KEL DOC-C-A Leather Docker Gloves - EN 388
Heavy-Duty Mechanical Protection for Rugged Handling Tasks
The KEL DOC-C-A (Canadian Rigger Style) Leather Docker Glove is the industry standard for high-abrasion work environments. Built for durability and worker safety, this glove features a premium natural split cowhide leather palm and fingertips, providing a rugged barrier against mechanical risks while maintaining the flexibility needed for long shifts.
Designed for heavy-duty applications, the DOC-C-A includes a reinforced split leather patch on the palm, thumb, and index finger to extend the life of the glove in high-wear zones. The breathable cotton canvas back and internal cotton palm lining ensure superior sweat absorption and thermal comfort, making it suitable for year-round use in challenging industrial climates.
Core Technical Specifications:
Brand & Model: KEL DOC-C-A
Style: Docker
Compliance Standards: EN 388:2016 (3143X)
Abrasion Resistance: Level 3
Tear Resistance: Level 4
Puncture Resistance: Level 3
Materials: Natural Split Cowhide Leather (Palm/Reinforcements) and Cotton Canvas (Back/Cuff)
Safety Features: Integrated leather artery protector and reinforced safety cuff
Adjustment: Elasticated back for a secure, non-slip fit
Size: Universal Industrial Size (10)
Key Industrial Defenses:
Critical Artery Protection: The extended split leather patch on the wrist protects the radial artery from sharp edges and accidental punctures.
Enhanced Mechanical Grip: The split leather surface provides superior grip on abrasive materials, oily pipes, and heavy equipment controls.
High-Tear Resistance: Level 4 tear resistance ensures the glove won't shred when handling jagged scrap metal or rough timber.
Thermal Barrier: The combination of thick leather and cotton lining provides a baseline buffer against hot surfaces and friction-generated heat.
Ideal Industries & Applications:
Construction & Heavy Engineering
Logistics, Warehousing & Shipping Ports
Metal Fabrication & Scrapyard Handling
Agriculture & Heavy Equipment Operation