A force transfer system includes a body and an article. The article includes a first portion forming a first lateral axis and a second portion forming a second lateral axis, the axes being offset. An intermediate member is disposed between the first portion and the second portion, and holds the second portion to the first portion. A stimulus received by the first portion causes a temporary alteration of the intermediate member from an initial condition, the alteration of the intermediate member thereby causing a change in a characteristic of the second portion. The intermediate member subsequently returns to the initial condition, thereby causing a change in a characteristic of the first portion, which is influenced by the change in the characteristic of the second portion. The change in the characteristic of the first and second portions prevents at least a portion of the stimulus from reaching the body.

The present invention refers to a blast-resistant bulletproof window and a corresponding apparatus, in particular for use in a motor vehicle, which comprises a ballistic block having a peripheral edge and a plurality of panes of glass, ceramic or plastic material bonded to each other over their surfaces in a layered composite, and interposed bonding interlayers plastic material or adhesive, wherein at least one edge groove with particularly rectangular cross section is provided on and along at least a part of the peripheral edge, and an edge recess is provided on an inside surface of the ballistic block or window on and along at least a part of the peripheral edge of the window.

The present invention provides a bi-active method of mounting a monolithic polycarbonate sheet or a laminate in a semi-rigid metallic framing system along two parallel sides of a rectangular shaped sheet or laminate with the two shorter parallel sides being unconstrained. In the case of a square shaped sheet, two parallel sides are supported in the semi-rigid frame, and the other two parallel sides are unconstrained. The semi-rigid frame utilizes cylindrically shaped hardware (i.e., bolts, rivets, studs, etc.) to hold the sheet or laminate. The semi-rigid frame is designed, via section and material properties, to flex and hinge about fixed mounting points along the length of the frame.

A system for proactively adjusting to impact forces has first and second walls spaced apart from one another to define a stationary enclosed cavity therebetween; a movable member inside the enclosed cavity; an actuator; a proximity sensor; computer memory; a processor in data communication with the actuator, the proximity sensor, and the computer memory; programming causing the processor to determine a potential impact location on at least one of the first and second walls using data obtained from the proximity sensor; and programming causing the processor to activate the actuator based on the potential impact location, activation of the actuator causing the movable member to move inside the enclosed cavity prior to receiving the impact forces.

A bench that serves as a barrier from ballistics and explosions is disclosed. The bench serves the traditional role of providing a seating area while also providing protection from ballistics and explosions originating from an opposite side of the barrier bench. The bench may comprise one or more panels or plates and an upper wall that are adapted to repel ballistics and blasts. The barrier bench further comprises a series of interconnected members that together form a frame which serves to position the one or more panels and upper wall in a relatively upright position so as to form a barrier against ballistics and explosion blasts.

Protective shields configured to prevent projection against projectiles, such as during excavating and/or mining operations, are provided. The protective shields include a base layer comprising one or more transparent polycarbonate layers, a sacrificial polycarbonate layer comprising a transparent polycarbonate, and an air gap positioned directly between at least a portion of the base layer and the sacrificial polycarbonate layer. The sacrificial polycarbonate layer is directly or indirectly attached to the base layer in a manner to provide the air gap positioned between the base layer and the sacrificial polycarbonate layer.

A window insert assembly providing ballistic protection for a window opening of a vehicle side door. The window insert assembly includes a window insert formed from a ballistic-resistant material and a wedge assembly to wedge the window insert within a window frame of the vehicle door. A method of providing ballistic protection for the window opening.

Vehicle window security shield assemblies and related methods of use and/or installation. In some embodiments, an insert-shield assembly may comprise an insert-shield with or without a separate inner shield, one or both of which may comprise a ballistic-rated, transparent material. The assembly may be mounted in and/or to one or more existing windows or other openings of a vehicle. In some embodiments, an inner shield of the shield assembly may be removeable from the assembly. In some embodiments, the entire assembly or a portion thereof may be removed to allow an officer or other user to use the removed portion as a portable shield. The removed portion may be returned to the vehicle following use to enhance the protection of the vehicle.

A system and method for retrofitting installed thermal windows to provide anti-ballistic properties to the windows by using a portable system for filling gaps in the windows with an anti-ballistic material that may or may not be cured. Also provided is an optional capability to add controllable tinting capability to these retrofitted windows.

The present invention relates to a shock absorbing vehicle window arrangement for a vehicle cab, the window arrangement comprises a transparent polymer windshield, a metal frame having a width extending in the direction parallel to the plane of the transparent polymer windshield and a depth extending in the direction perpendicular to the plane of the transparent polymer windshield, the metal frame comprising: an outer portion, at least partially extending on the outside of the transparent polymer windshield, and an inner portion, at least partially extending on the inside of the transparent polymer windshield. The outer portion overlaps the transparent polymer windshield with at least 0.5% of the length of the windshield, in the direction extending perpendicular from the length axis of the portion of the metal frame that extends on the outside of the transparent polymer windshield, the metal frame comprises a horizontally extending portion comprising a flexible portion.