Various embodiments of methods and devices for coating stents are described herein.

A lotion application machine for allowing automatic application of a lotion to the body of a user is provided. The lotion application machine has a rotatable platform, on which the user can stand and be rotated while the lotion is being applied. The lotion can be applied evenly to the entire body of the user.

A material application and curing system incorporating a spray booth connected alongside a curing chamber along with a pivoting cantilever therebetween adapted to swing materials between them, such that materials can be coated with substances in the spray booth and then quickly, easily, and efficiently transferred to the curing chamber.

A quick, practical and economical method, machine and system for re-basecoating cans which have necks, flanges but also have basecoat and or decoration defects. The cans may pass by a corona /plasma treatment which removes lubricant. A main starwheel will carry the cans to a can body coating application device (such as a high durometer resilient roller), then to a can neck coating application device (similar but shaped for the neck/flange of the can). The main starwheel will carry the cans through an induction tunnel in which cans have an electrical current induced, thereby curing the cans before the cans are removed by an outfeed device and placed onto an outfeed conveyor. Hold down chucks hold the cans from the top (in addition to vacuum chucks holding the cans from the bottom) and cover the top of the cans so that the new coating material does not enter.

A device, method, and system for creating a design on a design surface are provided. The device includes a first compartment that includes a receiving and positioning component and a channel configured to receive and position a wax stick at the receiving and positioning component. The device includes a second compartment having a melting component that includes a heating element, a temperature measurement element, and a nozzle. The nozzle includes a nozzle opening configured to receive the wax stick, the nozzle directly aligned with the channel of the receiving and positioning component. The nozzle also includes a nozzle tip configured to transfer melted portions of the wax stick from the nozzle to a design surface on a spinning component in a third compartment of the device.

A coating device includes: a stage transfer part including a first long shaft extending in a first direction and a second long shaft extending in a second direction intersecting the first direction; a stage tilting part disposed on the stage transfer part, where the stage tiling part swings about a first swing axis; a stage rotating part disposed on the stage tilting part, where the stage rotating part rotates about a first rotating axis intersecting the first swing axis; a stage aligning part disposed on the stage rotating part, where the stage aligning part includes a first short shaft extending in the first direction and a second short shaft extending in the second direction; and a stage disposed on the stage aligning part, wherein a coating target is seated on the stage, where the stage includes a monitoring camera disposed in a camera seating space defined inside the stage.

A spray coating apparatus that applies a coating material onto outer surfaces of glass objects includes a coating material source that includes a coating material. A spray nozzle assembly includes a spray nozzle fluidly connected to the coating material source. The spray nozzle is arranged and configured to direct the coating material in a first direction toward the glass object and provide an overspray amount of the coating material by the glass object such that the overspray amount bypasses a non-line of sight area of the glass object. A turn nozzle assembly includes a turn nozzle fluidly connected to a pressurized gas source. The turn nozzle is arranged and configured to direct pressurized gas in a second direction different than the first direction toward the non-line of sight area of the glass package to redirect the coating material onto the non-line of sight area.

A rotary tank assembly is provided for a liner. The liner is structured to apply a compound to a plurality of container closures. The rotary tank assembly includes a compound tank, a fill tube structured to fill the tank with a volume of the compound to a desired level, a sensor assembly adapted to measure the level of the compound within the compound tank, and a rotary union assembly structured to pivotably couple the fill tube and the sensor assembly to the compound tank. The sensor assembly only requires one single probe.

A painting system includes a conveying mechanism adapted to convey a workpiece to be painted to a painting station, a holding and rotating mechanism mounted at the painting station and adapted to hold and rotate the workpiece, and a robot having a nozzle adapted to spray a paint on the workpiece held by the holding and rotating mechanism. The robot is configured to spray the paint onto the workpiece while the holding and rotating mechanism rotates the workpiece, spraying a layer of the paint on an outer surface of the workpiece.

Disclosed are a method and an apparatus for applying a liquid onto a substrate. The method for treating a substrate, the method includes: a liquid supplying step of supplying a treatment liquid for forming a liquid film on the substrate while rotating the substrate; and a liquid diffusing step of diffusing the treatment liquid discharged to the substrate by rotating the substrate, after the liquid supplying step. The liquid diffusing step includes: a primary diffusion step of rotating the substrate at a first diffusion speed; and a secondary diffusion step of rotating the substrate at a second diffusion speed, after the primary diffusion step. The second diffusion speed is higher than the first diffusion speed. Accordingly, the treatment liquid can be applied to the substrate again by performing the secondary diffusion step, making it possible to adjust the thickness of a photosensitive film.