18583879. METHOD OF MANUFACTURING BATTERY MODULE simplified abstract (SK On Co., Ltd.)
METHOD OF MANUFACTURING BATTERY MODULE
Organization Name
Inventor(s)
Min Jeong Hong of Daejeon (KR)
METHOD OF MANUFACTURING BATTERY MODULE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18583879 titled 'METHOD OF MANUFACTURING BATTERY MODULE
- Simplified Explanation:**
The patent application describes a method of manufacturing a battery module by preparing battery cells with an adhesive layer, applying energy to increase adhesion, and stacking the cells with the adhesive layer in between.
- Key Features and Innovation:**
- Preparation of battery cells with an adhesive layer - Application of energy to increase adhesion - Stacking of battery cells with adhesive layer in between
- Potential Applications:**
- Battery manufacturing industry - Electric vehicle batteries - Energy storage systems
- Problems Solved:**
- Enhancing adhesion between battery cells - Improving overall battery module durability
- Benefits:**
- Increased reliability of battery modules - Enhanced performance of battery systems - Extended lifespan of battery modules
- Commercial Applications:**
Title: Enhanced Battery Module Manufacturing Process Potential commercial uses include battery production for electric vehicles, renewable energy storage systems, and portable electronic devices. This innovation could lead to more efficient and durable battery modules, impacting various industries.
- Prior Art:**
Readers can explore prior art related to battery cell adhesion technologies, battery module manufacturing methods, and advancements in energy storage systems.
- Frequently Updated Research:**
Stay informed about the latest developments in battery technology, adhesive materials, and manufacturing processes to optimize battery module performance and durability.
- Questions about Battery Module Manufacturing:**
1. How does the increased adhesion in battery cells impact the overall performance of the battery module?
- The enhanced adhesion ensures better connectivity between cells, leading to improved efficiency and durability of the battery module.
2. What are the potential challenges in implementing this manufacturing method on a large scale?
- Large-scale implementation may require adjustments in production processes and equipment to maintain consistency and quality in battery module manufacturing.
Original Abstract Submitted
In a method of manufacturing a battery module, a plurality of battery cells each of which includes a pouch case including an inactive adhesive layer formed on an outer surface thereof and an electrode assembly accommodated in the pouch case are prepared. An energy is applied to the inactive adhesive layer of each of the battery cells to form an adhesive layer having an increased adhesion. The battery cells including the adhesive layer are stacked so that the adhesive layer is interposed between neighboring battery cells.