Beam detection has always been seen as the most economical way to protect large areas, but in the past this was seen as unreliable. Building movement and accessibility made beam detection unreliable, difficult, time consuming to commission and hard to maintain. Only now, with the introduction of the beam advanced technology, is reliability no longer a problem and beam detection be used with complete confidence.
The beam will self-align itself to the centre of the reflector when commissioning and will automatically keep alignment when building movement occurs. This intelligent motorisation will mean less false alarms therefore saving time, resources, reputations and ultimately money.
So what makes the beam different?
Two main attributes make the beam stand out from the crowd. A motorised beam head that continually self-aligns, and a low level controller from which all major functions can be performed.
The Motorised Head
The beam Motorised HeadUp until now, aligning an optical beam could well have been a nightmare, often giving uncertain results that can lead to false alarms. By utilising motors within the beam head the beam can make commissioning a safer and more accurate procedure. Our unique method of using high quality stepper motors allows us to make micro adjustments of just 1/40 of 1 degree to the beam head. This is automatically controlled by software which finds and continually monitors its position in relation to the reflector. A simple commissioning procedure ensures that you achieve perfect alignment every time and that your beam will keep that alignment.
Building movement is the enemy of beam detection, as the smallest movement of a building through heat changes or settlement will move a beam off its target (imagine a couple of degrees of movement in a 100m building). The beam will continually monitor any movement and re-align itself automatically. How many times have you had to return to a site and re-align beams at high level, and at what expense?