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How to design a Double helical gearbox (Herringbone Gears) #357 |#designwithajay|@DesignWithAjay
49:49
DesignWithAjay

How to design a Double helical gearbox (Herringbone Gears) #357 |#designwithajay|@DesignWithAjay

#designwithajay #tutorial #solidworks #mechanical #tutorial #SolidWorks #machinedesign #learning #fastlearning @YouTube @Google @GoogleIndia @instagram @DesignWithAjay A double helical gearbox is a type of gearbox that uses double helical gears, also known as herringbone gears, instead of the traditional straight-cut or spur gears. These gears have a unique tooth geometry that creates a smooth and quiet operation, as well as reducing the amount of vibration and stress on the gearbox components. Double helical gears are typically used in applications that require high precision and power transmission, such as in industrial machinery, wind turbines, and heavy equipment. Double helical gears work by using two sets of angled teeth that mesh together, creating a "V" shape. This "V" shape helps to distribute the load more evenly across the gear teeth, reducing the amount of stress and wear on the gears. The angled teeth also help to cancel out any vibration and noise that may be created during operation, resulting in a smoother and quieter transmission of power. In a double helical gearbox, the input power is applied to one of the gears, which then rotates and transmits power to the other gear. The gears are typically arranged in such a way that they are "meshed" together, meaning that the teeth of one gear are interlocked with the teeth of the other gear. As the input gear rotates, it causes the output gear to rotate as well, transmitting power and torque to the output shaft. Double helical gears are typically used in situations where high precision and power transmission is required. They are commonly used in industrial machinery, wind turbines, and heavy equipment, where smooth and quiet operation is important. #tutorial #education #design #youtubeshorts #shorts #tamil #solidworkstutorial #machine #mechanical #mechanicalengineering #mechanics #solidworksassembly #engineering #engineer #engine #cad #3d #autocad #catia #technology #solidworks2022 #designwithajayyoutubechannel#gearbox#doublehelicalgears#herringbonegears#mechanicalengineering#design#cad#3dmodeling#mechanicaldesign#engineeringdesign#machinebuilding#automation
How to design Helical Planetary Gearbox Using SolidWorks Software #386#DesignWithAjay@DesignWithAjay
42:42
DesignWithAjay

How to design Helical Planetary Gearbox Using SolidWorks Software #386#DesignWithAjay@DesignWithAjay

#designwithajay #tutorial #solidworks #planetarygearbox @DesignWithAjay @YouTube Join us on DesignWithAjay as we guide you step-by-step through the process of designing a Helical Planetary Gearbox using the powerful SolidWorks software! 🚀 In this comprehensive tutorial, we'll demystify the art of gearbox design, breaking it down into manageable steps that anyone can follow. Whether you're a mechanical engineering enthusiast, a student, or a professional, this video is your gateway to mastering the intricacies of Helical Planetary Gearbox design. A planetary gearbox, also known as an epicyclic gearbox, is a type of gearbox that uses multiple gears arranged on a central sun gear and surrounding planet gears that rotate on a planetary carrier. The planetary carrier is connected to the output shaft, and the sun gear is connected to the input shaft. The planetary gears are in constant mesh with both the sun gear and an outer ring gear, which is called an annulus or an outer gear. Planetary gearboxes are known for their compactness, high power density, and ability to provide high gear reduction ratios. They are widely used in a variety of applications, including automobiles, industrial equipment, robotics, and aerospace. There are several different types of planetary gear systems. A basic planetary gear system has three main components: the sun gear, the planetary gears, and the ring gear. #solidworks#plasticshredder#machinedesign#mechanicalengineering#cad#3dmodeling#engineeringdesign#productdesign#manufacturing#plastics#recycling#sustainability #wastemanagement#environment#industrialdesign#machinebuilding#automation#prototype#productdevelopment#engineeringanalysis #tutorial #education #design #youtubeshorts #shorts #tamil #solidworkstutorial #machine
Creating an Efficient Roller Conveyor System from Scratch #365  #conveyor |#SolidWorks|
17:46
DesignWithAjay

Creating an Efficient Roller Conveyor System from Scratch #365 #conveyor |#SolidWorks|

#designwithajay #tutorial #solidworks @DesignWithAjay @Sw-tcNet A roller conveyor is a type of material handling equipment used to transport goods or items from one point to another within a facility or production line. It consists of a series of cylindrical rollers mounted on a frame, allowing items to move smoothly along the conveyor's length. Roller conveyors offer several advantages in material handling operations, including: Easy and efficient movement of items: The low-friction rollers enable smooth transportation, reducing the effort required to move items manually. Versatility: Roller conveyors can handle a wide range of item sizes, shapes, and weights, making them suitable for diverse industries and applications. Cost-effective: Roller conveyors are often more affordable compared to other types of conveyors, making them a cost-effective solution for many businesses. Modularity and scalability: Roller conveyors can be easily customized, extended, or modified to adapt to changing production needs and facility layouts. Reduced manual labor: By automating the transportation process, roller conveyors help reduce the reliance on manual labor, improving efficiency and productivity. Safety: Roller conveyors can be designed with safety features such as emergency stop buttons, guards, and interlocks to ensure operator safety and prevent accidents #designwithajay #3d #conveyorsystem #conveyorbelinustrialmaterial #conveyor #wastemanagement#environment#industrialdesign#machinebuilding#automation#prototype#productdevelopment#engineeringanalysis.
DIY Project : Design Your Own Sheet Rolling Machine Using SolidWorks #377 #designwithajay
52:36
DesignWithAjay

