ROBOTIC ARMS LABORATORY

Brand Owner Address Description
MAKERARM AM Networks 4019 Galena Hills Dr Round Rock TX 78681 Robotic arms for laboratory, personal or hobby use, namely, a robotic arm with changeable tool heads that can 3D print with filament and resin, undertake computer numerical control (CNC) milling, carve, create printed circuit boards (PCBs), laser cut and engrave, glue, paste, fasten screws, write and plot, draw, paint, pickup objects, place objects, assemble objects, measure and dispense precise volumes of liquids, use sensors to map the workspace and determine the contours and slope for auto-leveling, use motion and proximity sensors to detect approaching objects for safety shutoff, use heat sensors to determine and report temperature for consumables such as 3D printing materials and solder wire, and operate in connection with other such robotic arms to accomplish multi-step tasks;Robotic arms for industrial and commercial purposes, namely, a robotic arm with changeable tool heads that can 3D print with filament and resin, undertake computer numerical control (CNC) milling, carve, create printed circuit boards (PCBs), laser cut and engrave, glue, paste, fasten screws, write and plot, draw, paint, pickup objects, place objects, assemble objects, measure and dispense precise volumes of liquids, use sensors to map the workspace and determine the contours and slope for auto-leveling, use motion and proximity sensors to detect approaching objects for safety shutoff, use heat sensors to determine and report temperature for consumables such as 3D printing materials and solder wire, and operate in connection with other such robotic arms to accomplish multi-step tasks;MAKER ARM;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. A front-loading, refuse collecting vehicle is modularly provided with a combination of a low-profile, front-loadable waste bin (intermediate container) and one or more, side-loading robotic arms. To reduce mechanical stresses along couplings between the vehicle and the combination of the intermediate container and the robotic arm(s), a major portion of the mass of the robotic arm mechanism is situated to the rear of the intermediate container so that a mass and beam combination is defined where the mass-supporting beam has reduced length. More specifically, hydraulic and/or other relatively massive motor means of the robotic arm mechanism are mounted to the rear of a refuse-containing wall of the intermediate container. Elastomeric and/or other dampening means may be interposed between the vehicle and the bulk mass of the combination of the intermediate container and robotic arm mechanism for converting into heat some of the vibrational energy which may otherwise move between the vehicle and the combination of the intermediate container and robotic arm mechanism. A modular sled system may be provided for supporting different robotic arms in combination with refuse containers made of different materials as may be appropriate for different waste collection situations.