Sorry, but your invention is only harming the force of movement. It is not balanced and causing vibration. Vibration causing less usefulness. And all this piece of metal is no sense. You spending to much power to get that thing momentum, and all its momentum will be destroyed by force of friction of more details. Yes, you gave your bike a little more mass, a little more inertia, but you gave a lot more friction. In all aspects: friction in new moving details, friction between wheels and ground because of bigger mass.
Thank you for taking the time to analyze so thoroughly! 🚴♂️✨ You have raised many important points worth pondering. I really appreciate your practical perspective and will consider improving the design. If you have any suggestions or experiences to fix these problems, I'd love to hear them! 🌟 Thank you so much! 🚲💡"
@@HTN_creativity maybe some decisions with springs, like toys, I don’t know. You can check old toys constructions. The only way to make bicycle faster is to do it lighter. Or electric motor.
@@HTN_creativity you should use the flywheel to store the cinetic energy when breaking, and then use it when accelerating. Although it could be possible to implement this mechanically, it would be easier using a microcontroller which drives a clutch between the flywheel and the wheel.
@@lads.7715that is ironic, someone already done that I believe but it failed, an ironic reason why it failed is where launched it, Denmark where it's mainly flat
В Советском союзе занимался профессор супер маховиками и сейчас кажется занимается но его маховик безопасный и закрытый. Но он накапливает энергию и в нужный момент отдаёт. Автобус маршрутный с супер маховикам, 30 процентов экономил топливо!
Wow, such studies are truly impressive! Super flywheel technology could offer a lot of potential, especially when it comes to efficiently accumulating and releasing energy. The idea of applying to buses to save 30% fuel is a big step forward in the development of energy-saving vehicles. Hopefully in the future, this technology will be more widely available. Thank you for sharing this interesting information!
да,было кажись пара телепередачь "это вы можете"по этой теме.но что то развития особого не пошло.хотя.....в союзе медленно шло продвижение иновациий.план всех губил.
Haha, you really have a very funny perspective! 😄 If the flywheel breaks, there will definitely be some unwanted consequences, but obviously, it's not "losing virginity"! However, a damaged flywheel can be dangerous or reduce system performance.
Никаких преимуществ нету. Энергии запасается крохи, вариатора нету. Куча лишнего сопротивления и массы. Будь там вариатор(или мотор генератор на маховике и такой же на колесе), плюс вращайся в максимуме маховик хотя бы несколько тысяч оборотов в минуту, то как небольшой буфер, такую конструкцию можно было бы использовать. А то что в ролике, не даёт преимуществ, только недостатки.
Можно было сделать переключение скоростей и цель достигнута! Больше защиты от маховика! Но, это всё механика быстро приходит конец, надо было сбалансировать!
This statement is true physics! 😄 Inertia is always loyal to the law: the more you give, the more it returns. The interesting thing is that this simplicity opens up many creative ways when applied in practice. Thank you for this important reminder! Hope you will continue to follow and share more interesting knowledge.
Glad you like this idea! 💡 Sometimes, just one small step to start, you will see the motivation gradually come. Don't worry too much about getting everything perfect from the start, just try it and you'll find joy along the way. Let's try together, maybe we can help each other have more motivation to complete great ideas!
Haha, it's true that sometimes the government can make things a little more complicated! 😅 But I understand what you mean, sometimes they want to "adjust" things to protect safety and stability. Anyway, I will try to find ways to still be creative and work effectively within the framework! Thanks for sharing, there are more exciting challenges ahead!
Maybe if you add a fly ball governor and a planetary gear set, you can make an automatic transmission. The fly ball governor will control the difference between the input speed and output speed of the planetary gear set.
Thank you so much for this wonderful compliment! 😄🎉🎉 I'm so happy that you love the video and feel it's special! Let's go to the next level together and do even more amazing things!
Haha, that's right! 😄 If you want your bike to "go fast", sometimes it's necessary to add a little weight, especially when you need more traction and stability. But don't forget that "light" also has its own advantages - easy climbing and moving around the city! 🚴♂️💨
Впечатлиться от работы маховика и сделать подобную хрень мог только человек, у которого не было в детстве игрушек из "Киндер сюрприза": машинок с маховиками.
Haha, it's true that Kinder Sur toys from childhood taught us many interesting things! But now I am not only surprised but want to understand more deeply how the flywheel works, because it is an extremely interesting technical application. Maybe it comes from childhood curiosity, but now I want to turn that curiosity into really useful projects! 🚗💡 If you have any interesting ideas or perspectives on flywheels, don't hesitate to share, I'd love to learn more!
