Height Above Ground | 1500mm |
Access Width | 1000mm |
Total Width | 1290mm |
Hinge Post Size | 80mm x 80mm |
Hinge Gap | 100mm |
Leaf Gap | 30mm |
Gate Hanging Side | Universally Handed |
Thickness of Wires | 868 (8mm and 6mm) |
Post Type | Square Hollow Section |
Gate Type | Pedestrian Gate |
Material | Pre-Galvanised Steel |
Finish | Powder Coated |
PPC Colours | Green & Black as Standard, Others Available On Request |
Compliant To | Pre-Galvanised Steel to BS EN 10346 / Powder Coated to BS 13438 |
Name | Quantity |
---|---|
Apollo 868 Mesh Gate Leaf | 1 |
Catch Gate Post | 1 |
Hinge Gate Post | 1 |
Adjustable Gate Eyes | 2 |
Ribbed Inserts for Posts | 2 |
Unislide Single Slider Padlockable Gate Kit | 1 |
Apollo Plate Kit | 1 |
Auto Locking Drop Bolt | 1 |
The Apollo 1.5m High x 1.0m Wide 868 Twin Mesh Single Leaf Gate Kit is a robust, professional-grade gate system engineered for locations requiring low to medium levels of security. Designed to integrate seamlessly with mesh fencing, this gate is ideal for a wide variety of environments including schools, playgrounds, sports grounds, industrial sites, and other public or private premises. With its resilient structure, clean finish, and straightforward installation, the Apollo single leaf gate delivers excellent value and long-term performance.
Crafted from high-quality pre-galvanised steel to BS EN 10346 and finished with a durable polyester powder coating to BS 13438, this gate is built to withstand the challenges of the outdoors. The twin mesh design features 6mm vertical wires intersecting with robust 8mm horizontal wires, welded at each joint for maximum strength and integrity. This wire configuration not only enhances rigidity but also makes the gate difficult to cut through, offering a strong deterrent against tampering and unauthorised access.
At 1.5 metres high and 1.0 metre wide, the single leaf gate is suited for pedestrian access where restricted or monitored entry is needed. The compact size ensures easy movement while still maintaining site security. The gate frame includes mitred corners for enhanced structural strength, ensuring long-lasting durability even in high-traffic areas or demanding environments.
One of the key benefits of this gate is its versatility. It is available with either bolt down or dig in posts to suit different ground conditions and installation preferences. The modular design means it works perfectly with standard sliding latches that can be secured with a padlock. For added security, it is compatible with digital security locks or quick-exit digital locks – ideal for settings where controlled access or emergency exit is required.
The Apollo gate kit is supplied with everything you need to erect a secure and reliable access point, including gate leaves, posts, sliding latch, drop bolt and fixings. The only items you’ll need to source separately are ground anchor bolts (for bolt down posts) or post mix (for dig in options). This all-in-one approach makes installation straightforward and stress-free.
We understand that maintaining a professional, uniform appearance across your fencing system is important. That’s why we also offer a range of matching mesh fencing accessories, sold separately, to help you adapt or expand your fencing as needed while keeping a cohesive look. This makes the Apollo gate ideal not only for new installations but also for upgrading or repairing existing fencing systems.
Available in a wide choice of RAL colours through a high-quality powder coated finish, this gate allows you to match your brand or site aesthetic with ease. Whether for a school boundary, playground entry, or access point at a business facility, the Apollo 1.5m High x 1.0m Wide 868 Twin Mesh Single Leaf Gate Kit offers a secure, adaptable, and visually consistent solution.
Our friendly and knowledgeable sales team are here to help with any questions you may have, so please don't hesitate to contact us. We can be reached by phone on 01283 512 111, by email at sales@firstfence.co.uk or you can speak to one of the team through the live chat system.