Switchgear with a lifting main body using a pivot axis and cylinder for disaster protection
This technology relates to a switchgear designed to withstand natural disasters by lifting its main body using a pivot-coupled axis and cylinder structure connected to the outer and inner housing.
Conventional switchgear has been difficult to protect during natural disasters such as flooding or heavy rain.
To address this, the technology uses a cylinder-piston axis and a pivot-coupled axis to raise the main body, protecting the power distribution equipment during disaster situations.
Key Features:
- Disaster-resilient switchgear including an inner housing seated within an outer housing that contacts the ground
- The outer housing consists of a flat base wall in contact with the ground and vertical walls protruding upward from the perimeter of the base wall
- Includes an L-shaped first axis and a second axis pivot-coupled at one end to the top of the first axis, with the main body pivot-coupled to the other end of the second axis
- Protects the switchgear during natural disasters by lifting the main body using a cylinder axis and piston axis