Coating apparatuses and methods are provided for dispensing coatings with various shapes. The coating apparatus includes a coating die body including a cavity and an opening on a dispensing side thereof. One or more movable components are disposed on the dispensing side of the die body to define at least a portion of a dispensing slot adjacent the opening of the cavity. The one or more movable components are movable with respect to the opening to allow a width of the dispensing slot along a cross direction to be dynamically adjustable.

Certain examples of seals that can move along a slit are disclosed. The seals can comprise a first leaf, a second leaf, and a biasing member to push the first leaf away from the second leaf. Also, apparatus for applying a fluid, and printing systems are described.

A slotted nozzle for discharging a liquid adhesive to a narrow edge of a substrate includes a nozzle body, a nozzle slot formed in the nozzle body, a passage in the nozzle body for supplying the adhesive to the nozzle slot, and a slot-shaped outlet opening of the nozzle slot. The nozzle body is configured in the region of averted ends of the nozzle slot that are based on the longitudinal extent of the nozzle slot in such a manner that an increased outlet of the adhesive through the outlet opening takes place in the region of the averted ends of the nozzle slot.

A substrate processing apparatus includes a nozzle block in which a slit-like discharge port is formed and a controller. The controller controls an X-direction driver and a Z-direction driver, so that a nozzle block is moved on a substrate with a gap between the nozzle block and the substrate filled with a processing liquid. At this time, the processing liquid is applied onto the substrate. Thereafter, the nozzle block is separated from the substrate, so that a liquid column connecting the nozzle block to the substrate is formed. The nozzle block is moved such that the liquid column changes from a liquid contact state in which the liquid column is in contact with the processing liquid present in a discharge port to a non-contact state in which the liquid column is not in contact with the processing present in the discharge port.

A curtain coating device includes a curtain coating member, a conveyance unit, a separation member, and a base material supporting member. The curtain coating member creates a curtain-like film of coating liquid and makes the curtain-like film flow down. The conveyance unit conveys a base material to which the curtain-like film is to be applied. The separation member includes a receiving portion inclined downward from inside to outside in a width direction of the curtain-like film, and separates an end portion of the curtain-like film having flowed down by receiving the end portion with the receiving portion above the base material. The base material supporting member is disposed inside in the width direction of the curtain-like film than the receiving portion of the separation member, and supports the base material on an upper side flat portion while the base material is being conveyed.

Certain examples of an apparatus, a printing system and a method are described that may be used for applying a fluid. In certain cases, an apparatus has a chamber arranged to receive fluid, the chamber being sealed at one or more ends by one or more respective end seals. In one case, at least one end seal is moveable along an axis of the chamber to adjust at least a volume of the chamber.

Certain examples of an apparatus, a printing system and a method are described that may be used for applying a fluid. In certain cases, an apparatus has a chamber arranged to receive fluid, the chamber being sealed at one or more ends by one or more respective end seals. In one case, at least one end seal is moveable along an axis of the chamber to adjust at least a volume of the chamber.

The invention provides a slot die coating apparatus and the coating method thereof. The flow path is divided into a first flow path and a second flow path by the shim group. The first flow path is utilized to coat from the middle portion of the coating nozzle and the second flow path is utilized to coat from the two sides of the coating nozzle. The nozzle lips at the two sides of the slot die coating apparatus are extended to close the substrate to prevent to hit the obstacle of the substrate during coating. Also, the height for coating of the slot die coating apparatus is controllable to achieve the optimized coating.

The invention provides a slot die coating apparatus and the coating method thereof. The flow path is divided into a first flow path and a second flow path by the shim group. The first flow path is utilized to coat from the middle portion of the coating nozzle and the second flow path is utilized to coat from the two sides of the coating nozzle. The height for coating of the slot die coating apparatus is adjustable, and the slurry may be exposed from the first flow path or the second flow path. Therefore, hitting the obstacle of the substrate can be avoided during coating to achieve the optimized coating.

A slot die coater includes an upper plate and a lower plate assembled with each other to form a discharge port; and a shim interposed between the lower plate and the upper plate to form a slot communicating with the discharge port. The upper plate has a groove recessed into the upper plate in parallel with the shim above the slot, and further includes a taper block and a pressure bolt fitted into the groove to press the shim.