In the past, removal of the access panel or cover to the chassis of an electronic device such as a computer, or the like, was cumbersome or time consuming. In most applications, the access panel is mounted to the chassis using fasteners such as thumb screws, or the like, which must be unscrewed each time the access panel is removed from the chassis. The access panel may then be lifted or slid from the chassis to provide access to components located therein. More recently, quick release latching systems have been provided for securing the access panel to the chassis of the computer. Typically, such latching systems also push the access panel open when the latching mechanism is defeated, making the access panel easier to remove by users.
In modern computer manufacturing facilities, vacuum lifting is often used for lifting the computer to place the computer in packaging prior to delivery. However, when vacuum lifting is employed with a computer chassis that utilizes a quick release latching system that pushes the access panel of the computer open, the access panel can be inadvertently pulled from the chassis of the computer, causing the computer to be dropped and possibly damaged. Generally, this problem occurs because the devices that defeat the latching mechanism are actuated by forces that are applied normal to the access panel during vacuum lifting. The latching mechanism then works in concert with the forces applied during the vacuum lifting process to separate the access panel from the chassis.
Consequently, it would be desirable to provide a quick release latching mechanism that allows the access panel of a computer or similar electronic device to be easily removed from its chassis, but which is not susceptible to inadvertent actuation during processes, such as vacuum lifting, that apply forces to the access panel.