Patent Publication Number: US-7897233-B2

Title: Adhesive antiskid sheet with integrated graphics features

Description:
CROSS REFERENCE TO RELATED APPLICATION 
     This application claims the benefit of U.S. provisional patent application Ser. No. 60/807,835, filed Jul. 20, 2006 (the entire content of which is incorporated herein by reference). 
    
    
     TECHNICAL FIELD 
     The materials and techniques described herein relate generally to antiskid treatments. More particularly, the embodiments described herein relate to an adhesive antiskid sheet of the type commonly used with skateboards. 
     BACKGROUND 
     Antiskid materials, antiskid coatings, and adhesive antiskid sheets are commonly used in applications such as steps, ladders, manufacturing equipment, machinery, firearms, vehicles, exercise equipment, and sporting goods. Adhesive antiskid sheets are almost always used with skateboards. In this regard, skateboarding is a wonderful sport that has become more popular with America&#39;s youth than little league baseball, Pop Warner football, and other traditional sporting activities. A skateboard includes the following fundamental components: a deck; four wheels; and two trucks that attach the wheels to the deck and which serve as turning mechanisms for the skateboard. “Grip tape” is a form of adhesive antiskid sheet that is almost always applied to the top surface of the deck. The exposed surface of the grip tape is a gritty, sandpaper-like surface that provides friction and grip when the skateboarder stands on the deck. Historically, grip tape has been sold either in bulk rolls having a sheet width of approximately nine to twelve inches, in pre-cut rectangular sheets that contain enough area to cover the surface of one skateboard deck, or in smaller pre-cut patches (e.g., squares, rectangles, or circles). 
     A straightforward “grip tape job” entails applying a pre-cut deck sized sheet of grip tape onto the riding or upper surface of the skateboard deck. To accomplish this, the paper backing is removed from the entire sheet (which in most cases is approximately 9 inches wide and 36 inches long) to expose the adhesive layer. The adhesive side is then applied to the skateboard deck and the grip tape is pressed onto the deck to increase the effectiveness of the adhesive. Thereafter, the edges are trimmed around the perimeter of the deck such that virtually the entire riding surface of the deck is covered with grip tape. 
     Some skateboarders design creative grip tape art on their decks by painstakingly cutting pieces from large sheets of grip tape and arranging the individual pieces on their decks. For example, a skateboarder can create a checkerboard pattern on his or her deck by cutting small squares from a sheet of grip tape and placing them onto the deck in the appropriate pattern. Complicated and customized grip jobs can take many hours to complete, may require lots of trial and error, and may require more than one sheet of grip tape to complete the job. Accordingly, such individualized and one-off grip tape designs can be time consuming, expensive, and tedious. Due to the inherently short lifespan of a skateboard deck, most skateboarders would rather be spending time skateboarding than creating customized grip jobs that may only see the light of day for a month or two. 
     BRIEF SUMMARY 
     An adhesive antiskid sheet of material as described herein allows a user to quickly and easily apply graphic designs to the object upon which the adhesive antiskid sheet will be affixed, e.g., a skateboard deck. The adhesive antiskid sheet can be sold in a single sheet form having any number of individual antiskid pieces pre-assembled into a cohesive design. The configuration and lay-up of the adhesive antiskid sheet maintains the individual pieces in their desired locations relative to each other, even when the protective backing paper is removed to expose the adhesive side of the sheet. Thus, the user can apply the graphics-laden sheet to an object in a single step without having to handle, align, and apply the individual pieces. 
     The adhesive antiskid sheet of material described herein may contain a graphics layer having a graphic feature that is visible through a translucent or transparent piece of adhesive antiskid material. The graphic feature remains protected by the piece of antiskid material, and will be visible from the top side of the object to which it is affixed (e.g., from the top side of a skateboard deck). This graphic feature of the adhesive antiskid sheet of material can accommodate a vast number of designs, such as skateboard company logos, brand names, pictures, text, etc. 
     This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       A more complete understanding of the present invention may be derived by referring to the detailed description and claims when considered in conjunction with the following figures, wherein like reference numbers refer to similar elements throughout the figures. 
         FIG. 1  is a perspective view of a sheet of adhesive antiskid material; 
         FIG. 2  is a side view of the sheet of adhesive antiskid material shown in  FIG. 1 ; 
         FIG. 3  is a bottom view of a sheet of adhesive antiskid material at one point in a manufacturing process; 
         FIG. 3A  is a cross sectional view of the sheet of adhesive antiskid material as viewed from line A-A in  FIG. 3 ; 
         FIG. 4  is a bottom view of the sheet of adhesive antiskid material at another point in the manufacturing process; 
         FIG. 5  is a bottom view of the sheet of adhesive antiskid material at another point in the manufacturing process; 
         FIGS. 6-8  are top views of the sheet of adhesive antiskid material at various points in the manufacturing process; 
         FIG. 8A  is a cross sectional view of the sheet of adhesive antiskid material as viewed from line B-B in  FIG. 8 ; 
         FIG. 9  is a bottom view of the sheet of adhesive antiskid material upon completion of assembly; 
         FIG. 10  is a top view of a skateboard deck with the adhesive antiskid material installed; 
         FIG. 11  is a top view of another sheet of adhesive antiskid material configured in accordance with an embodiment of the invention; 
         FIG. 12  is a bottom view of yet another sheet of adhesive antiskid material at one point in a manufacturing process; 
         FIG. 13  is a bottom view of the sheet of adhesive antiskid material at another point in the manufacturing process; 
         FIG. 14  is a top view of a graphics layer suitable for use with a sheet of adhesive antiskid material; 
         FIG. 15  is a cross sectional view of the graphics layer as viewed from line C-C in  FIG. 14 ; 
         FIG. 16  is a top view of the sheet of adhesive antiskid material upon completion of assembly; and 
         FIG. 17  is a cross sectional view of the sheet of adhesive antiskid material as viewed from line D-D in  FIG. 16 . 
