Patent Publication Number: US-2006003912-A1

Title: Kits of foam based cleaning elements

Description:
BACKGROUND  
      Cleaning applications employ cleaning products, such as towels, in order to remove dirt and other unwanted elements from surfaces. In some instances the cleaning product may be a urethane foam or a cellulose sponge which may be used in order to wipe a surface clean. The cleaning product may be configured with bristles or grit disposed thereon in order to aid in cleaning.  
      Cleaning products can be configured to work when in a dry state in order to clean the surface, or may be designed to work in a wet state so that the cleaning product is wet to some degree when cleaning the surface. A detergent may be used with the cleaning product in order to assist in breaking up dirt and other unwanted elements so that the surface may be cleaned. It is sometimes the case that dirt or other unwanted elements cannot be sufficiently removed from a surface even when a cleaning product is properly applied. Applying the cleaning product too aggressively may result in the surface being damaged, and may still not result in the removal of dirt or unwanted elements from the surface. Examples of difficult to clean materials include crayon on walls, scuff marks from shoes on floors, permanent magic marker markings on a variety of surfaces such as dry erase boards, stains on porcelain or ceramics including dentures, grease and oil spots on numerous surfaces, hard water spots and soap scum on tile, biofilms on metal and plastic surfaces, mildew and fungus growths on numerous surfaces, and other forms of dirt, grime, or other unwanted elements from various surfaces.  
      Blocks of melamine foam have been recognized as having useful cleaning properties when wetted with water and rubbed against certain surfaces to be cleaned, and have been marketed in several countries for such purposes. Melamine-based foam has an open-celled, microporous structure. Melamine-based foam is abrasive in that when rubbed across a surface, dirt and other unwanted elements will be removed. Particles of the melamine-based foam may break off due to this abrasive contact. Over time, the melamine-based foam will be worn down due to repeated abrasion with the surface to be cleaned and the unwanted elements present on this surface.  
      Other types of foams, such as phenolic foams, may be employed during cleaning procedures in order to perform various cleaning functions. Foam based cleaning products may also be configured as sheets instead of being simply provided as blocks of foam. For instance, a layer of cleaning foam, such as melamine-based foam or phenolic foam, may be attached to a flexible web to provide a wiping and scrubbing product that can conform to complex surfaces and provide good tactile control of applied pressure.  
      Unfortunately, the application of cleaning products that include cleaning foams to some surfaces may result in scratching or abrasion of the surface being cleaned. In this instance, certain types of surfaces such as plastic or glass will be damaged if a foam cleaning product that is too aggressive in removing unwanted materials is applied. Additionally, different types of stains, such as crayon or grease, may require a different type or level of aggressiveness of foam cleaning product in order to be removed. Further, some users of foam cleaning products may unknowingly apply the foam cleaning product in an incorrect state resulting in decreased cleaning effectiveness or resulting in damage to the foam cleaning product or surface being cleaned. For example, a user may mistakenly clean with a foam cleaning product in a wet state when in fact the foam cleaning product was designed to clean in a dry state. Alternatively, a user may conduct dry cleaning with a foam cleaning product that was in fact intended for use during wet cleaning.  
      Presently provided is an improvement over known foam based cleaning products that allows for a user to identify certain properties of two or more foam based cleaning elements. In this regard the user will be able to select the appropriate cleaning element for a particular type of surface, stain, cleaning state, etc. Damage to particular surfaces will be reduced, cleaning effectiveness will be enhanced, and/or the life of the foam cleaning element will be extended when the correct type of foam cleaning element is employed.  
     SUMMARY  
      Various features and advantages of the invention will be set forth in part in the following description, or may be obvious from the description, or may be learned through practice of the invention.  
      The present invention provides for a kit for use in cleaning that includes both a first and second cleaning element. Each of the cleaning elements are made at least partially of foam and are each configured for cleaning a surface. The first cleaning element has a first cleaning property while the second cleaning element has a second cleaning property. A first identifying feature is provided that identifies the first cleaning element as having the first cleaning property. Likewise, a second identifying feature is provided that identifies the second cleaning element as having the second cleaning property. The cleaning properties of the first and second cleaning elements are different from one another.  
      Also provided for in accordance with the present invention is a kit for use in cleaning that includes a first cleaning element made at least partially of foam and configured for cleaning a surface. The first cleaning element is identifiable as having a first cleaning property. A second cleaning element is included and is also made at least partially of foam and configured for cleaning a surface. The second cleaning element is identifiable as having a second cleaning property. The cleaning properties of the first and second cleaning elements are different. A body is also included and is configured for holding the first cleaning element and the second cleaning element.  
      Also provided for in accordance with the present invention is a kit as discussed above where the cleaning property of the first and second cleaning elements that is different is the aggressiveness of the first and second cleaning elements in cleaning a surface. In this instance, the first cleaning element is configured for cleaning more aggressively than the second cleaning element. Alternatively, the present invention also provides for a kit as discussed above in which the cleaning property of the first and second cleaning elements that is different is the cleaning state of the first and second cleaning elements in cleaning a surface. In this regard, the first cleaning element is configured for cleaning in a wet state while the second cleaning element is configured for cleaning in a dry state.  
      Also provided for in accordance with the present invention is a kit as discussed above that further includes a third cleaning element that is made at least partially of foam. The third cleaning element is configured for cleaning a surface and is identifiable as having a third cleaning property. The body, if included, is configured for holding the third cleaning element.  
      The present invention also provides for an exemplary embodiment of the kit as immediately discussed in which the cleaning property of the first, second and third cleaning elements that is different is the aggressiveness of the first, second and third cleaning element in cleaning a surface. In this regard, the first cleaning element is configured for cleaning more aggressively than the second and third cleaning elements, and the third cleaning element is configured for cleaning more aggressively than the second cleaning element.  
      Also provided for in accordance with the present invention is a kit as discussed above in which the first cleaning element is a cleaning wipe and the second cleaning element is a cleaning block. Further, in accordance with another exemplary embodiment, the cleaning wipe may include a melamine-based foam that is configured for contacting and cleaning a surface to be cleaned and a web that is attached to the melamine-based foam. The cleaning block may be a block of melamine-based foam and may have a thickness of at least 0.3 inches, 0.5 inches, or 1 inch, and may have a width of at least 1.5 inches and a length of at least 2 inches, 3 inches, 4 inches, or 5 inches.  
      The present invention also provides for a kit as discussed above that further includes indicia for identifying the cleaning properties of the first and second cleaning elements. The indicia may be embossments on the first and second cleaning elements, embossments on the body, labels on the first and second cleaning elements, and/or labels on the body.  
      The indicia can also comprise information printed directly on the cleaning elements, including printing on the foam, or can comprise coloring added to the foam. In addition to adding dyes or pigments during the foam manufacturing process, colors or patterns can be applied to the foam using ink jet printing, pad printing, flexographic printing, and other printing techniques, as well as topical application of coloring agents.  
      Further provided for in accordance with the present invention is a kit as discussed above in which the first and second cleaning properties are identifiable by a feature of the first and second cleaning elements. The cleaning properties may be identified by the color, size, shape, thickness, and/or the tactile characteristics of the first and second cleaning elements.  
      Also provided in accordance with the present invention is a kit as discussed above that further includes graphical symbols used for identifying the cleaning properties of the first and second cleaning elements.  
      Also provided for is a kit as previously discussed that further includes other cleaning components that may be held by the body. Other cleaning components that may be included are, for instance, gripping elements configured to hold the first and second cleaning elements, an abrasive pad, steel wool, a spray bottle for holding a cleaning agent, a spray bottle for holding a lotus-effect agent, plastic gloves, nanoemulsions, antimicrobial agents such as silver-based means, odor-control agents, etc. Representative nanoemulsion agents can include antimicrobial oil-water nanoemulsions such as those describe in WO 01/49296, “Antimicrobial Compositions and Methods of Use,” published Jul. 12, 2001 by J. R. Baker, Jr., et al., and WO 03/00243, “Antimicrobial Nanoemulsion Compositions and Methods,” published Jan. 3, 2003 by T. Hamouda et al.  
