2024.10.28 Flux提示词集合 CAD Style

Flux提示词集合

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机器人CAD图纸

"Create a precise and detailed CAD-style technical drawing of an innovative six-axis robotic arm. The drawing should incorporate the following elements: - Orthographic Projections: Include front, top, and side views to provide a comprehensive understanding of the robot's structure. - Isometric View: An isometric projection to showcase the three-dimensional form and design of the robotic arm. - Detailed Dimensions: All critical dimensions must be labeled, such as the length of each axis, joint sizes, and the overall reach of the arm. - Annotation: Include precise annotations for each part, specifying materials, tolerances, and any special manufacturing notes. - Mechanical Components: Clearly define and label all mechanical components, including motors, gears, bearings, and joints. - Electrical Components: Depict and label any electrical components or connectors that are part of the design. - Movement Specifications: Indicate the range of motion for each axis and the degrees of freedom. - Load Capacity: Specify the maximum load capacity for the end effector and any relevant force or torque ratings. - Environmental Ratings: Include any IP ratings or environmental specifications that the robot is designed to withstand. - Mounting Options: Show possible mounting configurations, such as floor, ceiling, or wall mounts. - Cabling and Connections: Detail the routing of cables and the location of all connections. - Safety Features: Highlight any safety features or emergency stop mechanisms included in the design. - ** Ergonomics and Aesthetics: Ensure the design is not only functional but also aesthetically pleasing and ergonomic for operation. - Title Block**: Include a title block with the robot's name, scale, drawing date, and any revision numbers. Ensure the drawing is clean, legible, and follows professional CAD standards for clarity and detail. --v 6.1 --s 350 --q 2 --ar 16:9 --upscale"

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"Create a sophisticated and innovative design of a space shuttle in CAD-style technical drawing with an emphasis on isometric projection and precise dimensional annotation. The drawing should include the following elements:

• Isometric View: Showcase the three-dimensional form of the space shuttle with an isometric projection, highlighting its futuristic and elegant design.
• Detailed Dimensions: Include precise dimensional标注 for all critical aspects of the space shuttle, such as:
• Overall length, width, and height.
• Diameter of the main body and any secondary structures.
• Length and width of the wings (if applicable) and tail sections.
• Detailed dimensions of the cockpit, windows, and entry hatches.
• Any distinctive features or mechanical parts that require exact measurements.
• Surface Texture and Materials: Illustrate the surface texture and materials used for the space shuttle's exterior, including any heat-resistant tiles or reflective coatings.
• Engine and Thrust Details: Clearly define the location, size, and design of the engines and thrusters, including any exhaust ports or propulsion systems.
• Cockpit and Interior Layout: Depict the cockpit layout with precise dimensions for control panels, seating, and any other interior components.
• Landing Gear: Illustrate the landing gear mechanism, including the dimensions of the gear legs and wheels.
• Wings and Aerodynamic Features: Highlight the wings and any aerodynamic features with detailed dimensions and specifications.
• Hatches and Doors: Clearly show the location and dimensions of all hatches and doors for access to the shuttle's interior.
• Supporting Structures: Depict any supporting structures or frameworks that contribute to the shuttle's stability and integrity.
• Title Block: Include a title block with the space shuttle's name, scale, drawing date, and revision numbers.

Ensure the drawing is clean, professional, and adheres to CAD standards for clarity and precision, with the isometric view as the central focus to best display the space shuttle's innovative and elegant design, and all dimensions are clearly labeled and accurate.

--v 6.1 --s 350 --q 2 --ar 16:9 --upscale"

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"Create a cutting-edge CAD-style technical drawing of a nuclear fusion-powered spacecraft. The drawing should include the following elements with a focus on precision and detailed dimensional annotation: - Isometric View: Present an isometric view of the spacecraft to showcase its three-dimensional form and design intricacies. - Detailed Dimensions: Include precise dimensional标注 for all critical aspects of the spacecraft, such as: - Overall length, width, and height. - Diameter of the fusion reactor chamber and any secondary structures. - Detailed measurements of the magnetic nozzle, divertor, and propulsion system. - Dimensions of the crew compartment, observation decks, and airlocks. - Any distinctive features or mechanical parts that require exact measurements. - Fusion Reactor Details: Illustrate the nuclear fusion reactor, including the toroidal chamber, magnetic confinement systems, and plasma heating mechanisms. - Magnetic Nozzle and Propulsion System: Depict the magnetic nozzle design, including the throat and exit regions, and the propulsion system that utilizes the exhaust plasma for thrust. - Structural Components: Clearly define the spacecraft's structural components, including the central truss, outer shell, and any radiation shielding. - Power and Energy Systems: Indicate the location and specifications of power generation and storage systems, such as fuel tanks, power conversion units, and coolant systems. - Crew Habitat: If applicable, show the layout of the crew habitat, including living quarters, control centers, and life support systems. - Landing and Maneuvering Systems: Highlight any landing gear, thrusters, or maneuvering systems with their respective dimensions and operational specifications. - Safety and Shielding Features: Detail any safety features, such as radiation shielding and emergency protocols, with precise measurements. - Environmental Systems: Include any environmental control systems, such as thermal management and atmospheric regulation, with detailed specifications. - Title Block: Include a title block with the spacecraft's name, scale, drawing date, and revision numbers. Ensure the drawing is clean, professional, and adheres to CAD standards for clarity and precision, with all dimensions clearly labeled and accurate. --v 6.1 --s 350 --q 2 --ar 16:9 --upscale"