     
    
    
     DETAILED DESCRIPTION 
     The following detailed description is merely exemplary in nature and is not intended to limit the invention or the application and uses of the invention. Furthermore, there is no intention to be bound by any expressed or implied theory presented in the preceding technical field, background, brief summary or the following detailed description. 
     Relative position and location terms such as “upper,” “lower,” “top,” and “bottom” may be used herein for consistency with the drawings and for ease of description in the context of example embodiments. The use of such terms are not intended to limit the scope or application of embodiments of the invention. 
     Although the following description of exemplary embodiments focuses on a skateboard application where the adhesive antiskid material is also referred to as “grip tape,” the invention is not so limited. Indeed, a graphics-laden sheet of adhesive antiskid having the characteristics and properties described herein can be utilized in industrial applications (e.g., construction sites, automotive, aviation, boating), home and garden applications (e.g., stairs, basements, ladders, step stools, pool decking, walkways), recreational applications (e.g., motorcycles, trailers, bicycles, off-road vehicles, wakeboards, wake skates, personal watercraft, water skis, snowboards, firearms, archery), commercial applications (e.g., amusement parks, theaters, airplanes), and/or any place where enhanced traction, grip, or friction is desired. The following description of skateboard grip tape is merely one of many practical uses for this type of graphics-laden adhesive antiskid material. 
     Moreover, although the following description of exemplary embodiments focuses on a sandpaper-like adhesive antiskid material of the type commonly applied to skateboard decks and steps, other types of adhesive antiskid material are also contemplated. For example, vinyl or rubber based adhesive antiskid material of the type suitable for use with surfboards, water skis, and personal watercraft can also be manufactured and processed in the manner described herein. Likewise, foam or sponge based adhesive antiskid material of the type commonly used with surfboards can also be manufactured and processed in the manner described herein. For the sake of brevity, these specific applications are not described in detail herein; those skilled in the art will appreciate how the techniques and methodologies described for the grip tape embodiment can be extended to these other applications. 
       FIG. 1  is a perspective view of a sheet of adhesive antiskid material  100 , and  FIG. 2  is a side view of the adhesive antiskid material  100 . The adhesive antiskid material  100  includes a primary grip layer  102  having an upper surface  104  and a lower surface  106 , which is opposite the upper surface  104 . The upper surface  104  is rough or “grippy” like sandpaper, while the lower surface  106  is sticky and adhesive. The adhesive lower surface  106  is used to adhere the adhesive antiskid material  100  onto the skateboard deck, and the roughness of the upper surface  104  provides grip for the skateboarder&#39;s shoes (or feet!). The primary grip layer  102  is typically formed from a flexible material, which may be (without limitation) rubber, plastic, or vinyl based. The primary grip layer  102  usually has a thickness of less than 0.100 inch, and a typical thickness of approximately 0.050 inch. The roughness of the upper surface  104  may be selected according to the desired application. For example, the rough upper surface  104  may have a grit measurement of about 30 to 60. 
     The adhesive antiskid material  100  is usually sold with a removable backing layer  108  on the adhesive lower surface  106 . To apply the primary grip layer  102  to the skateboard deck, the removable backing layer  108  is peeled away from the adhesive lower surface  106  (as depicted in  FIG. 2 ) to expose the adhesive side of the primary grip layer  102 . Then, the primary grip layer  102  can be affixed to the skateboard deck and trimmed as needed. The removable backing layer  108  is usually realized as a thick piece of paper having a smooth and slick surface (for example, a very thin plastic layer or coating) for coupling to the primary grip layer  102 . 
     Adhesive Antiskid Sheet With Integrated Graphics 
     Sheets of adhesive antiskid material may be processed in connection with the manufacturing of adhesive antiskid material that contains graphical components, as described more fully below. The production of a sheet of graphical adhesive antiskid material as described herein may begin with a standard sheet of adhesive antiskid material such as the adhesive antiskid material  100 . In this example, the beginning sheet of adhesive antiskid material is a conventional pre-cut sheet of black adhesive antiskid material having a size of approximately 9 inches by 36 inches. Of course, many different sizes, shapes, colors, and configurations can be used. For example, the base sheet of adhesive antiskid material may be, without limitation: black; colored; translucent; clear; transparent; translucent and colored; translucent and colorless; transparent and colorless; or transparent and tinted. 
     The manufacturing process begins with a blank sheet of black adhesive antiskid material and a desired design, graphic, or pattern. In one embodiment, the intended pattern is generated using a suitable computer aided drawing, drafting, or design application. As described in more detail below, the intended design includes “positive space” that represents sections of the base adhesive antiskid material that will ultimately remain in the finished product, and “negative space” that represents sections of the base adhesive antiskid material that will ultimately be removed from the finished product. In the preferred embodiment, the intended design contemplates the use of filler pieces (e.g., filler grip pieces, stickers, textured cloth or velvet, metal or wood, plastic pieces, films, or the like) that replace the removed sections of the base adhesive antiskid material. In other words, these filler pieces “fill” the negative space pattern(s) in the base adhesive antiskid material. In certain embodiments, these filler pieces are of contrasting color, transparency, translucency, roughness (grit), texture, thickness, composition, and/or other characteristics relative to the base adhesive antiskid material. 
