Various insulations that employ magnetic components are disclosed herein. A sheet insulation component is formed out of an insulation material. A sheet magnetic component is attached to the face of the sheet insulation component. The sheet magnetic component substantially covers the face of the sheet insulation component.

Various insulations that employ magnetic components are disclosed herein. A sheet insulation component is formed out of an insulation material. A sheet magnetic component is attached to the face of the sheet insulation component. The sheet magnetic component substantially covers the face of the sheet insulation component.

A gullwing door that is mountable to a vehicle and that is capable of providing ballistics protection to occupants of the vehicle. The gullwing door includes an outer panel that is rotatably mountable to the vehicle at an upper edge of the outer panel and that is lined with a first protective shell, and an inner panel disposed adjacent to the outer panel that comprises a second protective shell. The inner panel is rotatably connected to the outer panel at an upper edge of the inner panel and the inner panel and the outer panel are capable of rotatably opening together or separately.

A vehicle including a door and a ballistic protection device for a door having a ballistic protection element connected to the door via a device for automatically bringing closer and spacing apart the protection element when opening and closing the door, the device for bringing closer and spacing apart include at least one upper connecting arm and at least one lower connecting arm of the same length and hinged to the protection element and the door, so that the protection element and the door can be brought closer to and spaced apart from each other, while remaining parallel to each other, and at least one actuating arm, hinged to the at least one lower connecting arm and to a fixed part of the vehicle, so as to control, by action on the at least one lower connecting arm, the displacement of the protection element with respect to the door.

Apparatus and methods are provided for a video enabled armor system for use in an armored surface of a vehicle. In one embodiment the system has an exterior facing ballistic resistant armor panel mounted over an opening in the armored surface of the vehicle, with the armor panel overlaying the armored surface around a perimeter of the opening. The armor panel has a first aperture in a portion of the panel adjacent the opening, and a first video camera disposed in the first aperture aimed outward through the first aperture. The system may further include a video display operatively connected to the first video camera and mounted over the opening on an interior side of the armored surface.

A frustum embedded fabricated composite protective structure is provided, including a restraint frame, a back plate, an infill block and a buffer block. The restraint frame is provided with a plurality of mounting holes matching with the shape of the infill block, the restraint frame is arranged on the back plate, the infill block is in a frustum shape. The buffer block and the infill block are installed in the mounting hole of the restraint frame, the buffer block is arranged on the smaller end of the infill block, and the infill block is wedged into the mounting hole of the restraint frame through a wedge surface mating. Because this protective structure is assembled by multiple restraint frames and infill blocks, under the prestress restraint of partition blocks, the damage range after penetration or explosion will be significantly reduced, and it can withstand multiple blows.

A manufacturing method of an intelligent anti-terrorism protective door comprises the following steps: S1, making front and rear door panels; S2, cutting the composite door core panel materials; S3, making protective door frame; S4, assembling bulletproof and explosion-proof armored composite door core panel; S5, making the door frame; S6, decorating the surface of the protective door; S7, overall assembly; S8, installing the lock; S9, packaging the protective door. The manufacturing method is simple and easy to implement, with strict control over every aspect from raw materials, production processes, to quality control during the manufacturing process, ensuring the product quality. This not only makes the product fire-proof and anti-theft, but also has explosion-proof and bulletproof properties, effectively preventing explosions and bullet attacks, greatly improving the security of the protective door.

Composite door systems that are configured for providing safety, security, and resistance to physical impacts or threats (natural and man-caused), and which can be utilized in barrier structures, such as for doors. The composite door systems may include one or more layers, each of which may have one or more fiber layers, such as fabric layers or plastic layers. The composite door systems may further include one or more additional layers of a sheet material, a fill material, or the like. The composite door systems are infinitely customizable and configured to be adapted to a variety of applications, and scalable levels of protection.

Composite door systems that are configured for providing safety, security, and resistance to physical impacts or threats (natural and man-caused), and which can be utilized in barrier structures, such as for doors. The composite door systems may include one or more layers, each of which may have one or more fiber layers, such as fabric layers or plastic layers. The composite door systems may further include one or more additional layers of a sheet material, a fill material, or the like. The composite door systems are infinitely customizable and configured to be adapted to a variety of applications, and scalable levels of protection.

A manufacturing method of an intelligent anti-terrorism protective door comprises the following steps: S1, making front and rear door panels; S2, cutting the composite door core panel materials; S3, making protective door frame; S4, assembling bulletproof and explosion-proof armored composite door core panel; S5, making the door frame; S6, decorating the surface of the protective door; S7, overall assembly; S8, installing the lock; S9, packaging the protective door. The manufacturing method is simple and easy to implement, with strict control over every aspect from raw materials, production processes, to quality control during the manufacturing process, ensuring the product quality. This not only makes the product fire-proof and anti-theft, but also has explosion-proof and bulletproof properties, effectively preventing explosions and bullet attacks, greatly improving the security of the protective door.