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"Create a state-of-the-art CAD-style technical drawing of an innovative curvature propulsion spacecraft. The drawing should reflect an assembly diagram style with a focus on precision and detailed dimensional annotation:

• Isometric View: Showcase the three-dimensional form of the spacecraft with an isometric projection, highlighting its futuristic design and curvature propulsion features.
• Assembly Diagram Style: Present the spacecraft in an exploded view to display the assembly of its components, including the main hull, propulsion system, and navigation deck.
• Detailed Dimensions: Label all critical dimensions with precision, such as:
• Overall length, width, and height of the spacecraft.
• Diameter and depth of the curvature propulsion ring or torus.
• Dimensions of the crew compartment, control center, and airlocks.
• Detailed measurements of the propulsion system components, including any exotic matter containment or energy density fields.
• Propulsion System Details: Illustrate the curvature propulsion system, including the space-time distortion mechanisms and any associated field generators.
• Structural Components: Clearly define the spacecraft's structural components, including the central frame, outer shell, and any radiation shielding.
• Power and Energy Systems: Indicate the location and specifications of power generation and storage systems, such as antimatter fuel tanks, power conversion units, and coolant systems.
• Crew Habitat: Show the layout of the crew habitat, including living quarters, control centers, and life support systems.
• Landing and Maneuvering Systems: Highlight any landing gear, thrusters, or maneuvering systems with their respective dimensions and operational specifications.
• Safety and Shielding Features: Detail any safety features, such as radiation shielding and emergency protocols, with precise measurements.
• Environmental Systems: Include any environmental control systems, such as thermal management and atmospheric regulation, with detailed specifications.
• Title Block: Include a title block with the spacecraft's name, scale, drawing date, and revision numbers.

Ensure the drawing is clean, professional, and adheres to CAD standards for clarity and precision, with all dimensions clearly labeled and accurate.

--v 6.1 --s 350 --q 2 --ar 16:9 --upscale"

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"Create an intricate and modern CAD-style assembly diagram of a humanoid robot. The drawing should encapsulate the following elements in an assembly diagram style, focusing on the mechanical and structural aspects without including dimensional annotations:

• Isometric View: Depict the humanoid robot in an isometric projection to showcase its three-dimensional form and intricate design details.
• Assembly Diagram Style: Present the robot in an exploded view, illustrating the assembly of its key components such as the head, torso, arms, and legs, with clarity on how they interconnect.
• Propulsion and Actuation: Highlight the joints and actuators that allow for movement, including the servos and motors that drive the robot's limbs, without specifying exact measurements.
• Electronics and Sensors: Delineate the placement of electronic components and sensors that enable the robot's cognitive and sensory functions, focusing on their assembly within the robot's frame.
• Structural Components: Clearly define the structural components such as the endoskeleton or exoskeleton, emphasizing the materials and assembly points that provide strength and flexibility.
• Cabling and Connectivity: Illustrate the routing of cables and connectors that link the robot's electronic components, ensuring a clean and organized assembly.
• Aesthetic Features: Incorporate design elements that contribute to the robot's aesthetic appeal, such as surface textures and color-coding for different modules, without detailed measurements.
• Safety Features: Indicate safety mechanisms and emergency stop systems that are integrated into the design, focusing on their assembly and functionality.
• Title Block: Include a title block with the robot's name, scale, drawing date, and revision numbers, maintaining the professional presentation of the CAD drawing.

Ensure the drawing is clean, professional, and adheres to CAD standards for clarity, with a focus on the assembly diagram style and the visual representation of the robot's components and systems.

--v 6.1 --s 350 --q 2 --ar 16:9 --upscale"