     In this example, a base sheet of adhesive antiskid material is provided, where the base adhesive antiskid material includes a primary grip layer having a rough upper surface, an adhesive lower surface, and a removable primary backing coupled to the adhesive lower surface.  FIG. 3  is a bottom view of a sheet of adhesive antiskid material  200 ; this view shows the removable primary backing  202  (the primary grip layer of the adhesive antiskid material  200  is hidden from view). The removable primary backing  202  is perforated or cut to define a patch section  204  in the sheet of adhesive antiskid material  200 . Notably, this perforating/cutting step is performed without cutting through the primary grip layer itself. This process step may be referred to as “kiss cutting” or “partial cutting.” The dashed lines  206  in  FIG. 3  represent the kiss cuts that define the patch section  204 . In practice, the layout of the patch section  204  is determined by the intended design, and the layout of the patch section  204  may be defined in an electronic drawing file, a CAD file, a CAM file, or the like. 
     The perforating and cutting tasks described herein may be performed using any suitable technique, including, without limitation: laser cutting; die cutting; blade cutting; water jet cutting; an/or punching. In the preferred embodiment, the kiss cutting step (and the other perforating/cutting tasks described herein) is performed using a suitably configured laser cutting system, such as the Mini 18 or the Mini 24 model laser engraving system manufactured by Epilog Laser of Golden, Colo. This and equivalent laser cutting systems are known to those skilled in the art and as such will not be described in detail herein (more detailed information about the Epilog Laser product line is available at the company website: www.epiloglaser.com). The laser cutting system can be adjusted to form perforations (a series of tiny holes), partial-depth kiss cuts, or full cuts. In one practical embodiment, the different types of cuts are formed by regulating the laser power, the speed of travel of the laser cutting beam, and/or the laser pulse frequency. Referring again to  FIG. 3 , the kiss cuts  206  may be formed by setting the output laser energy of the laser cutting system to an appropriate level (e.g., 20% of full power) to ensure that the removable primary backing  202  is cut or perforated while leaving the primary grip layer intact. In contrast, the full cuts may be formed by setting the output laser energy to 100% or full power. 
     In addition to the kiss cutting, the adhesive antiskid material  200  is also perforated or cut in an area within the patch section  204  to define a negative space pattern  208 . In  FIG. 3 , the negative space pattern  208  resembles a square with a circle in the center of the square. In contrast to the kiss cutting, this perforating/cutting step is performed such that the primary grip layer itself is cut or perforated. This type of process step may be referred to herein as “full cutting” or “through cutting” even though in practice the primary grip layer may be perforated with a very fine laser, leaving the negative space pattern  208  somewhat connected to the remainder of the primary grip layer. This perforation technique may be desirable to enable subsequent handling of the adhesive antiskid material  200  and to facilitate easy removal of the portion of the adhesive antiskid material  200  corresponding to the negative space pattern  208  (indeed, a practical embodiment may leave this portion of the adhesive antiskid material  200  in place such that the end user can enjoy the process of creating the negative space pattern  208  and subsequently filling the negative space pattern  208  with one or more filler pieces). In one embodiment, the configuration of the laser cutting system is adjusted such that the primary grip layer is severed while leaving some of the gritty particles on the rough upper surface intact. These particles may be formed of silica, glass, metal, stone, or any hard material. Consequently, although the laser beam cuts through the flexible and thin substrate of the primary grip layer, the laser beam may not have enough energy to cut through all of the grit particles. In this fashion, “perforations” in the adhesive antiskid material  200  are automatically formed. 
     The solid lines  210  in  FIG. 3  represent the through cuts that define the negative space pattern  208 . In practice, the layout of the negative space pattern  208  is determined by the intended design, and the layout of the negative space pattern  208  may be defined in an electronic drawing file, a CAD file, a CAM file, or the like. 
       FIG. 3A  is a cross sectional view of the center portion of the adhesive antiskid material  200  as viewed along line A-A in  FIG. 3 .  FIG. 3A  uses exaggerated scaling and proportions for ease of illustration and to enable the various elements to be distinguished.  FIG. 3A  shows the primary grip layer  212  and the removable primary backing  202  coupled to the primary grip layer  212 .  FIG. 3A  illustrates the difference between the kiss cuts  206  and the full cuts  210 . 
     After the kiss cuts  206  and the full cuts  210  are formed, a certain portion of the removable primary backing  202  is removed from the patch section  204 , while leaving in place another portion of the removable primary backing  202  that corresponds to the desired negative space pattern  208 .  FIG. 4  is a bottom view of the adhesive antiskid material  200  after removal of the portion of the removable primary backing  202 . In practice, the designated pieces of the removable primary backing  202  are peeled away to reveal an exposed section  213  of the sticky lower surface of the primary grip layer  212 . In this example, a square frame-shaped piece and a circular piece are peeled away and discarded. The shaded area in  FIG. 4  represents the resulting exposed section  213 . 
     Next, an adhesive patch layer is affixed to the exposed section  213 . In one embodiment, the adhesive patch layer is trimmed or otherwise shaped to match the size of patch section  204  before it is applied to the exposed section  213 .  FIG. 5  is a bottom view of the adhesive antiskid material  200  after the adhesive patch layer  214  has been affixed to the exposed section  213 . As shown in  FIG. 5 , the adhesive patch layer  214  matches the area defined by the patch section  204 . In addition, the adhesive patch layer  214  spans the negative space pattern  208 . In  FIG. 5 , the adhesive patch layer  214  actually covers the negative space pattern  208 . In this embodiment, the adhesive patch layer  214  is positioned adjacent to the remaining pieces of the removable primary backing  202 . 
