IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
UP-0487086
(2006-07-17)
|
등록번호 |
US-7696858
(2010-05-20)
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발명자
/ 주소 |
|
인용정보 |
피인용 횟수 :
5 인용 특허 :
12 |
초록
▼
A door lock interface system includes a stationary controller that is mounted to a support surface at an interior of a building. A portable controller is in wireless communication with the stationary controller. An elongated and rectilinear bolt is positioned through a slot of a door and is spaced f
A door lock interface system includes a stationary controller that is mounted to a support surface at an interior of a building. A portable controller is in wireless communication with the stationary controller. An elongated and rectilinear bolt is positioned through a slot of a door and is spaced from the stationary and portable controllers. A mechanism is included for automatically retracting and extending the bolt along a parallel and horizontal path. A mechanism is included for bypassing the automatic retracting and extending mechanism such that the user can manually retract and extend the bolt. A security panel is affixed to one side of the door and covers one door cavity, prohibiting unauthorized access thereto. The security panel is provided with annular openings, allowing a door handle and a deadbolt housing to be connected to the door while maintaining the automatic extending and retracting mechanism hidden from the environment.
대표청구항
▼
What is claimed as new and what is desired to secure by Letters Patent of the United States is: 1. A door lock interface system for allowing a user to remotely lock and unlock a door having a pair of cavities, said door lock interface system comprising: a stationary controller, wherein said station
What is claimed as new and what is desired to secure by Letters Patent of the United States is: 1. A door lock interface system for allowing a user to remotely lock and unlock a door having a pair of cavities, said door lock interface system comprising: a stationary controller, wherein said stationary controller is mounted to a support surface interior of a building that houses the door; a portable controller in wireless communication with said stationary controller; an elongated and rectilinear bolt positioned through a slot of a door, said bolt being spaced from said stationary and portable controllers; means for automatically retracting and extending said bolt along a parallel and horizontal path such that said bolt becomes adapted between disengaged and engaged positions when unlocking and locking the door; means for bypassing said automatic retracting and extending means such that the user can manually retract and extend said bolt when unlocking and locking the door respectively; and a security panel directly affixed to one side of the door, said panel covering one of the door cavities and prohibiting unauthorized access thereto. 2. The system of claim 1, wherein said automatic retracting and extending means comprises: a stop member directly conjoined to an interior distal end of said bolt and seated between opposed faces of the door; an elongated and rectilinear rod statically conjoined directly to said stop member and extending horizontally inwardly away from a jam side of the door, said rod having a serrated distal end oppositely facing said bolt and wherein said serrated distal end faces downwardly; a drive gear having a toothed outer surface interlocked with said serrated distal end such that said rod linearly travels along the horizontal path when said drive gear rotates clockwise and counterclockwise respectively; and an electric motor and a drive shaft directly conjoined thereto, said drive shaft being directly coupled to said drive gear and being responsive to said stationary and portable controllers respectively for causing said drive gear to rotate in the clockwise and counter clockwise directions. 3. The system of claim 2, wherein said automatic extending and retracting means further comprises: an internal controller electrically coupled to said motor; a coded input signal generated and transmitted by said portable controller based upon a user input; and a coded output signal generated and transmitted by said stationary controller based upon instructions received from said coded input signal, said coded output signal being wirelessly transmitted to said internal controller for instructing said electric motor to rotate in the clockwise and counter clockwise directions during operating conditions. 4. The system of claim 2, wherein said bypassing means comprises: a keyed slot formed directly through said stop member; and a key being associated with said keyed slot such that a user can manually extend and retract said shaft about said drive gear to thereby cause said bolt to extend and retract along the horizontal path and adapt the door between locked and unlocked positions. 5. The system of claim 3, wherein each of said portable controller and said stationary controller and said internal controller comprise: a transceiver; an analog to digital converter; a processor; and a memory including software instructions that cause said portable controller and said stationary controller and said internal controller to decode said coded input and output signals respectively for verifying an authorized user, said software instructions including the steps of: a. detecting an identification data stream embedded within said coded input and output signals, b. comparing said identification data stream with an authorization data stream, and c. instructing said portable controller and said stationary controller and said internal controller to perform predetermined tasks associated with verified and unverified identification data streams, one of said predetermined tasks emitting audible and visual alert signals when said identification data stream is unverified. 6. The system of claim 1, wherein said portable controller further comprises: a base station electrically coupled to an external power source, said base station including a first charging bay for receiving said portable controller thereon; and a second charging bay for receiving a plurality of rechargeable batteries. 7. A door lock interface system for allowing a user to remotely lock and unlock a door having a pair of cavities, said door lock interface system comprising: a stationary controller, wherein said stationary controller is mounted to a support surface interior of a building that houses the door; a portable controller in wireless communication with said stationary controller; an elongated and rectilinear bolt positioned through a slot of a door, said bolt being spaced from said stationary and portable controllers; means for automatically retracting and extending said bolt along a parallel and horizontal path such that said bolt becomes adapted between disengaged and engaged positions when unlocking and locking the door; means for bypassing said automatic retracting and extending means such that the user can manually retract and extend said bolt when unlocking and locking the door respectively; and a security panel directly affixed to one side of the door, said panel covering one of the door cavities and prohibiting unauthorized access thereto, wherein said security panel is provided with a plurality of coextensively shaped annular openings for allowing a door handle and a deadbolt housing to be operably connected directly to the door while maintaining said automatic extending and retracting means hidden from the environment. 