The present invention relates to a sponge (20) including at least one cavity (22), distinct from the pores of the sponge 5 (20), capable of allowing the introduction of a liquid inside the sponge (20) to impregnate the sponge (20), the cavity (22) preferably having a bottom (24) inside the sponge (20), and emerging on the other hand on a surface (26) of the sponge (20) while forming an opening (28) such that the maximum distance between two points of the contour of the opening (28) is comprised between 3, preferably 5, still more preferably 8, and 25, preferably 20, still more preferably 15 mm or still more preferably 12 mm.

The invention is directed to a scrubber/scraper sponge. The sponge is comprised of three layers. A lower sponge layer provides a soft, absorbent washing surface on the bottom surface of the sponge. An upper abrasive layer provides a scrubbing surface on the top surface of the sponge. The front peripheral edge of the sponge provides a scraping edge on a scraping layer, which extends partially from the front edge toward the rear edge of the sponge, between the sponge layer and the abrasive layer. Flexible barbs extend rearward from the rear edge of the scraping layer, such that the barbs become embedded in the sponge layer during the manufacturing process and firmly secure the scraping layer to the sponge layer.

The invention is directed to a scrubber/scraper sponge. The sponge is comprised of three layers. A lower sponge layer provides a soft, absorbent washing surface on the bottom surface of the sponge. An upper abrasive layer provides a scrubbing surface on the top surface of the sponge. The front peripheral edge of the sponge provides a scraping edge on a scraping layer, which extends partially from the front edge toward the rear edge of the sponge, between the sponge layer and the abrasive layer. Flexible barbs extend rearward from the rear edge of the scraping layer, such that the barbs become embedded in the sponge layer during the manufacturing process and firmly secure the scraping layer to the sponge layer.

A method for manufacturing a loofah dish sponge includes cutting a first cover layer and a second cover layer from the dried-out fibrous loofah skeleton, positioning a slightly smaller sized inner layer in between the first and second cover layers with their respective external sides facing outward and away from the internal layer, deforming and sewing the peripheral edges of the first and second cover layers together, thereby forming an internal volume in between thereof allowing the inner layer placed inside to freely float in this space. The sponge is made without using any synthetic materials. It features superior durability, improved ergonomics, impedes mold growth after use and is fully compostable.

A method for manufacturing a loofah dish sponge includes cutting a first cover layer and a second cover layer from the dried-out fibrous loofah skeleton, positioning a slightly smaller sized inner layer in between the first and second cover layers with their respective external sides facing outward and away from the internal layer, deforming and sewing the peripheral edges of the first and second cover layers together, thereby forming an internal volume in between thereof allowing the inner layer placed inside to freely float in this space. The sponge is made without using any synthetic materials. It features superior durability, improved ergonomics, impedes mold growth after use and is fully compostable.

Provided is a cleaning pad having an empty space formed therein and provides a cleaning pad, including: a detergent injection part formed at one end of the cleaning pad; and a sealing part extending from both ends of the detergent injection part so as to seal the other end of the cleaning pad, wherein the detergent injection part has a structure, in which the detergent injection part is folded and fixed towards the inside of the cleaning pad from the outside thereof.

Provided is a cleaning pad having an empty space formed therein and provides a cleaning pad, including: a detergent injection part formed at one end of the cleaning pad; and a sealing part extending from both ends of the detergent injection part so as to seal the other end of the cleaning pad, wherein the detergent injection part has a structure, in which the detergent injection part is folded and fixed towards the inside of the cleaning pad from the outside thereof.

A packet includes a front panel and a back panel defining an internal volume therebetween. The front panel and the back panel include a first edge having a plurality of first recesses formed therein. A nozzle provides a path of fluid communication from the internal volume, through the first edge, to an exterior of the packet. A consumer product is disposed within the internal volume. A cap is configured to prevent the consumer product from flowing from the internal volume, through the nozzle, and to the exterior of the packet.

A packet includes a front panel and a back panel defining an internal volume therebetween. The front panel and the back panel include a first edge having a plurality of first recesses formed therein. A nozzle provides a path of fluid communication from the internal volume, through the first edge, to an exterior of the packet. A consumer product is disposed within the internal volume. A cap is configured to prevent the consumer product from flowing from the internal volume, through the nozzle, and to the exterior of the packet.

A detectable scouring pad is provided that is made with a sparse unwoven base polymer that defines the pad shape, an overcoating of cured thermoset resin loaded with a particulate on the base polymer, the particulate present in an amount to render the polymer detectable by X-ray detection or magnetometer detection. A process of detecting a scouring pad includes forming a fiber composed of a base polymer having a cross-section and a length, and distributing a particulate on the thermoplastic polymer in a thermoset resin matrix. The process further includes forming a sparse unwoven thermoplastic polymer from the fiber, and manufacturing the scouring pad from the sparse unwoven polymer by overcoating the base polymer with a particulate loaded thermoset resin. The scouring pad is passed through an X-ray detector or a magnetometer detector, and a signal is collected from the detector indicative of the presence of the scouring pad.