Тебе надо посмотреть на маховик облегченный профессора Нурбея Гулиа из СССР. Он из ленты металлической скручен, лёгкий и во много раз эффективней. К тому же он безопасен при случайном разрушении. 👍😁
Wow, I've never heard of Professor Nurbey Gulia's flywheel before, but it sounds very interesting! 😁 Using lightweight metal tape not only helps reduce weight but can also greatly increase efficiency. More importantly, safety when it is destroyed is also a very necessary factor in the design. Thank you for sharing a new source of inspiration, I will definitely learn more about this technology! 💡🚴♂️
@@HTN_creativity ⚠ God has said in the Quran: 🔵 { O mankind, worship your Lord, who created you and those before you, that you may become righteous - ( 2:21 ) 🔴 [He] who made for you the earth a bed [spread out] and the sky a ceiling and sent down from the sky, rain and brought forth thereby fruits as provision for you. So do not attribute to Allah equals while you know [that there is nothing similar to Him]. ( 2:22 ) 🔵 And if you are in doubt about what We have sent down upon Our Servant [Muhammad], then produce a surah the like thereof and call upon your witnesses other than Allah, if you should be truthful. ( 2:23 ) 🔴 But if you do not - and you will never be able to - then fear the Fire, whose fuel is men and stones, prepared for the disbelievers.( 2:24 ) 🔵 And give good tidings to those who believe and do righteous deeds that they will have gardens [in Paradise] beneath which rivers flow. Whenever they are provided with a provision of fruit therefrom, they will say, "This is what we were provided with before." And it is given to them in likeness. And they will have therein purified spouses, and they will abide therein eternally. ( 2:25 ) ⚠ Quran
I've also been thinking about a similar design lately, but it seems to me that it's more advantageous to first use the pedals to spin the flywheel to a solid speed (for example, with a gearbox, before driving, spin it up for a couple of minutes [or other sources of energy storage - such as spring mechanisms] [although if you use the principle of a mechanical watch, you need a monstrously sized spring 😅]) and then transfer energy from the flywheel or storage device to the wheel, because otherwise you have to turn both the wheel and the flywheel.^. a bicycle can go like this without a flywheel, but if you go uphill, the flywheel's energy will quickly run out :/ I heard about the principle of tidal mechanisms - there the pumping of energy into the system occurs exactly in time, due to which the flywheels can be maintained in the moment of rotation longer :3 I will try to give the name of these mechanisms in the response to the comment below
It's great that you also thought of a similar design! 😄 Using a flywheel to store energy and then transmit that energy to the wheels will definitely increase performance, especially with a gearbox system and spring mechanism like you suggest. The tidal mechanism you mentioned is also very interesting - injecting energy into the system at the right time can indeed help maintain the rotation speed of the flywheel for longer. Thank you for sharing these smart ideas, and I look forward to seeing the mechanics in your comments! Let's learn and create together! 💡
Thank you very much! 😊 I'm very happy that my ideas are appreciated by you. Hopefully I can continue to bring interesting and creative projects in the future.
Thank you very much! 😄 The inertial disc combined with the clutch will definitely help increase rotational speed and torque, creating great efficiency in power optimization. What a creative idea and worth testing! I will research further to improve and implement this idea in future projects. Thank you for contributing creative ideas.
Yes, overcoming the limits of the law of conservation of energy is a big challenge. But it is efforts and creativity like this that help us learn and grow further. I really appreciate your comments, they are the motivation for me to continue testing and finding new solutions. Thank you for sharing!
Haha, your ideas are so interesting and creative! 😄 A flywheel can create such an effect if combined with an egg and placed on a mound of dirt - it will definitely create spectacular “spins”. However, keeping the eggs safe while the flywheel spins like that must be quite a challenge! 😅 But just kidding, your ideas really give a feeling of unlimited creativity, where the impossible becomes possible. Have you ever thought about trying something “different” like that? 😆
@ На сколько я понимаю, вы считаете например нудистов, ненормальными. Кто вам дает право решать что такое «нормально»? Мы живем в неком социуме но не обязаны следовать всему как догме. Любые наши убеждения ошибочны!
That's right, sometimes removing parts like the flywheel from the wheel requires strength and a bit of technique. Tightening and adjusting slowly will help you separate them without damaging the parts.
Ah, you're talking about using magnets in the design, right? If we don't use magnets to control or assist the flywheel, there may be a lack of power to decelerate or assist with braking, especially when going uphill or needing to stop safely. The use of magnets can help reduce friction or create thrust, but it also needs to be calculated so as not to reduce the vehicle's effectiveness when needing to climb slopes or move on difficult terrain.
Surely no one wants to lose their toes, haha! 😄 But I also understand that worry. Everyone, please always remember to stay safe when testing new innovations.
Hello hero, I have information that I would like to provide. It is to put the small gear in the wheel that is in contact with the ground and the large gear in the heavy wheel that is rotating or I equal the size of the gears It will give you reasonable speed and the first option is preferred. ❤. I got tired writing. 😂❤
Hello! Thank you for sharing this very interesting idea! Placing the small gear on the wheel that is in contact with the ground and the large gear on the heavy rotating wheel will certainly help adjust the speed properly, depending on the ratio between the gears. This is a great mechanical solution! Don't forget to rest after writing! 😄❤
Haha, that's right! Perhaps my car will need a separate parking space for such "luxury" cars! 😄🚲💨 Thank you for bringing a bit of humor, I will definitely try to create more unique cars in future projects. Let's be creative and have fun together!
A clever idea, requires a little more development with the flywheel weights able to increase and decrease their diameter to react to the riding condition. I see where you were going with your idea. Please don’t burn out your vision welding without a lens. Life is long, you need your eyes.
Ah, sudden braking? 😄 It's definitely a fun challenge that I'll try out in an upcoming video! Thank you for your suggestion, I will pay attention to how to brake effectively and safely. Hope it doesn't make too much noise! 😅 Let's look forward to it!
For some special projects, destroying an otherwise good flywheel may be part of the testing and improvement process. Sometimes, changing or remanufacturing a part helps us create new designs, optimize performance, or simply learn from mistakes during testing. Don't forget that sometimes challenging old principles is the way for us to go further!
I wish these type of videos would show them climbing the hills and mountains with their inventions. It would be impossible to keep the inertia up to defy gravity. It would take over a thousand watts of human effort, not worth it.
Thank you for sharing your opinion! 😊 You are absolutely right, climbing hills or mountains with such inventions will definitely require a lot of energy, and inertia to fight gravity is a big factor to take into account. This makes maintaining and evolving these designs a huge challenge. However, I will continue to test and improve ideas to find a more optimal way that can use less energy and easily overcome obstacles such as hills and mountains. Thank you for your comments
Haha, you really have a very creative and funny way of expressing yourself! 😄 If the flywheel is abused like that, it can literally turn into an "ankle crusher" or "ligament cutter" in the way you describe, making things extremely dangerous.
Thank you so much for this great suggestion! 😊 Adding a motor to help drive up the mountain will definitely help improve performance a lot, especially when combined with a brushless screwdriver and a 5A battery. I will test and consider applying this idea to future projects so that the car can climb hills more easily. Thank you for sharing
Thank you for your compliment, listening gives me more motivation to work! 😄 When applying in practice, I always experiment carefully, from theoretical calculations to thorough safety checks. Of course, there will be unexpected challenges that appear, but thanks to that, we learn and improve step by step.