      Also provided for in accordance with the present invention is a kit as previously discussed in which at least one of the first and second cleaning elements is partially made of a foam that is a melamine-based foam.  
      The present invention also includes an embodiment as previously discussed in which the body defines a first compartment into which the first cleaning element is located. The body likewise defines a second compartment into which the second cleaning element it located.  
      The present invention also provides for a kit for use in cleaning that includes a first cleaning element that comprises a block of melamine-based foam that may be laminated to a second layer of another material. The first cleaning element is configured for cleaning a surface and has a particular level of cleaning aggressiveness. A second cleaning element is included and may also comprise a block of melamine-based foam that may be laminated to a second layer of another material. Likewise, the second cleaning element is configured for cleaning a surface, and the second cleaning element has a particular level of cleaning aggressiveness that is less than that of the first cleaning element. A body that is configured for holding the first and second cleaning elements is provided. A first identifying indicia is located on the body and identifies the cleaning aggressiveness of the first cleaning element. Likewise, a second identifying indicia is located on the body and identifies the cleaning aggressiveness of the second cleaning element. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS  
      A full and enabling disclosure of the present invention, including the best mode thereof, directed to one of ordinary skill in the art, is set forth more particularly in the remainder of the specification, which makes reference to the appended figures in which:  
       FIG. 1  is a perspective view of a kit used in accordance with one exemplary embodiment of the present invention that distinguishes between first and second cleaning elements on the basis of color.  
       FIG. 2  is a perspective view of a kit in accordance with one exemplary embodiment of the present invention that distinguishes between first, second and third cleaning elements on the basis of color.  
       FIG. 3  is a top view of a kit in accordance with one exemplary embodiment of the present invention that distinguishes between first, second, and third cleaning elements on the basis of indicia located on a cover of the body.  
       FIG. 4  is a perspective view of a kit in accordance with one exemplary embodiment of the present invention that distinguishes between cleaning properties of the first, second, and third cleaning elements by making use of embossments on the elements.  
       FIG. 5  is a perspective view of a kit in accordance with one exemplary embodiment of the present invention that distinguishes between cleaning properties of the first, second and third cleaning elements by use of labels attached to the elements.  
       FIG. 6  is a perspective view of a kit in accordance with one exemplary embodiment of the present invention in which the cleaning properties of the first, second and third elements are distinguished by labels and by shape.  
       FIG. 7  is a perspective view of a kit in accordance with one exemplary embodiment of the present invention in which a variety of cleaning products in addition to the first and second cleaning elements may be held by the body of the kit and used for additional functionality during a cleaning procedure.  
       FIG. 8  is a perspective view of a kit in accordance with one exemplary embodiment of the present invention in which the first cleaning element is a cleaning wipe that has a visual indicating portion that alerts the user that a foam layer has been worn to a particular degree.  
       FIG. 9  is a perspective view of a kit in accordance with one exemplary embodiment of the present invention in which the body is configured to store the first and second cleaning elements and to hold the first and second cleaning elements on the outside so as to act as a handle in applying the first and second cleaning elements.  
       FIG. 10  is a perspective view of a kit used in accordance with one exemplary embodiment of the present invention that includes first and second cleaning elements configured as molded three dimensional foam pads. 
    
    
      Repeat use of reference characters in the present specification and drawings is intended to represent same or analogous features or elements of the invention.  
     DETAILED DESCRIPTION  
      Reference will now be made in detail to embodiments of the invention, one or more examples of which are illustrated in the drawings. Each example is provided by way of explanation of the invention, and not meant as a limitation of the invention. For example, features illustrated or described as part of one embodiment can be used with another embodiment to yield still a third embodiment. It is intended that the present invention include these and other modifications and variations.  
      It is to be understood that the ranges and limits mentioned herein include all ranges as located within, and also all values located under and above the prescribed limits. For instance, a range from 100 to 200 also includes ranges from 110 to 150, 170 to 190, and  153  to  162 . Further, a limit of up to about 7 also includes a limit of up to about 5, up to about 3, and up to about 4.5.  
      The present invention provides for a kit  10 , shown for instance in  FIG. 1 , that may be used for improved cleaning. The kit  10  includes a first cleaning element  12  with a first cleaning property and a second cleaning element  14  that has a second cleaning property different than the first cleaning property. The differences between the cleaning properties may be, for instance, the aggressiveness of cleaning, the ability to clean in a wet or dry state, or the types of stains that may be removed by the first and second cleaning elements  12 ,  14 . Both of the first and second cleaning elements  12 ,  14  are made at least partially of foam. The first cleaning element  12  is identifiable as having the first cleaning property, and the second cleaning element  14  is identifiable as having the second cleaning property so that a user may properly select and apply the appropriate cleaning element  12 ,  14  for a particular cleaning application. Identification of the cleaning properties for a particular cleaning element  12 ,  14  will result in the elimination of, or a reduction in, the chance of having a situation in which the cleaning element  12 ,  14  damages the surface being cleaned, is applied to clean an incorrect type of stain, or is applied to the surface in the wrong wet/dry state, etc.  
       FIG. 1  shows a body  16  that holds the first and second cleaning elements  12 ,  14 . Here, elements  12  and  14  are cleaning blocks  20 . The first and second cleaning elements  12 ,  14  have at least one different cleaning property. In this instance, the cleaning aggressiveness of the first cleaning element  12  is higher than the cleaning aggressiveness of the second cleaning element  14 . The first cleaning element  12  may possibly damage certain types of surfaces when applied  30  thereto in order to remove various unwanted elements. This being the case, the second cleaning element  14  may instead be applied to those surfaces susceptible to being damaged in order to both clean the surface and to avoid any possibility of scratching or otherwise damaging the surface.  
      The user may distinguish between the cleaning properties of the first and second cleaning elements  12 ,  14  in a variety of manners in accordance with various exemplary embodiments of the present invention. As shown in  FIG. 1 , for instance, the color of the first and second cleaning elements  12 ,  14  indicates the appropriate level of cleaning aggressiveness of the particular element  12 ,  14 . The first cleaning element  12  is colored blue in order to indicate a higher level of cleaning aggressiveness while the second cleaning element  14  is white in color in order to indicate a lesser level of cleaning aggressiveness. In accordance with other exemplary embodiments of the present invention, various color schemes may be used in order to indicate to the user various cleaning properties of the first and second cleaning elements  12 ,  14 .  
      The first and second cleaning elements  12 ,  14  are packaged inside of the body  16  so as to allow for the sale of the entire kit as one unit and for the transport of the kit  10  to either a particular location in the user&#39;s house, automobile, business, etc., or to the location in which the user desires to perform the cleaning procedure. The body  16  may be flexible in nature or may be rigid in accordance with various exemplary embodiments of the present invention. The body  16  may have a reclosable seal in order to allow access to the first and second cleaning elements  12 ,  14  and in turn allow for a resealing of kit  10 . Various types of body  16  configurations may be used in accordance with various exemplary embodiments of the present invention in order to store, transport, or display the kit  10  as known to one of ordinary skill in the art.  
       FIG. 2  shows an exemplary embodiment of the present invention in which the body  16  is rigid and defines a first compartment  68  and a second compartment  70 . The body  14  may be constructed so as to allow access to individual compartments  68 ,  70  or may be made so that access to both compartments  68 ,  70  must occur simultaneously. Again, the body  16  may be configured in a variety of manners. For instance, body  16  need not completely surround the first and second cleaning elements  12 ,  14  and may instead simply hold the first or second cleaning element  12 ,  14  thereon.  
