DYNALOCK, 3101C DELAY EGRESS MAGNETIC LOCK, 1500LBS
- Brand
- DynaLock
- SKU:
- 3101C
- Condition:
- New
- Model:
- DYNALOCK, 3101C DELAY EGRESS MAGNETIC LOCK, 1500LBS
DYNALOCK, 3101C DELAY EGRESS MAGNETIC LOCK, 1500LBS
Includes armature plate and installation hardware.
Usage/Features
•Prevent Unauthorized Exits
•Completely Self Contained
•Unique Sensor Unaffected by Minor Door Misalignment
•12/24 VDC/VAC, Auto-Sensing
• Lifetime Warranty
PRODUCT OVERVIEW
In a typical installation, the door is normally closed and latched by the existing mechanical door hardware and magnetically secured by the 3101C Lock. Attempting to exit by unlatching and pushing on the door will activate the 3101C delay egress timer. The audible and red LED will pulsate for 15 seconds (30 seconds field selectable).
After the time delay has elapsed, the lock will release and the audible will sound continuously with a green LED, until the door is shut and the lock is reset. Reset and/or bypass are accomplished with a built-in key switch or remote signal. The system unlocks automatically when the 3101C is integrated with the building emergency fire alarm system or power is removed. Fire alarm contacts on the 3101C Lock are field selectable for NO and NC signals.
STANDARD FEATURES
- 1500lbs of Holding Force
- Armature Plate and install hardware included
- The advanced digital processor manages all lock functions
- Selectable Nuisance Delay (1 or 3 seconds)
- Egress Delay (15 or 30 seconds)
- Audible 87db alarm with LED
- On-Board key switch for system reset and bypass
- Concealed optical sensor unaffected by wind, warpage or door sag
- Long-Lasting Performance
- 12/24 VAC/VDC operation, auto-sense
- Made in the USA
- Lifetime Warranty
TECHNICAL SPECIFICATIONS
- Magnet Size: 11"L x 2-3/4"H x 3"D
- Armature Size: 7-3/8"L x 2-5/16"H x 1/2"D
- Current Draw: 453mA @ 12VDC, 254mA @ 24VDC
- Weight: 11.5lbs
MODELS
- 3101C Single Electromagnetic Lock Outswing
FINISHES
- US28 Satin Aluminum with clear anodize *other finishes available, special order
The item may not represent the actual product of finish