A pocket, to form particulate material as absorbent for hygienic products, includes: a substrate shaped to the absorbent padding; a grid-shaped support, couplable to support the substrate during suction of the particulate material through the substrate and includes a curved external face, an internal face, a pair of greater side faces and a pair of lesser side faces that are opposite one another, openings enable gas to flow from the external face to the internal face during suction. A method for making the pocket includes making at least one of the external openings of a different shape and/or dimension from one of the internal openings, and making the external walls and the internal walls by layer additive manufacturing.

The present invention relates to a method of manufacturing an unbonded, absorbent, fibrous structure, the method comprising the steps of: a) providing of a first fibrous material in the form of a fibrous sheet (10); b) defiberizing the sheet (10) of first fibrous material to form a roughly graded material (16); c) mixing the roughly graded material (16) with a second material (26) to form a mixture; and d) air-laying the mixture on a foraminous carrier (50) to form the unbonded, absorbent, fibrous structure.

A unit for making absorbent pads for nappies including a forming drum by which the absorbent pad is formed and in turn including on its peripheral surface one or more suction recesses; at least one hood for feeding the absorbent material and peripherally facing at least part of the peripheral surface of the drum; and a duct which leads to the hood and which can intermittently feed predetermined charges of a superabsorbent material; the feeding duct is configured in such a way that the flow of superabsorbent material fed into the hood expands until reaching an extent corresponding to the longitudinal extension of the at least one discrete layer of the absorbent pad.

A device for producing a three dimensional shaped consolidated product. The device includes a rotary drum, defined as a rotary conveyor with a peripheral surface extending in circumferential direction with at least one product shaping area in the form of a cavity on said peripheral surface, the peripheral surface is pervious to air at least in the product shaping area, at least one material feed device to feed a base material into the at least one cavity, a vacuum device designed to generate a negative pressure at least in the at least one cavity, whereby the generated suction is directed towards the interior of the rotary conveyor, and whereby downstream of the material feed device at least one consolidating device is located such that at least a part of the filled cavity is subjected to a consolidating treatment whereby the base material at least partly will adhere to neighboring material.

A liquid absorbent structure is made by dry laying a fibrous web having incorporated therein a superabsorbent material, and applying an aqueous composite stabilizer to at least one surface of the web. The aqueous composite stabilizer imparts integrity to the resulting structure without substantially impairing the effectiveness of the superabsorbent material to absorb liquid while forming the absorbent structure without removing the water from aqueous composite stabilizer or drying out the absorbent structure. The absorbent composite absorbs the water from the aqueous composite stabilizer. The absorbent composite comprises about 70% by weight of a superabsorbent material.

A contact efficiency between a fragrance material and body fluid is increased, fragrance is effectively generated by a small amount of the fragrance material, and a manufacturing step is simplified.

Including an absorbent body (6) in which a defibrated fluff pulp (5), defibrated from a pulp raw fabric sheet (4), is fiber stacked, wherein a fragrance material (3) is added to the pulp raw fabric sheet (4) before being defibrated. A manufacturing method includes a paper making step of obtaining, after forming a wet paper sheet (2) from a source material (2) and adding a fragrance material (3) to the wet paper sheet (2), a pulp raw fabric sheet (4) by dehydrating and drying the wet paper sheet (2), and a processing step of an absorbent article of defibrating the pulp raw fabric sheet (4) and manufacturing an absorbent body (6) by fiber stacking this defibrated fluff pulp (5).

An apparatus and method for producing an absorbent sanitary article including a forming surface at least partially permeable to air configured to move along a moving direction between first, second, and third successive forming positions. The apparatus includes a first, second, and third supply ducts for delivering loose absorbent material onto the forming surface at the first, second, and third forming positions, respectively. The apparatus further includes a first suction chamber opposite to the first supply duct with respect to the forming surface and arranged at the first forming position, a second suction chamber opposite to the second supply duct and arranged at the second forming position, and a third suction chamber opposite to the third supply duct at the third forming position. The first, second, and third suction chambers are open on the forming surface and configured to exert a suction through the forming surface.

A liquid absorbent structure is made by dry laying a fibrous web having incorporated therein a superabsorbent material, and applying an aqueous composite stabilizer to at least one surface of the web. The aqueous composite stabilizer imparts integrity to the resulting structure without substantially impairing the effectiveness of the superabsorbent material to absorb liquid while forming the absorbent structure without removing the water from aqueous composite stabilizer or drying out the absorbent structure. The absorbent composite absorbs the water from the aqueous composite stabilizer. The absorbent composite comprises about 70% by weight of a superabsorbent material.

Cellulosic pulp structures integrating unreacted quantities of an inorganic peroxide and a destabilizing acid, as binary components of an odor control system, absorbent articles incorporating such structures, and various methods of forming the same, are disclosed herein. The components are adapted to react in the presence of an aqueous fluid to produce hydrogen peroxide, thereby providing an antimicrobial and odor mitigating effect.

A liquid absorbent structure is made by dry laying a fibrous web having incorporated therein a superabsorbent material, and applying an aqueous composite stabilizer to at least one surface of the web. The aqueous composite stabilizer imparts integrity to the resulting structure without substantially impairing the effectiveness of the superabsorbent material to absorb liquid while forming the absorbent structure without removing the water from aqueous composite stabilizer or drying out the absorbent structure. The absorbent composite absorbs the water from the aqueous composite stabilizer. The absorbent composite comprises about 70% by weight of a superabsorbent material.