      The color of the first and second cleaning elements  12 ,  14  in  FIG. 2  identifies cleaning properties of the cleaning elements  12 ,  14 . Again, the first cleaning element  12  is blue in order to indicate a higher level of cleaning aggressiveness while the second cleaning element  14  is white in order to indicate a lower degree of cleaning aggressiveness. The first and second cleaning elements  12 ,  14  are provided as both cleaning blocks  20  and cleaning wipes  22 . As such, the user may select between cleaning with a block  20  or a wipe  22  depending on the particular situation. This may be, for instance, if a corner of a floor is desired to be cleaned. Here, it may not be possible for one to apply a cleaning block  20  in a tight spot in order to effectively clean the surface, and instead the user will choose a cleaning wipe  22  in order to more easily access the dirty area. Additionally, the user will select between the first and second cleaning elements  12 ,  14  based upon the desired degree of cleaning aggressiveness.  
      Also provided in the kit  10  shown in  FIG. 2  is a third cleaning element  18  that is only provided as a cleaning wipe  22 . The third cleaning element  18  is colored green and has a cleaning property that is different than both the first cleaning element  12  and the second cleaning element  14 . Again, the cleaning property in question is the cleaning aggressiveness of the third cleaning element  18 . In this instance, the third cleaning element  18  has an intermediate level of cleaning aggressiveness such that the third cleaning element  18  cleans more aggressively than the second cleaning element  14  but not as aggressively as the first cleaning element  12 . Again, the user will be able to distinguish between the various levels of cleaning aggressiveness afforded by the cleaning elements  12 ,  14 ,  18  upon viewing the color of the particular cleaning wipe  22  or cleaning block  20 . Although shown as being only a cleaning wipe  22 , the third cleaning element  18  may also be provided in a cleaning block  20  form in accordance with other exemplary embodiments.  
      Kit  10  may have cleaning products grouped with a display analogous to the Mohr scale of mineral hardness that shows the particular types of surfaces that are suitable for each of the different grades of cleaning products.  FIG. 3  shows an exemplary embodiment of the present invention in which the color of the cleaning elements  12 ,  14 ,  18  is not used in order to identify different cleaning properties of the elements  12 ,  14 ,  18 . Instead, the kit  10  in  FIG. 3  includes indicia  28  located on a cover  74  of the body  16 . The cover  74  may be lifted up or removed by a user pulling on tab  72 . Opening of cover  74  will allow access to the various cleaning blocks  20  and wipes  22  located in body  16 . The indicia  28  located above the various cleaning blocks  20  and wipes  22  identify to the user various degrees of cleaning aggressiveness of the blocks  20  and wipes  22 . For instance, the first cleaning element  12 , provided as both a set of cleaning blocks  20  and cleaning wipes  22 , is identified by a graphical symbol in the shape of bricks  34  in order to indicate to the user that these particular cleaning elements  12  have the highest level of cleaning aggressiveness. Although identified by bricks  34 , other graphical symbols such as cement or cast iron may be shown in order to indicate to the user that the first cleaning element  12  has the highest level of cleaning aggressiveness.  
      In one embodiment, the cleaning aggressiveness of two materials can be compared by determining the ability of the materials when dry to scratch a variety of plastic or metal surfaces of varying hardness, with the application of the material to the surface being done in a manner to simulate hand cleaning of a surface, with circular strokes having a radius of about 2 inches applied at a frequency of two orbits per second at a uniform pressure of about 2 psi applied over an area of about 1.5 inches by 1.5 inches for 10 seconds. The material capable of scratching harder surfaces is the more aggressive, according to the “dry plastic scratch test” or “dry metal scratch test,” depending on which class of surfaces was tested. Alternatively, aggressiveness could be evaluated when the material is saturated with distilled water prior to attempting to scratch a surface, and the more aggressive material can be said to be more aggressive in terms of the “wet plastic scratch test” or “wet metal scratch test,” depending on which class of surfaces was tested. Alternatively, a panel of 10 male and 10 female adult subjects, ages 20 to 30, can be used. The panelists are each given two cleaning materials and asked to remove crayon marks (red crayon from normal sized CRAYOLA® crayons) from a painted surface (e.g., drywall painted with primer followed by a white matte interior latex paint), and are then surveyed as to which of the materials was more aggressive. The process is repeated with 2 other panels of different panelists. If at least 13 of the panelists in each of the three panels agree than a first material was more aggressive than the second material, the first material is deemed to be more aggressive, in terms of the “panel test.” 
      The second cleaning element  14  is also provided in the form of both cleaning blocks  20  and cleaning wipes  22 . Again, the second cleaning element  14  has the lowest level of cleaning aggressiveness in kit  10  and is identified by a graphical symbol in the shape of eyeglasses  38 . The second cleaning element  14  is thus identified as having the lowest level of cleaning aggressiveness and may be used in instances where the surface being cleaned is capable of being damaged by the cleaning procedure. Although shown as being identified by eyeglasses  38 , the second cleaning element  14  may be identified by other graphical symbols in accordance with other exemplary embodiments of the present invention.  
      Also included in kit  10  is a third cleaning element  18  that is provided in only the form of cleaning wipes  22 , although the third cleaning element  18  may be provided in the form of cleaning blocks  20  in accordance with other exemplary embodiments. The third cleaning element  18  has an intermediate level of cleaning aggressiveness such that the third cleaning element  18  cleans more aggressively than the second cleaning element  14  but not as aggressively as the first cleaning element  12 . The indicia  28  on cover  74  identifies the third cleaning element  18  with a graphical symbol in the shape of a sink faucet  38 . In accordance with other exemplary embodiments, other graphical symbols may be used in order to identify the third cleaning element  18 . For instance, instead of a sink faucet  38  other porcelain or chrome objects may be used in order to identify the level of cleaning aggressiveness of the third cleaning element  18 .  
      Words may be used in addition, to or alternatively, to graphical symbols in identifying the cleaning properties of the cleaning elements  12 ,  14 , and  18 .  FIG. 4  shows one such exemplary embodiment in which embossments  30  are made onto the various cleaning blocks  20  and cleaning wipes  22  contained in kit  10 . The embossments  30  are located on various parts of the cleaning blocks  20  and wipes  22  and may be provided in more than one in number. The embossments  30  identify the cleaning aggressiveness of the cleaning elements  12 ,  14 , and  18  according to their relative cleaning aggressiveness to one another. The first cleaning element  12  is identified as being the most aggressive cleaning element while the second cleaning element  14  is identified as being the least aggressive cleaning element. The third cleaning element  28  is identified as being of an intermediate level of cleaning aggressiveness. The embossments  30  may be made in the cleaning blocks  20  or cleaning wipes  22  in any manner commonly known to one of ordinary skill in the art.  
       FIG. 5  shows another exemplary embodiment of kit  10  that again includes three cleaning elements  12 ,  14 , and  18  that each exhibit a different level of cleaning aggressiveness. Here, the cleaning elements  12 ,  14 , and  18  are provided only in the form of cleaning blocks  20 . Labels  32  are attached to the various cleaning blocks  20  in order to identify their particular level of cleaning aggressiveness. The labels  32  are provided with graphics in the form of bricks  34 , sink faucets  36 , and eyeglasses  38  that inform the user of the various levels of cleaning aggressiveness as previously discussed with respect to the kit  10  of  FIG. 4 . A single label  32  may be provided on each cleaning block  20 . Alternatively, multiple labels  32  may be placed onto one or more of the cleaning blocks  20 .  
       FIG. 6  shows another exemplary embodiment of kit  10  that again includes first, second, and third cleaning elements  12 ,  14 ,  18  that each have different levels of cleaning aggressiveness. The various levels of cleaning aggressiveness are identified in two ways in kit  10  of  FIG. 6 . First, labels  32  that include graphical symbols  34 ,  36 , and  38  are located on body  16  in locations corresponding to compartments  68 ,  70 ,  76 , and  78  into which the elements  12 ,  14 , and  18  are contained. Second, the shape of the cleaning elements  12 ,  14 , and  18  also identifies to the user the appropriate level of cleaning aggressiveness.  
