![]() ![]() It does not matter how many or how big the pins are, the usual mode of failure is the tinwork that is supposed to hold them in place. What happens when you do real world testing on the cheap ornamental doors that are called “vault” doors by online marketing outlets?Īll those shiny pins get deflected and wrinkle up the thin sheet metal. The other half will be captured in the machined steel barrel going through the door leaf. The attacker will be left holding the operating bar with half the shaft welded to it. If the handle is forced with a jack or a cheater bar, the shaft will shear off inside the door leaf. The latch operating handle has a shaft with a machined break point. It has a flexible wire connection through a pipe to the deadbolt box mounted on the offset floating hard plate on the inside of the door. The encrypted keypad is sacrificial and will not allow the door to be breached if it’s attacked. With the hinges on the inside, there is not a lot to attack from the outside. We turn up a leg of the flat threshold to form a stepover so we have a place to extend the door seal on the bottom for 360 degree sealing. It has a topcoat of hammered metal black paint and a flat threshold. This is the outside view of a 36″ x 80″ inward swinging safe room door with a pour in place frame made for a 12″ thick wall. There is also a shoulder machined on the shaft that prevents punching out the remaining part of the shaft after it shears off.Įvery little detail has been thought through to ensure your safe room door cannot be breached! The shear point will snap before the deadbolt gives way. This shaft has a machined shear point that will break if a cheater bar is put on the outside handle to force it open. It is mounted in a machined steel barrel that has oil impregnated bronze bushings and a stainless steel grease fitting. The 3/4″ solid steel shaft that goes through the door and links the inside and outside cam handles. The cam plates cannot rotate unless the deadbolt retracts from a correct code entered into the keypad (from the outside) or the release handle is rotated (from the inside). This is a mechanical release that prevents you from getting trapped inside your safe room due to electronic failure. This floating hard plate has a handle that allows you to rotated the deadbolt out of engagement with the lock bar. Drilling out the small shaft the wire goes through will miss the inside deadbolt and all other internal mechanisms. The inside deadbolt box is mounted on a rotating hard plate that is offset from the outside keypad. The code to open the deadbolt is stored in firmware in the deadbolt box on the inside, not in the keypad. There is a wire that goes from the keypad to the deadbolt. This door features an electronic keypad on the outside that operates a deadbolt lock on the inside of the door. This unique rotating hard plate allows for a mechanical release lever on the inside that ensures you will always be able to ex-filtrate your safe room!. ![]() An encrypted electronic keypad on the outside is connected to a deadbolt mounted on a rotating hard plate on the inside.The thin sheet metal shroud holding the pins always fails first. This is way beyond what the cheap ornamental “vault” style doors will hold – no matter how many pins they claim to have. That means it will take TWENTY-TWO TONS of force to make the latches fail. Each of these massive latches are engineer certified to hold over 14,000 pounds.The three rotating cam latches are slaved together and are operated by one lever.Ballistic resistance – 7.62 NATO ball ammunition makes it about half way through the door panel.A thousand pounds of c oncrete cannot be cut with a torch and it has an engineer certified blast rating of 50 PSI!.It features a steel envelope door panel that you fill with concrete after the door is installed on the wall.This is the safe room door that the cheap “vault door” outlets don’t want you to see ![]()
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