FLIR 500-1115-00 PT-Series Small Pole Adapter for Wall Mount
When mounting FLIR PT-Series pan-tilt cameras on narrow poles or conduit runs where a standard wall mount base won't fit, this small pole adapter provides the structural interface you need. Designed to bridge the gap between wall mount brackets and smaller-diameter vertical surfaces, this adapter expands mounting flexibility for integrators dealing with constrained installation points or retrofit scenarios where existing infrastructure limits your options.
Key Features
- Engineered specifically for FLIR PT-Series pan-tilt camera systems
- Converts wall mount configuration to small-diameter pole mounting capability
- Enables installation on conduit, light poles, and narrow vertical structures
- Maintains structural integrity and load requirements for PT-Series cameras
- Weather-resistant construction suitable for outdoor deployments
- Simplifies mounting in retrofit applications with limited anchor points
The adapter solves a common field problem: you've specified a PT-Series camera for perimeter coverage, but the only viable mounting location is a 3-inch pole or an existing conduit run. Rather than fabricating custom brackets or relocating infrastructure, this purpose-built adapter provides a tested mounting solution that maintains the stability required for pan-tilt operation. The mechanical design accounts for the dynamic loads generated during camera movement, preventing the wobble or drift that can occur with improvised mounting solutions.
For integrators working on parking structure surveillance, campus lighting pole retrofits, or industrial sites where pipe and conduit are the dominant mounting surfaces, this adapter streamlines installation planning. It eliminates the need for custom metalwork while ensuring the camera mount meets the same structural standards as traditional wall-mount deployments. When your site survey reveals limited mounting options but the surveillance requirement remains firm, this adapter keeps the project on specification without engineering delays or field modifications.