Not semi-autonomous, and not a car, but an interesting flywheel assistance to a bicycle which can help get up hills using energy from going downhills. If you post it accurately you may get some recognition and even see your device in production, although further assesment of best location may be necessary.
Wow, your idea sounds really interesting! 😲 A flywheel powered bike that utilizes energy from going downhill is an innovative solution that can help improve performance when climbing hills without having to rely entirely on pedaling power. It's a great way to reuse excess energy, providing a more efficient and energy-efficient driving experience!
Haha, you're right! 😄 It's true that the flywheel can't turn the pedals on its own, if there's no energy input, there's nothing to "return" on. The whole process is an interesting experiment to test the basic principles of motion and energy. The more you give, the more you get back. It's a simple but extremely accurate theorem. Thank you for sharing your perspective! Surely I will have to make further improvements to be more optimal. 🚴♂️🔧
That's right, losing a limb or losing balance in the design is not only dangerous, but can also lead to wasted energy as components like the flywheel rotate.
@HTN_creativity j'ai reçu une formation de technicien de laboratoire pour les idées il faudrait que je puise peut-être sur mes souvenirs et je pense que parfois pour faire une démonstration c'est un peu tiré par les cheveux mes idées en fonction de se que je vois sur t'es vidéo yt de se que tu sais faire et d'autres choses peut être ?tu fais des moteurs électriques ?
It's truly a 'peak' from the hill, isn't it! 😂 Perhaps gravity had a hand in making this wonderful thing happen. Thank you for bringing an interesting perspective, I hope you continue to support and laugh with the next creations!
Hello! 😊 Thanks for this important reminder! You're right, high speed flywheels need to be balanced correctly to ensure safety. That's also the reason why I always focus on checking the balance and reinforcing the flywheel holding mechanism in every design. Safety is always the top priority!
That's right, no matter how you use your bike, you ultimately need to expend the same amount of energy to travel 1 km. 😄 But the interesting thing is that how that energy is used and optimized can vary depending on the vehicle's design. This is why experimentation and innovation are so important, to find ways to save energy while still being efficient!
de verdad !!? , en la era de los motores eléctricos , tanto esfuerzo para aumentar el peso y tener un rendimiento tan bajo ? ,, al menos te has divertido haciéndolo
Для чего вообще этот маховик. Если использовать как кинетический аккумулятор, то в данном случае это сплошная потеря энергии и смысла в нем нет. Это тоже самое, что заряжать бензиновым двигателем аккумулятор, чтоб потом на этом аккумуляторе ехать. Лучше кинетический аккумулятор использовать на торможение. Нужно тормозить не колодками а маховиком. Таким образом вы получите небольшой запас энергии компенсируемый на торможение, а потом с помощью сцепления даст вам преимущество при разгоне. Тогда будут не большие потери энергии и будет сравнимо с катанием на более менее ровной поверхности. Например: скатываетесь вы с горы и тормозите велосипед маховиком. А затем поднимаясь в гору сцеплением от маховика передаете энергию обратно в колесо. Но есть одно но: скатываясь с горы и поднимаясь в гору вы все равно не преодолеете одно и тоже расстояние и часть горы на подтеме придется преодолеть собственными силами. Одним словом : закон сохранения энергии.
ну маленьким бензиновым двигателем можно зарядить акб и им запитать электромотор в несколько раз мощнее этого двс, но один фиг на этом акб ты проедешь меньше, чем на бензиновом моторе, но возможно быстрее и мощнее. Можно конечно раскрутить маховик и тронутся с места например с пробуксовкой(на канале Денис механик ставил маховик с мотором от триммера) но короче идея всего этого говно=))))
@Pitt_KHV27RUS да согласен. Ну Денис больно и не заморачивался. Больше по приколу. А вообще при хороших обработках деталей получаются интересные вещи. Например редукторные педали вместо звездочек... Прогресс не должен стоять на месте
Ha ha, that's right, safety must always come first! 😄 I will remember to close the lid every time I work, not only to protect the parts but also to avoid unnecessary accidents. Thank you for the reminder, I will pay more attention in the next projects!
*It is mistake:* You now spend most of your muscle forces to the air drag when your flywheel is spinning fast in air ! more of that, you spend muscle force to just carry big weght !
Thank you for sharing your very sharp opinion! This shows that this design is only suitable for some specific applications. But nonetheless, tests like this are a way for us to gain a deeper understanding of mechanics and performance. I really appreciate you pointing out the points that need to be fixed! If you have any more ideas for improving or replacing your bike's flywheel, please share! Looking forward to learning more from you! 🌟
I think this car that I built only brings joy and new experiences to people in the countryside where I live. But if this car is left on the sidewalk for everyone to experience, it is truly not suitable.
A technically pointless and even dangerous solution without any safety cover. Such a rotor has huge ventilation losses and I don't know what emergency braking would look like..
That's right, counterweights only work when balanced correctly. Otherwise, it will not be able to do its job of stabilizing and minimizing vibrations, and may even cause performance problems. Uncontrolled vibrations will not only reduce efficiency but can also cause damage to other parts of the system. Counterbalancing is important to ensure smooth and energy-efficient operation, while minimizing risk and waste.
VOLANT CA ĂLA SE FOLOSEȘTE LA MAȘINILE DE SPART LEMNE DE DIFERITE PUTERI ! ARE FORȚĂ DE ÎMPINGERE MARE ! O IDEE FOARTE BUNA DAR TREBUIE PUS VOLANTUL PERFECT ALINIAT CU ROȚILE CĂ ESTE CAM GREU SI TE TRAGE ÎNTR-O PARTE !
That's right, the steering wheel plays a very important role in controlling and stabilizing the vehicle, especially when combined with machines of different capacities. Aligning the steering wheel to match the other wheels is a decisive factor to avoid the vehicle tilting or losing balance. Thank you for pointing this issue out! If we optimize the balance, the car will operate much more efficiently and safely. A very valuable proposition!
👉 "Haha, it seems like my bike is testing your endurance, isn't it? 😅 Vibration and difficulty pedaling are definitely something I need to improve. I will check the transmission system and weight to fix it. makes cycling easier.
