Description
Concrete Bucket
The Forked Beam Bucket is your perfect solution to place concrete in hard to reach areas. This versatile bucket attachment can be used as a front receiving hopper or floor hopper (Beam Bucket Riser sold separately SKU#FHR-VFL). It is suitable for telehandlers, rough terrain forklifts, skid steers, tractors and front-end loaders. Fabricated from heavy gauge steel and all-welded construction, this durable concrete bucket is an easy choice for your next job.
Offset gate
Featuring a capacity of 1 Cu Yd, this concrete bucket allows you to place significant amounts of concrete at once, a smart alternative that saves you the cost of a concrete pump or crane. The offset gate permits pouring into forms against adjacent walls and against rebar, ideal for columns, slabs, beams, and walls. This attachment features a discharge gate that is manually controlled with a handle.
Chute Included
Unlike concrete buckets offered by competitors, the Forked Beam Bucket includes the steel chute. The slope of the chute is fully adjustable to allow it to be stowed, raised and/or lowered, as needed. Plus, the chute opening is 9.75″ in width allowing ample room to shovel concrete along.
Fork Pockets
This bucket attachment has “universal fit” fork pockets and easily slides over forks of telehandlers, rough terrain forklifts, skid steers, tractors and front-end loaders. The fork pockets are 36″ deep and will fit forks up to 2.50″ thick and 7.50″ wide. This concrete bucket also features 2 fork pocket retention pins to secure the hopper to the forklift.
CAUTION: OSHA requires contacting the manufacturer of your forklift to request specifications for the use of any forklift attachments to ensure your equipment has the adequate capacity to handle the desired load. Refer to your forklift operator manuals for more information.
Product images shown are for illustration purposes only and may vary from actual product.
*Note: Always distribute load evenly. When uniform weight capacity is calculated for any product, the capacity is based on the weight being uniformly distributed over the entire usable area.
