Exclusive: The tech keeping Disney Magic Kingdom's most iconic rides running night after night | Tech Radar

Overview

News, deals, reviews, guides and more on the newest computing gadgets

Start exploring exclusive deals, expert advice and more

Details

Unlock and manage exclusive Techradar member rewards.

Unlock instant access to exclusive member features.

Get full access to premium articles, exclusive features and a growing list of member rewards.

Exclusive: The tech keeping Disney Magic Kingdom's most iconic rides running night after night

When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works.

At Disney World's Magic Kingdom, you're meant to lose yourself in the illusion. What you're not meant to think about is what happens after the park closes: the cranes, mechanics, overnight software updates, and engineering operations required to erase every trace of maintenance before sunrise.

But behind every seamless morning open lies a question worth asking: how does Disney keep rides that have been running for more than 50 years feeling like they've always been here — and always will be?

Taylor Mc Laughlin joined Disney in 2013 as a mechanical engineer, supporting projects across all four parks before helping launch Star Wars: Rise of the Resistance at Hollywood Studios. Today, as Senior Manager of Engineering Services at Magic Kingdom, she oversees engineering operations for Fantasyland and Tomorrowland Speedway — a portfolio covering some of the park's oldest and most technically demanding attractions. Her team of roughly 75 cast members works primarily between 11 PM and 6 AM.

Disney World transformed Buzz Lightyear Space Ranger Spin with new tech

More fun, shorter waits: Disneyland says it added 1.5 million ride experiences in 2025 without new builds

Disney built a walking Olaf robot in just four months — and it’s just the start

On a rare behind-the-scenes tour Disney granted exclusively to Tech Radar, Mc Laughlin walked me through several attractions mid-third-shift — past the safety lockout boards at Mad Tea Party, through the Speedway garage, and deep into the original back-of-show building behind "It's a Small World." Her team was already at work when we arrived.

'I came by at 6 AM and everything was cleared out'

The first stop is Mad Tea Party, and Mc Laughlin opens with a detail that immediately reframes the ride. There was a crane here twenty-four hours earlier.

Three flatbed trucks full of cribbing, a chain threaded down through a small hatch in the attraction's roof — invisible to guests — and a team on third shift using it to lift one of the spinning turntables clean off the floor to access the drive components and bearings underneath. By 6 AM, the crane was gone, the trucks were gone, and the ride was ready to open.

"I'm super proud of my team," Mc Laughlin says. "You would have no idea."

Unlike newer attractions with purpose-built maintenance access, legacy rides like Tea Cups sit directly in guest-facing space. Every crane, heavy lift, and bearing replacement is planned weeks in advance and executed overnight.

Tonight there's no crane, but the work hasn't stopped. Shawn, a foreman who has worked on the attraction for three years, has the hatch open while his team moves through nightly adjustments and inspections ahead of a 7 AM open. Watching them work, the scale of what sits beneath the ride's cheerful surface is surprising.

Walking onto the powered-down platform after hours completely resets your understanding of the attraction. Guests see spinning cups and pastel colors. What's actually here is a serious piece of industrial machinery: a giant exposed turntable, drive systems, and layered rotating platforms engineered to put three simultaneous axes of spin on every cup in the ride.

Disney pulls back the curtain on Imagineering’s robotics lab

Less stress, smoother days: Disneyland wants your whole day to feel easier

“We had to build this” — How Disney created Gary for Zootopia 2 with entirely new tech

Every person entering follows a protocol called RMP: Ride Motion Protection. Power is formally eliminated, each team member applies their own physical lock to the E-stop, and registers their ID on a dedicated board before anyone moves. Mc Laughlin holds out a lock and asks for my driver's license. I hand it over. She slots it into the sleeve — your physical proof that you're inside, and that nothing moves until you're out.

The control console reinforces the ride's age. Where a newer attraction like Tron Lightcycle / Run relies on digital diagnostics, Tea Cups still uses physical indicator lights and a laminated note explaining what each blinking pattern means.

