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Practical Magnetic Levitating Transmission Gear System Loses Its Teeth 103

Zothecula writes: A new transmission device that uses magnetic levitation to almost completely eliminate friction and wear has been developed as part of the MAGDRIVE research project, a collaboration of seven European nations. The creation of the unit entailed the development of a magnetic gear reducer and corresponding frictionless magnetic axles. Aimed primarily for use in spacecraft due to its extended mechanical life, the system is also adaptable for use in automobiles, railways, and aircraft.
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Practical Magnetic Levitating Transmission Gear System Loses Its Teeth

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  • by Anonymous Coward on Wednesday December 03, 2014 @06:04AM (#48513481)

    On 5-10 years back about classic cars from some museum in SoCal or something.

    The 3 primary vehicles they discussed were:
    A 1900s era Battery Powered car with a 25 mile range.
    A Steam powered car capable of 'gas-like' performance, given ample 'warmup' time.
    And a 1920s or 30s electrocoupled automatic transmission car that I believe used increasing rotational speed to more closely couple the engine to the output shaft (Can't remember if it also had gears or if the coupling mechanism doubled as the 'gears'.)

    Point being: So they're finally getting back to R&D on 'non-mechanical' coupling mechisms in modern vehicles. Yay! Only took like 90 years.

    • by ledow ( 319597 ) on Wednesday December 03, 2014 @08:13AM (#48513833) Homepage

      If something has been abandoned for 90+ years with no significant advances in the area, it's probably for a reason.

      The upper limit on what such gearing could do is quite low. You're comparing a steel-pushing-steel scenario with one of trying to turn one magnetic wheel by pushing another near it. It's a loser except in ultra-specialist applications with exotic materials (Space? Fine. Your car? Unlikely).

      Battery powered cars have been around forever. UK milk floats were entirely battery powered for decades, delivering hundreds of pints of milk to every house in the local town - they just used lead acid batteries and charged overnight. If you ever got stuck behind one, you quickly (!) found out the limitations of the technology of the time. We've moved on from there now, but only very, very recently.

      Some huge trucks still have things based on variable transmission technology, so the entire gearbox doesn't have gears but just slides into the most convenient gearing automatically. They've been around for decades. And they work by using a strong belt that can slide up and down a conical shaft. I kid you not. Every few years, they are re-invented under another brand / patent / material and actually do quite a good job. But they are still considered specialist parts because we can't overcome their weaknesses.

      Wankel engines were still in mass production until very recently (I believe Mazda don't have newer models that still use them?). Again, they do everything you would want and were constantly reinventing themselves for decades.

      The problem is not that it's been done before. It's that it's been done an awful lot and not much more can be done that way. As such, although we have stronger room-temperature magnets, they aren't THAT much stronger. Superconducting magnets might be considered "new" but we can't make them practical yet - except in the absolute zero and vacuum of outer space.

      There's nothing wrong with going back to the old, but you have to add something new (e.g. the clockwork radio was hailed as genius because it took the old and made it do something "new").

      And I'm not sure this does that at all.

      • by jafiwam ( 310805 ) on Wednesday December 03, 2014 @08:33AM (#48513895) Homepage Journal

        Some huge trucks still have things based on variable transmission technology, so the entire gearbox doesn't have gears but just slides into the most convenient gearing automatically. They've been around for decades. And they work by using a strong belt that can slide up and down a conical shaft. I kid you not. Every few years, they are re-invented under another brand / patent / material and actually do quite a good job. But they are still considered specialist parts because we can't overcome their weaknesses.

        For someone asserting they know all kinds of "unknoiwn" details, you sure are behind.

        The description above is called a "Constant Velocity Transmission" and both Nissan (recently) and Subaru (since the 70's) have these. Subaru has had MOST of their new non-performance car fleet use CVTs for the last three years. Nisssan's CVT uses a "pusher" belt made of stacked plates connected by a chain. Subaru, a regular chain.

        This is not "specialists" parts anymore. This is just a different type of automatic transmission.

        True, "going back to the old" works sometimes, often that is because materials and engineering concepts have advanced far enough to actually make the stuff work now. That doesn't mean tinkering with, or taking another try at these old methods isn't worthwhile.

        • by tom17 ( 659054 )

          The Corolla has CVT now too. It's getting pretty common out there in some mass-market cars.

          Also, on his other comment about Wankel engines, I believe that Mazda are re-introducing one. Just rumours now, but it's not necessarily dead yet.

        • Re: (Score:2, Informative)

          by Anonymous Coward

          If your car has a CVT, it's a "Continuously Variable Transmission". The gear ratio continously varies, hence the name.

