To determine the load capacity of a DC motor, we need to consider several factors, including: 1. Motor power (250W) 2. Current (24A) 3. Speed (310 RPM) 4. Gear ratio (not specified, assuming 1:1 for simplicity) A general rule of thumb for DC motors is to use the following formula: Load capacity (in kg) ≈ (Motor power × 1000) / (Speed × Gear ratio) Plugging in the values, we get: Load capacity ≈ (250W × 1000) / (310 RPM × 1) Load capacity ≈ 806.45 kg However, this is a rough estimate and doesn't take into account factors like: - Friction - Inertia - Motor efficiency - Gearbox efficiency (if applicable) To be more accurate, let's consider a safety factor of 0.5 to 0.7 (depending on the application). This reduces the estimated load capacity to: Load capacity ≈ 403.22 kg to 564.51 kg So, the DC motor can likely handle a load of around 400-560 kg (880-1234 lbs), depending on the specific application and conditions. Keep in mind that this is still an estimate, and actual performance may vary. Please provide more details about your project, such as the gearbox ratio, wheel diameter, and application, for a more precise calculation.
Good job, I like it. I have only a trouble about the position of steering connecting rod. In your design you have differen position of rod-end bearing (tie rods) min. 5:00 to 5:30, in this manner when you turn left or right, the angle of each weel is different each other. I think it is better connect at the same point the two rod-end bearing (pitman arm). Go on you are in the right way.
Robots should be driven by one motor on each wheel. Not by axle. You will have usage on the tyres like that. At each turn, you will scratch the ground with those solid wheels.
Hello, very nice job, I have some questions: - Aluminium bars size is 20x20 or 40x40? - Wheel axle is 16 or 20mm? - did you pierce the pipe to put the flange screw through on the back axle? - Did you try on beach sand, it worked? - Whic material did you use to make the pulley? Thank you
I got motivated by a 6 wheeled Amphibious ATV I saw and I want to build something like that, where it can drive on land and maybe float on water as well
![Lp. Сердце Вселенной #60 РОЖДЕНИЕ ЛОЛОЛОШКИ [Финал] • Майнкрафт](http://i.ytimg.com/vi/YoR0pAV9FVQ/mqdefault.jpg)
To determine the load capacity of a DC motor, we need to consider several factors, including:
1. Motor power (250W)
2. Current (24A)
3. Speed (310 RPM)
4. Gear ratio (not specified, assuming 1:1 for simplicity)
A general rule of thumb for DC motors is to use the following formula:
Load capacity (in kg) ≈ (Motor power × 1000) / (Speed × Gear ratio)
Plugging in the values, we get:
Load capacity ≈ (250W × 1000) / (310 RPM × 1)
Load capacity ≈ 806.45 kg
However, this is a rough estimate and doesn't take into account factors like:
- Friction
- Inertia
- Motor efficiency
- Gearbox efficiency (if applicable)
To be more accurate, let's consider a safety factor of 0.5 to 0.7 (depending on the application). This reduces the estimated load capacity to:
Load capacity ≈ 403.22 kg to 564.51 kg
So, the DC motor can likely handle a load of around 400-560 kg (880-1234 lbs), depending on the specific application and conditions. Keep in mind that this is still an estimate, and actual performance may vary.
Please provide more details about your project, such as the gearbox ratio, wheel diameter, and application, for a more precise calculation.
Nice project well done 👍 it's much better if you can provide the details of the parts used in the description
Good job, I like it. I have only a trouble about the position of steering connecting rod. In your design you have differen position of rod-end bearing (tie rods) min. 5:00 to 5:30, in this manner when you turn left or right, the angle of each weel is different each other. I think it is better connect at the same point the two rod-end bearing (pitman arm). Go on you are in the right way.
Thank you very much, very helpful advice to me.
How much weight can it Lift?
Robots should be driven by one motor on each wheel. Not by axle. You will have usage on the tyres like that. At each turn, you will scratch the ground with those solid wheels.
I get all my designing right on the first try too.
I like it, good idea!👍👏
Thank so much
Hello, very nice job, I have some questions:
- Aluminium bars size is 20x20 or 40x40?
- Wheel axle is 16 or 20mm?
- did you pierce the pipe to put the flange screw through on the back axle?
- Did you try on beach sand, it worked?
- Whic material did you use to make the pulley?
Thank you
I was literally going to make something almost exactly identical to this ! Thanks!
I got motivated by a 6 wheeled Amphibious ATV I saw and I want to build something like that, where it can drive on land and maybe float on water as well
Excuse me how to make this controller or do you have video to make this project have controller
How much does this whole set costs?
do you have 3d design or something can help me to design this please and thanks for the video :
Nice good idea
Nice idea . But it's missing shock absorber . It's very important to achieve stability
From where i can buy that Wheel
Hi, can you send the link of motor where can buy it?
can i know what name of part that attach alluminium and tyre
How to make it line following?
Wheels link plz
Why do you not drive it?
Please tyre kink in description
How can Buy that whill
Are you want to make it a remotely accessible car
Yes And for Jetson Nano robot car
@@MakerTutor101 wow
@@MakerTutor101 awaiting for jetson robot car
Can you build a fly in car
Can u show me how to code arduino
Круто! Молодец!)))
Use karke bhi dikha dete🙂
Don't forget the timing belt cover.
Ok , Thanks so much
Halo
Steering design is worst
the reason why this video didn't get many views is the music, it's pretty bad