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20240035936. Geological Sample Holder simplified abstract (PlotLogic Pty Ltd)

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Geological Sample Holder

Organization Name

PlotLogic Pty Ltd

Inventor(s)

Andrew Job of Queensland (AU)

Matthew Garlan of Queensland (AU)

Johann Wyss of Queensland (AU)

Geological Sample Holder - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240035936 titled 'Geological Sample Holder

Simplified Explanation

The abstract describes a battery pack assembly that consists of a battery enclosure with various panels defining a module containing volume. The assembly can accommodate multiple battery modules, including a first, second, and third battery module. The first and second battery modules are stacked in a column orientation, while the third battery module is positioned adjacent to the column.

  • The battery pack assembly includes a battery enclosure with multiple panels.
  • It can hold multiple battery modules within its module containing volume.
  • The first and second battery modules are stacked in a column orientation.
  • The third battery module is positioned adjacent to the column of battery modules.

Potential Applications:

  • Electric vehicles: The battery pack assembly can be used in electric vehicles to provide power for propulsion.
  • Energy storage systems: It can be utilized in energy storage systems to store and release electrical energy.
  • Portable electronics: The assembly can be incorporated into portable electronic devices to provide a reliable power source.

Problems Solved:

  • Efficient use of space: The stackable design of the battery modules allows for optimal utilization of the available volume within the battery enclosure.
  • Modular configuration: The ability to accommodate multiple battery modules provides flexibility in terms of capacity and power output.

Benefits:

  • Increased energy storage capacity: The assembly can house multiple battery modules, allowing for a higher overall energy storage capacity.
  • Improved scalability: The modular design enables easy scalability by adding or removing battery modules as needed.
  • Space-saving: The stackable configuration saves space, making it suitable for applications with limited available space.


Original Abstract Submitted

a battery pack assembly comprises a battery enclosure having a first side panel, a second side panel, a third side panel, a fourth side panel, a top panel, and a bottom panel defining a module containing volume. the battery pack assembly may contain a plurality of battery modules in the module containing volume, the plurality of battery modules having a first battery module, a second battery module, and a third battery module. the first battery module and the second battery module are positioned in a first orientation and stacked to form a column of battery modules and the third battery module is positioned in a second orientation and positioned adjacent to the column of battery modules.

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