1. リチウムイオン電池の電極端子にニッケルタブを溶接し、その上からカプトン(Kapton)テープを二重に貼り付けている。
2. 円筒状リチウムイオン電池の外装(側面)をカプトンテープで保護し、さらにその上から熱伝導性絶縁パッド(CHO-THERM1)を巻きつけることで、二重絶縁を実現している。
3. リチウムイオン電池セルの両端をPEEK材のキャップで固定し、同時に端子部を保護した。なお、電池セルの端子において露出している部分はカプトンを二重に貼り付け、二重絶縁を実現している。
2. By protecting the exterior (side) of the cylindrical lithium-ion battery and above it, wrapping a heat conductive insulation pad (CHO-THERM1), it is carried out double insulation.
3. It is fixed both ends of the lithium-ion battery cell with PEEK caps and protected the terminal at the same time. Also, the part exposed at the terminal of the battery cell is double-pasted with Kapton to make double insulation.
2. Double insulation is achieved by protecting the exterior (side surface) of the cylindrical lithium-ion battery with Kapton tape and wrapping a thermal conductive insulation pad (CHO-THERM1) over it.
3. Both ends of the lithium-ion battery cell were fixed with PEEK caps, and at the same time, the terminals were protected. In addition, the exposed part of the terminal of the battery cell is double-pasted with Kapton to realize double insulation.
2 Outer (side) of the cylindrical lithium-ion battery is protected by Kapton tape, and the double isolation is realised as the “CHO-THERM1”, a thermal conductive isolation pad to be wrapped over it.
3 Both sides of the lithium-ion battery are fixed by capping made of “PEEK”, and both terminals are protected simultaneously. Moreover, the exposed area of terminals of battery cell are wrapped doubly by Kapton, the double isolation is achieved.