The EV Charger Cover is made of high-quality waterproof Oxford fabric, which can prevent snow, rain, freeze, and dust. It is specially designed to prevent the charge port from being blocked by ice and snow.
【All-Weather & All-Season Protection】The EV Charger Cover is made of high-quality waterproof Oxford fabric, which can prevent snow, rain, freeze, and dust. It is specially designed to prevent the charge port from being blocked by ice and snow. The other side is made of UV-resistant silver fabric, which can protect the charging port from direct sunlight and aging. This Charger Cover provides full protection for your charging port when charging your electric car outdoors or indoors.
【Unique Velcro Opening Design】The Waterproof Cover has two usage options. The first is the spread-out design suitable for larger or irregular charging ports, with a size of 33″*17″*14.17″. The second is the cylindrical design, with a size of 16.5″*17″*7.09″. Both options are suitable for all electric vehicle charging ports. The Charger Cover can also be folded into a compact size of 9″*7″, making it convenient for storage and carrying in the car’s glove box when not in use.
【Enhanced Adsorption Function】The Tesla charger cover in addition to the strong magnetic strip, compared to other EV Charger Covers, we have added five removable suction cups. This rain cover is suitable for all body panels, including iron, aluminum, fiberglass, carbon fiber, and plastic, ensuring a secure fit for your EV.
【Upgrade Drawstring Closure】The tail drawstring closure design of the EV charging port cover prevents rain and snow from being blown in. A magnetic strip and five extra suction cups keep the charger port cover stable on windy days and prevent it from being blown off by strong winds. For electric vehicle owners without garages, the EV charging port cover is a convenient and effective outdoor charging solution.
【WOLFCAR Quality Warranty】We provide a 30-day money-back guarantee and friendly customer service. Before use, please clean the contact part between the vehicle body