There is no free lunch as it requires the same amount of energy to charge the fly wheel then minus the fictional loses of all of the gear train, the original bike would have been more efficient..
Haha, that's right! 😄 Everything can be perfect until we hit a hill, but that is the time for us to experiment and improve further. That's part of the journey of creativity - overcoming challenges to make things better! Thank you for sharing your thoughts, let's learn and grow together!"
Thank you for sharing your very interesting thoughts! 😊 The idea of the flywheel spinning during braking and releasing energy during acceleration actually has a basis in the theory of energy recovery. However, implementing this idea in practice will face many challenges in terms of design and efficiency, especially in the braking and acceleration systems of bicycles. Just like you said, if not carefully calculated, it may not be effective or cause some problems.
Repenser le grand-bis il n'y a pas de changement de vitesse pas de freins?on peut penser à une manivelle flexible pour les efforts à fournir ou un autre système à commande manuelle
It's true that the classic grand-ball has a simple and nostalgic style, but improving it with modern ideas would be fun! Flexible cranks to support the effort can be a creative solution. Another idea could be a manual control system, such as a handbrake or a light booster that gives the driver more options when dealing with difficult situations.
Thank you for your review! Yes, an inertial toy may be just the beginning, but the potential for growth and practical application is huge. It is important to find ways to make the most of the inertial principle, such as improving energy storage efficiency or optimizing drive processes.
The conservation of energy theorem is an extremely important principle in the design and operation of most mechanical systems, especially in vehicles such as bicycles or devices that use mechanical energy.
Sorry, but your invention is only harming the force of movement. It is not balanced and causing vibration. Vibration causing less usefulness. And all this piece of metal is no sense. You spending to much power to get that thing momentum, and all its momentum will be destroyed by force of friction of more details. Yes, you gave your bike a little more mass, a little more inertia, but you gave a lot more friction. In all aspects: friction in new moving details, friction between wheels and ground because of bigger mass.
Thank you for taking the time to analyze so thoroughly! 🚴♂️✨ You have raised many important points worth pondering. I really appreciate your practical perspective and will consider improving the design. If you have any suggestions or experiences to fix these problems, I'd love to hear them! 🌟 Thank you so much! 🚲💡"
@@HTN_creativity maybe some decisions with springs, like toys, I don’t know. You can check old toys constructions. The only way to make bicycle faster is to do it lighter. Or electric motor.
@@HTN_creativity you should use the flywheel to store the cinetic energy when breaking, and then use it when accelerating. Although it could be possible to implement this mechanically, it would be easier using a microcontroller which drives a clutch between the flywheel and the wheel.
@@Daniele1182 Yes, in a hilly ride, if there was a way to store that energy coming downhill, and use the momentum for going back up the next hill.
@@lads.7715that is ironic, someone already done that I believe but it failed, an ironic reason why it failed is where launched it, Denmark where it's mainly flat
парню осталось поставить три пружины дверных,как это часто показывают,и даже педали крутить не придётся))))
Fantástico,un mecanismo así revolucionaria la automoción, gracias gracias y más gracias por tu idea.Un saludo desde España
В Советском союзе занимался профессор супер маховиками и сейчас кажется занимается но его маховик безопасный и закрытый. Но он накапливает энергию и в нужный момент отдаёт. Автобус маршрутный с супер маховикам, 30 процентов экономил топливо!
Wow, such studies are truly impressive! Super flywheel technology could offer a lot of potential, especially when it comes to efficiently accumulating and releasing energy. The idea of applying to buses to save 30% fuel is a big step forward in the development of energy-saving vehicles. Hopefully in the future, this technology will be more widely available. Thank you for sharing this interesting information!
да,было кажись пара телепередачь "это вы можете"по этой теме.но что то развития особого не пошло.хотя.....в союзе медленно шло продвижение иновациий.план всех губил.
@@Vinogradus72наверное потому, что на раскручивание маховика уходит больше энергии чем при езде без него, не?
@ не помню.давно это было.да и пацанёнком я был)) там шли научные беседы,а интересно было самоделки посмотреть)))
@@Vinogradus72 аналогично 🙂, ничего не понятно, но оооочень интересно 😀😀😀
Не дай Бог, что-то попадет в эту мясорубку!... Рука, нога, или одежда ...
😂
У изобретателя туда мозги попали 😂
Хмм интересно а что будет с задницей этого изобретателя если маховик разорвет. Явно девственность потеряет😂😂😂
Haha, you really have a very funny perspective! 😄 If the flywheel breaks, there will definitely be some unwanted consequences, but obviously, it's not "losing virginity"! However, a damaged flywheel can be dangerous or reduce system performance.
Coba di tanjakan apa bisa@@HTN_creativity
где тест преимуществ такой конструкции? покажи как заезжает в горку
Никаких преимуществ нету. Энергии запасается крохи, вариатора нету. Куча лишнего сопротивления и массы. Будь там вариатор(или мотор генератор на маховике и такой же на колесе), плюс вращайся в максимуме маховик хотя бы несколько тысяч оборотов в минуту, то как небольшой буфер, такую конструкцию можно было бы использовать. А то что в ролике, не даёт преимуществ, только недостатки.
Thank you for your useful sharing, it also helped me realize many shortcomings in building this car!
а он с горки катиться
Можно было сделать переключение скоростей и цель достигнута! Больше защиты от маховика! Но, это всё механика быстро приходит конец, надо было сбалансировать!
@@aleksandrparfeniy5896 С КПП нужно и сцепление, иначе нельзя будет переключить или будет рвать зубья шестерен. В общем, самоделка полная х.......
L’inertie ne restitue que ce qu’on y met !!! Rien de plus 😂😂😂😂😂
This statement is true physics! 😄 Inertia is always loyal to the law: the more you give, the more it returns. The interesting thing is that this simplicity opens up many creative ways when applied in practice. Thank you for this important reminder! Hope you will continue to follow and share more interesting knowledge.
Ещё больше железа, чтоб весил килограмм 300, и двигатель w6 туда, и будет вообще класс😢😢😢
Доктор Дью одобряет!
