Around The Corner - How Differential Steering Works (1937)

Video Statistics and Information

Video

Captions Word Cloud

Captions

[Music] [Music] [Music] [Music] [Music] [Music] [Music] [Music] [Music] [Music] formations like these require long hours of intensive drilling and careful judgment when the troop goes around the corner the writers on the outside of the turn have to adjust their speed to keep even with the riders on the inside the man on the outside has to ride a lot farther and a lot faster in order to keep up with the parade the outside wheels must spin faster than the wheels on the inside because they have a greater distance to travel in the same length of time when a wagon turns a corner the wheels can travel at different speeds because each one can turn freely on the axles and in the early automobiles the rear wheels turn separately and only one wheel was connected to the engine but when only one wheel was driven by the engine it had to do all the work and it couldn't get a good enough grip on the road to do its job properly so the one wheel drive was soon out of date but if two wheels are locked on an axle so that they are not free to turn separately one or the other as to slide so engineers had to find a way to connect both rear wheels to the engine without sliding and slipping on turns the device which makes this possible is a part of the rear axle it is called the differential because it can drive the rear wheels at different speeds the differential looks complicated but once we understand its principle it is amazingly simple these two wheels are mounted on separate axles and supported by a frame so that they can revolve freely at different speeds let's fasten a spoke on the inner end of each axle so that by turning the spokes we can turn each wheel separately with a bar or crosspiece we can turn both wheels in the same direction at the same rate of speed let's get something to hold this bar in place so that it will press against the spokes notice that this support is not locked to the axle it turns freely now we can spin the wheels by rotating the support this is fine as long as both wheels are able to turn at the same speed but let's see what happens when we go around the corner with this arrangement we cannot drive one wheel faster than the other and if we stop one wheel the other wheel won't budge let's put this bar on a pivot so that it can swing in either direction now the bar can still turn both wheels at the same speed and because it pivots it lets one wheel turn even when the other is stopped but if turned too far the bar will swing around until it won't drive the spokes that tourney thurr wheel we need another crossbar and more spokes to carry on the job when we stop one wheel the crossbars will continue to push the spokes of the freewheel around as long as both wheels are free to turn the bars do not swing on their pivot and the wheels move at the same speed now we have the working principles of a differential to adapt the model for use in an automobile we will have to make a few changes in order to reduce the jerky action caused by wide spaces between the spokes we will put in more spokes further filling in the spaces between the spokes give steadier more continuous action and changing a shape gives firm constant contact now we can make the gears thicker and stronger and we have differential gears the edges are cut so that they will fit together more smoothly and silently and another gear is added to share the work of driving the axles the principle is the same in order to turn the support and drive the wheels we can fasten a large gear here connected by a smaller gear to a source of power notice that the power is connected to the differential at the center line we can make our model more compact by moving the gears closer together when we put our differential in an automobile we have to leave room for the driveshaft which carries the power from the engine we may build the floor of the car above the driveshaft but if we do we won't have much room inside unless we make the top of the car high - of course we could lower the floor and ceiling but the driveshaft would be higher than the floor this would have disadvantages our shaft in the middle of the floor of an automobile would be inconvenient for passengers and would be awkward for carrying luggage today engineers have found a way to make the car roomier and closer to the road without a clumsy shaft above the floor the drive shaft from the engine to the differential is lowered out of the way and the drive shaft is connected to the rear axle at the bottom the new low Center Drive makes the rear axle quieter stronger and more durable because it gives better smoother contact between the gears the automobile of today with the low Center drive is stronger and more rugged every part of the rear axle has been built to withstand strains far greater than it will ever meet on the straightaway more around the corner [Music] you [Music]

Info

Channel: US Auto Industry

Views: 8,902,144

Rating: 4.924726 out of 5

Keywords: v-6, gm, motor, buick, union, vintage, yaw, gmc, automobile, workers, flying, labor, olds, management, jet, aviation, pilot, prop, auto, michigan, v-8, ford, malibu, yt:quality=high, works, history, oldsmobile, planes, car, differential, detroit, air, steel, bel, airplane, #airboyd, states, luftfahrt, Chevrolet, motors, general, Airbus, Falcon, bailout, airboyd, Automobile (Industry), united, v8, steering, v6, cadillac, u.s., pontiac, chevy, chrysler, jeep, us, industry, IIHS, buck

Id: yYAw79386WI

Channel Id: undefined

Length: 9min 30sec (570 seconds)

Published: Wed Sep 16 2009

Reddit Comments

Now, lets add MORE SPOKES!!

👍︎︎ 917 👤︎︎ u/vaspas803 📅︎︎ Aug 18 2017 🗫︎ replies

That was just fantastic. Thank you. Totally satisfied my mechanical self today.

👍︎︎ 420 👤︎︎ u/Appraisal-CMA 📅︎︎ Aug 18 2017 🗫︎ replies

This video was surprisingly engaging.

👍︎︎ 285 👤︎︎ u/sleepyjenkins18 📅︎︎ Aug 18 2017 🗫︎ replies

That was interesting

👍︎︎ 427 👤︎︎ u/andonevris 📅︎︎ Aug 18 2017 🗫︎ replies

Wow what a good video. I always knew the differential helped the wheels spin at 2 different speeds but never new how.

👍︎︎ 95 👤︎︎ u/Jared8675309 📅︎︎ Aug 18 2017 🗫︎ replies

That was really well done. I never actually understood how those worked before. I like it when people explain science like a science teacher and not screaming like Billy Mays.

👍︎︎ 70 👤︎︎ u/kcasnar 📅︎︎ Aug 18 2017 🗫︎ replies

These videos are posted often, but if you haven't seen the differential video, you may also not have seen this:

https://www.youtube.com/watch?v=CcVeslwTvAw

How a Semi-Auto and Full-Auto rifle work. Also shown with large scale models.

I really do like this teaching method. I think its easier to learn from. In today's videos you go from problem straight to the solution. Where as these take much smaller steps that don't work, but explain why each component solves a single problem until you end up with an entire solution.

👍︎︎ 78 👤︎︎ u/kherven 📅︎︎ Aug 18 2017 🗫︎ replies

Would have been 50 mins today.

👍︎︎ 179 👤︎︎ u/thepeoplesknews 📅︎︎ Aug 18 2017 🗫︎ replies

So not math equations.

👍︎︎ 292 👤︎︎ u/rspix000 📅︎︎ Aug 18 2017 🗫︎ replies