Remote
Work location
Develop a 3D model in SolidWorks Anyone
About the job
Develop a 3D model in SolidWorks for an unmanned aerial vehicle (UAV) similar in shape to the Russian Orion. The model should be optimised for further production on a 3D printer with platform dimensions of **400 mm × 400 mm × 400 mm**. --- **Basic requirements:** 1.
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetrical wings and tailplane. - The design should be modular for easy printing and subsequent assembly. - Provide for the possibility of installing the following elements: - **Chassis:** main and front. - Flaps and ailerons on the wings. - Internal compartments for electronics (controllers, batteries, GPS modules, etc.). - Mechanical actuator compartments for servos, flap control and landing gear.
2. **Dimensions:** - Length of each side wing is **1.5 metres**. - Other dimensions (fuselage, wing width, tailplane) are to be determined at the discretion of the manufacturer, taking into account aerodynamic stability and balance of the structure.
3. **Modularity:** - All parts shall be divided into segments with maximum dimensions of **no more than 400 mm × 400 mm × 400 mm** to enable 3D printing. - Ensure that the segments are securely fastened with grooves, clamps or screws.
4. **Mechanical strength:** - Provide for the use of **carbon tubes** in the wing structure to ensure rigidity. - Aluminium inserts should be added at the wing-to-fuselage connections and carbon tube attachment po... read more
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetrical wings and tailplane. - The design should be modular for easy printing and subsequent assembly. - Provide for the possibility of installing the following elements: - **Chassis:** main and front. - Flaps and ailerons on the wings. - Internal compartments for electronics (controllers, batteries, GPS modules, etc.). - Mechanical actuator compartments for servos, flap control and landing gear.
2. **Dimensions:** - Length of each side wing is **1.5 metres**. - Other dimensions (fuselage, wing width, tailplane) are to be determined at the discretion of the manufacturer, taking into account aerodynamic stability and balance of the structure.
3. **Modularity:** - All parts shall be divided into segments with maximum dimensions of **no more than 400 mm × 400 mm × 400 mm** to enable 3D printing. - Ensure that the segments are securely fastened with grooves, clamps or screws.
4. **Mechanical strength:** - Provide for the use of **carbon tubes** in the wing structure to ensure rigidity. - Aluminium inserts should be added at the wing-to-fuselage connections and carbon tube attachment po... read more
Develop a 3D model in SolidWorks for an unmanned aerial vehicle (UAV) similar in shape to the Russian Orion. The model should be optimised for further production on a 3D printer with platform dimensions of **400 mm × 400 mm × 400 mm**. --- **Basic requirements:** 1.
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetrical wings and tailplane. - The design should be modular for easy printing and subsequent assembly. - Provide for the possibility of installing the following elements: - **Chassis:** main and front. - Flaps and ailerons on the wings. - Internal compartments for electronics (controllers, batteries, GPS modules, etc.). - Mechanical actuator compartments for servos, flap control and landing gear.
2. **Dimensions:** - Length of each side wing is **1.5 metres**. - Other dimensions (fuselage, wing width, tailplane) are to be determined at the discretion of the manufacturer, taking into account aerodynamic stability and balance of the structure.
3. **Modularity:** - All parts shall be divided into segments with maximum dimensions of **no more than 400 mm × 400 mm × 400 mm** to enable 3D printing. - Ensure that the segments are securely fastened with grooves, clamps or screws.
4. **Mechanical strength:** - Provide for the use of **carbon tubes** in the wing structure to ensure rigidity. - Aluminium inserts should be added at the wing-to-fuselage connections and carbon tube attachment points to increase the overall structural rigidity. - The tubes must run inside the wings along their length and be fixed at the designated points for reliability. read less
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetrical wings and tailplane. - The design should be modular for easy printing and subsequent assembly. - Provide for the possibility of installing the following elements: - **Chassis:** main and front. - Flaps and ailerons on the wings. - Internal compartments for electronics (controllers, batteries, GPS modules, etc.). - Mechanical actuator compartments for servos, flap control and landing gear.