          It's unrelated to the CV ("Constant Velocity") joints on the transaxle. Those are joints that maintain a constant velocity on the input and output shafts even though there is a bend in the middle, as opposed to a universal joint that has some change in angular momentum that varies based on the angle of the bend.

          dom

        • by hawkbug ( 94280 )

          And unfortunately, this is why the reliability of the Nissan Pathfinder has become utter shit. I wanted to buy a 2014 model, but the horrific reviews of failing transmissions at 30k miles scared me and many others off. For good reason I might add.

          • Yes, they are finally nailing down the technology for smaller vehicles, but it's still problematic to scale it up to "truck".

          • And unfortunately, this is why the reliability of the Nissan Pathfinder has become utter shit. I wanted to buy a 2014 model, but the horrific reviews of failing transmissions at 30k miles scared me and many others off. For good reason I might add.

            I had the 2013 Murano which came out with CVT. 2013-2015 models had CVT problems. Nissan has pretty much solved this and have since added the CVT to even more models. I did lose my transfer case when it was 8 years old and that is still a weak point today for the Murano.

            Its one of the reasons why I replaced it with a Jeep last year. The Jeep Grand Cherokee has an 8-speed transmission. The Cherokee now has a 9-speed transmission. At the time that I was researching the Jeep, ZF was saying that they were

        • For someone asserting they know all kinds of "unknoiwn" details, you sure are behind.

          This coming from a guy that thinks CVT means "Constant Velocity Transmission"...

          CVT = Continuously Variable Transmission

        • Mitsubishi too has CVT (I have one in my 2012 Lancer). It's made by the same company who makes Nissan's.

      • For the confused: A milk float is a small flatbed vehicle [wikipedia.org] for delivering milk, and not an alternative name for a milkshake.
      • UK milk floats were entirely battery powered for decades, delivering hundreds of pints of milk to every house in the local town - they just used lead acid batteries and charged overnight. If you ever got stuck behind one, you quickly (!) found out the limitations of the technology of the time.

        Limited? Perhaps they were, but they did provide for some thrilling television.
        https://www.youtube.com/watch?... [youtube.com]

      • by stjobe ( 78285 )

        Some huge trucks still have things based on variable transmission technology, so the entire gearbox doesn't have gears but just slides into the most convenient gearing automatically. They've been around for decades. And they work by using a strong belt that can slide up and down a conical shaft. I kid you not. Every few years, they are re-invented under another brand / patent / material and actually do quite a good job. But they are still considered specialist parts because we can't overcome their weaknesses.

        My 2012 Toyota iQ [wikipedia.org] most definitely isn't "some huge truck", and its Super CVT-i transmission [wikipedia.org] most assuredly doesn't have any "weaknesses" that needs to be overcome, nor is it considered "a special part" - it's just another option on the options list.

        In fact, after having driven one for three years, I'm not sure I'd want to have a "regular" automatic gearbox, and I'm absolutely sure I don't want to go back to manual. Rush-hour traffic no longer feels like sitting in a pedal car...

      • If something has been abandoned for 90+ years with no significant advances in the area, it's probably for a reason.

        One of those reasons may be that 90 years ago they did not have the super strong rare earth magnets like we have now. They're commonly used in places like hard drives which massively pushed development of such permanent magnets, and pushed the cost down.

        As your attitude towards such abandoned technology is shared by many people, it may be forgotten about, and receive less attention than it deserves. Until someone realises that there is now technology available that makes the idea viable - like the much stro

      • You need to have your head examined. Check into any major hospital to have this done and you will see an Earthly application for large superconducting magnets.

        • by ledow ( 319597 )

          If kept at ultra-low temperatures in a room full of equipment to help do that.

          MRI's are one of the largest users of liquid helium in the world, and it's considered to be one of the bigger supply-chain problems to come in the future (i.e. we won't have enough).

          • it's considered to be one of the bigger supply-chain problems to come in the future (i.e. we won't have enough).

            Oh, people have noticed that little train-wreck ahead, have they. That'll be nice.

            Nobody is doing anything about it, of course?

    • Forgot the fluid flywheel.
  • by Anonymous Coward

    Research into the 'most exciting aspect' (room temperature gearbox) part of this has been done before:

    http://www.magnomatics.com/technology/magnetic-gears.aspx

    But the idea of using the low temperature and vacuum of space to run superconducting systems seems quite innovative.

    One of the main limitations with magnetic gears is that material properties (the saturation flux density of iron/cobalt basically) limits the amount of force that can be transmitted across the airgap. If the motion is being generated by

    • by TWX ( 665546 )
      The other side of the coin too, is that hydraulic solutions like the conventional automatic transmission and its torque converter can be designed to function entirely without electricity whatsoever, and in the past, the only electricity that went to a conventional hydraulic automatic transmission was for getting gear status (ie, the neutral safety switch). Even early lock-up torque converters were hydraulic. Later electronic controls were added, but fundamentally they're still hydraulic systems that need
  • by drinkypoo ( 153816 ) <drink@hyperlogos.org> on Wednesday December 03, 2014 @06:44AM (#48513577) Homepage Journal

    It looks too bulky to provide a lot of gears in an automotive application, but if it could provide just two that you couldn't strip out no matter how much torque you put through them, it could be a really nice match for EVs. They would benefit from a transmission, but it's difficult for any transmission of a reasonable size to handle the output torque.

