For many years, a user would pour a cleaning solution (e.g., soap) from a bottle onto an object to be cleaned (e.g., a dirty dish). The user would then scrub the object with a sponge or brush. More recently, brushes have been developed that have an internal reservoir for storing the cleaning solution. For example, as the user is scrubbing the object with the brush, the user may selectively dispense the cleaning solution from the internal reservoir of the brush onto the object. However, conventional brushes with the internal reservoirs are large, heavy, and relatively expensive. What is needed is an improved apparatus with a cleaning solution stored therein that may be used as a scrubber.
A packet is disclosed. The 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 plurality of packets is also disclosed. The plurality of packets includes a first packet and a second packet. The first and second packets each include 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 and through the first edge. A consumer product is disposed within the internal volume. A cap is configured to prevent the consumer product from flowing from the internal volume and through the nozzle. The first edge of the first packet is coupled to a second, opposing edge of the second packet.
A method for cleaning an object is also disclosed. The method includes opening a packet and causing a consumer product to flow out of the packet onto the object. The method also includes reducing a distance between two edges of the first packet, and scrubbing the consumer product on the object using the packet when the distance is reduced.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
The present invention will become more fully understood from the detailed description and the accompanying drawing, wherein:
The following description of the preferred embodiment(s) is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.
As used throughout, ranges are used as shorthand for describing each and every value that is within the range. Any value within the range can be selected as the terminus of the range. In addition, all references cited herein are hereby incorporated by referenced in their entireties. In the event of a conflict in a definition in the present disclosure and that of a cited reference, the present disclosure controls.
The front panel 110 and the back panel 112 of each packet 100A-C may include one or more edges (four are shown: 121-124). The front panel 110 and the back panel 112 of each packet 100A-C may be coupled together proximate to the edges 121-124, such that an internal volume is defined between the front panel 110 and the back panel 112. A consumer product may be disposed within the internal volume. The consumer product may be or include a liquid, a gel, a paste, a powder, or the like. The consumer product may be or include a cleaning solution (e.g., soap, detergent, etc.), toothpaste, mouthwash, shampoo, conditioner, body wash, lotion, or the like.
As shown, the edge 123 of the first packet 100A may be coupled to the edge 121 of the second packet 100B, the edge 123 of the second packet 100B may be coupled to the edge 121 of the third packet 100C, and so on. One or more of the edges (e.g., edge 121) may include a plurality of first recesses 126. The first recesses 126 reduce the surface area of the coupling/connection between the packets 100A-C, which facilitates separation of the packets along this edge 121. In addition, the first recesses 126 may cause the edge 121 to be substantially serrated, which may improve the packets' 100A-C scrubbing efficiency, as discussed below. As shown, the edges 123 may be smooth (e.g., no recesses); however, in other embodiments, the edges 123 may have a plurality of recesses.
The end of the nozzle 130 may be sealed by the cap 140. The cap 140 may be positioned at least partially in the second recess 127. As shown, an outer edge of the cap 140 may be substantially aligned with at least a portion of the edge 121 of the first packet 100A.
The method 300 may also include opening the first packet 100A, as at 304. As shown in
The method 300 may also include causing at least a portion of a consumer product 150 to flow out of the first packet 100A, as at 306. A user may cause the consumer product 150 to flow out of the first packet 100A through the nozzle 130 by squeezing the first packet 100A. The consumer product 150 may flow out of the first packet 100A and onto an object 500 (see
The method 300 may also include reducing a distance between two edges 122, 124 of the first packet 100A, as at 308. The distance between the two edges 122, 124 may be reduced simultaneously with the consumer product 150 flowing out of the first packet 100A. For example, reducing the distance between the two edges 122, 124 may cause the consumer product 150 to flow out of the first packet 100A. The distance between the two edges 122, 124 may also or instead be reduced after the consumer product 150 flows out of the first packet 100A.
The two edges 122, 124 may be perpendicular to the edge 121 having the nozzle 130 extending therethrough. The two edges 122, 124 may also or instead be perpendicular to the edge 121 having the first recesses 126 (i.e., the serrated edge). In at least one embodiment, reducing the distance between the two edges 122, 124 may include rolling the first packet 110A about a central longitudinal axis that is parallel to the two edges 122, 124, as shown in
The method 300 may also include cleaning/scrubbing the consumer product 150 on an object 500 using the first packet 100A, as at 310.
As shown, the object 500 is a pan; however, in other embodiments, the object 500 may be a plate, a dish, a bowl, cutlery, the user's skin (e.g., face, hands, or body), the user's mouth (e.g., teeth or tongue), a countertop, a window, or the like.