GEPRC Cinelog 35 V2 Duct: Precision 3D-Printed Part for Optimized Flight Performance
Introduction: Enhancing the Cinelog 35 V2 with 3D-Printed Ducts
The GEPRC Cinelog 35 V2 is renowned for smooth, precise flights and cinematic video capabilities. To further enhance its performance, 3D-printed ducts provide additional thrust efficiency, protection, and stability. Designed to channel airflow efficiently around the propellers, these ducts optimize flight dynamics, improve maneuverability, and safeguard the propellers during close-proximity flights.
Our 3D-printed ducts are manufactured using Klipper-controlled printers with premium imported filament, ensuring the perfect combination of lightweight design and durability.
Why Use 3D-Printed Ducts on the GEPRC Cinelog 35 V2?
1. Improved Thrust Efficiency
The ducts enhance airflow around the propellers, providing increased thrust and helping the Cinelog 35 V2 achieve better lift with less power consumption.
2. Enhanced Propeller Protection
The 3D-printed ducts protect the propellers from damage during tight maneuvers, especially when flying near obstacles or in confined spaces.
3. Better Flight Stability
By smoothing the airflow, the ducts minimize turbulence, resulting in more stable and responsive flight control.
4. Lightweight Design for Optimal Performance
Our duct design adds minimal weight, ensuring that the Cinelog 35 V2 maintains its agility and flight time without compromise.
Advantages of Using 3D-Printed Ducts for the Cinelog 35 V2
- Increased Thrust Efficiency: Maximizes airflow for better lift and reduced battery usage.
- Propeller Protection: Shields propellers from impacts, extending their lifespan.
- Stable and Smooth Flight: Reduces turbulence, improving flight stability.
- Lightweight and Durable: Maintains drone performance without compromising on durability.
Materials: High-Performance Filament for Maximum Durability
We use only imported filament to ensure each motor protector meets high durability standards. Key materials include:
- TPU: Provides flexible impact absorption, ideal for rough landings and collisions.
- PETG: Offers excellent strength and heat resistance, perfect for outdoor flying.
- Nylon: Lightweight yet durable, ensuring long-lasting protection in all flight conditions.
Conclusion: Boost Performance with 3D-Printed Ducts for the Cinelog 35 V2
Our 3D-printed ducts for the GEPRC Cinelog 35 V2 offer an easy and effective way to enhance thrust, stability, and propeller protection. Designed for precise airflow management and built with high-quality imported filament, these ducts ensure the drone performs at its best during every flight. Whether you’re flying through tight spaces or capturing cinematic footage, these ducts provide the perfect blend of efficiency, protection, and durability.
Upgrade your Cinelog 35 V2 today with our 3D-printed ducts and experience smoother, more efficient flights.
Materials We Use: Superior Imported Filament
We understand the importance of using the right material to print drone parts. We rely on premium imported filament such as:
- TPU (Thermoplastic Polyurethane 99 perc orders): Ideal for vibration absorption and flexibility, ensuring cameras stay secure even in extreme flight conditions.
- PETG: Provides excellent impact resistance, UV stability, and durability, making it a top choice for outdoor use.
- Nylon: Best suited for high-strength applications, ensuring the mount stays intact during crashes or high-speed impacts.
How We Print the Perfect Cam Plate Using Klipper-Based Printers
With Klipper firmware and advanced slicing techniques, our printers achieve:
- Layer precision down to 0.16mm for smoother prints with minimal post-processing.
- Fast print speeds without compromising on dimensional accuracy.
- Adaptive cooling profiles to prevent warping and ensure consistent performance.
- Seamless printing of complex geometries, thanks to Klipper’s multi-microcontroller support.
3D Printing Service (TPU) Specifications and Features:
TPU (Thermoplastic polyurethane) is a soft flexible material, Common uses for a material like TPU include, medical supplies, seals, automotive components, and household appliances, this is down to the material having a very flexible and elastic-like use. TPU has a melting point of 225 degrees to 235 degrees however 230 degrees is normally a stable temperature to print with. Another great advantage of this material is that it does not produce nasty emissions. Below are some key points when printing with TPU.
- Extremely flexible
- Lightweight
- Durable
- Non-soluble
- Heated bed required
Read More About Lipo Batteries by clicking the link below:
https://oscarliang.com/fpv-drone-guide/
Checkout our Frames Collection by clicking the link below:
https://thefpvproject.com/product-category/frames/
1S = 1 cell = 3.7V
2S = 2 cells = 7.4V
3S = 3 cells = 11.1V
4S = 4 cells = 14.8V
5S = 5 cells = 18.5V
6S = 6 cells = 22.2V
For example, we call a 14.8V battery a “4-cell” or “4S” battery.
LiPo battery is designed to operate within a safe voltage range, from 3V to 4.2V. Discharging below 3V could cause irreversible performance loss and even damage to the battery. Overcharging above 4.2V could be dangerous and eventually cause a fire.
However, it’s advisable to stop discharging when it reaches 3.5V for battery health reasons. For example for a 3S Lipo, the max voltage is 12.6V, and you should land when the voltage reaches 10.5V (at 3.5V per cell).
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