      As shown in  FIG. 6 , the first cleaning element  12  is provided in the form of cleaning blocks  20  that are rectangular in shape and are located in a first compartment  68  identified by bricks  34  in order to indicate that the first cleaning element  12  has the highest level of cleaning aggressiveness. A user may thus identify the cleaning element with the highest level of cleaning aggressiveness through either the graphical symbol  34  and/or the rectangular shape of the first cleaning element  12 . The second cleaning element  14  has the lowest level of cleaning aggressiveness and is in the form of cleaning blocks  20  located in a second compartment  70  and a fourth compartment  78  of the kit  10 . The second and fourth compartments  70  and  78  are identified by graphical symbols in the form of eyeglasses  38  in order to inform the user that the cleaning blocks  20  located therein have the lowest level of cleaning aggressiveness. Additionally, the second cleaning element  14  is disk shaped. The shape and/or the graphical symbol  38  may be employed by the user in order to ascertain the cleaning aggressiveness of the second cleaning element  14 . The third cleaning element  18  is located in a third compartment  76  of kit  10  identified by a graphical symbol in the shape of a sink faucet  36 . The third cleaning element  18  is in the form of square shaped cleaning blocks  20  that along with the graphical symbol  36  may indicate to the user that the third cleaning element  18  has an intermediate level of cleaning aggressiveness. As such, one or more types of identifying indicia  28  or features may be employed in accordance with various exemplary embodiments of the present invention in order to allow the user to identify various properties of cleaning elements  12 ,  14 , or  18  provided in kit  10 .  
      It is therefore the case that to distinguish between different properties of the first and second cleaning elements  12 ,  14  indicia  28  such as embossments  30  or labels  32  may be provided. Additionally or alternatively, the coloring, size, shape, thickness, or other visible or tactile distinguishing features of the first and second cleaning elements  12 ,  14  may be used in order to allow a user to distinguish between different cleaning properties.  
      The kit  10  may also be provided with non-foam cleaning products in order to expand the spectrum of cleaning conditions that can be dealt with by kit  10 . As shown in  FIG. 7 , a variety of cleaning products may be employed. First, foam based cleaning products such as the first and second cleaning elements  12 ,  14  are provided in both a cleaning block  20  and cleaning wipe  22  form. Again, the first cleaning element  12  cleans with a higher level of cleaning aggressiveness than the second cleaning element  14 . Labels  32  that employ graphical symbols  34  and  38  allow for one to identify the particular level of cleaning aggressiveness of both the first and second cleaning elements  12 ,  14 .  
      The cleaning elements  12 ,  14  may be configured so as to clean relatively hard surfaces, while other items such as a cleaning fabric  56  made of microfibers, a sponge  58 , and a composite web  60  are provided in order to allow for the cleaning of softer surfaces. Additionally, cleaning products that clean more aggressively than the first and second cleaning elements  12 ,  14  may be included in kit  10  and may be, for instance, steel wool  44  or an abrasive pad  42 . One such example of the construction of abrasive pad  42  may be as that disclosed in U.S. patent application Ser. No. 10/733,162 filed on Dec. 11, 2003 entitled “Disposable Scrubbing Product.” The entire contents of United States Patent application Ser. No. 10/733,162 are incorporated by reference herein in their entirety for all purposes.  
      The kit  10  may also include a gripping element  40  that may be used with the cleaning blocks  20 , cleaning wipes  22 , or other cleaning products in kit  10 . For instance, one of the cleaning wipes  22  may be connected to an adhesive  82  located on gripping element  40  in order to attach the cleaning wipe  22  thereon. A handle  80  is provided on gripping element  40  and may be grasped by a user in order to move the cleaning wipe  22  across a surface to be cleaned. In this manner, the gripping element  40  will allow for a uniform application of force on cleaning wipe  22  in order to allow for a more even wearing of cleaning wipe  22  and movement of the surface being cleaned across cleaning wipe  22 . Additionally, handle  80  allows for the user to avoid contact with the cleaning wipe  22  and the surface being cleaned.  
      Kit  10  may also include a spray bottle  46  filled with a cleaning agent, such as water, that may be applied to either the surface being cleaned or one or more cleaning articles in kit  10  in order to assist in cleaning. Another spray bottle  48  may be provided and may contain lotus-effect additives that may be sprayed onto a surface in order to protect the surface from contamination. A pair of plastic gloves  50  may also be included in kit  10  along with a plastic bag  52  that can be used in order to store used cleaning products or other items prior to their disposal.  
      One type of lotus-effect agent that may be employed is the Lotus Effect aerosol spray manufactured by BASF Corporation whose North American headquarters is located at 3000 Continental Drive-North, Mount Olive, N.J. 07828-1234. The lotus-effect agent creates a nanostructured surface upon application that is capable of repelling fluids, dirt, etc. A related lotus-effect agent that may be employed is marketed under the name LOTUS-EFFECT® and manufactured by Degussa Corporation located at 70 Mansell Court, Suite 100, Roswell, Ga. 30076. Another type of lotus-effect agent that may be employed is manufactured by Sto AG of Germany under the name LOTUSAN®™ that may be used in order to enhance paints and other surfaces. Sto AG of Germany has a United States subsidiary called Sto Corp. located at 6175 Riverside Drive, S.W., Building 1400 Suite 120, Atlanta, Ga. 30331.  
      Additionally or alternatively, a motorized gripping element  54  may be included in kit  10  in order to provide for vibration or oscillatory motion to an attached cleaning block  20  or cleaning wipe  22  to further assist in cleaning. The use of a motorized gripping element  54  may prove useful in cleaning hard to remove unwanted elements or when cleaning of a large surface is desired. Indicia  28  located on kit  10  may provide instructions to the user as to the use of the different cleaning elements  12 ,  14  and products in kit  10 .  
      The kit  10  may also be configured as shown in  FIG. 9  in which the first and second cleaning elements  12 ,  14  are contained inside of a rigid body  16 . A lid  86  covers the interior of body  16  and may be water-tight in order to prevent fluid from either entering or escaping. A hinge  88  is provided in order to allow lid  86  to pivot with respect to body  16  and hence provided access to the first and second cleaning elements  12 ,  14 . The lid  86  may be closed after removal of the cleaning elements  12 ,  14  and may be maintained in the closed position by any suitable method commonly known in the art. For instance, hook and loop type fasteners, adhesives, or a snap-fit connection may be used in order to maintain lid  86  in the closed position.  
      The body  16  in  FIG. 9  is also provided with an adhesive  90  on one end to retain the first or second cleaning element  12 ,  14  thereon. The user may then use body  16  as a handle in applying the cleaning element  12 ,  14  to a surface being cleaned. Such a configuration may provide for a more uniform pressure of cleaning element  12 ,  14  on the surface being cleaned and may also allow for the user to avoid contact with his or her hand on either the cleaning element  12 ,  14  or the surface being cleaned. Although shown as employing an adhesive  90 , it is to be understood that in accordance with other exemplary embodiments of the present invention other mechanisms of attaching the first and second cleaning elements  12 ,  14  to body  16  may be employed. For instance, hook and loop type fasteners, mechanical fasteners, or gecko-type fasteners may be used in order to effect this attachment. Kit  10  may be configured so as to both store and hold cleaning elements  12 ,  14  in a manner as disclosed in United States patent application titled “Cleaning Product for Storing and Attaching Cleaning Blocks or Wipes,” filed the same day as the present application and having inventors Fung-Jou Chen, Jeffrey Dean Lindsay, and Herb Velazquez. This application is incorporated by reference herein in its entirety for all purposes.  
