The present invention generally relates to locks, and more specifically, relates to single bolt lock with both a passage and deadbolt state and an electronic control of locking.
Locks are well known and used by every household. Generally speaking, there are two types of locks commonly used as door locks, passage lock and deadbolt lock. The passage lock typically includes a bolt mounted on a door frame along with a door knob and other connecting mechanism. The bolt usually has a surface slanted in relation to a longitudinal direction to which the bolt moves. The bolt that can slide, along the longitudinal direction, in and out of a receiving hole on a door frame with turn of the door knob. The bolt can be fixed on its extended position when a button on the door knob is pressed, thus locking the door. The deadbolt lock, on the other hand, typically includes a bolt that has a longer body and a surface that is perpendicular in relation to the longitudinal direction. The bolt can slide in and out of a receiving hole on the door frame with movement of a key inserted into the deadbolt lock. When a user wants an added security to his house, he usually installs a deadbolt lock in addition to the passage lock.
Electronic door locks are also well known and commonly used in the hotel industry. An electronic door lock generally includes an electronic control mechanism and a locking mechanism. The locking mechanism generally includes a deadbolt lock and a passage lock, each separated from the other. The electronic control mechanism typically unlocks the deadbolt and engages the passage lock. From inside, the deadbolt lock is usually activated by a turn knob placed above the door handle, putting the lock in passage mode. These electronic door locks are widely used by hotels, but they are not easily retrofitted into older doors where there is only one opening on the door frame for the passage lock. For hotel operators and residential home owners who like to have security of a deadbolt lock, they have to go through the job of modifying both the door and the door frame before a deadbolt lock can be installed.
Briefly described, the electronic lock of the present invention can be easily retrofitted into an existing lock and provides easy use through electronic control and the added security of a deadbolt engagement. In one embodiment, the invention is an electronic lock capable of acting as a passage lock and as a deadbolt lock. The electronic lock comprises an external housing, an electronic access device on the external housing, a control circuit enclosed by the external housing and coupled to the electronic access device, an electrically activated mechanism coupled to the control circuit, a latch having a throw and being capable of extending the throw into a passage position and a locking position, a tail piece having a first end and a second end, an internal housing, and an inside lever mounted on the internal housing and engaged to the first end of the tail piece. The tail piece is engaged to an outside door lever, and the latch being engaged and disengaged by the electrically activated mechanism. Moving the inside lever from a horizontal position upwardly to a vertical position further engages the latch to extend the throw into the locking position, and activating the electronic access device from the outside disengages the outside door lever when the throw is in the locking position. The throw in the passage position enables the electronic lock to act as a passage lock and the throw in the locking position enables the electronic lock to act as a deadbolt lock.
In another embodiment, the invention is a method for using a single deadbolt lock as a passage lock and as a deadbolt lock. The method includes the steps of receiving an activation request from an activation access device, validating the activation request, recording the activation request into a log, engaging an external lever to a latch, and retracting a throw in the latch to a passage lock position.
In yet another embodiment, the invention is a method for using a single bolt of an electronic lock as a deadbolt and as a passage lock. The electronic lock is mounted on a door and has an internal lever, an external lever, a latch, and a throw. The method comprises providing on a door an electronic locking mechanism that has an activation access device, an internal lever, external lever, and a single bolt that has a passage position and locking position, and electronically disengaging the bolt while in the locking position by activating the activation access device, or alternatively, engaging the bolt into a locking position by rotating the internal lever from a horizontal position to a vertical position.
Other advantages and features of the present invention will become apparent after review of the hereinafter set forth Brief Description of the Drawings, Detailed Description of the Invention, and the Claims.
In this description, the terms “door lever,” “lever,” and “door handle” are used interchangeably; the terms “bolt” and “throw” are used interchangeably. The term “application” as used herein is intended to encompass executable and nonexecutable software files, raw data, aggregated data, patches, and other code segments. Further, like numerals refer to like elements throughout the several views, and the articles “a” and “the” includes plural references, unless otherwise specified in the description.
In overview, the apparatus is a single throw electronically controlled deadbolt lock that can operate as a passage lock as well as a deadbolt lock. The single throw electronic lock can easily retrofit the doors with traditional locks without the need for major modifications to the doors or the door frames. The single throw electronic lock includes an external mechanism mounted on outside of a door, a latch assembled inside of the door, and an internal mechanism mounted on inside of the door.