DIY Project : Design Your Own Sheet Rolling Machine Using SolidWorks #377 #designwithajay

#designwithajay #tutorial #solidworks#gear #gearbox #designwithajay #tutorial #solidworksdrawing @DesignWithAjay @Sw-tcNet @YouTube "Empowering Ingenuity: Creating a Manual Sheet Rolling Machine with SolidWorks" Welcome to our YouTube channel! 🛠️ Join us in a remarkable journey through the realm of mechanical design as we unveil the step-by-step process of crafting a manual sheet rolling machine using the cutting-edge SolidWorks software. In this engaging series, we'll guide you through the intricate art of design, from conceptualization to the virtual prototype. With SolidWorks as our trusted companion, we'll showcase how to seamlessly integrate functionality, precision, and innovation into every aspect of this mechanical marvel. Whether you're a mechanical engineer seeking advanced insights or an enthusiastic learner curious about the mechanics of design, our channel is your gateway to unlocking the secrets of engineering brilliance. Get ready to witness the fusion of digital mastery and mechanical ingenuity as we breathe life into a manual sheet rolling machine that not only shapes metal but also stands as a testament to the power of thoughtful design. 🛢️🔩 Don't forget to subscribe and hit the notification bell to be part of every enlightening episode of this design odyssey! 🚀🔔 Let's sculpt a future of exceptional design, powered by the capabilities of SolidWorks. 💡🔧 A manual sheet rolling machine is a mechanical device used to bend or shape sheets of metal or other materials. It allows for the creation of curved or rolled sections in the sheets, which are commonly used in various industries such as metalworking, construction, automotive, and fabrication. Remember to subscribe to our channel for more captivating videos on CAD design, product development, and mechanical engineering projects. Stay tuned for upcoming tutorials, guides, and fascinating content to fuel your passion for innovation and design. #tutorial #education #design #youtubeshorts #shorts #tamil #solidworkstutorial #machine #mechanical #mechanicalengineering #mechanics #solidworksassembly #engineering #technicaldrawing#tutorial #education #design #youtubeshorts #shorts #tamil #solidworkstutorial #machine #mechanical #mechanicalengineering #mechanics #solidworksassembly #engineering #engineer #engine #cad #3d #autocad #catia #technology #solidworks2022 #designwithajayyoutubechannel
Designing a Reduction Spur Gear Box Made Easy: Step-by-Step Tutorial  | design with ajay |
58:01
DesignWithAjay

Designing a Reduction Spur Gear Box Made Easy: Step-by-Step Tutorial | design with ajay |

#designwithajay #solidworksmechanical #tutorial #SolidWorks #machinedesign #learning #fastlearning @DesignWithAjay @YouTube @YouTubeViewers @solidworks @Sw-tcNet Hello Everyone ! I am Ajay welcome to my YouTube Channel A reduction spur gearbox is a type of gearbox that uses spur gears to reduce the speed and increase the torque of a rotating power source. Spur gears are gears with straight teeth that are cut parallel to the gear axis. They are the simplest and most common type of gear and are used in a wide variety of applications. The reduction spur gearbox typically consists of three main components: an input shaft, a set of gears, and an output shaft. The input shaft is connected to the power source and transfers power to the gears. The gears are arranged in a specific configuration, with the input gear (or gears) meshed with the output gear(s) in such a way that power is transferred from the input shaft to the output shaft at a reduced speed and increased torque. The reduction spur gearbox can be used in a variety of applications such as conveyors, fans, mixers, crushers, pumps and other industrial machinery. They are often used in industries such as mining, oil and gas, chemical, and other heavy-duty industrial applications, they are designed to operate in harsh conditions and are built to last. The key features of reduction spur gearbox include high efficiency, high torque capacity, smooth operation, and long service life. They can be designed to handle different types of load and operating conditions, and to meet specific requirements of the application they are being used in. Spur gears are relatively simple and inexpensive to manufacture, which makes them a popular choice for many applications. However, they are not as efficient or quiet as other types of gears, such as helical gears, which are inclined at an angle to the gear axis. As a result, reduction spur gearboxes may not be the best choice for applications that require high levels of efficiency or low noise levels. #solidworks#gearbox#spurgears#mechanicalengineering#design#cad#3dmodeling#mechanicaldesign #engineeringdesign#machinebuilding#automation #gearreduction #heavyindustr#tutorial #education #design #youtubeshorts #shorts #tamil #solidworkstutorial #machine #mechanical #mechanicalengineering #mechanics #solidworksassembly #engineering #engineer #engine #cad #3d #autocad #catia #technology #solidworks2022 #designwithajayyoutubechannel
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