      The body  16  of kit  10  may be made in any shape or size. For instance, the body  16  may be square shaped, round, cylindrical, or triangular. The body  16  need not be configured to completely surround the cleaning elements  12 ,  14  but may be configured so as to only hold the cleaning elements  12 ,  14 .  FIG. 10  shows one exemplary embodiment of the present invention in which body  16  is circular in shape. The cleaning elements  12 ,  14  are located in the interior of body  16  and may be accessed through a lid  86  located on the top of body  16 . The cleaning elements  12 ,  14  are molded three dimensional foam pads produced by the molding techniques disclosed in U.S. Pat. No. 6,617,490, the entire contents of which are incorporated by reference herein in their entirety for all purposes. Again, the cleaning elements  12 ,  14  are provided with indicia  28  thereon in order to indicate various cleaning properties. The molded three dimensional foam pad  66  may include melamine foam  24  and may be molded by thermal techniques such as those disclosed in U.S. Pat. No. 6,608,118, the entire contents of which are incorporated by reference herein in their entirety for all purposes.  
      The body  16  may additionally or alternatively include hollow elements that are configured in order to receive fingers or hands of the user should the kit  10  be configured as a mitten or other such device. Alternatively, the hollow elements defined in body  16  may be configured for receiving cleaning agents, handles, or stiff inserts if so desired.  
      Surface treatment agents may be incorporated into the first and second cleaning elements  12 ,  14  or other cleaning products associated with kit  10  in order to help make the surface easier to clean following use. Typical surface treatment agents that may be incorporated include fluoropolymers, water, or dirt repellent agents.  
      The first and second cleaning elements  12 ,  14  may be configured as a sponge substitute as described in U.S. application Ser. No. 10/036,736 filed on Dec. 21, 2001 which published as United States Patent Application Publication No. U.S. 2003/0135181 on Jul. 17, 2003. In this instance, the first and second cleaning elements  12 ,  14  may be cleaning wipes  22  that are incorporated into the sponge substitute. Here, the cleaning wipe  22  may be attached to the sponge substitute such that a foam layer  24  of the cleaning wipe  22  is facing away from the sponge substitute.  
      The cleaning wipe  22  may include a foam layer  24  such as a melamine-based foam that is attached to a web  26 . The foam  24  generally has an open celled structure that when moved over a surface is capable of effectively cleaning dirt and other unwanted elements from the surface. The web  26  may act as a reinforcing layer in order to strengthen or hold the melamine-based foam  24 , and/or may provide for water retaining properties which help to keep the melamine-based foam  24  wet should wet wiping with the cleaning wipe  22  be conducted. Alternatively or in addition, the web  26  may be adapted for scrubbing, and may comprise abrasive material (not shown) such as coarse polymeric filaments, meltblown shot, abrasive particles, hook-like protrusions such as those used in hook and loop mechanical fastening systems, and the like.  
      The web  26  may comprise a structure of fibers or filaments that are retained to one another by fiber-fiber bonding (e.g., hydrogen bonding), fiber entanglement, adhesive bonding, interfiber or interfilament friction, and the like. In accordance with one exemplary embodiment of the present invention, the web  26  can be a hydrophilic cellulosic fibrous web such as a wet-laid or air-laid paper web comprising predominately natural cellulosic fibers such as wood-based papermaking fibers, cotton, kenaf, bagasse, milkweed, etc., and mixtures thereof. In other embodiments, the web  26  may be a paper web comprising synthetic cellulosic fibers such as rayon. Alternatively, the web  26  can be a nonwoven fibrous web which has a structure of individual fibers or threads which are interlaid, but not in an identifiable manner as in a knitted fabric. The fibers in a nonwoven web are generally understood to be manmade fibers such as non-cellulosic polymeric fibers, typically based on synthetic polymers such as polyolefins, including webs made from meltspun processes (meltblowing, spinbonding, etc.). Alternatively, the web  26  need not include a fiber structure but may be, for instance, a film or foam in other exemplary embodiments.  
      As shown in  FIG. 2 , the cleaning wipe  22  includes a single layer of melamine-based foam  24  or another cleaning foam  24  attached to a single reinforcing layer shown as web  26 . The cleaning wipe  22  may be configured as that described in U.S. patent application Ser. No. 10/744,238 filed on Dec. 22, 2003 entitled “Multi Purpose Cleaning Product Including A Foam And A Web,” the contents of which are incorporated by reference herein in their entirety for all purposes. Alternative exemplary embodiments exist in which the foam  24  and/or web  26  are made of any number of layers. The foam  24  may be laminated to the web  26  in order to effect attachment of these two components of the cleaning wipe  22 . The term “laminated” as used herein means the two components are united to one another by an adhesive optionally with the use of heat and/or pressure. However, in accordance with other exemplary embodiments of the present invention, the foam  24  may be attached to the web  26  in a variety of manners. For instance, these two components may be attached to one another by ultrasonic bonding, hot melts, pressure sensitive adhesives, thermal bonds, or by mechanical attachments such as sewing, mechanical fasteners, or a hook and loop type fastener in accordance with other exemplary embodiments. Hydroentangling can also be used to join a fibrous web to the foam. In one embodiment, a hotmelt is used comprising at least one polymer with a substantial number of carboxyl groups or salts thereof to provide good bonding with a fibrous cellulosic web when wet. For example, a hot melt suitable for the present invention may comprise ethylene vinyl acetate (EVA), and may have at least about 20 weight percent (wt %) EVA or at least about 50 wt % EVA. Hotmelts may be applied by meltblown nozzles, glue guns, other known adhesive nozzles, and the like. After hotmelt is applied to one or both surfaces to be joined, the two surfaces can immediately be brought into contact and optionally pressed together with a compressive force, such as a force of about 0.03 psi or greater, or about 0.5 psi or greater, or about 5 psi or greater. The compressive force may be provided by a nip between two rollers, pressure between two flat plates, or other methods known in the art.  
      By way of example, a variety of melamine foam materials is marketed under the trademark BASOTECT® by BASF (Ludwigshafen, Germany). For example, BASOTECT® 2011, with a density of about 0.01 g/cm3, may be used. Blocks of melamine-based foam for cleaning are also marketed by Procter &amp; Gamble (Cincinnati, Ohio) under the MR. CLEAN® brand name. Similar materials are marketed under the CLEENPRO™ name by LEC, Inc. of Tokyo, Japan. Melamine-based foam is also marketed for acoustic and thermal insulation by many companies such as American Micro Industries (Chambersburg, Pa.).  
      Principles for production of melamine-based foam are disclosed by H. Mahnke et al. in EP-B 071 671, published Dec. 17, 1979. U.S. Pat. No. 6,503,615, issued Jan. 7, 2003 to Horii et al., discloses a wiping cleaner made from an open-celled foam such as a melamine-based foam, the wiping cleaner having a density of 5 to 50 kg/m 3  in accordance with JIS K 6401, a tensile strength of 0.6 to 1.6 kg/cm 2  in accordance with JIS K 6301, an elongation at break of 8 to 20% in accordance with JIS K 6301 and a cell number of 80 to 300 cells/25 mm as measured in accordance with JIS K 6402. Melamine-based foams having such mechanical properties can be used within the scope of the present invention.  
      Related foams are disclosed in U.S. Pat. No. 3,093,600 with agents present to improve the elasticity and tear strength of the foam. Melamine-based foams are also disclosed in British patent GB 1443024, issued Jul. 21, 1976.  
      Brittle foams can be made, as described in German publication DE-AS 12 97 331, from phenolic components, urea-based components, or melamine-based components, in aqueous solution with a blowing agent and a hardening catalyst.  
      Some components of the kit  10  may also include polyurethane foams or other known polymeric foams.  
      In some embodiments, a foam layer (e.g., a melamine foam or other polymeric foam) may be laminated to another melamine foam or other foam layer, to a sponge or sponge substitute, to a reinforcing web, or to other abrasive material.  
      The melamine foam or other foam may comprise organic or inorganic filler particles, such as from 5% to 30% by weight of a particulate material. Exemplary particulate materials include clays such as kaolin, talc, calcium oxide, calcium carbonate, silica, alumina, zeolites, carbides, quartz, and the like. The fillers can also be fibrous materials, such as wood fibers, papermaking fibers, coconut fibers, milkweed fibers, flax, kenaf, sisal, bagasse, and the like. The particles of fibers added to the foam may be heterogeneously distributed or may be distributed homogeneously.  
