1. Field of the Invention
The present invention is directed to the cabinet locking system using with the fingerprint identification, combination code and Bluetooth system. The cabinet locking system can be a container with a lock device. The invention is mainly on a user interface of a lock device with fingerprint identification, combination code system and wireless Bluetooth connection system though a smart phone or external device. It is an attachable lock device to a container.
2. Description of Related Art
The mechanical locker system operates using key or a combination code. People have to carry the key to operate the locker or cabinet. The combination system is a problem to challenge the people's memory. The cabinet unit cannot be operated if the key is lost or the combination number is forgotten.
The electronic locker system uses a tag or a card to open the cabinet. People have to wear or carry the tag or the card to open the locker.
The single magnetic switch system was easy unlocked by the external force or vibration. It required the heavy duty system or a motor system.
The fingerprint locking system uses people's finger to open the locking device. The applied fingers can open the locker as many times as it applied. It can open the locker by using combination code though the buttons at the front of case. It also can be used with the smartphone or external device to manage the fingerprint and combination code though the wirelesses of Bluetooth signal.
The dual electromagnetic switch system will not be effect by external force and vibration force.
The present invention provides a multiply user interface system of a lock device for the cabinet or container. It is a particular object of the present invention to the lock device can be accessed the fingerprint and combination code though the fingerprint sensor and buttons. More particularly, in the present invention the locking device has a fingerprint identification and combination code system though a Bluetooth wireless connection by using smartphone or external device to manager the same identification of fingerprint and combination code installed. It is also another particular object of the present invention to provide a dual electromagnet switch with an actuated structure to the cabinet or container. The dual electromagnetic switch system design can against the external force and vibration force.
A combination code will be created by random code software and installed into the main IC 31 though the USB connection. The matching combination code during the operation will be imported though the button 2 action and LED 3 indication. The sensor 4 module will be directly connected to the main IC 31. The main IC 31 will read and install the fingerprint to the memory. It also compares the fingerprints to make the command to the dual electromagnetic switch 20.
The combination code installed on the IC 31 has a connection to a source code of Bluetooth module 36 though a software.
A smart phone or external device can find the Bluetooth signal of the source code name from the lock device when the signal becomes a reach distance. It will show the source name on the list of the phone. Then the user can press the button on lock to pair the signal. It creates a wireless connection though the Bluetooth module between the lock and the smart phone or external device.
Application software has to install into the smart phone or external device. The software has the user interface function of reset the combination code. Combination code can open the lock when the user imported code is matching with the initial code.
It also can use the fingerprint sensor of smart phone or external device to read and manage the fingerprint to the microprocessor IC 31 though a wireless connection.
When the fingerprint matched though smart phone or external device, the unlock sign on the phone or external device should turn on. The user can point the unlock sign on the screen of device to open the lock.
After the scanned fingerprint matching the fingerprint pattern installed, the device can be unlocked. The major magnetic actuator 26 with the actuator block 25 will be moved away by the electrical signal from the locking block 24, the locking block and spring 24 will react and moved away from the disc 23. Then the knob or lever 5 can turn the disc 23 to an unlocking position. At the same time, the actuate arm on disc 23 will be released from the active block and spring 22. The locking device is at an unlocking position.
If the device needs to be locked, the lock cam 7 has to be moved to the locking position by the knob or lever 5. The actuate arm on disc 23 will act on the active block and spring 22 and return switch 21. It will give the electrical signal to the dual electromagnetic switch system 20. The major magnetic actuator 26 moves to a locking position with the actuator block 25. At the same moment, the disc 23 driven by the axle core 6 and the knob or lever 5 to the locking position fits with the locking block 24 in the notch. It creates a locking mechanism. A disc 23 had an actuate arm and notch acting with the dual electromagnetic switch system between a locking and an unlocking position to control the device at a locking or an unlocking status.
The axle core 6 will transfer the external force from the knob or lever 5 to a disc 23 and to a lock cam 7 or a latch or bolt locking part. These components operate together as a locking mechanism.
The locking mechanism is acted with the dual electromagnetic system and the knob or lever 5.
The locking mechanism will move to an unlocking position after the fingerprint identified and the knob or lever 5 is turning to an unlock direction.
The cabinet lock system can be operated by portable battery and lower voltage power supply.
The power supply can be located inside Or outside of cabinet.
The cabinet locking device can be used on the container or a locking system with the door and latch system.
This application claims the benefit of my early filed Provisional Application # U.S. 61/896,059: filed on Oct 26, 2013.