8. The system of claim 7, wherein said automatic retracting and extending means comprises: a stop member directly conjoined to an interior distal end of said bolt and seated between opposed faces of the door; an elongated and rectilinear rod statically conjoined directly to said stop member and extending horizontally inwardly away from a jam side of the door, said rod having a serrated distal end oppositely facing said bolt and wherein said serrated distal end faces downwardly; a drive gear having a toothed outer surface interlocked with said serrated distal end such that said rod linearly travels along the horizontal path when said drive gear rotates clockwise and counterclockwise respectively; and an electric motor and a drive shaft directly conjoined thereto, said drive shaft being directly coupled to said drive gear and being responsive to said stationary and portable controllers respectively for causing said drive gear to rotate in the clockwise and counter clockwise directions. 9. The system of claim 8, wherein said automatic extending and retracting means further comprises: an internal controller electrically coupled to said motor; a coded input signal generated and transmitted by said portable controller based upon a user input; and a coded output signal generated and transmitted by said stationary controller based upon instructions received from said coded input signal, said coded output signal being wirelessly transmitted to said internal controller for instructing said electric motor to rotate in the clockwise and counter clockwise directions during operating conditions. 10. The system of claim 8, wherein said bypassing means comprises: a keyed slot formed directly through said stop member; and a key being associated with said keyed slot such that a user can manually extend and retract said shaft about said drive gear to thereby cause said bolt to extend and retract along the horizontal path and adapt the door between locked and unlocked positions. 11. The system of claim 9, wherein each of said portable controller and said stationary controller and said internal controller comprise: a transceiver; an analog to digital converter; a processor; and a memory including software instructions that cause said portable controller and said stationary controller and said internal controller to decode said coded input and output signals respectively for verifying an authorized user, said software instructions including the steps of: a. detecting an identification data stream embedded within said coded input and output signals, b. comparing said identification data stream with an authorization data stream, and c. instructing said portable controller and said stationary controller and said internal controller to perform predetermined tasks associated with verified and unverified identification data streams, one of said predetermined tasks emitting audible and visual alert signals when said identification data stream is unverified. 12. The system of claim 7, wherein said portable controller further comprises: a base station electrically coupled to an external power source, said base station including a first charging bay for receiving said portable controller thereon; and a second charging bay for receiving a plurality of rechargeable batteries. 13. A door lock interface system for allowing a user to remotely lock and unlock a door having a pair of cavities, said door lock interface system comprising: a stationary controller, wherein said stationary controller is mounted to a support surface interior of a building that houses the door; a portable controller in wireless communication with said stationary controller; an elongated and rectilinear bolt positioned through a slot of a door, said bolt being spaced from said stationary and portable controllers; means for automatically retracting and extending said bolt along a parallel and horizontal path such that said bolt becomes adapted between disengaged and engaged positions when unlocking and locking the door; means for bypassing said automatic retracting and extending means such that the user can manually retract and extend said bolt when unlocking and locking the door respectively; and a security panel directly affixed to one side of the door, said panel covering one of the door cavities and prohibiting unauthorized access thereto, wherein said security panel is provided with a plurality of coextensively shaped annular openings for allowing a door handle and a deadbolt housing to be operably connected directly to the door while maintaining said automatic extending and retracting means hidden from the environment; wherein said automatic retracting and extending means comprises: a stop member directly conjoined to an interior distal end of said bolt and seated between opposed faces of the door; an elongated and rectilinear rod statically conjoined directly to said stop member and extending horizontally inwardly away from a jam side of the door, said rod having a serrated distal end oppositely facing said bolt and wherein said serrated distal end faces downwardly; a drive gear having a toothed outer surface interlocked with said serrated distal end such that said rod linearly travels along the horizontal path when said drive gear rotates clockwise and counterclockwise respectively; and an electric motor and a drive shaft directly conjoined thereto, said drive shaft being directly coupled to said drive gear and being responsive to said stationary and portable controllers respectively for causing said drive gear to rotate in the clockwise and counter clockwise directions; wherein said rod remains coaxially oriented with said bolt while linearly traveling along the horizontal path. 14. The system of claim 13, wherein said automatic extending and retracting means further comprises: an internal controller electrically coupled to said motor; a coded input signal generated and transmitted by said portable controller based upon a user input; and a coded output signal generated and transmitted by said stationary controller based upon instructions received from said coded input signal, said coded output signal being wirelessly transmitted to said internal controller for instructing said electric motor to rotate in the clockwise and counter clockwise directions during operating conditions. 15. The system of claim 13 wherein said bypassing means comprises: a keyed slot formed directly through said stop member; and a key being associated with said keyed slot such that a user can manually extend and retract said shaft about said drive gear to thereby cause said bolt to extend and retract along the horizontal path and adapt the door between locked and unlocked positions. 16. The system of claim 14, wherein each of said portable controller and said stationary controller and said internal controller comprise: a transceiver; an analog to digital converter; a processor; and a memory including software instructions that cause said portable controller and said stationary controller and said internal controller to decode said coded input and output signals respectively for verifying an authorized user, said software instructions including the steps of: a. detecting an identification data stream embedded within said coded input and output signals, b. comparing said identification data stream with an authorization data stream, and c. instructing said portable controller and said stationary controller and said internal controller to perform predetermined tasks associated with verified and unverified identification data streams, one of said predetermined tasks emitting audible and visual alert signals when said identification data stream is unverified. 17. The system of claim 13, wherein said portable controller further comprises: a base station electrically coupled to an external power source, said base station including a first charging bay for receiving said portable controller thereon; and a second charging bay for receiving a plurality of rechargeable batteries.
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