Hafele America Co. 102 Manuel D’Utilisation
Hafele America Co.
9
Document No.: DIA.DPR.013
Dialock Dept.
Document Date: 12/17/2001
(888) 437-7477
Print Date: 2/8/2002
internal solenoid. The push button is held in the depressed position during all
locked situations. To open the LockerLock, depress the push button with an
authorized user key. An audible “click” will be heard (this indicates that the
solenoid been released). Remove the key from the push button and the button
will spring out releasing the dead bolt. Repeat this process as required.
Battery Changing Procedure
The expected battery life for the LockerLock unit is an estimated 10,000 lock
cycles. Batteries should last for 3 years (based on ten lock cycles per day). For
safety purposes, batteries should be changed between 1 ½ to 2 years after
installation.
In the case that the batteries are low on energy, the unit will not be capable of
locking (by design) until the batteries are changed. The indicator lights on the
back of this unit will flash green and red alternating in the case of low battery
power.
To change the batteries, place the Battery Removal tool over the battery cover
(match contours of the battery cover and tool). Slide assembly down to pull
cover off. Change batteries following the polarity (+/-) signage on the LockerLock
body. Replace battery cover. The two extension hooks on the cover will have to
be pressed in as the cover is reseated. Make sure the cover is secured. The unit
is once again ready for operation.
Theory of Operation
When the front button is depressed, the electronic circuitry inside the LockerLock
wakes up. An antenna set around the button starts to transmit radio frequency
signals.
The key has a miniature antenna and circuitry that obtain power from the radio
signal. The key then sends back its identification information through a radio
signal of its own. The LockerLock receiver decodes this information, compares it
with the authorization instructions that are stored in its brain, and will operate the
lock to allow the latch to be retracted if the ID of the key matches the list.
locked situations. To open the LockerLock, depress the push button with an
authorized user key. An audible “click” will be heard (this indicates that the
solenoid been released). Remove the key from the push button and the button
will spring out releasing the dead bolt. Repeat this process as required.
Battery Changing Procedure
The expected battery life for the LockerLock unit is an estimated 10,000 lock
cycles. Batteries should last for 3 years (based on ten lock cycles per day). For
safety purposes, batteries should be changed between 1 ½ to 2 years after
installation.
In the case that the batteries are low on energy, the unit will not be capable of
locking (by design) until the batteries are changed. The indicator lights on the
back of this unit will flash green and red alternating in the case of low battery
power.
To change the batteries, place the Battery Removal tool over the battery cover
(match contours of the battery cover and tool). Slide assembly down to pull
cover off. Change batteries following the polarity (+/-) signage on the LockerLock
body. Replace battery cover. The two extension hooks on the cover will have to
be pressed in as the cover is reseated. Make sure the cover is secured. The unit
is once again ready for operation.
Theory of Operation
When the front button is depressed, the electronic circuitry inside the LockerLock
wakes up. An antenna set around the button starts to transmit radio frequency
signals.
The key has a miniature antenna and circuitry that obtain power from the radio
signal. The key then sends back its identification information through a radio
signal of its own. The LockerLock receiver decodes this information, compares it
with the authorization instructions that are stored in its brain, and will operate the
lock to allow the latch to be retracted if the ID of the key matches the list.