Lazer Lamps VW Golf (2017+) Bumper Beam Mounting Kit PN: VIFK-GOLF-01K
The Bumper Beam Mounting Kit for the VW Golf MK7 is a specially engineered mounting solution that allows for the fitting of a range of Lazer High Performance LED Driving Lights, fixed directly to the bumper beam of the vehicle, behind the lower front grille, for a totally secure and discreet auxiliary light install.
(incl. VAT £480.00)
The Bumper Beam Mounting Kit for the VW Golf MK7 is a specially engineered mounting solution that allows for the fitting of a range of Lazer High Performance LED Driving Lights, fixed directly to the bumper beam of the vehicle, behind the lower front grille, for a totally secure and discreet auxiliary light install.
Compatible with any of our road-legal driving lights across the Linear, Triple-R, or ST ranges, the mounting brackets themselves are made from 3mm mild steel, with e-coat satin black powder coat, and come supplied with 4x rivets for secure fixing to the bumper beam. The variety of lighting options available allows you to match the beam pattern perfectly for your driving style, and considering the roads you drive on.
*This is for the brackets only*
The brackets can be used with:
2 x ST-4
1 x ST-8 or ST-12
2 x Triple-R 750
1 x Triple-R 1000 or 1250
2 x Linear-6
1 x Linear-12 or Linear-18
With no compromises in component parts or production techniques, as with all Lazer products, we have taken every step to maximise lighting performance, and build quality, to ensure your lighting installation remains in excellent condition for years to come, backed up by our comprehensive 5yr warranty.
Where the vehicle has Xenon or LED headlights as standard, it may not be possible to detect a 12V high beam signal. In these instances it will be necessary to complete the electrical installation using a Lazer CAN Interface. For advice on how to check for a 12V high beam signal, please click here.
During sale periods, please allow some additional time. We will attempt to call or email you if we become aware of an unexpected delay.