      Properties of the foams that may be altered to modify cleaning performance include cell size (pore size), chemical composition of the foam material (e.g., the presence of copolymers), the addition of fillers, density of the foam, post-treatments such as compression and thermal treatment, and so forth.  
      The cleaning wipe  22  may be configured such that the foam  24  is a relatively thin layer. For instance, the foam  24  may be on the order of from about 2 millimeters to about 8 millimeters in thickness. Other exemplary embodiments of the present invention exists in which the foam  24  may have a varying thickness, for instance being 1 millimeter thick at certain portions of the web  26 , and being 10 millimeters thick at other portions of the web  26 . As such, the present invention includes various embodiments in which the foam  24  has a uniform thickness throughout, and also a varying thickness throughout. Additionally, the present invention includes exemplary embodiments where the foam  24  is less than 20 millimeters in thickness. Still further exemplary embodiments exist in which the foam  24  is less than 15 millimeters in thickness, less than 10 millimeters in thickness, and less than 5 millimeters in thickness. Additional exemplary embodiments of the present invention exist in which the foam  24  is from about 1 millimeter to about 15 millimeters in thickness.  
      The foam  24  employed may be free from plastic deformation. In another aspect, the melamine-based foam  24  used in the present application may be capable of regaining a part of or all of its original shape and size after being subjected to some degree of deformation.  
      The lamination of the foam  24  to the web  26  may be done with the aid of hot melt adhesives in accordance with certain exemplary embodiments of the present invention. Here, the foam  24  is adhered to the web  26  through heat and pressure which aid in melting the hot melt adhesive and forming a bond between the foam  24  and the web  26 .  
      The web  26  used may have a flexibility of any degree. For instance, the web  26  may be a fairly flexible member or may be relatively rigid. The web  26  used may have the same flexibility as the foam  24  to which it is attached, or may have a flexibility that is greater than or less than the foam  24  attached thereto.  
      The web  26  may be made of a soft material so that it is capable of buffing or polishing a surface. Alternatively, the web  26  may be made of a coarse material such that the web  26  is more coarse or abrasive than the foam  24 . In this instance, the cleaning wipe  22  may be used so that the web  26  is capable of scrubbing coarse surfaces which would otherwise damage the foam  24 . In fact, the web  26  may be more capable of removing dried food substances or ground in dirt and some other unwanted elements from a surface to be cleaned in other exemplary embodiments. The web  26  may comprise abrasive grit or meltblown shot joined to a fibrous substrate, or abrasive fibers such as the multifilamentary aggregates disclosed in commonly owned U.S. patent Ser. No. 10/321,831, “Meltblown Scrubbing Product,” filed Dec. 17, 2002 by Chen et al., herein incorporated by reference. A portion of the cleaning surface of the foam  24  itself may also be joined to materials such as meltblown shot or multifilamentary aggregates, in order to enhance cleaning or to strengthen the foam  24  and prevent the foam  24  from being damaged during cleaning.  
      In certain exemplary embodiments of the present invention, the web  26  may be configured so that it can help provide water to the foam  24  during cleaning, should the cleaning wipe  22  be configured as a wet wipe and be used in a wet state during cleaning. The web  26  in addition to, or alternatively to, helping provide water to the foam  24  may also be used in order to wipe away particulates that are created by the foam  24 . These particulates are essentially tiny portions of the foam  24  that may be broken away during movement of the foam  24  across the surface that is being cleaned. Additionally, the particulates that are removed by the web  26  may also be particles of dirt or other unwanted objects that are detached from the surface by the foam  24 .  
      Web  26  may be a wet-resilient tissue. A wet-resilient tissue is one that still holds together for at least some amount of time when wetted. More specifically, a wet resilient web  26  can maintain a relatively high degree of bulk when wet after one or more compression cycles. For example, drawing upon the test methods for wet resilient webs described in U.S. Pat. No. 6,436,234, “Wet-Resilient Webs and Disposable Articles Made Therewith,” issued Aug. 20, 2002 to Chen et al. and herein incorporated by reference, a wet resilient paper web suitable for the present invention can have a Wet Compressed Bulk of about 4 cc/g or greater, more specifically about 6 cc/g or greater; alternatively can have a Springback of about 0.6 or greater, more specifically about 0.7 or greater; and alternatively can have a Load Energy Ration (LER) of about 0.6 or greater, more specifically about 0.7 or greater. Any combination of the above-given values for Wet Compressed Bulk, Springback, and LER can also be provided in the fibrous web of the present invention, including selections for one, two, or all three of the parameters.  
      The web  26  may optionally include an abrasive material disposed therein, such as a coarse meltblown shot, an abrasive grit such as mineral particles, or a meltblown multifilamentary aggregate. Once the cleaning wipe  22  has been worn down to some degree, an abrasive layer may be exposed in order to assist in cleaning the surface to be cleaned.  
      The cleaning wipe  22  may also be made from alternating layers of foam  24  and web  26  joined together. The alternating layers of foam  24  and web  26  are configured into a stack. In such a configuration, use of the cleaning wipe  22  will eventually result in one of the layers of the foam  24  and/or the web  26  to be worn away. In such an instance, a fresh layer of foam  24  and/or web  26  will be exposed upon the wearing away of the preceding foam  24  and/or web  26 . Alternately or additionally, the stack may be configured such that the user may remove layers of foam  24  and web  26 . In this instance, the user can remove a worn or contaminated layer of foam  24  and/or web  26  in order to ensure the cleaning wipe  22  has a fresh layer of foam  24  and/or web  26  for a particular cleaning application.  
       FIG. 8  shows a perspective view of an exemplary embodiment of kit  10 . Foam  24  of first cleaning element  12  is provided with a visual indicating portion  64  which is a portion of foam  24  that is of a different color than the rest of foam  24 . For instance, the visual indicating portion  64  may be red, while the rest of foam  24  is white. Once a user uses cleaning wipe  22  to such a degree that a portion of foam  24  is worn away, the visual indicating portion  64  provides a visual indication that the cleaning wipe  22  is worn. In this instance, the visual indicating portion  64  may indicate to the user that the cleaning wipe  22  has reached the end of its useful life and may be discarded. Alternatively, the visual indicating portion  64  may indicate to the user that the cleaning wipe  22  has been used to such a degree that only a limited amount of life remains in the cleaning wipe  22  before it must be discarded.  
      Although shown as extending across the entire web  26  of the cleaning wipe  22 , the visual indicating portion  64  may be configured differently in accordance with other exemplary embodiments of the present invention. For instance, the visual indicating portion  64  may be various smaller areas that are dispersed through the foam  24  instead of being a layer. The visual indicating portions  64  may be located in the central region of the foam  24 , or may be located on the outer edges of the foam  24 . In accordance with one exemplary embodiment of the present invention, the cleaning wipe  22  is provided with foam  24  that is eight millimeters in thickness, and is provided with a visual indicating portion  64  that is an oval of blue pigmented foam  24  that is located six millimeters away from the outer surface form  24 . In accordance with other exemplary embodiments, the visual indicating portion  64  is incorporated into a cleaning block  20 .  
      In a related embodiment (not shown), a colored layer of material other than foam  24  is disposed between the foam  24  and the web  26  to provide a visual indication of wear. The colored layer may be an apertured or unapertured film, a nonwoven web, a paper layer, and the like, or may comprise colored adhesive that joins the web  26  to the foam  24 . Alternatively, the colored layer may be a part of the web  26 , such as a layer comprising dyed fibers, or the entire web  26  itself may be colored.  