Technology has still been layered in carefully. Vibration sensors track bearing and drive-component trends over time, while gearbox oil testing helps identify developing failures before they become major problems. The team has also added instrumentation that requires an engineer to physically ride in a tea cup with an accelerometer to capture motion data during testing cycles.

"If I start seeing higher vibration, I can spot early changes and proactively plan [maintenance ahead of time]," Mc Laughlin says.

Auto-lubricators beneath the turntable systems close another gap. Instead of requiring someone to work underneath the ride while systems are moving, lubrication now happens automatically while extending component life at the same time.

"There are two types of maintenance," Mc Laughlin says. "You're either on the preventive side or the corrective side. The more we can be proactive and not reactive — that's our number one goal."

The real engineering trick at Disney isn't eliminating failures entirely. It's designing systems where guests never notice them.

Space Mountain runs two independent track systems. Dumbo at Storybook Circus operates as two separate ride systems side by side, each with its own motors, gearboxes, and maintenance schedules. Soarin' at EPCOT added a third theater, partly so one could be taken offline without shutting down the experience completely.

"There are times things happen," Mc Laughlin says. "And still being able to bring guests through the experience, even at half capacity, is way better than zero."

Operators form another layer of the system. Every unusual sound, smell, or vibration triggers an immediate stop and inspection. Most turn out to be minor. Mc Laughlin recalls a recent guest reporting a possible mechanical issue on Seven Dwarfs Mine Train that ultimately turned out to be an intentional audio effect built into the ride.

Tomorrowland Speedway sits at the opposite end of the technology spectrum. No onboard computers. No software updates. Just gasoline engines, mechanical systems, and a working garage hidden inside a theme park.

"It's mechanically as basic as it gets," Mc Laughlin says. "True engines in these cars."

Fuel deliveries still feed tanks buried beneath the attraction. Some vehicles in the current fleet were transferred from Tokyo Disneyland after that park retired its version of the ride, with mechanics adapting the imported cars into the existing system.

The garage tells the story immediately: lifts, tool chests, parts racks, and vehicles in various states of repair. It feels exactly like what it is — a functioning automotive shop that happens to sit inside Magic Kingdom.

Even here, the improvement cycle hasn't stopped. After hood linkage failures occasionally caused hoods to fall unexpectedly during maintenance checks, the team retrofitted the fleet with pneumatic hood supports to eliminate the hazard.

The technology level changes. The engineering philosophy does not.

Walking into the back-of-show building behind "It's a Small World" feels like stepping into another era of Disney engineering entirely — and another world most guests don't know exists.

This is an original structure from 1971, still operating daily. Boats line the space, with the infrastructure overhead to lift and move them as needed. Tool carts and workbenches run along the walls. In the middle of all of it, three engineers are mid-shift, working across the attraction's more than 350 animated figures. It's an active workshop — one that happens to be keeping a 54-year-old attraction show-ready for tomorrow morning.

The team still works from the original manuals. During our visit, one figure's arm had been removed, sent out for welding, returned, and was already being prepared for reinstallation — all within the same shift. Joe Ignell, a show technician who has spent years working on the attraction, is one of the engineers here tonight. The expertise in this room exists through repetition and experience as much as documentation.

"So much of Fantasyland is about relying on your gut, your experience with this ride," Mc Laughlin says. "That is a skill set. You have to have real expertise and experience in your field to be successful in these attractions."

Seven Dwarfs Mine Train is where Disney's modern maintenance philosophy becomes most visible.

When the attraction opened, many software fault conditions defaulted to option one: stop the ride and evacuate guests. Over time, Mc Laughlin's team has worked with sustaining engineers to rewrite portions of that logic, allowing the ride to recover from more minor issues without triggering lengthy downtime.

The system now produces predictive alerts tied to ride performance, surfacing developing issues before they become major failures. When faults do occur, engineers can often remotely assess conditions and restore operation faster than before.