     The adhesive patch layer  214  is preferably formed from a flexible adhesive-backed sheet, which may be plastic-based, vinyl-based, or the like. The adhesive patch layer  214  has an upper surface, an adhesive lower surface, and a removable patch backing  216  coupled to the adhesive lower surface. The shaded portion in  FIG. 5  represents the removable patch backing  216 . The upper surface is pressed against the exposed section  213  (which is sticky) to adhere the adhesive patch layer  214  to the lower surface of the primary grip layer  212 . For the reasons described below, the upper surface of the adhesive patch layer  214  is non-adhesive and smooth. Notably, this creates a non-sticky junction between the upper surface of the adhesive patch layer  214  and the remaining removable backing that is attached to the lower surface of the primary grip layer  212  (this remaining removable backing corresponds to the negative space pattern  208 ). Depending upon the chosen graphics and/or design for the adhesive antiskid material  200 , the upper surface of the adhesive patch layer  214  may be colored, white, patterned, black, etc. Moreover, the adhesive patch layer  214  itself may be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. These options allow a section of the upper surface of the skateboard deck to be visible through the adhesive antiskid material  200  in certain embodiments (described below). 
     After the adhesive patch layer  214  has been secured to the back of the adhesive antiskid material  200 , a scrap piece can be removed from the adhesive antiskid material  200 .  FIG. 6  is a top view of the adhesive antiskid material  200  that illustrates this step. It should be appreciated that this is an optional step in the manufacturing process (explained below). In an alternate embodiment, the scrap piece is removed before the application of the adhesive patch layer  214 . The shaded sections in  FIG. 6  represent the rough upper surface  218  of the primary grip layer  212 . Notably, the scrap piece  220  represents a positive pattern corresponding to the negative space pattern  208 . In practice, the scrap piece  220  can be easily removed due to the full cuts  210  (see  FIG. 1 ) and because the scrap piece  220  is not affixed to the adhesive patch layer  214 . As explained above, the lower surface of the scrap piece  220  remains covered with a removable backing, and the upper surface of the adhesive patch layer  214  is non-adhesive. Thus, after removal of the scrap piece  220 , a portion of the upper surface  222  of the adhesive patch layer  214  becomes exposed, as depicted in  FIG. 6 . At this point, the exposed area of the adhesive patch layer  214  corresponds to the negative space pattern  208 . 
     A suitably configured filler grip piece may be formed or cut such that it represents the positive pattern matching the negative space pattern  208 . The filler grip piece can be cut using a laser cutting system or any of the techniques mentioned above. In this example, the filler grip piece is shaped and sized like the scrap piece  220 . However, the filler grip piece has a different color, roughness/grit, translucency, texture, thickness, transparency, or other distinguishing characteristic relative to the scrap piece  220 . In one embodiment, for example, the rough upper surface of the primary grip layer  212  has a first color (e.g., black) and the rough upper surface of the filler grip piece has a second and different color (e.g., red). In another embodiment, for example, the primary grip layer is solid or opaque (e.g., solid black) and the filler grip piece is translucent or transparent (e.g., clear or colorless). Of course, the filler grip piece may be translucent and colorless, transparent and colorless, translucent and colored, transparent and colored, tinted, opaque and white, opaque and black, opaque and colored, etc. In alternate embodiments, the filler piece need not be an adhesive antiskid material—it can be any material, item, component, or composition having an adhesive side. For example, the filler piece may be realized as a decorative piece of adhesive cloth, velvet, canvas, or other textile. As another example, the filler piece may be realized as a sticker having a printed graphic thereon. As yet another example, the filler piece may be realized as a metal, wood, or plastic plate, puck, or medallion. 
       FIG. 7  is a top view of the adhesive antiskid material  200  and a filler grip piece  224 . Filler grip piece  224  is shaded with specks to distinguish it from the rough upper surface  218  of the primary grip layer  212 . Filler grip piece  224  may be formed from a sheet of conventional adhesive antiskid material. Thus, filler grip piece  224  may be provided with a removable backing that covers the adhesive lower surface of the filler grip piece  224 . When producing the adhesive antiskid material  200 , the removable backing is removed from the filler grip piece  224  to expose the sticky adhesive, and the filler grip piece  224  is applied to the exposed upper surface  222  of the adhesive patch layer  214 . Pressure is applied to the upper surface of the filler grip piece  224  to ensure that it is properly seated and affixed to upper top surface  222  of the adhesive patch layer  214 . This results in a stationary, stable, and fixed assembly for adhesive antiskid material  200 . 
       FIG. 8  is a top view of the adhesive antiskid material  200  after the filler grip piece  224  has been affixed to the adhesive patch layer  214 . As shown, the filler grip piece  224  has been located within the negative space pattern  208 . In this example, the filler grip piece  224  actually fills the negative space pattern  208  such that the resulting rough upper surface of the adhesive antiskid material  200  is virtually continuous with no conspicuous gaps between the rough upper surface of the filler grip piece  224  and the rough upper surface  218  of the primary grip layer  212 . At this point in the process, the bottom of the adhesive antiskid material  200  remains as shown in  FIG. 5 , with all of the adhesive lower surfaces covered by removable backing. At this time, the adhesive antiskid material  200  can be prepared for sale and/or distribution. For example the adhesive antiskid material  200  may be: dusted off or otherwise cleaned; individually packaged for unit sales; packaged in a bulk fashion for shipping to a distribution company or a skateboard retail shop; or the like. 
       FIG. 8A  is a cross sectional view of the center portion of the adhesive antiskid material  200  as viewed from line B-B in  FIG. 8 .  FIG. 8A  uses exaggerated scaling and proportions for ease of illustration and to enable the various elements to be distinguished.  FIG. 8A  depicts the primary grip layer  212  and the filler grip piece  224  within the negative space pattern  208 .  FIG. 8A  also shows the adhesive patch layer  214  with its removable patch backing  216  still intact. 
