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The traditionally careful pace of change in manufacturing is being disrupted by market fluctuations, supply chain issues, and skills shortages. Machine and equipment companies are adopting new approaches to increase design agility, create capacity for innovation, and deliver new value to customers amid the chaos.
Learn how leading machine design companies drive efficiency by adopting connected and integrated machine design software.
Reduce risk while fast-tracking machine designs from prototype to product with tools that help you respond rapidly to customer insights and stakeholder feedback.
Make well-informed decisions earlier during the design phase to accelerate your ideas, eliminate the disconnect with manufacturing, and improve time to market.
Leverage automation and collaboration tools to create innovation capacity, so you can transform insights into smarter products and diversified offerings.
Stand out from the competition by embedding sustainability into every decision you make. Gather feedback on your designs’ impact from the earliest stages of development.
Automate your machine design process with advanced mechanical design software. Free up design time, reduce barriers to collaboration, and boost your capacity for innovation.
Empower your design and engineering teams to concentrate on groundbreaking solutions by using automation to minimise errors and time spent on repetitive tasks. Scale your development processes for seamless execution.
Venture into unchartered territories confidently with precise and reliable analysis. Leverage simulation tools to make data-driven decisions, fine-tune your designs, and get the best solution to market efficiently.
Connect disciplines using common CAD models to program CNC machines. Design fixtures and create toolpaths before engineering data is released—any changes automatically update computer-aided manufacturing (CAM) workflows.
Minimise risk and maximize efficiency during system integration with large-scale design projects. Point cloud scanning, clash detection, and installation sequencing help you make more informed decisions at every step.
Connect your colleagues, clients, and supply chain with a single, secure data model. Always know who’s responsible for the next step in your design cycle, and automatically maintain an audit trail of decisions and their impact.
Reduce design cycle time with integrated design for manufacturing and assembly (DFmA) technology. Real-time feedback helps optimise designs for manufacturing with reduced feedback cycles.
Improve time to market by accelerating downstream processes. Automate manufacturing data preparation with bill of materials (BOM), nesting, and CAM in a single environment.
Use your 3D CAD model as the single source of truth containing all product manufacturing information (PMI). Reduce the need for manual drawing creation, speed up the design cycle, and improve manufacturing collaboration.
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Professional-grade product design and engineering tools for 3D mechanical design, simulation, visualisation and documentation.
E-BOOK
Free up your time to focus on projects where you add unique value. Learn how iLogic technology, found in Autodesk Inventor, helps engineers automate routine tasks, accelerate product configuration, and improve time to market.
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Learn from Autodesk experts how CAD for machine design can help you anticipate manufacturing innovations, collaborate efficiently, and explore more design options. View our extensive library of webinars for designers and engineers.
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The need for more agility in design–and in the entire development process–requires a modern modeling approach. Learn how you can easily incorporate design changes, get more value from your models, and reuse existing design data by modeling in parametric 3D.
Talk to a sales representative about how Autodesk design and manufacturing solutions can help you create breakthrough innovations.
Machines are physical systems that convert power into action. Examples of simple machines are the wedge, the lever, and the pulley. Complex machines have many parts that work together, including mechanical, electrical, and electronic components. Many modern machines are computer controlled and are programmed and monitored using a software interface.
Machine design is the process of imagining and creating physical systems that meet the needs of customers in industries such as energy, aerospace, automotive, agriculture, marine, and manufacturing.
The machine design process includes understanding the physics needed to transform power into action to complete the intended task, planning component interactions, ensuring proper fit within design constraints, and specifying materials while considering project timelines and profit margin.
Technical drawings and 3D computer-aided designs (CAD) models are typically created to communicate and review the design and to coordinate the design process among stakeholders.
The final output of the machine design process is the information required to make, commission, and service the design, and may include technical drawings, a written specification, and a bill of materials (BOM).
Jobs in machine design could include industrial designer; mechanical, electrical, or electronic engineer; simulation specialist; CAD designer; and CAD drafter.
Machine designers use mathematical principles, engineering physics, industry knowledge, and specialist software to address customer problems and develop an idea for a machine from its conceptual stage to a detailed design.
