| Image | Part Number | Description / PDF | Quantity | Rfq |
|---|---|---|---|---|
 |
J.W. Winco |
NYLON BASE LEVELING MOUNT SS |
30 |
|
 |
J.W. Winco |
STEEL LEVELING FEET |
30 |
|
 |
J.W. Winco |
STEEL INDUSTRIAL GLIDE |
30 |
|
 |
J.W. Winco |
NYLON BASE LEVELING MOUNT STEEL |
30 |
|
 |
J.W. Winco |
NYLON BASE LEVELING MOUNT STEEL |
30 |
|
 |
J.W. Winco |
STAINLESS STEEL LEVELING FEET |
136 |
|
 |
J.W. Winco |
NYLON BASE LEVELING MOUNT SS |
30 |
|
 |
J.W. Winco |
STEEL LEVELING FEET |
30 |
|
 |
J.W. Winco |
STEEL LEVELING FEET |
98 |
|
 |
J.W. Winco |
STAINLESS STEEL LEVELING FEET |
30 |
|
 |
J.W. Winco |
STEEL BASE LEVELING FEET |
300 |
|
 |
J.W. Winco |
RUBBER BUMPER CYLINDRICAL STEEL |
100 |
|
 |
J.W. Winco |
STAINLESS STEEL LEVELING FEET |
30 |
|
 |
J.W. Winco |
STAINLESS STEEL LEVELING FEET |
30 |
|
 |
J.W. Winco |
NYLON BASE LEVELING MOUNT STEEL |
30 |
|
 |
J.W. Winco |
STEEL LEVELING FEET |
30 |
|
 |
J.W. Winco |
STAINLESS BASE LEVELING FEET |
30 |
|
 |
J.W. Winco |
RUBBER BUMPER CYLINDRICAL SS |
30 |
|
 |
J.W. Winco |
ANTI-VIBRATION LEVELING MOUNT |
105 |
|
 |
J.W. Winco |
STEEL ZINC PLATED LEVELING FEET |
30 |
|
Bumpers, feet, pads, and grips are critical hardware components designed to provide mechanical support, vibration damping, surface protection, and slip resistance. These accessories play a vital role in enhancing equipment durability, safety, and operational efficiency across industrial, commercial, and consumer applications. Their importance has grown with advancements in automation, robotics, and precision manufacturing.
| Type | Functional Characteristics | Application Examples |
|---|---|---|
| Rubber Bumpers | High impact absorption, noise reduction, chemical resistance | Industrial machinery guards, automotive door seals |
| Adjustable Feet | Load distribution, height leveling, vibration isolation | CNC machine bases, server racks |
| Anti-Slip Pads | High friction coefficient (0.8-1.2), temperature resistance | Electronic device bases, medical equipment |
| Ergonomic Grips | Vibration damping, thermal insulation, tactile feedback | Power tools, robotic arms, mobility aids |
Typical construction includes: - Base Materials: Thermoplastic elastomers (TPE), silicone rubber, polyurethane - Core Structure: Metal inserts (steel/zinc alloys) for load-bearing - Surface Treatment: Textured patterns for enhanced friction - Mounting Systems: Threaded studs, adhesive backing, snap-fit mechanisms
| Parameter | Description | Importance |
|---|---|---|
| Hardness (Shore A) | Material rigidity (30-90 Shore A) | Directly affects shock absorption capability |
| Load Capacity | Static/dynamic weight limits (5-500 kg) | Ensures structural integrity under stress |
| Temperature Range | Operational limits (-40 C to 150 C) | Determines environmental compatibility |
| Friction Coefficient | Surface grip performance (0.6-1.5) | Critical for slip prevention |
| Manufacturer | Key Products | Specialization |
|---|---|---|
| 3M | Scotch-Weld pads | Adhesive-based mounting solutions |
| Rubbermaid Commercial | Shock-absorbing bumpers | Heavy-duty industrial applications |
| McMaster-Carr | Adjustable leveling feet | Modular mechanical components |
Key considerations include: - Environmental factors (chemical exposure, UV resistance) - Load requirements (static vs dynamic forces) - Surface compatibility (delicate surfaces require softer materials) - Regulatory compliance (FDA for food processing, RoHS for electronics) - Maintenance accessibility (replaceable modular designs)
Current developments include: - Smart materials with variable durometer properties - Nanotechnology-enhanced friction surfaces - 4D-printed components with shape-memory capabilities - Increased adoption of bio-based polymers for sustainability - Integration with IoT sensors for condition monitoring