     Notably, the application of adhesive antiskid material  200  onto a skateboard deck is virtually identical to the application of a conventional sheet of grip tape. The removable primary backing  202  and the removable patch backing  216  are removed from the lower surface of the finished adhesive antiskid material  200  to expose the adhesive lower surface of the primary grip layer  212  and to expose the adhesive lower surface of the adhesive patch layer  214 .  FIG. 9  is a bottom view of the adhesive antiskid material  200  after removal of the removable backing pieces. The double shaded sections in  FIG. 9  represent the adhesive lower surface  226  of the primary grip layer  212 , while the single shaded section in  FIG. 9  represents the adhesive lower surface  228  of the adhesive patch layer  214 . As described above, the adhesive patch layer  214  may completely cover the filler grip piece  224 . Accordingly,  FIG. 9  depicts filler grip piece  224  in dashed lines because it may be obscured by the adhesive patch layer  214 . 
     After the removable backing has been removed from the adhesive antiskid material  200  as shown in  FIG. 9 , the adhesive antiskid material  200  can be affixed to the top surface of the skateboard deck. The adhesive patch layer  214  retains the filler grip piece  224  in place relative to the primary grip layer  212 , which enables the adhesive antiskid material  200  to be manipulated and applied as a single piece. As an optional step, a small amount of soapy water may be sprayed onto the deck before the adhesive antiskid material  200  is applied to facilitate placement and alignment of the adhesive antiskid material  200  and to facilitate the removal of bubbles between the adhesive antiskid material  200  and the deck. It may be desirable to initially remove only one of the removable backing pieces, such as the removable patch backing  216  in this example, to make it easier to align and position the adhesive antiskid material  200  on the deck. This single section can be affixed to the deck as an initial step, and the remaining removable backing pieces can then be removed to allow the rest of the adhesive antiskid material  200  to be affixed to the deck as explained above. Once the adhesive antiskid material  200  has been located in the desired position on the deck, pressure is applied to the adhesive antiskid material  200  to secure it firmly against the deck. Thereafter, the adhesive antiskid material  200  can be trimmed around the perimeter of the deck.  FIG. 10  is a top view of a skateboard deck  230  after application and trimming of the adhesive antiskid material  200 . 
     Referring again to  FIG. 5 ,  FIG. 8 , and  FIG. 8A , the adhesive antiskid material  200  produced by the technique described herein generally includes a primary grip layer  212 , at least one filler grip piece  224 , at least one adhesive patch layer  214 , removable primary backing  202  for the primary grip layer  212 , and removable patch backing  216  for the at least one adhesive patch layer  214 . For the sake of simplicity and for consistency with the illustrated example, only one filler grip piece  224  and only one adhesive patch layer  214  are described below. The primary grip layer  212  has a rough “grippy” upper surface and a sticky lower surface that is opposite its rough upper surface. The finished adhesive antiskid material product includes a negative space pattern  208  formed within the primary grip layer  212 , where the filler grip piece  224  corresponds to the negative space pattern  208 . In this regard, the filler grip piece  224  is located within the negative space pattern  208  (in this embodiment, the filler grip piece  224  fills the negative space pattern  208 ). The filler grip piece  224  has a rough “grippy” upper surface and an adhesive lower surface that is opposite its rough upper surface. 
     The adhesive patch layer  214  has an upper surface that is non-adhesive and a sticky and adhesive lower surface that is opposite its non-adhesive upper surface. As shown in  FIG. 8A , at least a portion of the upper surface of the adhesive patch layer  214  is affixed to the adhesive lower surface of the filler grip piece  224 . In this particular example, another portion of the upper surface of the adhesive patch layer  214  is affixed to an area of the adhesive lower surface of the primary grip layer  212 . In other words, a first area of the upper surface of the adhesive patch layer  214  is affixed to the primary grip layer  212 , while a second area of the upper surface of the adhesive patch layer  214  is affixed to the filler grip piece  224 . This arrangement results when the patch section  204  (see  FIG. 3 ) is larger than the negative space pattern  208  and when adhesive patch layer  214  overlaps the negative space pattern  208 . 
     The removable primary backing  202  is adhered and coupled to specific areas of the adhesive lower surface of the primary grip layer  212 , and the removable patch backing  216  is adhered and coupled to the adhesive lower surface of the adhesive patch layer  214 . As described above, the removable primary backing  202  and the removable patch backing  216  are formed from a suitable material that allows easy removal to expose the sticky adhesive surfaces. In certain embodiments, the filler grip piece  224  is translucent or tinted, and the upper surface of the adhesive patch layer  214  is white, black, colored, tinted, or shaded to enhance or otherwise influence a translucence or tinting effect of the filler grip piece  224  (this influence results because the upper surface of the adhesive patch layer  214  is pressed against the filler grip piece  224  as illustrated in  FIG. 8A ). For example, the filler grip piece  224  may be formed from a translucent red material. Thus, if the upper surface of the adhesive patch layer  214  is white, then the filler grip piece  224  will appear as a relatively bright and consistent red component; if the upper surface of the adhesive patch layer  214  is gray, then the filler grip piece  224  will appear as a relatively dull and consistent red component; if the upper surface of the adhesive patch layer  214  is blue, then the filler grip piece  224  may appear to be purple; and if the upper surface of the adhesive patch layer  214  is patterned, then that pattern may appear through the filler grip piece  224 . 
