Abstract: The invention of the present disclosure may be a pressure sensitive locking mechanism comprising a first tine, a second tine, and a third tine. The locking mechanism may further comprise a tab disposed on the second tine, where the tab may be orthogonal to the second tine. In an embodiment, the second tine is configurable in a locked state and an unlocked state, where the second tine comprises a second tine bell disposed on the lower portion of the second tine, and where the second tine bell is tapered from the tab to an upper portion of the second tine. The tab may be configured to receive a pressure, application of the pressure may be configured to convert the second tine from the locked state to the unlocked state, and withdrawal of the pressure may be configured to convert the second tine from the unlocked state to the locked state.
Abstract: The invention of the present disclosure may be a pressure sensitive locking mechanism comprising a body comprising a flex portion and an anchor portion. The locking mechanism may further comprise a tab disposed on a guard, where the tab may be orthogonal to the guard. In an embodiment, locking mechanism is configurable in a locked state and an unlocked state, where the tab may be configured to receive a pressure, where application of the pressure may be configured to convert the lock from the locked state to the unlocked state, and withdrawal of the pressure may be configured to convert the lock from the unlocked state to the locked state. The locking mechanism may be integrated with a slidable container, enabling reversible locking.
Abstract: The invention of the present disclosure may be a pressure sensitive locking mechanism comprising a first tine, a second tine, and a third tine. The locking mechanism may further comprise a tab disposed on the second tine, where the tab may be orthogonal to the second tine. In an embodiment, the second tine is configurable in a locked state and an unlocked state, where the second tine comprises a second tine bell disposed on the lower portion of the second tine, and where the second tine bell is tapered from the tab to an upper portion of the second tine. The tab may be configured to receive a pressure, application of the pressure may be configured to convert the second tine from the locked state to the unlocked state, and withdrawal of the pressure may be configured to convert the second tine from the unlocked state to the locked state.
Abstract: The inviolate box combines an outer sleeve and an inner tray, with the inner tray configured to fit inside the outer sleeve and the outer sleeve configured to cover the inner tray. The outer sleeve has a primary opening and one or more access openings. The access openings are configured to permit a handler of the inviolate box to press the inner tray via the handler's fingers. The fingers would enter through the access openings to exert a squeeze force onto the inner tray, specifically tray protrusions so that the tray protrusions cease running along the same line as sleeve protrusions, thereby overcoming a locking engagement between the outer sleeve and the inner tray, permitting the inner tray to be moved out of the outer sleeve.