Design and Implementation of an Android-Controlled Springless Suspension Robot Using Bevel Gear Mechanism
Springless suspension, bevel gear mechanism, Bluetooth control, Arduino, robotic platform, load distribution
Springs and dampers are important parts of traditional vehicle suspension systems. They help the vehicle absorb shocks from bumpy roads, but they make the systems more complicated, require more maintenance, and use more energy. This study introduces the design and execution of an innovative springless suspension robot that replaces traditional spring components with a bevel gear mechanism for shock absorption and load distribution. The suggested system uses a set of bevel gears to turn vertical wheel motion into rotational energy. This energy is then spread across the gear train to keep the load on all the wheels even. An HC-05 module lets you control the robot from a distance using Bluetooth. An Arduino Uno microcontroller controls the motors through an L293D motor driver. Experimental findings indicate that the bevel gear-based suspension system efficiently mitigates road irregularities while preserving wheel contact and vehicular stability. The prototype moves smoothly over rough ground, spreads the load evenly, responds quickly to remote control commands, and is less complicated than traditional spring-based systems. This research helps create new ways to design car suspensions that are simple, efficient, and environmentally friendly.
Registration ID: IJVRA_702700 Published ID: IJVRA26A3056
"Design and Implementation of an Android-Controlled Springless Suspension Robot Using Bevel Gear Mechanism", IJVRA - International Journal of Versatile Research and Analysis (www.IJVRA.org), ISSN:2984-8903, Vol.4, Issue 3, page no.97-109, March-2026, Available :https://ijpub.org/ijvra/papers/IJVRA26A3056.pdf
Paper Reg. ID: IJVRA_702700
Published Paper Id: IJVRA26A3056
Research Area: Other area not in list
Country: thane, maharashatra, India
ISSN: 2984-8903 | IMPACT FACTOR: 9.12 Calculated By Google Scholar | ESTD YEAR: 2023
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Publisher: IJVRA (IJ Publication) Janvi Wave
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