This application relates to a dip coating apparatus for coating a medical assist device such as a catheter or guidewire to a uniform thickness. The apparatus includes a casing and a coating booth disposed in the casing and containing a coating fluid. The apparatus also includes an elevating member vertically movable in the casing and configured to hold an upper end of each of medical assist devices so that the medical assist devices can be hung. The apparatus further includes a position adjusting member for adjusting the height of the elevating member, and a controller for controlling operation of the position adjusting member. The coating booth includes a coating unit having the same length as each medical assist device and a hopper-shaped guide unit that guides a bundle of the medical assist devices to be inserted into the coating unit when the guide unit contacts the medical assist devices.

A coating method for compressed biomass products for providing the products with a substantially monolithic, water resistant coating to facilitate improved storage characteristics. The coating Method for compressed biomass products generally includes conveying the products into a tank or spray of heated, liquified coating material that then cools and hardens to provide a uniform, monolithic coating on the entire outer surface of the products.

A coating method for compressed biomass products for providing the products with a substantially monolithic, water resistant coating to facilitate improved storage characteristics. The coating Method for compressed biomass products generally includes conveying the products into a tank or spray of heated, liquified coating material that then cools and hardens to provide a uniform, monolithic coating on the entire outer surface of the products.

This invention generally relates to a device for preparing and transferring a monolayer or thin film. In particular this present invention is a device for preparing and transferring a monolayer or thin film to a substrate using an improved version of the Langmuir-Schaefer technique, which incorporates in situ thermal control, for instance to heat the supporting substrate before and/or during the transfer process.

This invention generally relates to a device for preparing and transferring a monolayer or thin film. In particular this present invention is a device for preparing and transferring a monolayer or thin film to a substrate using an improved version of the Langmuir-Schaefer technique, which incorporates in situ thermal control, for instance to heat the supporting substrate before and/or during the transfer process.

A glove coating device capable of supplying a coating layer in which pores are uniformly mixed is provided. The glove coating device includes: i) a dipping bath that is adapted to receive a coating liquid; ii) a coating liquid circulation tank installed in the dipping bath and that is spaced apart from a bottom surface of the dipping bath; iii) an impeller located in the dipping bath and that is adapted to transfer the coating liquid to the coating liquid circulation tank; iv) a motor positioned above the impeller to drive the impeller; and v) a drive shaft extending in the vertical direction to interconnect the motor and the impeller. The coating liquid circulation tank includes i) a first side opened to allow the coating liquid to be introduced; a second side formed on the opposite side of the first side and opened in a direction away from the bottom side to apply the coating liquid to overflow; and a flow passage communicating with the first side and the second side. The flow passage includes i) a first flow passage portion that is adapted to communicate with the first side and having a predetermined width that is smaller than the width of the coating liquid circulation tank, and ii) a second flow passage portion communicating with the first flow passage portion and the second side and gradually widening a width of the second flow passage portion from the first flow passage portion to the second side.

A process and apparatus for coating flowable contact-tolerant granules, such as seeds, includes a rotating wheel having peripheral apertures so when the granules are dropped onto the central portion, they bounce and contact other granules and are impelled by centrifugal force to fall through the peripheral apertures down a narrowing funnel preferably (but not necessarily) having a different rotation rate. The coating is spread by gentle granule-to-granule contact and contact with any coating material on the wheel and in the funnel. The granules then flow into an inclined conveyor belt, an inclined auger, or other conveyor, which rolls the granules as they are conveyed upwardly, so that the coating is further spread by gentle granule-to-granule contact.

A process and apparatus for coating flowable contact-tolerant granules, such as seeds, includes a rotating wheel having peripheral apertures so when the granules are dropped onto the central portion, they bounce and contact other granules and are impelled by centrifugal force to fall through the peripheral apertures down a narrowing funnel preferably (but not necessarily) having a different rotation rate. The coating is spread by gentle granule-to-granule contact and contact with any coating material on the wheel and in the funnel. The granules then flow into an inclined conveyor belt, an inclined auger, or other conveyor, which rolls the granules as they are conveyed upwardly, so that the coating is further spread by gentle granule-to-granule contact.

A method for treating a piece of wood impregnates the piece of wood with a water repellent, wherein the water repellent is solid at ambient temperatures. The method includes the steps of providing a piece of wood to be treated; heating the piece of wood for a predetermined period of time, the piece of wood being heated at a temperature A; subsequently immersing at least a portion of the piece of wood in a bath of liquefied water repellent, the bath being at a temperature B, for a predetermined period of time. Thereafter the piece of wood is removed from the bath and allowed to cool. The temperature A is above 100 C. and the temperature B is below 100 C. but above a liquefying point for the water repellent, and a differential between temperatures A and B is at least 60 C.

A method for treating a piece of wood impregnates the piece of wood with a water repellent, wherein the water repellent is solid at ambient temperatures. The method includes the steps of providing a piece of wood to be treated; heating the piece of wood for a predetermined period of time, the piece of wood being heated at a temperature A; subsequently immersing at least a portion of the piece of wood in a bath of liquefied water repellent, the bath being at a temperature B, for a predetermined period of time. Thereafter the piece of wood is removed from the bath and allowed to cool. The temperature A is above 100 C. and the temperature B is below 100 C. but above a liquefying point for the water repellent, and a differential between temperatures A and B is at least 60 C.