Heavy-duty casters are specially designed moving devices that are commonly used to transport heavy objects.
To protect objects from damage caused by vibration and impact during transportation, these heavy-duty casters are usually equipped with a shock absorption system.
The shock absorption system is designed to reduce the impact of vibration and impact on the transported object and provide a smoother transportation process.
One common shock absorption system uses springs or shock absorbers. These devices can absorb and disperse vibration and impact forces, thereby protecting the integrity of the object.
A spring is an elastic material that can absorb energy and convert it into potential energy.
During transportation, when the caster is subjected to vibration and impact, the spring will be compressed or stretched to absorb energy and reduce its transmission to the object. This design can effectively reduce the impact of vibration and impact, thereby protecting the object from damage.
Another common shock absorption system is a shock absorber.
Shock absorbers are usually composed of liquid and gas, and can suppress vibration and impact forces through the damping effect. When the caster is subjected to vibration and impact, the shock absorber will absorb and dissipate energy, reducing its transmission to the object. This design can effectively reduce vibration and impact, protecting the integrity of the transported object.
The special design of heavy-duty casters can also include other shock absorption systems, such as shock pads and shock-absorbing suspension systems.
Shock pads are soft and elastic materials that can provide additional cushioning and shock absorption effects during transportation. Shock-absorbing suspension systems can provide shock absorption effects that adapt to different weights and road conditions by adjusting the stiffness and damping of the suspension system.
The unique design of heavy-duty casters usually includes a shock absorption system to reduce vibration and impact during transportation.
These shock absorption systems can protect the transported objects from damage by absorbing and dispersing vibration and impact forces. This design can provide a smoother and safer transportation experience.