    • by Anonymous Coward

      Actually it is a terrible idea for an EV. Magnetic material properties limit the amount of force you can transmit across an airgap, and physics doesn't care whether this is being generated by rotating permanent magnets or electromagnets. If it made sense to put one of these on the end of your electric motor, it would make even more sense to just replace the gearbox's input rotor with an electromagnetic stator and have a direct drive motor in the first place.

      Also, one of the great things about an electric mo

      • Actually it is a terrible idea for an EV. Magnetic material properties limit the amount of force you can transmit across an airgap,

        That is a feature. You're thinking in terms of a perfect world. I guess now we know what kind of cowardice you display, coward. You're afraid to think things through completely. Guess what? Torque converters slip sometimes, too.

        one of the great things about an electric motor is that you can accurately control the torque output. It is really the most pointless application for an overload safe transmission

        Again, you're not living in the real world, where EVs don't have multiple gears because they destroy transmissions when we try to use them with one more complicated than a simple reduction gear. See, the problem with torque control on an electric motor isn't how rapidly you can back

        • by Anonymous Coward

          Actually it is a terrible idea for an EV. Magnetic material properties limit the amount of force you can transmit across an airgap,

          That is a feature. You're thinking in terms of a perfect world. I guess now we know what kind of cowardice you display, coward. You're afraid to think things through completely. Guess what? Torque converters slip sometimes, too.

          one of the great things about an electric motor is that you can accurately control the torque output. It is really the most pointless application for an overload safe transmission

          Again, you're not living in the real world, where EVs don't have multiple gears because they destroy transmissions when we try to use them with one more complicated than a simple reduction gear. See, the problem with torque control on an electric motor isn't how rapidly you can back off the power. It's how rapidly it comes on, and how much of it there is. When the motor applies its full torque, and there is some sort of binding or resistance, the transmission gets all of that torque right away. But energy from ICEs comes in squishy packets.

          It's a feature and not a problem that this transmission will slip slightly occasionally. It will only happen when you would otherwise have been at risk of breaking something.

          You attack my post yet leave out the most important point - that due to physical limits on attainable airgap sheer stress, the design is redundant compared to direct drive. I don't know why you left that bit out but perhaps you don't understand how magnetic systems work.

          Also your bit about torque control is plain wrong. Current is immediately and directly proportional to torque in an electric motor. If the system 'locks up' as you say, then just limit the current. Let the control software provide the 'slip'

    • by Charliemopps ( 1157495 ) on Wednesday December 03, 2014 @07:21AM (#48513685)

      It looks too bulky to provide a lot of gears in an automotive application, but if it could provide just two that you couldn't strip out no matter how much torque you put through them, it could be a really nice match for EVs. They would benefit from a transmission, but it's difficult for any transmission of a reasonable size to handle the output torque.

      Electric cars don't need gears in the first place. The only reason we have gears in IC engines is because, 1. it would be expensive and hard to keep the engines in sync if you had a separate one for each wheel, 2. IC engines operate in most efficiently at very specific RPMs. Notice how the tachometer tends to hover around 2000 rpm as you shift gears? That's what the gears are for, to keep the engine at a constant RPM. Electric motors work just as efficiently at just about any RPM.

      • The other reason is that an ICE can't generate force when at rest (unlike an electric motor), so getting going from stationary is impossible without a clutch. That's why, if you drive a manual, the engine has to be revved and the clutch gradually engaged, bleeding power into the axels while allowing the engine to run without stalling. Engage the clutch too fast and the engine will simply stall.

        I believe External CEs like steam engines can generate force when at rest, so they don't need gearing.

        It's one of t

      • Wrong. Electric cars have plenty of gears. You need to change the relatively high RPM of an electric motor to the lower RPM of the wheels. Also if a motor is driving more than one wheel you need a differential which is full of gears.

        What you might not need is a transmission where you can actively change the gear ratio but there are plenty of gears in an electric car.

        • by fnj ( 64210 )

          An electric car does not have to have reduction gearing at all. In fact there are electric cars that do not [cleantechnica.com]. Repeat, do not [cleantechnica.com]. Believe it [sae.org]. In fact you can also do away completely with mechanical brakes.

          If Tesla and GM and Nissan and others were all too timid or conservative to do it right, that is their problem.