     As mentioned above, an embodiment may include any number of filler pieces, and all of the filler pieces need not be of the same color, translucence, shape, grit, texture, composition, configuration, or characteristic. For example, the negative space pattern may include a plurality of separate and distinct negative space patterns formed in the primary grip layer, and the grip tape may utilize a plurality of separate and distinct filler pieces. Although not a requirement, in one embodiment, the number of negative space patterns equals the number of filler pieces.  FIG. 11  is a top view of another sheet of adhesive antiskid material  300  that illustrates this concept. The adhesive antiskid material  300  uses a primary grip layer  302  as a foundation. The primary grip layer  302  includes five separate negative space patterns of different shapes and sizes. The adhesive antiskid material  300 , however, only includes three filler grip pieces  304  (which may or may not be of the same color, translucence, opaqueness, etc.). The remaining two negative space patterns  306  do not contain filler grip pieces. If desired, the adhesive patch layer under these negative space patterns  306  can be trimmed out before or after application of adhesive antiskid material  300  such that the top surface of the skateboard deck will be visible through these “windows” after the adhesive antiskid material  300  is applied. In an embodiment that utilizes an adhesive patch layer that is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored, the top surface of the skateboard deck will be visible through the adhesive patch layer itself. In such an embodiment, the adhesive patch layer also serves as a protective layer for the top surface of the skateboard deck, which may contain printed or painted graphics, a pattern, or a design. 
     In an alternate embodiment, a sheet of adhesive antiskid material as described above may be distributed with the scrap piece(s) intact within the primary grip layer. The respective filler piece(s) can be packaged with the sheet of adhesive antiskid material to form a kit. Such a kit allows the skateboarder to play a role in making the grip art on the skateboard deck, and facilitates optional installations of the adhesive antiskid material. For example, the user may wish to leave the scrap pieces intact, resulting in a single-color grip job (the outline of the scrap pieces may be visible in the primary grip layer). Alternatively, the user may wish to remove a scrap piece, but leave the resulting negative space pattern unfilled. In such an installation, the user may also decide to trim or remove the adhesive patch layer from the negative space pattern so that the skateboard deck will show through the resulting “window.” Moreover, different colors or styles of filler pieces can be provided in the kit, allowing the user to select a desired color scheme for the grip job. 
     Grip Tape Sheet With Integrated Printed Graphics 
     The technique described above can be modified slightly to produce a sheet of adhesive antiskid material that incorporates a graphics layer having a graphic feature (or features) that is at least partially visible through a filler grip piece.  FIG. 12  is a bottom view of a sheet of adhesive antiskid material  400  that has been processed to a point equivalent to that shown in  FIG. 4 . In other words, the kiss cuts and the through cuts have already been formed, and a section of the removable primary backing  402  has already been removed to expose some of the adhesive lower surface  404  of the primary grip layer. This simple example includes a circular negative space pattern  406  formed within the primary grip layer. As explained below, an intended graphics feature influences the size, shape, and layout of the negative space pattern  406  and, therefore, influences the step of perforating or cutting the base sheet of adhesive antiskid material within a patch section  408  to define the negative space pattern  406 . Moreover, the size and shape of the negative space pattern  406  may be based upon the graphics feature itself (as illustrated in this example, and as described in more detail below). In this embodiment, the negative space pattern  406  ultimately serves as the border of a viewing “window” for the graphics feature. 
     Before applying an adhesive patch layer to the adhesive antiskid material  400  (as described above with respect to  FIG. 5 ), a suitably configured graphics layer is provided.  FIG. 14  is a top view of one graphics layer  410  suitable for use with this example embodiment, and  FIG. 15  is a cross sectional view of the graphics layer  410  as viewed along line C-C in  FIG. 14 .  FIG. 15  uses exaggerated scaling and proportions for ease of illustration and to enable the various elements to be distinguished. In this example, the graphics layer  410  has an upper surface  412 , an adhesive lower surface  414  opposite the upper surface  412 , a removable graphics layer backing  416  coupled to the adhesive lower surface  414 , and a graphic feature  418  on the upper surface  412 . The graphics layer  410  can be realized in any suitable fashion. For example, the graphics layer  410  may be realized as a paper, plastic, vinyl, metallic foil, or other type of sticker having a desired graphic design, pattern, text, or the like printed on the upper surface  412 . The graphics layer  410  may be realized as an adhesive-backed label that is commonly available in shapes and sizes that facilitate easy formatting and printing using standard computer and printer systems. The use of such labels enables quick and easy customization or design of the graphics layer  410  using well known computer software and printing capabilities. For instance, the desired graphic feature  418  can be produced in electronic form and printed onto a suitably configured label using a color printer or a black and white printer. The printed label can then function as the graphics layer  410 . 
     The graphics layer  410  may be the same size of the negative space pattern  406  or it may be larger in area than the negative space pattern  406 . In this embodiment the adhesive antiskid material  400  utilizes a graphics layer  410  that is larger than the negative space pattern  406 , as shown in  FIG. 13  (where the negative space pattern  406  is depicted in dashed lines to indicate that it is covered by the graphics layer  410 ).  FIG. 13  illustrates the step of positioning the graphics layer  410  such that the graphic feature  418  faces the portion of the removable primary backing  402  corresponding to the negative space pattern  406 . In this example, the graphics layer  410  is positioned such that its upper surface covers the negative space pattern  406  and such that a section of its upper surface becomes affixed to the exposed section of the adhesive lower surface  404  of the primary grip layer. In other words, part of the graphics layer  410  overlaps the exposed adhesive lower surface  404 , which helps retain the graphics layer  410  in position during subsequent handling of the adhesive antiskid material  400 . 
     The removable graphics layer backing  416  (if applicable) may be retained or it may be removed. In the preferred embodiment, the removable graphics layer backing  416  is removed to expose the sticky lower surface of the graphics layer  410 . Next, a suitably sized and configured adhesive patch layer is applied to the adhesive antiskid material  400  in a manner equivalent to that described above for the adhesive antiskid material  200 . As described above, the adhesive patch layer may be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored (to facilitate visibility of the skateboard deck in certain embodiments). Notably, the adhesive patch layer is affixed to the exposed adhesive lower surface  404  of the primary grip layer and to the adhesive lower surface  414  of the graphics layer  410 . After this step, the bottom of the adhesive antiskid material  400  will resemble that shown in  FIG. 5 . Thereafter, the “positive” scrap piece of the primary grip layer is removed and replaced with a suitably sized, shaped, and configured filler piece in a manner equivalent to that described above for the adhesive antiskid material  200 . 
