COOLANT RESERVOIR AND CIRCULATION ASSEMBLIES AND SYSTEMS

Organization Name

Koolance, Inc.

Inventor(s)

Kioan Cheon of Auburn WA (US)

COOLANT RESERVOIR AND CIRCULATION ASSEMBLIES AND SYSTEMS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240021906 titled 'COOLANT RESERVOIR AND CIRCULATION ASSEMBLIES AND SYSTEMS

Simplified Explanation

The abstract describes a battery coolant reservoir assembly that includes an exterior structure with an interior space, a flexible coolant retaining pouch connected to a manifold, and a battery module placed inside the coolant retaining pouch. The coolant retaining pouch is located within the interior space of the exterior structure. The abstract also mentions that related systems and methods are provided.

• The battery coolant reservoir assembly consists of an exterior structure, a coolant retaining pouch, and a battery module.
• The exterior structure has an interior space that houses the coolant retaining pouch.
• The coolant retaining pouch is flexible and is connected to a manifold.
• The battery module is placed within the coolant retaining pouch.
• The assembly is designed to retain coolant for the battery module.

Potential applications of this technology:

• Electric vehicles: The battery coolant reservoir assembly can be used in electric vehicles to efficiently cool the battery module, ensuring optimal performance and longevity.
• Energy storage systems: This technology can be applied in energy storage systems that utilize batteries, such as renewable energy storage, to maintain the temperature of the battery module and enhance its efficiency.

Problems solved by this technology:

• Overheating: The coolant reservoir assembly helps prevent the battery module from overheating by providing a means for efficient cooling.
• Space optimization: By integrating the coolant retaining pouch within the interior space of the exterior structure, the assembly optimizes space utilization.

Benefits of this technology:

• Improved battery performance: The assembly ensures that the battery module remains at an optimal temperature, which can enhance its performance and extend its lifespan.
• Space-saving design: By integrating the coolant retaining pouch within the interior space, the assembly minimizes the overall footprint, making it suitable for various applications where space is limited.
• Efficient cooling: The flexible coolant retaining pouch and manifold design enable efficient distribution of coolant, ensuring effective cooling of the battery module.

Original Abstract Submitted

a battery coolant reservoir assembly can include an exterior structure having an interior surface defining an interior space, a flexible coolant retaining pouch coupled to a manifold, and a battery module disposed within the coolant retaining pouch. the coolant retaining pouch can be disposed in the interior space of the exterior structure. related systems and methods are also provided.