Love this. I had the exact same idea..but less drive to get it done.
Glad you like this idea! 💡 Sometimes, just one small step to start, you will see the motivation gradually come. Don't worry too much about getting everything perfect from the start, just try it and you'll find joy along the way. Let's try together, maybe we can help each other have more motivation to complete great ideas!
Holy windmills! Is that some sort of magnetic engine!?
Jajaja el gobierno viendo siempre que te quita,""perdón quise decir "regulando la actividad cívica y comercial"😅😅😅
Haha, it's true that sometimes the government can make things a little more complicated! 😅 But I understand what you mean, sometimes they want to "adjust" things to protect safety and stability. Anyway, I will try to find ways to still be creative and work effectively within the framework! Thanks for sharing, there are more exciting challenges ahead!
@HTN_creativity the gobernment human is the end in All Word
Maybe if you add a fly ball governor and a planetary gear set, you can make an automatic transmission. The fly ball governor will control the difference between the input speed and output speed of the planetary gear set.
😂 до слез ржал ,это же просто Тесла среди велосипедов!
Keka thagedhe le 😮🎉🎉🎉❤❤❤🎉🎉🎉.
Extraordinary video....
Next level and mass level....
Keka mama......
Thoppu.....🎉🎉🎉🎉🎉
Thank you so much for this wonderful compliment! 😄🎉🎉 I'm so happy that you love the video and feel it's special! Let's go to the next level together and do even more amazing things!
Todos aligerando las bicicletas. No señor, hay que meterles peso para que vayanas rápido 😂😂
Haha, that's right! 😄 If you want your bike to "go fast", sometimes it's necessary to add a little weight, especially when you need more traction and stability. But don't forget that "light" also has its own advantages - easy climbing and moving around the city! 🚴♂️💨
Aprendi, ideia muito boa, vou aperfeiçoa-la!!!😁😁😁👍
Thank you for liking it
Впечатлиться от работы маховика и сделать подобную хрень мог только человек, у которого не было в детстве игрушек из "Киндер сюрприза": машинок с маховиками.
Haha, it's true that Kinder Sur toys from childhood taught us many interesting things! But now I am not only surprised but want to understand more deeply how the flywheel works, because it is an extremely interesting technical application. Maybe it comes from childhood curiosity, but now I want to turn that curiosity into really useful projects! 🚗💡 If you have any interesting ideas or perspectives on flywheels, don't hesitate to share, I'd love to learn more!
Тебе надо посмотреть на маховик облегченный профессора Нурбея Гулиа из СССР. Он из ленты металлической скручен, лёгкий и во много раз эффективней. К тому же он безопасен при случайном разрушении. 👍😁
Wow, I've never heard of Professor Nurbey Gulia's flywheel before, but it sounds very interesting! 😁 Using lightweight metal tape not only helps reduce weight but can also greatly increase efficiency. More importantly, safety when it is destroyed is also a very necessary factor in the design. Thank you for sharing a new source of inspiration, I will definitely learn more about this technology! 💡🚴♂️
@@HTN_creativity как писал @DyLLIHuJIa можно использовать тонкий трос , намотать на лёгкое детское колесо и будет маховик 🙃. Я сам не знаю.
Hi fun project.
You still need a clutch, for easy start and stop.
Cheers.
Thanks for giving me this advice
@@HTN_creativity ⚠ God has said in the Quran:
🔵 { O mankind, worship your Lord, who created you and those before you, that you may become righteous - ( 2:21 )
🔴 [He] who made for you the earth a bed [spread out] and the sky a ceiling and sent down from the sky, rain and brought forth thereby fruits as provision for you. So do not attribute to Allah equals while you know [that there is nothing similar to Him]. ( 2:22 )
🔵 And if you are in doubt about what We have sent down upon Our Servant [Muhammad], then produce a surah the like thereof and call upon your witnesses other than Allah, if you should be truthful. ( 2:23 )
🔴 But if you do not - and you will never be able to - then fear the Fire, whose fuel is men and stones, prepared for the disbelievers.( 2:24 )
🔵 And give good tidings to those who believe and do righteous deeds that they will have gardens [in Paradise] beneath which rivers flow. Whenever they are provided with a provision of fruit therefrom, they will say, "This is what we were provided with before." And it is given to them in likeness. And they will have therein purified spouses, and they will abide therein eternally. ( 2:25 )
⚠ Quran
Awesome.. Cool... 🎉🎉🎉🎉🎉🎉🎉
I've also been thinking about a similar design lately, but it seems to me that it's more advantageous to first use the pedals to spin the flywheel to a solid speed (for example, with a gearbox, before driving, spin it up for a couple of minutes [or other sources of energy storage - such as spring mechanisms] [although if you use the principle of a mechanical watch, you need a monstrously sized spring 😅]) and then transfer energy from the flywheel or storage device to the wheel, because otherwise you have to turn both the wheel and the flywheel.^. a bicycle can go like this without a flywheel, but if you go uphill, the flywheel's energy will quickly run out :/
I heard about the principle of tidal mechanisms - there the pumping of energy into the system occurs exactly in time, due to which the flywheels can be maintained in the moment of rotation longer :3 I will try to give the name of these mechanisms in the response to the comment below
It's great that you also thought of a similar design! 😄 Using a flywheel to store energy and then transmit that energy to the wheels will definitely increase performance, especially with a gearbox system and spring mechanism like you suggest. The tidal mechanism you mentioned is also very interesting - injecting energy into the system at the right time can indeed help maintain the rotation speed of the flywheel for longer. Thank you for sharing these smart ideas, and I look forward to seeing the mechanics in your comments! Let's learn and create together! 💡
Very nice friend 😊
Thank you very much! 😊 I'm very happy that my ideas are appreciated by you. Hopefully I can continue to bring interesting and creative projects in the future.
Now I'm just too blind to ride it!😮
How do you disengage the fly wheel from the drive wheel ?
You know in case you need to stop.
Great metal work btw.