      In accordance with one exemplary embodiment of the present invention, the foam  24  and the web  26  are attached to one another due to the fact that the foam  24  and the web  26  are integrally formed with one another. The entire foam  24  or a layer or portion of the foam  24  may be integrally formed with a plurality of fibers. The plurality of fibers may be paper making fibers, mineral fibers, and/or polymeric fibers. The foam  24  may be integrally formed with the plurality of fibers which form the web  26  of the cleaning wipe by a method as set forth in U.S. Pat. No. 6,603,054 which is owned by the assignee of the present invention and is incorporated herein for all purposes in its entirety. In one such instance, the web  26  may be dispersed throughout the foam  24  and therefore integrally connected therewith. Here, about 10% or more of the weight of the cleaning wipe  22  may be from the plurality of fibers which are formed by blending loose fibers into a resin coupled with a blowing agent or other foam-producing means prior to curing the resin in order to form the foam.  
      In accordance with other exemplary embodiments of the present invention, the web  26  may be a scrim layer, a mesh, and/or an elastomeric network that is embedded in foam resin prior to curing in order to form a cleaning wipe  22  that has a foam  24  integrally formed with the web  26 . Various materials may be embedded into the foam resin which is used to form the foam  24 . For example, tow, woven fabrics, tissue layers, coform materials, nonwoven webs, milkweed fibers and natural or synthetic fibers may be used in order to form the web  26  of the present invention.  
      As stated, the web  26  of the cleaning wipe  22  may be used in order to act as a reinforcing layer to the foam  24 , and/or may be configured in order to help clean the surface that is being cleaned by the cleaning wipe  22 . The web  26  may in other exemplary embodiments of the present invention be provided with an additional functionality.  FIG. 7  shows an exemplary embodiment of the cleaning wipe  22  in which the web  26  is provided with a plurality of functional members  62  disposed therein. The functional members  62  may be cleaning agents in order to help aid the cleaning wipe  22  in cleaning a surface. For instance, the functional members  62  may be enzymes such as papain enzymes, or may be bleaching agents such as peroxide. Additionally, the functional members  62  may be abrasive compounds or may be detergents in accordance with other exemplary embodiments. The functional members  62  may also be configured such that they release an odor which may subsequently be transferred to the surface which is to be cleaned. Further, the functional members  62  may be skin wellness agents. The functional members  62  may be encapsulated in a polymeric or lipid shell capable of breaking during use in response to mechanical compression and shear, whereby ingredients in the functional members are released. Alternatively, the functional members  62  may be encased or encapsulated in a water soluble material such that solvation of the material when wet permits release of the functional components. The functional members  62  may be antimicrobial agents and/or natural plant based extracts or compounds in accordance with other exemplary embodiments.  
      The web  26  may also have an added functionality such that the web  26  and/or the functional members  62  act as a biosensor. In this instance, should the web  26  and/or the functional members  62  detect the presence of harmful bacteria, lead, mercury, or other agents, the web  26  and/or functional member  62  may change color in order to indicate the presence of such agents. Alternatively or additionally, the web  26  and/or functional members  62  may be heat generating agents, for instance the cleaning wipe  22  may employ thermal pad technology. In one instance, oxidation of iron may result in a heating of the web  26 . Alternatively, water activated technology may be used, such as calcium chloride pellets, in order to heat the web  26  such that the cleaning wipe  22  is also heated. Heating of the cleaning wipe  22  may be advantageous in that more effective cleaning of grease or other elements may be realized when employing the cleaning wipe  22 .  
      The functional members  62  may be odor control agents such as cyclodextrins, zeolites, clays, and/or activated carbon particles or fibers. The cleaning wipe  22  may also be configured to have a chemical agent in order to combat odor or to regulate the release of odor eliminating or odor providing compounds. Chemical agents which may be included are, for instance, chlorine dioxide, antimicrobial gases or liquids, time release antimicrobial compounds, silver ions embedded in the foam  24 , zeolites, and/or chitosan-related compounds. The chemical agents may be either impregnated or embedded in the first or second cleaning elements  12 ,  14 .  
      The web  26  and/or functional members  62  may also be foaming agents. In these instances, the foaming agents may be activated when contacted by water in order to create a foam which may additionally be used in helping the cleaning wipe  22  clean a surface of dirt or other unwanted elements. Also, the functional members  62  and/or the web  26  may be made of a material or configured in order to help keep the foam  24  wet during use of the cleaning wipe  22 .  
      Although described as being incorporated into the web  26 , the functional members  62  may be incorporated into the foam of the cleaning wipe  22  in accordance with other various embodiments. Further, the functional members  62  may be on the outer surface, edges, or even separate from the web  26  and/or foam  24 .  
      The cleaning wipe  22  may also find utility as a dish cleaning tool. In this instance, it may be beneficial to provide the web  26  with functional members  62  that may be, for instance, detergents, heat generating agents, biosensors, and/or skin wellness agents.  
      An alternative use for the cleaning wipe  22  in accordance with the present invention is in conjunction with disposable gloves in which the cleaning wipe  22  may be configured onto the fingers, palm region or elsewhere on the glove. In this instance, the disposable glove may further protect the user&#39;s hands so that the user&#39;s hands are more isolated from the surface that is being cleaned or from detergents or other agents which may be employed.  
      The cleaning wipe  22  may be employed by a user in order to clean the face or other portions of the user&#39;s body. The cleaning wipe  22  may also be used as a make-up removal article. In this instance, the foam  24  may be provided with extra pore space in order to catch and hold make-up during wiping by the user across the surface of the skin. In such an instance, the foam  24  of the cleaning wipe  22  may provide a soft yet abrasive cleaning of the skin of the user. Such cleaning may be either wet or dry. Extra pore space may be provided by needling, drilling, laser drilling, punching, aperturing, or other means to provide wells or other depressions suitable for retaining removed material. In one embodiment, a textured three-dimensional molded foam layer with suitable topography can be used. Suitable topography can include molded wipes with depressions less than about 4 mm in diameter and with a peak-to-valley height of about 0.2 mm or greater. In a related embodiment, the elevated portions of a three-dimensional surface are substantially flat, with depressed regions occupying about 30% or less of the surface area of the foam layer.  
      The cleaning wipe  22  may also be configured as a patch, wrap, or bandage which may be applied against bunions, warts, or hardened skin of the user. In such an application, the foam  24  of the cleaning wipe  22  may be used to abrade the skin of the user and also deliver a health agent to the skin. Such a health agent may be provided by a functional member  22  and/or the web  26 . The health agent may be a wart treatment compound, a skin softening agent, and/or an antimicrobial agent.  
      The cleaning wipe  22  may be used as a toilet bowl cleaner. In one exemplary embodiment of the present invention, the foam  24  may be thin strips that are joined to a dispersible web  26 . The thin strips are connected to one another by a plurality of tabs spaced between a plurality of perforations. Such a configuration of the cleaning wipe  22  provides for a flushable product. In such an instance, the web  26  may disintegrate or break up after being contacted with either a certain amount of water, or water over a certain amount of time. The cleaning wipe  22  may break up when disposed of in a toilet bowl, and the foam strips may be small enough so that both the web  26  and the foam strips are capable of being handled by a septic tank system.  
      Additional uses of the cleaning wipe  22  may be found by employing the cleaning wipe  22  as a furniture wipe for buffing and polishing wood furniture. The cleaning wipe  22  may also be configured as a buffing pad for automotive bodywork. The cleaning wipe  22  may also be configured as a waxing pad for use in maintaining an automotive body. In this instance, the foam  24  may have a wax additive impregnated therein in order to effect waxing of the automotive surface. Alternatively, a wax substrate may be attached to the foam  24  and/or the web  26  in other exemplary embodiments.  
      The cleaning wipe  22  may also be used in order to prepare a surface that is about to be painted. Still further, the cleaning wipe  22  may be used as a shoe shining wipe. The cleaning wipe  22  may also be used as a bathroom cleaning product. In this instance, the cleaning wipe  22  may be used in order to clean stiff grout from tile and porcelain found in bathrooms.  
      The cleaning wipe  22  may be used in order to clean a variety of objects. For instance, knives, golf balls, bowling balls, and various household objects may be cleaned by the cleaning wipe  22  of the present invention.  
