Reliable road blockers and rising kerbs ensure maximum security

Reliable road blockers and rising kerbs ensure maximum security

Macs Automated Bollards automatic road blockers and rising kerbs are a reliable and robust option to secure entry and exit vehicle lanes.

Their road blockers have a width of up to 4m, providing a secure barrier when integrated into a wider security system.

Fully welded, the 8000 rising kerbs have a robust construction allowing them to operate in the harshest of weather conditions.

The reliable solution provides protection against unwanted vehicle access and provides a deterrent against intruders.

Macs rising kerbs are fully automatic and use high quality hydraulic technology, meaning a long durable life requiring minimal maintenance.

The galvanised and MMA flexgrip paint finish ensures the highest visibility for vehicles approaching whilst also ensuring a long-lasting finish for many years to come.

With crash rated options available (10000 series, rated to K8 and K12 standards), the blockers provide a reliable and secure perimeter protection solution.

Crash tested at MIRA (Motor Industry Research Association) and passing 100% with ‘0' penetration, the 10000 series road blockers are driven via a hydraulic 7.5Kw power pack with inverter/plc controls.

Add to Project Board

Create a new project board:


Macs Automated Bollard Systems Ltd

Macs Automated Bollard Systems Ltd

Founded in 2008, Macs Automated Bollard System Ltd has grown year on year servicing a large customer base all over the UK.

Starting with customer satisfaction in mind from the start, Macs Automated Bollards is a team of experienced advisers...
View company profile
T0161 320 6462
F0161 320 6463
E[email protected]
WVisit Macs Automated Bollard Systems Ltd's website
 Unit 8.1b Tameside Business Park, Windmill Lane, Denton, Manchester, M34 3QS

Make an enquiry to Macs Automated Bollard Systems Ltd

You may also be interested in this related Product News: Introducing Macs Automated Bollard Systems removable Bollards! Read Now