Better a full inertial disc and have a good clutch, you can make it spin real fast and have a lot of torque there. Dam good invention👍
Thank you very much! 😄 The inertial disc combined with the clutch will definitely help increase rotational speed and torque, creating great efficiency in power optimization. What a creative idea and worth testing! I will research further to improve and implement this idea in future projects. Thank you for contributing creative ideas.
😱aaaaah ma complimenti per la fantasia👍
you must add two flywheels of exactly the same weight rotate in opposite direction, otherwise it won't let you change direction at high speed
Oh, thank you for sharing this. It will be very useful in my work of making mechanical items
Very nice bro 😊
yes, the limit of the law of conservation of energy and you try to overcome it, you are enthusiastic
Yes, overcoming the limits of the law of conservation of energy is a big challenge. But it is efforts and creativity like this that help us learn and grow further. I really appreciate your comments, they are the motivation for me to continue testing and finding new solutions. Thank you for sharing!
Прямо представляю как на кочке яица на моховик наматывает😂
Haha, your ideas are so interesting and creative! 😄 A flywheel can create such an effect if combined with an egg and placed on a mound of dirt - it will definitely create spectacular “spins”. However, keeping the eggs safe while the flywheel spins like that must be quite a challenge! 😅
But just kidding, your ideas really give a feeling of unlimited creativity, where the impossible becomes possible. Have you ever thought about trying something “different” like that? 😆
@@HTN_creativityпод яйцами имеется в виду мужской половой орган, который может сорвать этой конструкцией
Для этого нужно ехать как минимум голым и без седла, но нормальные люди обычно так не делают.
@ На сколько я понимаю, вы считаете например нудистов, ненормальными. Кто вам дает право решать что такое «нормально»? Мы живем в неком социуме но не обязаны следовать всему как догме. Любые наши убеждения ошибочны!
@@ДосугИнженера это право есть у меня от рождения.
Хорошо с горки. А на горку😂
Thank you for sharing! Going downhill is really fun, isn't it? 😄 And going up the hill is also a fun challenge.
Make hand clucth to disengaged flywheel from the wheel when necessary.
That's right, sometimes removing parts like the flywheel from the wheel requires strength and a bit of technique. Tightening and adjusting slowly will help you separate them without damaging the parts.
great idea
A short hill would kill it!
Часто думал о маховике к велосипеду.Идея хороша, но надо чуть чуть доработать. Парень Молодец.🎉
Можно магнит 🧲 не поставил? А чё не так слабо ехать?
А теперь ехать в горы? Не можен кататься 🤣
Ah, you're talking about using magnets in the design, right? If we don't use magnets to control or assist the flywheel, there may be a lack of power to decelerate or assist with braking, especially when going uphill or needing to stop safely. The use of magnets can help reduce friction or create thrust, but it also needs to be calculated so as not to reduce the vehicle's effectiveness when needing to climb slopes or move on difficult terrain.
Ещё один способ лишиться пальцев на ногах. Браво.
Surely no one wants to lose their toes, haha! 😄 But I also understand that worry. Everyone, please always remember to stay safe when testing new innovations.
Hello hero, I have information that I would like to provide. It is to put the small gear in the wheel that is in contact with the ground and the large gear in the heavy wheel that is rotating or I equal the size of the gears It will give you reasonable speed and the first option is preferred. ❤. I got tired writing. 😂❤
Hello! Thank you for sharing this very interesting idea! Placing the small gear on the wheel that is in contact with the ground and the large gear on the heavy rotating wheel will certainly help adjust the speed properly, depending on the ratio between the gears. This is a great mechanical solution! Don't forget to rest after writing! 😄❤
@@HTN_creativity 😅😂♥️♥️
Muy buena idea genial
Thank you for giving me your compliment, it will be the motivation to help me constantly create new products
It's so long that it looks like cadillac bike.... he he he.....
Haha, that's right! Perhaps my car will need a separate parking space for such "luxury" cars! 😄🚲💨 Thank you for bringing a bit of humor, I will definitely try to create more unique cars in future projects. Let's be creative and have fun together!
A clever idea, requires a little more development with the flywheel weights able to increase and decrease their diameter to react to the riding condition. I see where you were going with your idea. Please don’t burn out your vision welding without a lens. Life is long, you need your eyes.
Люди занимаются "весодуреймарством"!... Облегчают свой велосипед!... Даже в раме и ободах дырки насверливают!, - а этот наоборот!!!.... ;-()
Проще насверлить дырки, чем перестать жрать.
Хотел бы посмотреть как он экстренно затормозит 😂😂😂
Ah, sudden braking? 😄 It's definitely a fun challenge that I'll try out in an upcoming video! Thank you for your suggestion, I will pay attention to how to brake effectively and safely. Hope it doesn't make too much noise! 😅 Let's look forward to it!
Для чего нужно было разрушать и без того хороший маховик?
For some special projects, destroying an otherwise good flywheel may be part of the testing and improvement process. Sometimes, changing or remanufacturing a part helps us create new designs, optimize performance, or simply learn from mistakes during testing. Don't forget that sometimes challenging old principles is the way for us to go further!
Парень слишком крут, прищуривается, когда варит
super🥰
Anh người Việt Nam đúng không
My concern is if the drill bit was to grab when drilling big heavy lumps hand held.
Лучше бы на этот вес, поставил бы моторчик с АКБ ...
I wish these type of videos would show them climbing the hills and mountains with their inventions. It would be impossible to keep the inertia up to defy gravity. It would take over a thousand watts of human effort, not worth it.
Thank you for sharing your opinion! 😊 You are absolutely right, climbing hills or mountains with such inventions will definitely require a lot of energy, and inertia to fight gravity is a big factor to take into account. This makes maintaining and evolving these designs a huge challenge. However, I will continue to test and improve ideas to find a more optimal way that can use less energy and easily overcome obstacles such as hills and mountains. Thank you for your comments
nice idea
That thing looks like an vicious ankle crusher and debollocker😂
Haha, you really have a very creative and funny way of expressing yourself! 😄 If the flywheel is abused like that, it can literally turn into an "ankle crusher" or "ligament cutter" in the way you describe, making things extremely dangerous.