      The cleaning wipe  22  may also be employed as an article useful for removing stains from the teeth of a user, or to brighten one&#39;s teeth. In this instance, the cleaning wipe  22  may be configured as a Q-tip like product or placed onto “finger gloves” which are small enough such that the user may wipe his or her teeth in order to remove calculus or stains therefrom. Lamination of a suitably thin section of a cleaning foam on a portion of such finger gloves can provide effective cleaning action, such that calculus and other deposits can be readily removed from dental surfaces.  
      The cleaning wipe  22  may further be used in dental and periodontal care products, for instance the cleaning wipe  22  may be used with dental floss, dental tape strips, and/or toothbrushes. In various exemplary embodiments of the present invention, the web  26  and/or the functional members  62  may be used in order to provide flavoring, cleaning compounds, polishing agents, antimicrobial compounds, mouthwash, oral care compounds, antiviral compounds, and healing agents when the cleaning wipe  22  is used for dental and periodontal care. As stated, the functional members  62  may be incorporated into either the web  26  and/or the foam  24  of the cleaning wipe  22 .  
      It is to be understood that the cleaning wipe  22  of the present invention is not limited to a particular shape. As such, the cleaning wipe  22  may be square, round, or cylindrical in accordance with various exemplary embodiments. Further, the cleaning wipe  22  may have hollow elements that are configured in order to receive fingers, hands, cleaning agents, handles, or inserts in accordance with various exemplary embodiments of the present invention.  
      One or more portions of the cleaning wipe  22 , for instance the foam  24  and/or the web  26 , may be charged in order to more effectively remove and retain bacteria. In accordance with one exemplary embodiment, the foam  24  and/or the web  26  have an electrostatic charge either chemically, or by the addition of electrets in order to help attract and retain bacteria by electrostatic means. A chemical electrostatic charge may be provided, for instance, by chitosan, polyvinylamines, primary, secondary, tertiary, or quaternary amines, cationic polymers, and polyelectrolytes.  
      Any known method may be used for adding charged compounds to the surfaces of the struts in the foam  24  should charged surfaces be desired in the cleaning foam  24 . For example, chemical additives may be attached to the surface of the polymeric struts by impregnating the foam  24  with a solution containing charged species that can be cross linked to each other or to the foam  24 . Combinations of chemical, electrical, and other physical treatments may be used, such as plasma treatment, corona discharge treatment, electret generation, and the like. By way of example, chemical post-treatments of hydrophobic surface are disclosed in U.S. Pat. No. 6,537,614, issued Mar. 25, 2003 to N. Wei et al., and it is believed that such treatments can be adapted for the cleaning foams  24  of the present application. The Wei et al. patent discloses a hydrophobic polymer fiber having a cationically charged coating thereon, in which the coating includes a functionalized cationic polymer, such as an epichlorohydrin-functionalized polyamine or an epichlorohydrin-functionalized polyamido-amine, which has been crosslinked by heat. Such materials can be made by treating the fibrous filter with an aqueous solution of a functionalized cationic polymer cross linkable by heat under conditions sufficient to substantially coat the fibers with the functionalized cationic polymer, wherein the solution includes the functionalized cationic polymer, a poly(vinyl alcohol), a polar solvent for the poly(vinyl alcohol), and water; and treating the resulting coated fibrous filter with heat at a temperature and for a time sufficient to crosslink the functionalized cationic polymer present on the hydrophobic polymer fibers. As adapted for the present application, a solution of a functionalized cationic polymer cross linkable by heat can be used to impregnate or saturate all or a portion of a cleaning foam  24  layer to coat the struts of the foam  24 . The resulting coated foam  24  can be treated with heat at a temperature and for a time sufficient to crosslink the functionalized cationic polymer present on the surfaces of the foam  24 .  
      Cationic compounds that may be incorporated into cleaning wipe  22  effective for attracting bacteria are disclosed in commonly owned copending U.S. application Ser. No. 10/330,458, “Skin Cleansing Products Incorporating Cationic Compounds,” filed Dec. 26, 2002, and Ser. No. 10/330,460, “Wound Management Products Incorporating Cationic Compounds,” also filed Dec. 26, 2002, both of which are herein incorporated by reference herein in their entirety for all purposes. As disclosed therein, by providing a cleansing substrate comprising a sufficient amount of cationic compounds having an effective charge density of from about 0.1 microequivalents/g to about 8000 microequivalents/g or more, the product can be electrically altered such that it has an effective cationic charge density of more than about 2000 microequivalents/100 g and numerous contaminants can be electrostatically dislodged from the surface (e.g., from skin or other substrates) and captured and carried away. Cationic compounds such as octadecyldimethyltrimethoxylsilpropy-lammonium chloride can be impregnated into the product, in either the foam  24  or web  26 .  
      In general, cationic charge for retaining microbes and other contaminants can be provided in any of the cleaning foam  24 , a layer or region within the cleaning foam  24 , within the web  26  or a portion thereof, or within a wetting solution that can be added to the web  26  prior to being sold commercially (i.e., in a premoistened web) or prior to or during use. Charged components can also be present in an adhesive used to join the web  26  to the cleaning foam  24 .  
      In one embodiment, the cleaning foam  24  or the web  26  comprises negative charges (e.g., anionic groups), which interact with cationic elements in a cleaning solution or wetting solution that retain negatively charged contaminants and microbes, and also are electrostatically attracted to the cleaning foam  24  or web  26 , such that negatively charged microbes and contaminants are effectively retained.  
      The cleaning wipe  22  may also be configured in some embodiments such that the “melamine-based foam” is a non-melamine foam that contains melamine powder.  
      Examples of various cleaning elements  12 ,  14  that may be employed in the kit  10  of the present invention may be found in U.S. patent application Ser. No. 10/744,238 filed on Dec. 22, 2003 entitled “Multi Purpose Cleaning Product Including A Foam And A Web” the contents of which are incorporated by reference herein in their entirety for all purposes.  
      The cleaning elements  12 ,  14  need not always include a melamine-based foam material, but may be made out of other foam material such as a micro porous open-celled foam. Various types of foam material that may be incorporated into the first and second cleaning elements  12 ,  14  may be found in U.S. patent application Ser. No. 10/744,238 filed on Dec. 22, 2003 entitled “Multi Purpose Cleaning Product Including A Foam and A Web.” U.S. patent application Ser. No. 10/744,238 is incorporated by reference herein in its entirety for all purposes.  
      The first and second cleaning elements  12 ,  14  may be incorporated into a tissue-based sponge substitute material as set forth in U.S. patent application Ser. No. 10/036,736 filed on Dec. 21, 2001 entitled “Sponge-Like Pad Comprising Paper Layers And Method Of Manufacture.” The entire contents of U.S. patent application Ser. No. 10/036,736 are incorporated by reference herein in their entirety for all purposes. Alternatively, a separate sponge-like pad as set forth in U.S. patent application Ser. No. 10/036,736 may be incorporated into kit  10  in addition to the cleaning elements  12 ,  14 . Further, in accordance with other exemplary embodiments of the present invention the first and second cleaning elements  12 ,  13  may be incorporated into a scrubby tissue laminate as set forth in U.S. patent application Ser. No. 10/321,277 filed Dec. 17, 2000 entitled “Disposable Scrubbing Product.” The entire contents of U.S. patent application Ser. No. 10/321,277 are incorporated by reference herein in their entirety for all purposes. Likewise, the first and second cleaning elements  12 ,  14  may be provided separate from an individual scrubby tissue laminate as set forth in U.S. patent application Ser. No. 10/321,277 in kit  10  in accordance with other exemplary embodiments.  
      It should be understood that the present invention includes various modifications that can be made to the embodiments of the kit  10  as described herein as come within the scope of the appended claims and their equivalents. Additionally, it is to be understood that all references, applications, and patents incorporated herein are incorporated by reference in their entirety for all purposes.