"Sometimes it's not just about how you prevent the downtime from occurring," Mc Laughlin says. "It's also: okay, the downtime occurred — how do we make this more recoverable? How do we make this quicker?"

At the time of our visit, the team was midway through a multi-night testing cycle — uploading updated PLC logic overnight, running trains, and completing regular nightly maintenance inside the same narrow operating window. Every night, whether there's a software update or not, that cycle runs. A two-hour closure on Mine Train impacts thousands of guests. Reducing both the frequency and duration of those events becomes its own form of capacity gain.

The park-wide audio system comes online with the morning soundtrack. Tron's LED canopy ignites across the skyline. A tractor-trailer disappears backstage. Then the intercom fires:

"All lands must be clear of all vehicles and equipment. Show-ready at 6:45 AM."

Within minutes, the last maintenance vehicles are gone. The Tea Cups hatch is sealed. Overnight software updates are complete. Shawn's crew has handed off to operations. Joe and his team have their animatronic back in place.

The only evidence of the night's work is a set of attractions operating exactly as they should — which is to say, no evidence at all.

"You think third shift is going to be scary and quiet," Mc Laughlin says. "There's always painting, cleaning, horticulture, engineers — everywhere."

What a night inside Magic Kingdom's engineering operation makes clear is that Disney's maintenance strategy isn't about adding technology everywhere possible. It's about identifying where technology meaningfully improves reliability, safety, or recoverability, without introducing unnecessary complexity.

At Mine Train, software updates and predictive systems materially reduced downtime. At Tea Cups, targeted sensors and auto-lubrication modernized the ride without compromising the simplicity that has kept it running for decades. At Speedway, a pneumatic hood support solved a safety problem without fundamentally changing the attraction.

"We've been entrusted to keep something so important and special going," Mc Laughlin says. "The investment to keep adding safety features, to improve the guest experience — that doesn't stop because the ride has been here for 50 years."

What becomes clear overnight at Magic Kingdom is that the magic of a Disney park isn't only built into the new. A lot of it is rebuilt, quietly, every single night.

The Mad Tea Party, "It's a Small World," Tomorrowland Speedway, and Seven Dwarfs Mine Train are open daily at Magic Kingdom at Walt Disney World in Orlando, Florida, and you read a deep dive into the most technologically advanced parade at that park here.

Follow Tech Radar on Google News and add us as a preferred source to get our expert news, reviews, and opinion in your feeds.

Jacob Krol is the US Managing Editor, News for Tech Radar. He’s been writing about technology since he was 14 when he started his own tech blog. Since then Jacob has worked for a plethora of publications including CNN Underscored, The Street, Parade, Men’s Journal, Mashable, CNET, and CNBC among others.

He specializes in covering companies like Apple, Samsung, and Google and going hands-on with mobile devices, smart home gadgets, TVs, and wearables. In his spare time, you can find Jacob listening to Bruce Springsteen, building a Lego set, or binge-watching the latest from Disney, Marvel, or Star Wars.

You must confirm your public display name before commenting

1NYT Connections hints and answers for Thursday, May 21 (game #1075)

2 Quordle hints and answers for Thursday, May 21 (game #1578)

3NYT Strands hints and answers for Thursday, May 21 (game #809)

4 We may only have a year of the RAM crisis left if this ex-Samsung boss is right

5 Dolby Atmos on streaming will finally sound as good as 4K Blu-ray, based on these blind test results of audio engineers — but this still won’t cause collectors to switch from physical media

Tech Radar is part of Future US Inc, an international media group and leading digital publisher. Visit our corporate site.

© Future US, Inc. Full 7th Floor, 130 West 42nd Street, New York, NY 10036.

Key Takeaways

• News, deals, reviews, guides and more on the newest computing gadgets
• Start exploring exclusive deals, expert advice and more
• Unlock and manage exclusive Techradar member rewards
• Unlock instant access to exclusive member features
• Get full access to premium articles, exclusive features and a growing list of member rewards