нужно добавить двигатель для поддержки заезда на гору, использовать из бесщеточного шуруповерта и парочку аккамуляторов 5А
Thank you so much for this great suggestion! 😊 Adding a motor to help drive up the mountain will definitely help improve performance a lot, especially when combined with a brushless screwdriver and a 5A battery. I will test and consider applying this idea to future projects so that the car can climb hills more easily. Thank you for sharing
Товарищ не придумал как остановить эту размахайку? Не вижу муфты сцепления в этой кинематике.
Le puso un volante de inercia. Muy bien.
Bro your project is wonderful but when u apply break ??
Thank you for your compliment, listening gives me more motivation to work! 😄 When applying in practice, I always experiment carefully, from theoretical calculations to thorough safety checks. Of course, there will be unexpected challenges that appear, but thanks to that, we learn and improve step by step.
Вечных двигателей, все таки не бывает...😉
Ha ha, there really is no such thing as a perpetual motion machine! 😉 But it's always fun to explore and test creative ideas to improve performance
Так приятно,что большинство людей понимают какая это шляпа 😂
Molto spiritoso.
Not semi-autonomous, and not a car, but an interesting flywheel assistance to a bicycle which can help get up hills using energy from going downhills. If you post it accurately you may get some recognition and even see your device in production, although further assesment of best location may be necessary.
Wow, your idea sounds really interesting! 😲 A flywheel powered bike that utilizes energy from going downhill is an innovative solution that can help improve performance when climbing hills without having to rely entirely on pedaling power. It's a great way to reuse excess energy, providing a more efficient and energy-efficient driving experience!
Крутить педали вместо тебя,тот маховик все равно не будет.сколько отдаш столько и получиш
Haha, you're right! 😄 It's true that the flywheel can't turn the pedals on its own, if there's no energy input, there's nothing to "return" on. The whole process is an interesting experiment to test the basic principles of motion and energy. The more you give, the more you get back. It's a simple but extremely accurate theorem. Thank you for sharing your perspective! Surely I will have to make further improvements to be more optimal. 🚴♂️🔧
GOOD👆👆👆
Your family runs an iron factory,So many materials and tools,Can DIY make🎉🎉🎉
Because he is a mechanic, he will have a lot of items to serve this job, it is not a factory like you said. Thank you for watching my video
Сопромат? Не, не слышал...
Only works in downhill 😂😂
Мало того что опасно лишиться конечности, так еще и энергия впустую расходуется при вращении маховика. Очумелые ручки...
That's right, losing a limb or losing balance in the design is not only dangerous, but can also lead to wasted energy as components like the flywheel rotate.
Дали обезьяне сварку и болгарку, и она испортила велосипед.
Полный идиотизм.
Добавить магниты сам закрутится маховик.
Texnika mo'jizasini ko'rganman. Lekin bunaqasini...😂
Les angles sont biens choisi sur le volant 2*60° par rapport à un plan bien joué
You are very knowledgeable about mechanics. If you have any good ideas, you can share them with me
@HTN_creativity j'ai reçu une formation de technicien de laboratoire pour les idées il faudrait que je puise peut-être sur mes souvenirs et je pense que parfois pour faire une démonstration c'est un peu tiré par les cheveux mes idées en fonction de se que je vois sur t'es vidéo yt de se que tu sais faire et d'autres choses peut être ?tu fais des moteurs électriques ?
С горки самое то😂
It's truly a 'peak' from the hill, isn't it! 😂 Perhaps gravity had a hand in making this wonderful thing happen. Thank you for bringing an interesting perspective, I hope you continue to support and laugh with the next creations!
Hmm, Bicycle with Flywheel
I'am interested
Маховики высокоскоростные очень опасны. Всегда нуждаются в балансировке..
Hello! 😊 Thanks for this important reminder! You're right, high speed flywheels need to be balanced correctly to ensure safety. That's also the reason why I always focus on checking the balance and reinforcing the flywheel holding mechanism in every design. Safety is always the top priority!
С горки пойдёт 👍
Без сцепления опасная хрень.
To drive 1 Km you will need to pedal the same amount and need the same amount of energy whatever the way you use it
That's right, no matter how you use your bike, you ultimately need to expend the same amount of energy to travel 1 km. 😄 But the interesting thing is that how that energy is used and optimized can vary depending on the vehicle's design. This is why experimentation and innovation are so important, to find ways to save energy while still being efficient!
de verdad !!? , en la era de los motores eléctricos , tanto esfuerzo para aumentar el peso y tener un rendimiento tan bajo ? ,, al menos te has divertido haciéndolo
Clutch needed.
Для чего вообще этот маховик. Если использовать как кинетический аккумулятор, то в данном случае это сплошная потеря энергии и смысла в нем нет.
Это тоже самое, что заряжать бензиновым двигателем аккумулятор, чтоб потом на этом аккумуляторе ехать.
Лучше кинетический аккумулятор использовать на торможение. Нужно тормозить не колодками а маховиком. Таким образом вы получите небольшой запас энергии компенсируемый на торможение, а потом с помощью сцепления даст вам преимущество при разгоне. Тогда будут не большие потери энергии и будет сравнимо с катанием на более менее ровной поверхности.
Например: скатываетесь вы с горы и тормозите велосипед маховиком. А затем поднимаясь в гору сцеплением от маховика передаете энергию обратно в колесо.
Но есть одно но: скатываясь с горы и поднимаясь в гору вы все равно не преодолеете одно и тоже расстояние и часть горы на подтеме придется преодолеть собственными силами.
Одним словом : закон сохранения энергии.
ну маленьким бензиновым двигателем можно зарядить акб и им запитать электромотор в несколько раз мощнее этого двс, но один фиг на этом акб ты проедешь меньше, чем на бензиновом моторе, но возможно быстрее и мощнее. Можно конечно раскрутить маховик и тронутся с места например с пробуксовкой(на канале Денис механик ставил маховик с мотором от триммера) но короче идея всего этого говно=))))
@Pitt_KHV27RUS так я про это и говорю. По отношению к велосипеду речи о мощности вообще не идет
@Pitt_KHV27RUS да согласен. Ну Денис больно и не заморачивался. Больше по приколу. А вообще при хороших обработках деталей получаются интересные вещи. Например редукторные педали вместо звездочек... Прогресс не должен стоять на месте
That flywheel looks questionable. No balancing?
