A second sealing ring 13 is provided between the lock core 2 and the outer shell 1 to prevent water seeping in through the joint of the handle 8 and the outer shell 1. One end of the lock core 2, having the lock hole 22, is provided with a dust cover 25 and a washer 24 to prevent water or mist from entering the lock core 2. A sealing pad 14 is provided on the inner side of the outer shell 1 to prevent water or mist from entering the outer shell 1.