Building a Kitchen Robotic Arm
A Complete Build Guide: Supervised, Bounded-Autonomy Robotics for the Home Kitchen
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- ¥1,500
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- ¥1,500
発行者による作品情報
A realistic, end-to-end guide to building a supervised robotic arm for your kitchen.
Most kitchen-robot projects look impressive in a video and fail the moment the camera moves. Building a Kitchen Robotic Arm takes the opposite approach. It teaches you to build one modest, well-characterized 6-DOF arm that does a small set of real tasks reliably, under human supervision, in a workspace you control.
This is a complete build guide, from first principles to a working machine. You will design the mechanics, size the actuators with real torque and thermal math, wire the electronics and a fail-safe emergency-stop chain, write the kinematics and control code, calibrate the arm, add computer vision, and compose the whole system into supervised tasks.
WHAT YOU BUILD
A 6-DOF arm with stepper-driven proximal joints and smart-servo wrist axes. A quick-change tool coupler with five starter tools: parallel gripper, dish hook, silicone stirrer, sponge holder, and spray-bottle adapter. A Raspberry Pi and Arduino control stack with a 1 kHz joint loop, a heartbeat watchdog, and current-based collision detection. A computer-vision pipeline using a depth camera for object detection and grasp planning.
WHAT IT ACTUALLY DOES
Supervised warm-liquid stirring. Bounded pick-and-place of rigid ingredients. Countertop wiping and spraying. Moving clean, dry plates and handled mugs. And a supervised, end-to-end morning-coffee routine that ties it all together.
The book is equally honest about what the arm will not do — no knives, no frying, no dirty sink dishes, no unsupervised operation. Every task has a defined envelope, and nothing runs outside it. That discipline is the point.
INSIDE THE BOOK
Full mechanical design covering reach, payload, stability, and tolerances. Actuation sizing with genuine torque-margin and thermal calculations. A complete, costed bill of materials with suppliers and alternates. Forward and inverse kinematics, PID control, and motion planning, all with working code. A four-layer software safety stack built on top of the hardware e-stop. A companion code repository, a 3D-printable parts index, a troubleshooting guide, and a food-safety appendix.
Written for makers, students, and engineers comfortable with basic Python and a 3D printer. If you want a grounded, buildable robotics project instead of a demo that does not survive contact with a real kitchen, this is your blueprint.