A Robotic Coating System with Real-Time Mixing has a particular arrangement of a robotic gantry, two peristaltic pumps, a mixer, a hollow brush, two tanks, and a computerized controller. The invention has tubes providing fluid communication from a coating tank and a thinner tank through the pumps and mixer to the brush. The invention provides everything necessary for robotic coating in one compact system. This invention provides the ability to apply coatings to an item, without pre-mixing the coating components. A computerized controller drives the brush through a pre-programmed path to coat required areas and not coat sensitive areas. The System operates upon utility service, typically 110 VAC, and it also self-cleans.

This system has an articulated robot having an arm and a base portion which rotatably supports the arm; and a rotation positioner to which the base portion of the articulated robot is mounted. A turn axis of the base portion of the articulated robot is orthogonal to a rotation axis of the rotation positioner. Thus, interference of a workpiece with the arm can be avoided and flexibility of works performed by the robot can be expanded.

An autonomous and self-mobile apparatus for applying a coating to a surface. The self-positioning apparatus can move into an interior or to an exterior of a structure, and can automatically apply a coating, such as paint, to a surface of the room, or a surface of the exterior of the structure, with little or no human intervention or assistance. The apparatus navigates and applies coatings using its sensors and a computer. In some implementations, the system may also include a storage, recharging, and monitoring unit that interconnects with the apparatus for applying a coating to a surface.

A frame body may be parallel to and proximate with an external surface of a structure and extend substantially horizontally from a first side to a second side. A connecting portion may be provided to be attached to a cable to provide for vertical movement of the frame body. A robotic arm may be affixed proximate to a bottom of the frame body and be able to move horizontally during treatment of the external surface. Moreover, the robotic arm may extend to an end proximate with the external surface, and a cleaning portion may be attached to the robotic arm near the end proximate with the external surface. The robotic arm may rotate, vertically moving the cleaning portion during treatment of the external surface. In addition, the cleaning portion may be separately rotated to remain substantially parallel to and proximate with the external surface during rotation of the robotic arm.

A controller for robot arms and the like having mechanical singularities identities paths near the singularities and modifies those paths to avoid excessive joint movement according to a minimization of tool orientation deviation to produce alternative paths that minimize changes in the tool orientation such as can affect application such as welding, sealant application, coating and the like.

A manufacturing apparatus for a semiconductor device, the manufacturing apparatus including a spin chuck configured to fix and rotate a wafer; a nozzle configured to spray a chemical toward the wafer; a lateral displacement sensor configured to measure a displacement variation to a lateral surface of the wafer while the spin chuck is rotating; and a controller configured to control a position of the nozzle by using the displacement variation while the spin chuck is rotating.

A system of applying a coating to a vehicle in sequence with vehicle manufacture is disclosed. The vehicle may be inspected and/or logged into inventory. The vehicle may be electronically recorded into inventory using a computerized data acquisition and/or process control system. The vehicle may be prepared by an operator. The vehicle preparation may include applying masking materials to at least a portion of the vehicle. The vehicle preparation may include application of a pre-treatment to at least a portion of the vehicle. A coating may be applied to at least a portion of the vehicle. The coating may include one or more layers. The masking materials may be removed from the vehicle after the completion of the coating application. The vehicle may be electronically recorded into inventory using a data acquisition and/or process control system. The vehicle may be delivered and/or returned to the vehicle manufacturer.

To provide a coating diagnosis system and a coating diagnosis method that allow centralized management over data related to processes in a painting line, including a pretreatment process. The coating diagnosis system includes a data acquisition unit of a pretreatment controller that acquires data related to a pretreatment process when pretreatment for paint is performed on a workpiece in the pretreatment process in a painting line, and a data management unit of a host controller that registers the data related to the pretreatment process in a database in associated with a serial number of the workpiece.

The present utility model relates to an autonomous interior painting robot for homes, commercial premises, hotels, etc. The robot is designed for painting and outlining while recognizing obstacles in the work area and aimed at reducing the efforts and time needed to carry out these operations. It is applicable in the field of interior design and the completion of small conditioning works. The autonomous painting robot comprises a mobile base (1) equipped with a paint tank and a pump or compressor, characterized in that the base (1) comprises a series of detectors configured to locate the base (1) and to detect obstacles, a substantially vertical lifting column (4), at the end of which a robot arm (5) is articulated and topped with a head (6) that carries a paint gun (7) connected to the pump, one or more cameras (9), and a proximity sensor (10).

In certain embodiments, a system comprises a robot, a spray gun coupled to the robot and operable to spray a first predefined number of passes of a material onto a substrate at a first flow rate, and a measurement device operable to measure one or more properties of the material sprayed onto the substrate while the material is wet. The system further comprises an analyzer operable to determine a thickness of the wet material based on the one or more measured properties and calculate a second flow rate required to achieve a cured thickness of the material within a second predefined number of passes. The calculated second flow rate is based on the first predefined number of passes, an expected thickness of the wet material for one pass of the first predefined number of passes, the determined thickness of the wet material, and the first flow rate.