Bott 2 Door Sheet Steel Cupboard, 1300 x 550 x 2000mm

Subtotal (1 unit)*

£998.41

(exc. VAT)

£1,198.09

(inc. VAT)

Add to Basket
Select or type quantity
Temporarily out of stock
  • Shipping from 31 October 2025
Need more? Click ‘Check delivery dates’ to find extra stock and lead times.
Units
Per unit
1 +£998.41

*price indicative

RS Stock No.:
659-269
Mfr. Part No.:
16926671.19
Brand:
Bott
Find similar products by selecting one or more attributes.
Select all

Brand

Bott

Type

Shelf Cupboard

Number of Doors

2

Number of Shelves

4

Material

Sheet Steel

Dimensions

1300 x 550 x 2000mm

RoHS Status: Exempt

COO (Country of Origin):
GB
The Bott Verso Shelf Cupboard seamlessly combines functionality and robustness, designed to optimise storage in any workspace. Constructed from fully welded steel, this cupboard features double sliding doors that provide easy access while conserving space. With its four adjustable galvanised steel shelves, each capable of supporting up to 75kg, it accommodates diverse storage needs. Finished in an appealing light grey and anthracite grey powder coat, it not only meets aesthetic standards but also ensures durability. This cupboard, with dimensions of 1300mm in width, 550mm in depth, and 2000mm in height, integrates a sophisticated yet practical solution for organising tools, equipment, and materials in garages, workshops, or industrial environments.

Fully welded steel housing enhances stability and durability
Double sliding doors optimise space efficiency
Four adjustable height galvanised steel shelves facilitate versatile storage options
Chic powder coated finish in RAL 7035 light grey and RAL 7016 anthracite grey adds a modern touch
Robust shelf load capacity of 75kg caters to heavy tools and equipment
Ideal for various applications in professional workshops and manufacturing settings
Compact dimensions allow for flexible placement in tighter spaces
Heavy duty construction ensures longevity and reliability in demanding environments
Sliding door design reduces swing radius maximising access even in limited spaces

Related links