Electricity: electrical systems and devices – Housing or mounting assemblies with diverse electrical... – For electronic systems and devices
Reexamination Certificate
1998-05-01
2001-12-18
Picard, Leo P. (Department: 2835)
Electricity: electrical systems and devices
Housing or mounting assemblies with diverse electrical...
For electronic systems and devices
C361S689000
Reexamination Certificate
active
06331934
ABSTRACT:
TECHNICAL FIELD
This invention relates to computer docking stations. More particularly, this invention relates to mechanisms for locking and preventing theft of components mounted in docking stations and portable computers, such as PC cards, batteries, and memory drives.
BACKGROUND
Portable computers are widely used and a popular alternative to desktop computers. The ability to carry a powerful computing device that offers a full range of processing and communication functionality is very appealing to our mobile generation.
A docking station is a stationary unit that adapts a portable computer for use as a stationary desktop computer. A conventional docking station physically interconnects with the portable computer and provides electronics to interface the portable computer with a set of peripherals, such as a large CRT monitor (e.g., VGA), a normal size or ergonomic keyboard, a mouse, printer, CD-ROM drive, network, and so forth. The docking station resides permanently on the user's desk.
When working at the desk, the user docks the portable computer at the docking station by physically loading the computer onto a docking tray. Once physically mated, the portable computer is electronically interfaced via connectors on the docking station to control the peripherals. In this manner, the portable computer operates as the central processing unit (CPU), with the docking station providing support capabilities for the peripherals. When the user leaves the desk, he/she simply undocks the portable computer from the docking station and carries it along for portable use.
Docking stations range in their sophistication and available extensions to the portable computer. A scaled-down docking station, which is commonly referred to as a “port replicator”, merely extends a set of peripheral ports for the docked portable computer. Power might also be directed through a port replicator so that the portable computer need not be manually plugged in before desktop use.
A slightly more sophisticated docking station, which is often referred to as an “enhanced port replicator”, offers a similar set of peripherals and additional features, such as an external bus system. An external bus system allows use of expansion cards in conjunction with the portable computer.
More sophisticated stations, often called “full” docking stations or simply “docking stations”, offer integrated computer peripherals in addition to peripheral ports and bus systems. For instance, a docking station might include sound peripherals such as speakers, hard disk drives, CD ROM drives, DVD drives, and tape backup systems.
While portability and compact size are appealing qualities in portable computers and docking stations, these very same attributes pose a significant risk of theft. Portable computers and docking stations are easy to steal. While walking off with a desktop PC might garner some questioning looks in the workplace, carrying around a portable computer or docking station may go unnoticed due to the inherent attributes of these devices.
Locks are available to address this problem. One type of lock is a device consisting of a cable or tether that can be secured at one end to a desk or fixture, and at the other end to a computer. Many portable computers and docking stations are equipped with receptacles for mating with such locks.
One particular design is described in U.S. patent application Ser. No. 08/621,419, entitled “Securing Portable Computers and Associated Docking Systems”, which was filed on Mar. 25, 1996. This application describes a single tethered locking device that secures both a portable computer and its associated docking station. An opening is formed in the docking station. The opening is sized and positioned so that a Kensington lock can be passed through the opening and locked into a receptacle on the portable computer. In one implementation, placing the Kensington lock through the opening interferes with a computer ejection mechanism in the docking system, and thus prevents a user from attempting to eject the docked computer. In another implementation, attaching the Kensington lock causes a lock extension to engage the receptacle on the portable computer. In either implementation, a single attachment of a Kensington lock secures both the portable computer and its docking station to a desk or other fixture. This application is assigned to Hewlett-Packard Company and is incorporated herein by reference.
While locking devices help prevent theft of the portable computer and docking station, unscrupulous foes have refocused their efforts to stealing parts of the computer system.
One particular target is the PC card. PC cards are small, thin devices about the size of a credit card that insert into portable computers or docking stations to enhance capabilities. PC cards (formerly known as PCMCIA cards) were originally designed to extend memory in portable computers. Today, PC cards are configured to provide many different functions, including memory, modem, network adapter, and so forth. Essentially, PC cards are any type of device that conforms to a standard form factor and pin connect for interfacing with a PC card driver.
Previous locking devices for docking stations and portable computers were not designed to prevent theft of removable components like the PC cards. Accordingly, there remains a need for improved locking mechanisms that not only secure the computers and docking stations, but also prevent theft of PC cards and other removable components.
SUMMARY
A computer docking station has an anti-theft locking mechanism that prevents theft of PC cards and other removable components (removable drives, batteries, etc.) mounted in the docking station and/or a docked portable computer. The locking mechanism is mechanically moveable between locked and unlocked positions. In the locked position, the locking mechanism partially covers the removable components to prevent their removal. In the unlocked position, the locking mechanism exposes the components to allow their removal.
The locking mechanism is. preferably configured for use with an existing tether lock (e.g., a Kensington lock) used to secure the docking station and/or computer. The lock secures the locking mechanism in the locked position.
According to one aspect of the invention, the locking mechanism has a tab and a lock member structurally or mechanically linked to the tab to move in conjunction with the tab. The tab extends partially over the component when in the locked position. The lock member has at least one aperture sized and shaped to receive a lock pin of the lock. When the locking mechanism is moved to the locked position, the aperture of the lock member aligns with a lock receptacle in the docking station or computer to receive the lock pin. In this manner, the same lock used to secure the docking station or computer is also used to lock the locking mechanism over the removable component.
According to another aspect, the docking station (or computer) has a door mounted to alternately expose and cover the component slot. A lock receptacle is formed adjacent the door in the docking station to mate with the lock that secures the docking station to a fixture. A locking mechanism is moveable between locked and unlocked positions. In the locked position, the locking mechanism is positioned relative to the receptacle to be secured by the lock when the lock is mated with the receptacle. In the unlocked position, the locking mechanism is positioned away from the lock receptacle.
According to still another aspect, the docking station is configured with a docking tray to receive the portable computer when docked. The docking station has a security post that projects upward from the docking tray. The security post extends beside the portable computer to prevent removal of a component from the portable computer when the portable computer is docked.
REFERENCES:
patent: 5535093 (1996-07-01), Noguchi et al.
patent: 5561589 (1996-10-01), Mesfin et al.
patent: 5687592 (1997-11-01), Penniman et al.
patent: 5692400 (1997-12-01), Bilven et al.
paten
Derocher Michael D.
Helot Jacques H.
Bui Tung Minh
Hewlett--Packard Company
Picard Leo P.
LandOfFree
Computer docking station with anti-theft locking mechanisms... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Computer docking station with anti-theft locking mechanisms..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Computer docking station with anti-theft locking mechanisms... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-2600934