2. **Dimensions:** - Length of each side wing is **1.5 metres**. - Other dimensions (fuselage, wing width, tailplane) are to be determined at the discretion of the manufacturer, taking into account aerodynamic stability and balance of the structure.
3. **Modularity:** - All parts shall be divided into segments with maximum dimensions of **no more than 400 mm × 400 mm × 400 mm** to enable 3D printing. - Ensure that the segments are securely fastened with grooves, clamps or screws.
4. **Mechanical strength:** - Provide for the use of **carbon tubes** in the wing structure to ensure rigidity. - Aluminium inserts should be added at the wing-to-fuselage connections and carbon tube attachment points to increase the overall structural rigidity. - The tubes must run inside the wings along their length and be fixed at the designated points for reliability. read less
Develop a 3D model in SolidWorks for an unmanned aerial vehicle (UAV) similar in shape to the Russian Orion. The model should be optimised for further production on a 3D printer with platform dimensions of **400 mm × 400 mm × 400 mm**. --- **Basic requirements:** 1.
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetric... read more
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetric... read more
Develop a 3D model in SolidWorks for an unmanned aerial vehicle (UAV) similar in shape to the Russian Orion. The model should be optimised for further production on a 3D printer with platform dimensions of **400 mm × 400 mm × 400 mm**. --- **Basic requirements:** 1.
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetrical wings and tailplane. - The design should be modular for easy printing and subsequent assembly. - Provide for the possibility of installing the following elements: - **Chassis:** main and front. - Flaps and ailerons on the wings. - Internal compartments for electronics (controllers, batteries, GPS modules, etc.). - Mechanical actuator compartments for servos, flap control and landing gear.
2. **Dimensions:** - Length of each side wing is **1.5 metres**. - Other dimensions (fuselage, wing width, tailplane) are to be determined at the discretion of the manufacturer, taking into account aerodynamic stability and balance of the structure.
3. **Modularity:** - All parts shall be divided into segments with maximum dimensions of **no more than 400 mm × 400 mm × 400 mm** to enable 3D printing. - Ensure that the segments are securely fastened with grooves, clamps or screws.
4. **Mechanical strength:** - Provide for the use of **carbon tubes** in the wing structure to ensure rigidity. - Aluminium inserts should be added at the wing-to-fuselage connections and carbon tube attachment points to increase the overall structural rigidity. - The tubes must run inside the wings along their length and be fixed at the designated points for reliability. read less
1. design concept:** - The appearance should be similar to the Orion model. - The model should include a simple fuselage, symmetrical wings and tailplane. - The design should be modular for easy printing and subsequent assembly. - Provide for the possibility of installing the following elements: - **Chassis:** main and front. - Flaps and ailerons on the wings. - Internal compartments for electronics (controllers, batteries, GPS modules, etc.). - Mechanical actuator compartments for servos, flap control and landing gear.
2. **Dimensions:** - Length of each side wing is **1.5 metres**. - Other dimensions (fuselage, wing width, tailplane) are to be determined at the discretion of the manufacturer, taking into account aerodynamic stability and balance of the structure.
3. **Modularity:** - All parts shall be divided into segments with maximum dimensions of **no more than 400 mm × 400 mm × 400 mm** to enable 3D printing. - Ensure that the segments are securely fastened with grooves, clamps or screws.
4. **Mechanical strength:** - Provide for the use of **carbon tubes** in the wing structure to ensure rigidity. - Aluminium inserts should be added at the wing-to-fuselage connections and carbon tube attachment points to increase the overall structural rigidity. - The tubes must run inside the wings along their length and be fixed at the designated points for reliability. read less
Things to know
Any
Skill Level
$50
Fixed-rate (USD)
Part-time
Job type
Under 1-month
Job duration
Areas of expertise
3D CAD Design
3D CAD Drafting
3D Modeling
3D Modeling SolidWorks
3D Print Design
3D Printing
3D Product Design
3D Simulation
+5 more
Job categories
3D Modeling
3D Product Modeling
SolidWorks Design Services
Mechanical CAD Design
3D CAD Translation Services
+2 more
About the client
Payment ready
Portugal (01:01 pm)
Posted
Active
Job activity
21 Applicants
9 interviews in progress
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