Communications: electrical – Selective – Intelligence comparison for controlling
Reexamination Certificate
1999-08-11
2002-12-17
Holloway, III, Edwin C. (Department: 2635)
Communications: electrical
Selective
Intelligence comparison for controlling
C340S005700, C340S005900, C070S278700
Reexamination Certificate
active
06496101
ABSTRACT:
TECHNICAL FIELD
The present invention relates generally to latching and locking devices. In preferred embodiments, the present invention more specifically relates to electronic latching and locking devices such as for use with vending machines and similar enclosures.
BACKGROUND OF THE INVENTION
Latching or locking devices commonly are used to hold lids, doors or other closure elements of boxes, cabinets, doorways and other framed structures in closed and/or locked positions, and further typically are used to provide some measure of security against unauthorized or inadvertent access. For example, conventional vending machines generally include a key operated latch or locking device that typically includes a latching assembly and a post mounted to the frame and door of the vending machine so that the door of the vending machine is automatically locked when moved into a closed position against the machine frame by the insertion of the post into the latching assembly. Such latching assemblies further typically include a housing that defines an axial passage in which the post, often attached to and/or operating in conjunction with a T-handle, is received and is engaged by latch elements that are biased into contact with a surface of the post. The latch elements grip the post and preclude its withdrawal from the axial passage of the latch housing.
Typically, to disengage the latching assembly from the post, these latching assemblies utilize key locks in which a key is received, and, as the key is turned, the biased latching elements of the assembly are released from engagement with the post to enable the door or other closure element to which the latch is mounted to be opened. Examples of such latching assemblies for use with vending machines or similar enclosures are disclosed in U.S. Pat. Nos. 5,050,413, 5,022,243 and 5,467,619. Such an unlocking or opening operation generally is a substantially manual operation such that most latching assemblies generally are limited in their placement to regions or areas where they can be readily reached and operated, i.e., in the middle of the door. Such easy access to these latching assemblies, however, tends to make these latching assemblies easy targets for vandals or thieves can shield their actions from view while attacking the security of the enclosure by picking or smashing the lock to remove the primary and sometimes only point of security between the door and the frame of the enclosure.
In particular, vending machines have become an increasingly favorite target of vandals and thieves. The popularity of vending machines has greatly increased in recent years, especially in remote areas for providing ready access to an increasing variety of goods including food and drinks, stamps, and higher priced items such as toys and cameras, all without requiring human intervention. At the same time, the capacities of conventional vending machines have increased significantly so as to not only provide consumers with more choices, thus creating more opportunities for sales, but further to decrease the amount of servicing or restocking that is required for the vending machines. For example, the typical soft drink vending machine has increased in capacity from approximately 420 cans to approximately 800 cans. The increased popularity and increased capacity of vending machines as well as the expansion of products to higher priced items have significantly increased the amounts of money taken in by vending machines, providing an increasingly attractive target to thieves and vandals. Further, if the key to one of these latching assemblies or locking devices is lost or stolen, all the locks accessible by such key must be “re-keyed” to maintain controlled access and security. Such re-keying is typically burdensome and very costly, especially where there are a significant number of locks that need to be re-keyed. Accordingly there is an increasing interest in improving the security of latching and locking assemblies for securing the doors or other closure devices of vending machines and similar enclosures.
There also exists a problem of monitoring and auditing the amount of time required for a service technician to access and service devices such as vending machines, automatic teller machines, gambling machines or other automated kiosks or containers. It is therefore difficult for many companies to develop a good schedule or concept of the total time required to service such vending devices or machinery to better plan service routes and/or allocate or assign service technicians. This problem is further compounded by conventional latching systems that require the post of the latch to be rotated through multiple revolutions to fully release it from the latch assembly. Such additional time required to disengage and open the latching assembly may seem small per individual machine, but constitutes a significant expenditure of time that can be burdensome, for example, for a company that has a large number of vending machines that must be serviced, by significantly increasing the amount of time required to service each particular vending machine.
There is, therefore, a need for improved latching systems and methods that address these and other related and unrelated problems.
SUMMARY OF THE INVENTION
Briefly described, the present invention generally comprises an electromechanical latching apparatus or system for securing a door or other closure device for enclosures such as vending machines, trailers, etc. The latching apparatus of the present invention is designed to provide enhanced security for the enclosure and to additionally provide for data collection and transfer of information to enable more accurate tracking of stocking information and service time. Typically, the enclosure to which the electro-mechanical latching apparatus of the present invention is applied will include an enclosure frame and at least one door hingedly attached to the enclosure frame so as to be movable between an unlocked, open position displaced from the enclosure frame and a closed, locked position secured against the enclosure frame.
The electro-mechanical latching apparatus generally includes a mechanical latch or lock assembly and an electronic lock control system or mechanism. The mechanical latch assembly secures the door against the enclosure frame and is disengaged or actuated remotely through the electronic lock control system.
The electronic lock control system or assembly is generally mounted on the inside of the door of the enclosure and controls the operation of the solenoid for disengaging or releasing the handle assembly from its depressed, locked position to enable unlocking and thus opening of the door of the enclosure. The electronic lock control system preferably generally includes an electronic lock controller and a data/power link or transceiver mounted to the front of the door. Typically, the lock controller includes a microprocessor and memory for storing data or information such as when and how long the door has been opened and by whom, a capacitor and a relay switch. The data/power link typically comprises an inductive coupling such as ferrite coil which enables indirect power transfer inductively through the door over a desired air gap. A data transfer thereafter is accomplished through electromagnetic dynamics, radio frequency transfer or an infrared link. The data/power link is connected to the electronic controller for providing a transfer of power and data to the electronic lock controller.
A hand held key controller provides power and data signals and commands to the electronic lock controller via the data/power link mounted to the door. The key controller typically will have a mating data/power link, i.e., inductive ferrite coil, a power supply such as a battery, and typically includes a display such as a touch screen or a LCD screen and key-pad for entry and review of data to be transferred to and received from the electronic lock controller through the data/power link. As the key controller is actuated, it transmits power and data signals through the
Holloway III Edwin C.
Star Lock Systems, Inc.
Womble Carlyle Sandridge & Rice PLLC
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