EQUIPMENT STAND OPTIMIZED TO MINIMIZE NOISE FLOOR

Organization Name

Unknown Organization

Inventor(s)

Michael P. Latvis, Jr. of Buffalo NY (US)

EQUIPMENT STAND OPTIMIZED TO MINIMIZE NOISE FLOOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240008640 titled 'EQUIPMENT STAND OPTIMIZED TO MINIMIZE NOISE FLOOR

Simplified Explanation

The abstract describes a storage stand with at least one shelf. The shelf is bounded by a perimeter, which is defined by at least four points forming a polygon. The points create a mounting axis of rotation with respect to its adjacent clockwise and counterclockwise points. Within the perimeter, there are at least four mounting locations, each with a compression centroid. Each mounting location forms a compression axis of rotation with respect to its adjacent clockwise and counterclockwise mounting locations, and at least one compression axis of rotation is non-parallel to its respective mounting axis of rotation.

• The storage stand has at least one shelf bounded by a polygonal perimeter.
• The perimeter is defined by at least four points forming a mounting axis of rotation.
• There are at least four mounting locations within the perimeter.
• Each mounting location has a compression centroid.
• Each mounting location forms a compression axis of rotation with respect to its adjacent mounting locations.
• At least one compression axis of rotation is non-parallel to its respective mounting axis of rotation.

Potential applications of this technology:

• Home organization systems
• Retail store displays
• Warehouse storage racks
• Garage shelving units

Problems solved by this technology:

• Efficient use of space
• Easy access to stored items
• Versatile storage options

Benefits of this technology:

• Maximizes storage capacity
• Allows for flexible arrangement of shelves
• Provides easy rotation and access to items on the shelves

Original Abstract Submitted

a storage stand, comprising at least one shelf, the shelf bounded by a perimeter, the perimeter having at least four points defining a polygon, the at least four points forming a mounting axis of rotation with respect to its adjacent clockwise point and its adjacent counter-clockwise point, and at least four mounting locations arranged within the perimeter of the at least one shelf, each of the four mounting locations having a compression centroid, each mounting location forms a compression axis of rotation with respect to its adjacent clockwise mounting location and its adjacent counterclockwise mounting location such that at least one compression axis of rotation is non-parallel to its respective mounting axis of rotation.