The internal mechanism may also include a visual lock indicator 618 mounted on the internal housing 304. The visual lock indicator is connected to the control circuit 106 and will indicate whether the throw 202 is in the deadbolt position. The visual indicator may be a light emitting diode (LED) or other light emitting devices, and the LED may blink when the lock is functioning as a passage lock and remain lighted when the lock is functioning as a deadbolt lock. The visual indicator helps a user to identify the status of the lock visually at distance. Alternatively, the internal door lever 302 may remain in a vertical position when the throw 202 is in the deadbolt position, thus the status of the lock may also be visually identified by the position of the internal door lever 302.
In operation, a hotel operator can purchase a lock according to the present invention and easily replace it on a door with a traditional single throw bolt without the need to modify either the door or the door frame. After replacing the lock, a guest can open the door with an access device, such as an iButton. By touching the iButton to an iButton reader, the control circuit 106 will receive the activation request from the iButton reader and will validate the activation request. If the guest uses the iButton for room 101 to touch the iButton reader for room 102, the control circuit 106 for the door on room 102 will not validate the access request and the lock will not open. If the control circuit 106 validates the activation request, the throw 202 inside the lock will be moved from the dead lock position to the passage lock position and the external door lever 102 will be engaged to the outside door post 110. The guest then will be able to move the lever 102 and open the door. The control circuit 106 may also emit an audible sound to indicate that the lock is being unlocked.
After entering to the room, the guest can use the internal door lever 302 to close the door. The guest can also move the same door lever 302 from a horizontal position upwardly to a vertical position, thus setting the lock to a deadbolt lock position. After the lock is set to a deadbolt lock position, the internal door lever 302 will return to the horizontal position and the throw 202 will remain in the deadbolt lock position. After the lock is locked, the external door lever 102 is disengaged and a third party can no longer open the door by moving the external door lever 102. When the external door lever 102 is disengaged, the external door lever 102 can move freely upward and downward without affecting the throw 202. Alternatively, the external door lever 102 can also remain at a fixed position when it is disengaged. The guest can easily verify that the lock is in the deadbolt lock position through the visual indicator (LED). Alternatively, the guest can also learn the status of the lock through the position of the internal door lever. The guest's access is recorded in a log inside the control circuit 106.
When the guest is ready to leave the room, the guest can unlock the lock by moving the internal door lever from a horizontal position downwardly to a vertical position, thus setting the lock to the passage lock position. By further moving the internal door lever 302 downwardly, the guest will open the door. The guest can leave the room and close the door; the guest can also return to the room by using the external door lever 102 to open the door. When the guest is ready to leave the room for an extended time period, the guest can use the iButton to lock the door. The guest exits the room, closed the door and touches the iButton to the reader, and then engages the deadbolt by moving the outside door lever upward to the vertical position within a grace time period. After the grace time period, the control circuit 106 disengages the outside door lever from the tailpiece gear 114. At this time the door cannot be opened from the outside until the iButton is touched again.
Periodically the hotel operator can retrieve and review the access log stored inside the control circuit 106. The hotel operator uses his special iButton equipped with a special retrieval feature and sends a retrieval command to the control circuit 106. The retrieval command is received and interpreted by the control circuit 106 and the access log file is retrieved and sent to the special iButton. The hotel operator can then use the special iButton to transfer the access log information to his computer. Alternatively, the hotel operator may connect a portable memory to the data retrieval connector and then activate the log transfer by touching the iButton reader with his special iButton.
In the context of
While the invention has been particularly shown and described with reference to a preferred embodiment thereof, it will be understood by those skilled in the art that various changes in form and detail may be made without departing from the spirit and scope of the present invention as set forth in the following claims. Furthermore, although elements of the invention may be described or claimed in the singular, the plural is contemplated unless limitation to the singular is explicitly stated.
This application is a divisional of U.S. application Ser. No. 11/368,947 filed Mar. 6, 2006, now U.S. Pat. No. 7,698,917 issued Apr. 20, 2010, which is herein incorporated by reference in its entirety.
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Child | 12708204 | US |