       FIG. 16  is a top view of the adhesive antiskid material  400  after the filler grip piece  420  has been installed and secured to the upper surface of the graphics layer  410 , and  FIG. 17  is a cross sectional view of the center portion of the adhesive antiskid material  400  as viewed from line D-D in  FIG. 16 .  FIG. 17  uses exaggerated scaling and proportions for ease of illustration and to enable the various elements to be distinguished.  FIG. 17  shows the adhesive patch layer  422  and its removable patch backing  424 . As best depicted in  FIG. 17 , the graphics layer  410  is located between the filler grip piece  420  and the upper surface of the adhesive patch layer  422 . Moreover, in this embodiment the graphics layer  410  has a first portion that is located between the primary grip layer  426  and the upper surface of the adhesive patch layer  422 , and a second portion that is located between the filler grip piece  420  and the adhesive patch layer  422 . The first portion of the graphics layer  410  represents the portion that extends beyond the negative space pattern  406  and overlaps with the primary grip layer  426 . Notably, the graphic feature  418  should be located on the second portion so that it is not obscured by the primary grip layer. 
     The filler grip piece  420  is suitably configured to facilitate visibility of the graphic feature  418 . As depicted in  FIG. 16 , the adhesive antiskid material  400  is produced such that the graphic feature  418  is at least partially visible through the filler grip piece  420 . The specks in  FIG. 16  identify the filler grip piece  420 —in this example the filler grip piece  420  fills the negative space pattern  406  and covers the graphics layer  410 . Depending upon the particular implementation, the filler grip piece  420  may be, without limitation: translucent and colorless; translucent and colored; transparent and colorless; transparent and colored; tinted; etc. The light transmission characteristics of the filler grip piece  420  can be selected to allow the desired amount of visibility of the graphic feature  418 . For example, maximum visibility may be achieved if the filler grip piece  420  is formed from a stock of clear grip tape. 
     The outline of the filler grip piece  420  and/or the outline of the corresponding negative space pattern  406  may be formed in accordance with the particular graphic feature  418 .  FIG. 16  illustrates this concept, where both the filler grip piece  420  and the negative space pattern  406  are circular to accommodate the circular outline of the graphic feature  418 . In this example, the filler grip piece  420  and the negative space pattern  406  each have a slightly larger diameter than the graphic feature  418 . This results in a clean and visually appealing finished product. Of course, this concept can be extended to more complex outlines. For example, the graphic feature  418  may be a photograph of a person and the filler grip piece  420  and the negative space pattern  406  can be formed to trace or follow the general outline shape of the person. 
     Notably, the application of the adhesive antiskid material  400  to a skateboard deck is virtually identical to the application of a conventional sheet of grip tape. The removable primary backing  402  and the removable patch backing  424  are removed from the lower surface of the finished adhesive antiskid material  400  to expose the adhesive lower surface of the primary grip layer  426  and to expose the adhesive lower surface of the adhesive patch layer  422 . Thereafter, installation of the adhesive antiskid material  400  is similar to that described above for the adhesive antiskid material  200 . Thus, company logos, trademarks, branding graphics, pictures, advertisements, and other graphics can be seen from the top surface of a skateboard deck rather than the bottom surface of the deck, which is usually hidden from view and which quickly becomes scratched and defaced after use. The filler grip piece  420  functions to provide additional grip for the skateboarder. In addition, the filler grip piece  420  protects the graphic feature  418  in a pristine condition for the life of the adhesive antiskid material  400  (which typically corresponds to the life of the skateboard deck). 
     An alternate embodiment of the adhesive antiskid material  400  utilizes a graphics layer  410  (e.g., a sticker) that is the same size or smaller than the negative space pattern  406 . In such an embodiment, the graphics layer  410  can be installed from the top side of the adhesive antiskid material  400  after the scrap piece has been removed from the primary grip layer. Once the scrap piece is removed, the upper surface of the adhesive patch layer will be exposed, and the graphics layer  410  can be affixed within the negative space pattern  406 . Thereafter, the filler grip piece  420  can be installed as described above. 
     Adhesive Antiskid Sheet Variations 
     Clear Adhesive Patch Layer—As mentioned briefly above, an adhesive antiskid material sheet configured in accordance with the invention may utilize an adhesive patch layer that is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. Such an adhesive patch layer allows the top surface of the skateboard deck (which may contain graphics, a design, a pattern, a sticker, or the like) to be viewed through the adhesive patch layer and through the negative space pattern formed in the primary grip layer. The adhesive patch layer will also serve as a protective layer for the top surface of the skateboard deck, thus preserving any underlying graphics. A filler piece need not be employed in such an embodiment. If desired, however, a filler grip that is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored can be installed within the negative space pattern. Consequently, the top surface of the skateboard deck will remain visible through the adhesive patch layer, the negative space pattern, and the filler grip piece. During manufacturing, the layout of the adhesive antiskid material sheet can be selected to match and/or align with graphics that may be included on the top surface of the skateboard deck. In particular one or more of the following items may be influenced by the graphics on the deck: the location, shape, and size of the patch section; the location, shape, and size of the negative space pattern; the location, shape, and size of the filler grip piece; the translucence or transparence properties of the adhesive patch layer; and the translucence or transparence properties of the filler grip piece. For example, a specific brand, line, or model of a skateboard deck may be printed with a particular graphic on the top surface of the deck (where that graphic is consistent from one deck to another). In that scenario, the grip tape sheet can be customized for the particular deck such that the graphics on the top surface of the deck can be easily aligned with the negative space pattern in the grip tape sheet. 