          Now who is wrong?

          • Now who is wrong?

            The lames who think that hubmotors are appropriate for anything more than a golf cart. Around 25 mph, the effect on unsprung mass begins to seriously affect handling. This speed is not a law of physics, it just has to do with typical wheel sizes and masses. If you could substantially knock down the mass of the stuff around the hub motor, then you could get away with it, but if you made a tire thinner then you can't handle higher speeds anyway, if you make a rim thinner it deforms, and so on.

            If all you want

            • I agree on the unsprung mass issue, but I wonder if it would be possible to use a linear motor in place of a shock absorber to counter some of the negative handling effects. I doubt it would be able to make up for it completely, but I imagine it could help quite a bit.
            • by fnj ( 64210 )

              "But unsprung weight" is a tired old preconception. Maybe if you bothered exploring the references provided and elsewhere you would be relieved of some of your misconceptions.
              Protean Electric tackles the unsprung-mass 'myth' of in-wheel motors [sae.org]
              Heresy Unsprung, Lotus Engineering: Unsprung Weight Doesn’t Really Matter Much[The Truth] [proteanelectric.com]

              • "But unsprung weight" is a tired old preconception. Maybe if you bothered exploring the references provided and elsewhere you would be relieved of some of your misconceptions.

                My. Asshole. That is complete fucking bullshit, and if you had any relevant experience with the subject at hand, you'd know that. I've personally felt the difference in ground contact made by removing just fifteen pounds per wheel, and it is massive. These assholes (who are selling something, you rube) are telling us that adding sixty pounds won't negatively impact handling. But hey, from your own first citation:

                Hereâ(TM)s what Steve Williams of Lotus Engineering said:

                Whilst it is true to say that t

          • It sounds to me like this contact-free coupling actually is basically like an electric motor - except stationary:

            Prototype number two is designed to be used at room temperature. In this case, the magnetic reducer sees the gear teeth replaced with permanent magnets that repel and attract each other so that "the transmission of couples and forces between the moving parts with contact is achieved."

            This is what an electric motor does, except some mechanism (such as brushes) enables and disables the magnets i

      • Just like IC motors, electric motors do not provide constant power/torque across their whole speed range. There's a reason why cordless drills often have two or three speed transmissions.

        A typical universal motor generates max torque just before it stalls, and relatively little torque at high speed. This is great for fast acceleration from a standstill, not so much for trying to hit maximum speed with just a single-speed gearbox.

        • I wonder how high speed electric trains are geared? Maybe they have more than one motor on the same axle, wound for different ranges of speed?
      • by a4r6 ( 978521 )
        I have to refute your point #1.

        There's no need to keep engines "in sync" when they each power their own wheel. the road does that.

        The only thing to watch out for would be loss of traction on a particular wheel, but traction control would not significantly more complicated with two or four drivetrains instead of one. In fact, you could do away with the wheel speed sensors and rely on relative engine rpms to determine when one has lost traction.

        The biggest reasons we don't have cars with multiple IC en
  • I'm confused. Doesn't "loses its teeth" mean that it has failed and/or become less powerful? I was expecting to hear how the research had failed.
  • Comment removed based on user account deletion
  • by chaim79 ( 898507 ) on Wednesday December 03, 2014 @10:55AM (#48514771) Homepage

    This should really be looked at by those producing Diesel engines for Airplanes.

    The biggest problem tinker's face when trying to put a Diesel engine on an airplane is that the Diesel has very massive "power surges" each time a cylinder fires, and a nasty power "stall" when it's compressing a cylinder. This isn't a huge deal with the other applications of Diesel engines, they just add mass to the fly-wheel and transmission and that takes care of it. In Airplanes however, the mass costs too much (in terms of airplane weight) so they try to reduce it as much as possible, however if you reduce it too much the propeller is literally torn apart by the surges and stalls. Early tests had the propeller lasting only hours when running on a 4 or 6 cylinder diesel. If there is a reduction drive on it to bring the RPMs further down they too like to self destruct with a Diesel.

    If they could use a low-weight magnetic coupler to absorb the surges and stalls and provide smooth power that would solve the biggest problem putting a diesel on an airplane and would really boost that market!

    • I wonder whether the magnetic coupler would be any lighter than a larger flywheel. Also, couldn't the slipping of the coupler set up harmonic vibrations in the prop as well? (I imagine a magnetic coupler would slip in a notch-y fashion.)
  • Look, this great shiny technology. Oops, it's uneconomical...
    Costs are an important question as this story happens quite often (mag trains anyone?).
    For space projects the cost may not matter, since it's paid for by taxpayers. But for applications for the rest of us making this affordable is as important, if not more.

Solutions are obvious if one only has the optical power to observe them over the horizon. -- K.A. Arsdall

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