Not so bad for eyeballing. :-)
Thank you very much
I will try your difficult task, please look forward to my new videos
どうぞ安全のためにカバーを付けて下さい。
Ha ha, that's right, safety must always come first! 😄 I will remember to close the lid every time I work, not only to protect the parts but also to avoid unnecessary accidents. Thank you for the reminder, I will pay more attention in the next projects!
@HTN_creativity
ご安全に!(goanzenni)
日本では作業環境の向上として、
作業をする時に、仲間同士で挨拶をします😊
goanzenni!と仲間に声をかけます。
Falta freio em uma decida 😅
Ilusão!
*It is mistake:*
You now spend most of your muscle forces to the air drag when your flywheel is spinning fast in air ! more of that, you spend muscle force to just carry big weght !
Thank you for sharing your very sharp opinion! This shows that this design is only suitable for some specific applications. But nonetheless, tests like this are a way for us to gain a deeper understanding of mechanics and performance.
I really appreciate you pointing out the points that need to be fixed! If you have any more ideas for improving or replacing your bike's flywheel, please share! Looking forward to learning more from you! 🌟
И занимайся коммерций,у тебя хорошо получилось, люди будут покупать такой интересный транспорт.
Пусть люди, лучше вложат деньги в образование , что бы не городить такие поделки , а создавать достойные изделия .
Cooles Projekt, aber muss man so etwas mitten auf dem Fußweg an der Straße bauen?
I think this car that I built only brings joy and new experiences to people in the countryside where I live. But if this car is left on the sidewalk for everyone to experience, it is truly not suitable.
A technically pointless and even dangerous solution without any safety cover. Such a rotor has huge ventilation losses and I don't know what emergency braking would look like..
Дайте копійок
Desde mi casa oigo la vibración del contrapeso.
Si no lo equilibras es como si no hace nada....
That's right, counterweights only work when balanced correctly. Otherwise, it will not be able to do its job of stabilizing and minimizing vibrations, and may even cause performance problems. Uncontrolled vibrations will not only reduce efficiency but can also cause damage to other parts of the system. Counterbalancing is important to ensure smooth and energy-efficient operation, while minimizing risk and waste.
VOLANT CA ĂLA SE FOLOSEȘTE LA MAȘINILE DE SPART LEMNE DE DIFERITE PUTERI ! ARE FORȚĂ DE ÎMPINGERE MARE ! O IDEE FOARTE BUNA DAR TREBUIE PUS VOLANTUL PERFECT ALINIAT CU ROȚILE CĂ ESTE CAM GREU SI TE TRAGE ÎNTR-O PARTE !
That's right, the steering wheel plays a very important role in controlling and stabilizing the vehicle, especially when combined with machines of different capacities. Aligning the steering wheel to match the other wheels is a decisive factor to avoid the vehicle tilting or losing balance. Thank you for pointing this issue out! If we optimize the balance, the car will operate much more efficiently and safely. A very valuable proposition!
Propesor dadakan😂
Наката так таковой нет, зато появилась вибрация и тяжело педалировать 🤣 дальность катание на этом максимум 500 метров и колени скажут досвидос
👉 "Haha, it seems like my bike is testing your endurance, isn't it? 😅 Vibration and difficulty pedaling are definitely something I need to improve. I will check the transmission system and weight to fix it. makes cycling easier.
Дальность катания-время сьемки.
There is no free lunch as it requires the same amount of energy to charge the fly wheel then minus the fictional loses of all of the gear train, the original bike would have been more efficient..
ОЧЕНЬ ОПАСНО, ЛЕГЧЕ И ДЕШЕВЛЕ В ЗАДНЕЕ КОЛЕСО ВО ВНУТРЬ ВСТАВИТЬ АВТОМОБИЛЬНЫЙ МАХОВИК
Todo bien hasta que aparezca una una colina
Haha, that's right! 😄 Everything can be perfect until we hit a hill, but that is the time for us to experiment and improve further. That's part of the journey of creativity - overcoming challenges to make things better! Thank you for sharing your thoughts, let's learn and grow together!"
Молодец.!!!
Я сначала думал что маховик раскручивается от торможения велосипеда а потом отдаёт энергию при разгоне, а тут чепуха если честно кака то.
Thank you for sharing your very interesting thoughts! 😊 The idea of the flywheel spinning during braking and releasing energy during acceleration actually has a basis in the theory of energy recovery. However, implementing this idea in practice will face many challenges in terms of design and efficiency, especially in the braking and acceleration systems of bicycles. Just like you said, if not carefully calculated, it may not be effective or cause some problems.
Repenser le grand-bis il n'y a pas de changement de vitesse pas de freins?on peut penser à une manivelle flexible pour les efforts à fournir ou un autre système à commande manuelle
Je crois qu'il y a un fabricant de boîte de vitesse par engrenage pour vélo je ne dis pas qui
It's true that the classic grand-ball has a simple and nostalgic style, but improving it with modern ideas would be fun! Flexible cranks to support the effort can be a creative solution. Another idea could be a manual control system, such as a handbrake or a light booster that gives the driver more options when dealing with difficult situations.
Обычная инерционная игрушка. Его ещё раскрутить надо.
Thank you for your review! Yes, an inertial toy may be just the beginning, but the potential for growth and practical application is huge. It is important to find ways to make the most of the inertial principle, such as improving energy storage efficiency or optimizing drive processes.
А закон збереження енергії?)
The conservation of energy theorem is an extremely important principle in the design and operation of most mechanical systems, especially in vehicles such as bicycles or devices that use mechanical energy.
Yaxsh drabila aylanuvch mexanizmlarn xmoyalash keragid barbir oshsha kuch ketad