From the article:

The man is blaming the automaker even though the manual door opener was under his left hand the whole time.

A man in Arizona says that he was recently trapped in his Tesla after getting in, closing the door, and then realizing that his battery was dead. What he didn’t know is that the manual release for the door was under his left hand the whole time. Now, he’s blaming the automaker and raising awareness.

Rick Meggison, 73, says that Tesla needs to address what he calls a “safety concern” involving how to exit the car when the battery dies. The main door latch actuator on all Tesla models is electronic so if the 12-volt battery dies it won’t work. To ensure safe exit of the vehicle Tesla includes a manual release. Meggison didn’t know about that and ended up trapped in his car for 20 minutes on a hot day.

“I couldn’t open the doors. I couldn’t lower the windows. The computer was dead, so I couldn’t open the glove box. I couldn’t open anything,” he told ABC7. Of course, he could’ve opened the door in about two seconds had he known that the manual release was just ahead of his window switches. His situation has many wondering who’s to blame in situations like this.

  • Kushan
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    -11 year ago

    errr, yeah there is debate. Given that nearly every EV manufacturer is doing their darnedest to flatten or remove door handles, don’t you think there must be more than a “negligible” impact?

    https://www.businesswire.com/news/home/20180105005468/en/Top-3-Drivers-of-the-Global-Automotive-Retractable-Door-Handle-System-Market-Technavio

    According to Amey Vikram, a lead analyst at Technavio for automotive components research, “The retractable door handle design allows radical aerodynamic designing for the side body panel. Retractable door handles are invisible handles that contribute by about 12% to reduce the drag coefficient of vehicles. Retractable door handles eliminate the issue of airflow bulge creation, air flow turbulence generation, and air flow pressure conservation. The decreased drag coefficient will also contribute to increasing the fuel efficiency of vehicles as there will be low drag generation resisting the movement of vehicles through the airflow.”