Gridbots Technologies builds robotics and AI systems to automate complex industrial tasks. They design state-of-the-art robotic platforms using AI, machine vision, and autonomous control for sectors like industrial automation, nuclear, and space. Their core tech spans indigenous R&D, in-house manufacturing, and deployment across multiple industries with global reach. Headquartered in Ahmedabad with offices in Jaipur, Meerut, and Faridabad, they target international markets and government clients.
Gridbots Technologies builds robotics and AI systems to automate complex industrial tasks. They design state-of-the-art robotic platforms using AI, machine vision, and autonomous control for sectors like industrial automation, nuclear, and space. Their core tech spans indigenous R&D, in-house manufacturing, and deployment across multiple industries with global reach. Headquartered in Ahmedabad with offices in Jaipur, Meerut, and Faridabad, they target international markets and government clients.
Kindly email your CV to:
recruit@gridbots.com
& akshar.chandra@gridbots.com with Subject Line mentioning Date of Arrival for Direct Date of Walk In Interviews
GRIDBOTS TECHNOLOGIES PVT. LTD.
Gridbots Technologies is a leading Indian innovator in robotics, artificial intelligence, and machine vision, specializing in the indigenous development of advanced robotic manipulators, Autonomous Mobile Robots (AMRs), AGVs, and specialized inspection systems for industrial, nuclear, space, and manufacturing applications. As our projects shift toward highly R&D-driven initiatives involving complex robotic mechanisms, precision automation, and integrated AI-vision solutions, we seek experienced Senior Design Engineers to lead cutting-edge mechanical design efforts.
Key Responsibilities
Qualifications & Experience
If you are passionate about pushing the boundaries of robotics through advanced mechanical design and automation, we invite you to join our innovative team.
Contact:
+91 82530 83155 /
We look forward to your application!
Lead the end-to-end mechanical design and development of complex robotic systems, including
multi-axis manipulators, mobile robot chassis, end-effectors, grippers, and structural assemblies for high-precision, dynamic applications.
Expertly utilize SolidWorks for
advanced 3D parametric modeling, large-scale assemblies, weldments, sheet metal design, surfacing, configurations, design tables, and equations to create robust, manufacturable models.
Perform comprehensive
CAE analyses using SolidWorks Simulation (and/or equivalent tools) for structural FEA, thermal analysis, dynamic/motion simulation, fatigue, vibration, and tolerance stack-up to validate designs under real-world robotic operating conditions.
Automate and standardize design processes through SolidWorks macros, API scripting, DriveWorks, or custom automation tools to streamline repetitive tasks, parametric configurations, and rapid variant generation for R&D prototyping.
Manage CAD data lifecycle, including implementation and maintenance of
PDM/PLM workflows
for
version control, design file documentation, automated BOM generation, exploded views, assembly instructions, and technical data packages.
Develop detailed manufacturing drawings with
GD&T, precise tolerancing, and surface finish specifications;
ensure compliance with
industry standards, client requirements, and robotic performance criteria.
Conduct
tolerance analysis, material selection, and optimization for weight, strength, stiffness, and cost in high-reliability robotic components subject to dynamic loads and environmental challenges.
Collaborate closely with
R&D, electronics, software, and AI teams
to integrate mechanical designs with
sensors, actuators, vision systems, and control architectures.
Drive innovation in robotic mechanisms:
conceptualize novel solutions, create proof-of-concept prototypes, iterate based on simulation and physical testing, and support rapid prototyping/manufacturing.
Provide technical leadership during manufacturing, assembly, installation, and field commissioning; troubleshoot design issues and implement improvements based on performance data and feedback.
Perform quality assurance on incoming materials, vendor-supplied parts (e.g., CNC machined/bent components), and finished assemblies to verify conformance to design specifications, tolerances, and performance requirements.
Document design decisions, analyses, test results, and deficiencies in detailed technical reports;
contribute to intellectual property development and R&D project documentation.
5–8+ years of hands-on industrial experience in mechanical design engineering, with significant focus on robotics, automation, or precision machinery (prior experience in robotics or similar high-tech R&D environments highly preferred).
Expert proficiency in SolidWorks (5+ years minimum), including advanced modules: Part/Assembly Modeling, Weldments, Sheet Metal, Surfacing, Motion Analysis, Simulation (FEA), Routing, and API/Macro programming for design automation.
Strong experience in CAE-driven design: structural, dynamic, thermal, and fatigue analysis; familiarity with tolerance analysis tools and
GD&T (ASME Y14.5).
Proven track record in automating design workflows, parametric modeling, configuration management, and documentation handling
(BOMs, exploded views, PDM/PLM systems).
In-depth knowledge of manufacturing processes
(CNC machining, sheet metal fabrication, welding, additive manufacturing, etc.)
and their impact on design for manufacturability/assembly
(DFM/DFA).
Excellent problem-solving skills with a strong engineering foundation in
mechanics, dynamics, kinematics, materials science, and mathematics.
Ability to lead complex projects independently, mentor junior engineers, and thrive in a fast-paced, innovative R&D environment.
Exceptional communication skills (written and verbal) for technical documentation, cross-functional collaboration, and presenting designs to stakeholders.
Self-motivated, proactive, and adaptable; capable of working in multidisciplinary teams on cutting-edge robotic challenges.
Bachelor’s or Master’s degree in Mechanical Engineering or related field.
