If this happens, the deadlatch can be easily defeated by an intruder. In many cases, this will cause the deadlatch to come off of the keeper and fall into the strike cavity. If the deadlatch appears to be resting on the keeper, give the door a good hard push and pull. If the deadlatch goes into the strike cavity instead of resting on the keeper, the deadlatching function isn't working properly. Look to see if the deadlatch rests upon the keeper as it is supposed to. What can the security system user do to correct this weakness? Here are a few suggestions:Įxamine all doors that have cylindrical locks and electric strikes to determine if the deadlatching function is working properly. It is ironic that, in most cases, doors equipped with cylindrical locks and electric strikes are easier to force open than doors with regular manual locks. In most cases, card readers and electric strikes are used on doors that allow access into high security areas. Many manufacturers specifically state in their literature that proper operation of the deadlatch cannot be guaranteed. Most electric strike manufacturers recognize that the deadlatching function will not work properly when their electric strikes are used with cylindrical locks. When Silva Consultants conducts a security assessment, we find that the deadlatch fails to work properly on as many as 6 out of 10 doors that we examine! The result: a door that can be very easily opened by an intruder. This prevents the deadlatch from operating correctly, and allows the latch to be easily pushed back using a knife or credit card. If the electric strike is not perfectly aligned, the deadlatch will fall into the cavity rather than resting upon the keeper as it is supposed to. This makes the alignment of the electric strike in relationship to the deadlatch very critical. Unfortunately, the keeper of the electric strike is usually only about an 1/8" wide. The electric strike is designed so that the deadlatch will rest upon the "lip" or "keeper" that is at the front of the electric strike. When a cylindrical lock is used with an electric strike, the latch enters into the cavity when the door is closed. The larger cavity allows the electric strike to work with a variety of different type of locksets and provides a little "wiggle room" to allow the electric strike to operate properly. Electric strikes have a much larger opening or "cavity" than a regular strike plate does. When an electric strike is installed on a door, the electric strike takes the place of the regular strike plate. When the deadlatch is depressed, the latch cannot be pushed back from the outside. The latch itself goes into the hole on the strike plate, but the deadlatch rests on the edge of the hole and is depressed against the strike plate when the door is closed. When cylindrical locks are used with on doors without electric strikes, the deadlatch rests on the metal strike plate that is mounted on the door frame. The purpose of the deadlatch is to prevent the latch from being pushed back with a knife or credit card when the door is closed. The "deadlatch" is a small metal piece that is located at the back of the latch assembly. One common problem that occurs when cylindrical locks are used with electric strikes is that the "deadlatch" fails to work properly. These locks are similar to the type that most people have on their doors at home. Electric strikes are one of the most common types of lock hardware used with card access control systems.įrequently, electric strikes are used with "cylindrical locks", sometimes called "knob locks".
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