Protect and enhance your existing wire shelving with these clear acrylic shelf covers, designed to provide a smooth, level surface while keeping smaller items safely supported.
Each pack includes two 915mm wide covers, available in a choice of depths to suit your shelving layout and storage requirements.
Product Features
- Clear acrylic construction maintains visibility of stored items
- Creates a flat surface on wire shelves for small or unstable items
- Helps prevent items from tipping, snagging or falling through gaps
- Easy to wipe clean for hygienic storage areas
- Supplied in cost-effective packs of two covers
- Available in a range of depths to match common wire shelf sizes
Key Specifications
| Product type | Clear acrylic shelf covers |
|---|---|
| Quantity per pack | 2 covers |
| Width | 915 mm |
| Available depths | 355 mm, 455 mm, 610 mm |
| Material | Clear acrylic |
| Typical use | Surface protection and levelling for wire shelving |
| Price range | £198.60 - £287.40 (depending on depth) |
Applications
- Retail stockrooms requiring stable, easily cleaned shelf surfaces
- Food preparation and catering storage areas
- Pharmacies and healthcare stores needing clear visibility of contents
- Office, archive and general storerooms using wire shelving
- Light industrial and workshop storage systems
Frequently Asked Questions
Do these acrylic covers fit all 915mm wide wire shelves?
The covers are designed for shelves with a 915mm width. As long as your wire shelving matches this width and one of the listed depths, the covers will provide a suitable surface.
Can the acrylic shelf covers be cleaned easily?
Yes, the smooth acrylic surface can be wiped down with a soft cloth and a mild cleaning solution, making them suitable for environments where hygiene and cleanliness are important.
Are these covers strong enough for heavy loads?
The covers are intended to create a flat surface on existing wire shelving, which continues to take the structural load. As long as the shelf itself is not overloaded, the covers will perform effectively for typical storage applications.