Disclosed embodiments describe a method for manufacturing a staple fiber based on natural protein fiber. The method may include: providing a protein suspension, the protein suspension comprising fibrils of the natural protein fiber; directing the protein suspension through a nozzle onto a surface for forming a protein based fiber; drying the protein suspension on the surface; extracting the fiber from the surface; and providing the staple fiber. Disclosed embodiments may further describe a fiber based raw wool. The raw wool may include staple fibers, wherein the staple fibers are reconstructed on the basis of protein fibrils and are mechanically subdivided from natural protein fibers, wherein the protein fibrils are interlocked by hydrogen bonds, and wherein the raw wool comprises an unoriented, entangled, fluffy network of staple fibers.

To provide a heating drum which even when heated at a high temperature, is capable of suppressing the limb part from being deviated relative to the main body part, and an ink-jet printing device equipped with such a heating drum.

The present invention relates to a heating drum D which in order to guide a long-sized medium and also to heat and dry the medium, is provided with a cylinder shaped main body part 1, disc-shaped limb parts 2 attached to the two end parts of the main body part 1, and a shaft core 3 attached to the limb part 2 are installed, and the heating drum D further has a structure in which, on the edge of the inner circumferential surface of the main body part 1, a cut-out part 1a that extends in the circumferential direction is formed and a groove part 1c that extends in the circumferential direction is formed on the inner circumferential surface on the inner side from the cut-out part 1a of the main body part 1, wherein the cut-out part 1a and the groove part 1c are in parallel with each other, and the limb part 2 is fitted to the cut-out part 1a, with the claw part 4 being fixed to the limb part 2 by a fitting tool 5, so that a hook part 4a of the claw part 4 is freely movably fitted to the groove part 1c, and an ink-jet printing device I having such a heating drum D.

A drying device includes one or more first heating bodies configured to heat a drying target object conveyed with liquid applied on the drying target object, and a second heating body configured to heat the drying target object after the drying target object is heated by the one or more first heating bodies. The one or more first heating bodies include at least one heating body configured to heat the drying target object at a heating temperature greater than a heating temperature of the second heating body.

A drying device includes one or more first heating bodies configured to heat a drying target object conveyed with liquid applied on the drying target object, and a second heating body configured to heat the drying target object after the drying target object is heated by the one or more first heating bodies. The one or more first heating bodies include at least one heating body configured to heat the drying target object at a heating temperature greater than a heating temperature of the second heating body.

A drying device includes a plurality of guide rollers and a heater. The plurality of guide rollers is configured to contact a liquid applied face of a drying target object that is conveyed with liquid applied to the liquid applied face, while the drying target object is dried. The plurality of guide rollers includes at least one guide roller having a surface roughness of from 2 to 8. The heater is configured to heat the drying target object while the plurality of guide rollers guides the drying target object. A printer includes a liquid application device configured to apply liquid to a drying target object, and the drying device.

A drying device includes a plurality of guide rollers and a heater. The plurality of guide rollers is configured to contact a liquid applied face of a drying target object that is conveyed with liquid applied to the liquid applied face, while the drying target object is dried. The plurality of guide rollers includes at least one guide roller having a surface roughness of from 2 to 8. The heater is configured to heat the drying target object while the plurality of guide rollers guides the drying target object. A printer includes a liquid application device configured to apply liquid to a drying target object, and the drying device.

A dryer for conveying and drying an object to be dried, the dryer includes a conveyor including a first path and a second path along which the object to be dried is conveyed, a conveyance direction of the second path being different from a conveyance direction of the first path, and a blower to blow air onto the object to be dried. The blower includes a first air outlet that faces the first path and blows the air onto the object to be dried conveyed along the first path, and a second air outlet that faces the second path and blows the air onto the object to be dried conveyed along the second path.

The application relates to a method and apparatus for manufacturing a natural fiber based staple fibers. The application further relates to the staple fibers, staple fiber based raw wool and products comprising such. A method comprises providing a cellulose suspension (101, 310, 510) including water, refined cellulose fibrils and at least one rheology modifier, directing the cellulose suspension through a nozzle (102, 320, 520) onto a surface (300, 400, 500), drying the cellulose suspension onto the surface (103, 300, 400, 500) for forming a fiber (350, 550), and cutting the cellulose suspension on the surface for forming staple fibers (105).

The invention may utilize shaft horsepower for rotating cylinders to move a fluid in an axial direction within the cylinder. The cylinder may comprise a spiral blade on or in its inner surface with a pitch relative to a central axis of the cylinder. The blade's pitch may be variable or uniform with respect to the central axis. In some applications, plural blades may be positioned within the cylinder. The invention is particularly suitable for imparting kinetic energy sufficient to assist with the evacuation of condensate from a paper dryer cylinder with reduced or no blow through steam. The invention also has applications for spinner wheels.

A dryer for conveying and drying an object to be dried, the dryer includes a conveyor including a first path and a second path along which the object to be dried is conveyed, a conveyance direction of the second path being different from a conveyance direction of the first path, and a blower to blow air onto the object to be dried. The blower includes a first air outlet that faces the first path and blows the air onto the object to be dried conveyed along the first path, and a second air outlet that faces the second path and blows the air onto the object to be dried conveyed along the second path.