The detailed design must meet customer requirements and be delivered profitably. The design is communicated to stakeholders such as customers, manufacturing, and procurement via a computer-aided design (CAD) model, technical drawings, a bill of materials (BOM), and a specification.
Machine design is collaborative and can include multiple disciplines including industrial design and mechanical, electrical, and electronic engineering, and also includes feedback from customers, suppliers, manufacturing specialists, and project management teams.
The design engineering process is crucial for successful machine design businesses. The objective of design development is to imagine and agree on a machine that benefits both customers and the business. Design development is constrained by budget, engineering capacity, and time to market.
The machine design process is collaborative and may involve specialists in disciplines such as industrial design, mechanical, electrical, and electronic engineering working together. Feedback can be included from stakeholders such as customers, project management, procurement, manufacturing, installation, and servicing.
The machine design process is iterative and cyclical, with ideas undergoing multiple rounds of prototyping, testing, evaluation, and review until the final design is considered optimal and reliable enough for production.
The machine design process starts by defining the problem, then brainstorming potential solutions before creating prototypes, testing them, gathering feedback, and evaluating whether the problem statement can be further refined, whether to reject or accept the proposed solutions, or whether the solutions can be improved with another development cycle.
Machine design software helps designers by automating tasks, tracking processes, and enabling collaboration among designers and stakeholders such as project management, procurement, manufacturing, or customers.
Examples of machine design software include 3D computer-aided design (CAD) software, which designers use to create virtual models of their designs to help calculate the physics of the design or to ensure that moving components won’t clash. This saves time in prototype creation. Additionally, technical drawings can be created from the 3D CAD model, reducing the time it takes to document and communicate the design.
Computer-aided engineering (CAE) (US Site) software helps designers to create simulation studies that automate the calculation of stress, fluid flow, thermal dynamics, and vibration, which saves time in physical prototype testing.
The increased accessibility of cloud-based data management is accelerating the use of model-based definition (MBD), or the use of the 3D CAD model to drive downstream manufacturing processes, reducing the need for technical drawings.
Software to design machines can include:
Autodesk empowers innovators with Design and Make technology for product design and engineering, equipping machine designers to work fluidly across boundaries of project, discipline, and industry.
Autodesk software for machine design includes:
Mechanical drawings are technical drawings created to communicate design intent, diagram processes, calculate folded sheet metal flat patterns, optimise fabrication with nesting, or provide instruction for installation and maintenance. Mechanical drawings are created by design software that falls into the computer-aided design (CAD) category.
The best mechanical design software is computer-aided design that has been optimised for the mechanical design process (MCAD). When evaluating MCAD software, look out for the following:
Businesses that manufacture machines as products feel the pressure of providing innovative solutions to meet customer demands and releasing them to market before their competition can.
The key to successful machine development lies in design engineering, which ensures that the machines not only meet customer needs but also generate profit for the business.
The decisions made during design development can affect the quality, components, materials, manufacturing processes, and usability of the machine over its lifecycle.
Machine design software like computer-aided design (CAD) and computer-aided engineering (CAE) benefit businesses and professionals by automating design processes and managing data insights, enabling designers and engineers to make timely and effective decisions that increase the success of the product, aiding operational efficiency, and improving time to market.
Computer-aided design software (CAD) is used at multiple points in the manufacturing process.
During the design phase, CAD designs are shared with the manufacturing team to assess the design for manufacturing and assembly (DfMA). Feedback from the manufacturing team can be incorporated into the design, helping the design be more efficient, and therefore more profitable, to manufacture.
When design development is complete, designs are released for manufacture. CAD is used by the manufacturing team in the design of jigs, fixtures, and “stop-go” devices for quality control.
Computer-aided manufacturing (CAM) (US Site) uses the 3D CAD model for computer numerical control (CNC) programming, which automates the movements of manufacturing machinery. The convergence of CAD and CAM allows CNC programming to take place using the same software as CAD, with the advantage that changes to the CAD model automatically update CAM toolpaths.
After components are made, CAD data and CAM data are used together for computer-aided inspection (CAI) and quality control. The manufactured component is compared to the CAD model using metrology devices to assess compliance with the specified tolerances and surface finishes.