MECHANICAL PENCIL (https://mechanical-pencil.com/) BREAKDOWNS (https://mechanical-pencil.com/#products) SIGN UP (https://mechanical-pencil.com/#sign-up) ABOUT (https://mechanical-pencil.com/#about) An illustrated celebration of the engineering around us https://mechanical-pencil.com/products/car MECHANICAL PENCIL (https://mechanical-pencil.com/) An illustrated celebration of the engineering around us https://mechanical-pencil.com/products/car MECHANICAL PENCIL (https://mechanical-pencil.com/) SCROLL DOWN (https://mechanical-pencil.com/products/car) Why the Pull Back Car? JUNE 2026 These cars are pretty magical. By pushing down and pulling the car back just a little, the car builds up significant energy and can shoot forward at super high speeds. Hiding inside the body of the car lives some clever clockwork that propels the car forward. The wind-up mechanism inside these toy cars was invented in 1970 by Darda, a West-German company. Before their invention, toys like this required manual winding with a key. How Do We Play With This Car? In case you forgot how these fun toys worked. PULL BACK (https://mechanical-pencil.com/products/car) RELEASE! (https://mechanical-pencil.com/products/car) Click through to explore each state (https://mechanical-pencil.com/products/car) PULL BACK (https://mechanical-pencil.com/products/car) RELEASE! (https://mechanical-pencil.com/products/car) Click through to explore each state (https://mechanical-pencil.com/products/car) Let's Open Up the Car It's just a toy. There can't be that many parts, right? Axel Gear, R Frame, R Front Wheel Assembly Spring Gear, R Spring Cap Body Back Wheel Assembly x 2 Wind-Up Gear Spiral Spring Wind-Up Spring Pawl x 2 Axle Gear, L Spring Gear, L Chassis Driver Frame, L Back Axle OPEN IT UP! (https://mechanical-pencil.com/products/car#02-xpl-top) There's a lot to Discuss, But Let's Focus on the Spring First Hidden inside the car is a unique spring called a Spiral Spring. When this spring is wound, it stores energy, and when it's released, it converts that energy into rotational movement. Spring Cap Spring Gear, R Spiral Spring Spring Gear, L To wind up the Spiral Spring and build up energy, the two Spring Gears must rotate in different directions. One rotates the outside of the Spring Clockwise while the other rotates the inside of the Spring Counterclockwise. If we take a cross section of the gear assembly, we can get a closer look at how the winding works. The outside of the Spring sits in a notch in the Left Spring Gear The inside of the Spring hooks around the shaft of Right Spring Gear WIND-UP (https://mechanical-pencil.com/products/car) RELEASE (https://mechanical-pencil.com/products/car) WIND-UP (https://mechanical-pencil.com/products/car) RELEASE (https://mechanical-pencil.com/products/car) Next, we need to figure out how to wind up the Spiral Spring with the turning of the car wheel. To do that, we need to first understand the basics of gears! Let's Talk About Gears Gears are all around us. Clocks, cars, bikes, even your printer has countless gears! For the purposes of this analysis, we'll focus on two properties of gears: gears can be used to multiply torque and used to change speeds. Why is torque important here? Winding the spring in this toy requires significant torque. But this is product for kids, so how can we make it easier for them? The answer is gears! Gears give the kids a mechanical advantage. Now the kids only need to input a modest force to wind up the stiff spring. https://mechanical-pencil.com/products/car https://mechanical-pencil.com/products/car Click through to multiply the torque! (https://mechanical-pencil.com/products/car) • *τorque** r × F Similar to using a low gear to bike uphill, we can use the small Axle Gear with modest force to generate significant Torque. Now that we've generated lots of Torque, we have what we need to wind up the Spring. But we need the gears to help us with one more thing: increasing speed. https://mechanical-pencil.com/products/car https://mechanical-pencil.com/products/car Click through to increase the speed! (https://mechanical-pencil.com/products/car) • *τorque** r × F Similar to biking on flatter roads, you can use spin the larger gears to make the wheels spin faster. Magic! You may have also noticed that two meshed gears will always rotate in different directions. This will help us later on as we use the gear system to wind up the spring. Keep an eye out for these direction marks later on in the analysis. CLOCKWISE COUNTERCLOCKWISE Let's explore the Gear Train of the Car There are six unique gears living inside this toy car. They each have a purpose and work together. Let's start in Drive mode (the spring is not winding) and walk through each gear. https://mechanical-pencil.com/products/car https://mechanical-pencil.com/products/car RIGHT SIDE AXLE GEAR SPRING GEAR WIND-UP GEAR Left Right https://mechanical-pencil.com/products/car#05-gear-train-a https://mechanical-pencil.com/products/car#05-gear-train-a RIGHT SIDE AXLE GEAR SPRING GEAR WIND-UP GEAR Left Right If you're viewing this on a mobile device, head over to a computer to see the gear system fully animated! Now Let's Compare Two Modes: Driving & Winding If the car is in Drive mode, the left and right gear assemblies operate independently. The car enters Wind mode when pressed down. In this mode, the whole gear system is connected, working as one to wind the spring. DRIVE https://mechanical-pencil.com/products/car WIND https://mechanical-pencil.com/products/car Left Side Right Side DRIVE https://mechanical-pencil.com/products/car#05-gear-train-b WIND Left Side Right Side What If We Separate the Gears to Make this More Clear? We can rearrange the gear system without changing its functionality. Now we can see everything happening at once. https://mechanical-pencil.com/products/car#05-gear-train-c SEPARATE GEARS (https://mechanical-pencil.com/products/car#05-gear-train-c) DRIVE https://mechanical-pencil.com/products/car#05-gear-train-d WIND The two Wind-Up Gears are always connected. They rotate together. (https://mechanical-pencil.com/products/car) Okay, Time To Walk Through the Mechanism Let's walk through the wind-up mechanism, step by step, to understand how it all works https://mechanical-pencil.com/products/car#06-mech-top https://mechanical-pencil.com/products/car#06-mech-top NEUTRAL PUSH WIND RELEASE Click through to explore each state (https://mechanical-pencil.com/products/car) One More Mystery To Solve What happens if you keep winding the car for forever? Does it build up infinite energy? Does the spring break? I'll let you wind up the spring all the way and see if you can figure it out! WIND ALL THE WAY (https://mechanical-pencil.com/products/car) • *A Hint:**All those notches in the Spring Gear are there for a reason. Winding the spring has created a lot of space here… Thanks for reading! Want More? I'm in the process of illustrating some fun exploded views and cutaways. Head over to Instagram (https://www.instagram.com/bmacomber_art/) to take a look. And sign up if you want to know about any future product breakdowns or updates. SUBMIT https://mechanical-pencil.com/products/pen https://mechanical-pencil.com/products/zippo https://mechanical-pencil.com/products/pez Thanks for reading! Want More? I'm in the process of illustrating some fun exploded views and cutaways. Head over to Instagram (https://www.instagram.com/bmacomber_art/) to take a look. And sign up if you want to know about any future product breakdowns or updates. SUBMIT https://mechanical-pencil.com/products/pen https://mechanical-pencil.com/products/zippo https://mechanical-pencil.com/products/pez