     Customized Shop Grip Tape—Skateboard retail shops usually sell and install a sheet of grip tape with each new skateboard deck. Some shops sell and install grip tape with a die-cut logo of the shop, a die-cut logo of a skateboard equipment manufacturer, a die-cut logo of a skateboard equipment brand, or the like. In this regard, a sheet of grip tape configured in accordance with an embodiment of the invention is suitable for use as shop grip tape. The shop grip tape can be manufactured substantially as described above. However, the shop grip tape need not utilize an adhesive patch layer or a patch section formed in the primary grip layer. Rather, the shop grip tape can be produced with a suitably sized, shaped, and located negative space pattern formed in the primary grip layer, where the negative space pattern is based upon the size and shape of shop stickers that contain the shop logo. The primary grip layer may be distributed to the shop with the scrap grip piece intact within the negative space pattern. Leaving the scrap grip piece intact will allow the shop to install the shop grip tape as a one-piece and single-colored sheet if the purchaser prefers to not have the shop sticker installed. The primary grip layer may also be distributed to the shop with one or more filler grip pieces that are translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. Thus, the shop can remove the scrap grip piece, affix the sheet of shop grip tape to the new skateboard deck, adhere a shop sticker to the top surface of the deck in the negative space pattern, and cover the shop sticker with a filler grip piece. The filler grip piece allows the shop sticker to be viewed from the top of the deck, while providing grip for the skateboarder and providing protection for the sticker. This grip tape embodiment is easy to manufacture because it need not require an adhesive patch layer, and this embodiment is attractive to shops because it provides a way for the shops to advertise using their shop stickers. 
     Sticker Window—A sheet of adhesive antiskid material configured in accordance with an embodiment of the invention may be designed to accommodate the placement of stickers by the end user. This version of the adhesive antiskid material can be manufactured substantially as described above. The size, shape, and location of the negative space pattern formed in the primary grip layer is chosen to accommodate one or more stickers, which can be applied by the consumer, a retail shop that installs the grip tape, a skateboard manufacturer or distributor, or any end user. The adhesive patch layer may be translucent, transparent, white, black, colored, colorless, etc. The adhesive antiskid material may be distributed with the scrap grip piece intact within the negative space pattern for the reasons described above for the shop grip tape version. The primary grip layer may also be distributed with one or more filler grip pieces that are translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. Thus, the end user can remove the scrap grip piece (if needed), affix the sheet of adhesive antiskid material to the skateboard deck, adhere a sticker to the top surface of the adhesive patch layer that is exposed within the negative space pattern, and cover the sticker with the filler grip piece. Alternatively, the sticker and the filler grip piece are applied before the sheet of adhesive antiskid material is affixed to the deck. The filler grip piece allows the sticker to be viewed from the top of the deck, while providing grip for the skateboarder and providing protection for the sticker. 
     Writing in the Filler Grip Piece—A translucent filler grip piece (colored or colorless) may be further processed to create laser writing that is visible in the finished product. The laser tool described above can be used as a scribe to write any string of symbols or characters and/or to draw any design in the filler grip piece itself. Depending upon the particular manufacturing process, the writing may be formed from the top (rough) side of the filler grip piece or from the bottom side of the filler grip piece. If the latter, then the laser tool must be controlled in an appropriate manner because the mirror image of the written string/design will be viewable after the filler grip piece is affixed to the surface of the object. Moreover, it may be necessary to avoid creating designs or characters with closed loop features—otherwise, separable pieces from the filler grip piece may fall out. In this regard, the power of the laser may be scaled back to ensure that the writing procedure does not completely cut through the entire thickness of the filler grip piece. 
     In summary, materials, articles, and methods configured in accordance with embodiments of the invention relate to: 
     A sheet of nonskid adhesive material comprising: a primary grip layer having a rough upper surface and a sticky lower surface opposite its rough upper surface, the primary grip layer having a negative space pattern formed therein; an adhesive patch layer having an upper surface affixed to a first portion of the sticky lower surface of the primary grip layer, and having a sticky lower surface opposite its upper surface; and a filler grip piece having a rough upper surface and a sticky lower surface opposite its rough upper surface, the sticky lower surface of the filler grip piece being affixed to the upper surface of the adhesive patch layer, and the filler grip piece being located within the negative space pattern. The sheet of nonskid adhesive material may further comprise a removable backing adhered to a second portion of the sticky lower surface of the primary grip layer. The sheet of nonskid adhesive material may further comprise a removable backing adhered to the sticky lower surface of the adhesive patch layer. The upper surface of the sheet of nonskid adhesive material can be non-sticky. In one embodiment, the filler grip piece is translucent and the upper surface of the adhesive patch layer is colored to enhance a translucence effect of the filler grip piece. For some embodiments, the upper surface of the adhesive patch layer is white. The adhesive patch layer may span the negative space pattern. In certain embodiments, the filler grip piece fills the negative space pattern. The rough upper surface of the primary grip layer can have a first color, while the rough upper surface of the filler grip piece can have a second color. In addition, the adhesive patch layer can be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored, and the filler grip piece can be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. 
     A sheet of nonskid adhesive material comprising: a primary grip layer having at least one negative space pattern formed therein; at least one filler grip piece corresponding to the at least one negative space pattern; and at least one adhesive patch layer, each having an upper surface and an adhesive lower surface, the upper surface having a first area affixed to the primary grip layer, and the upper surface having a second area affixed to the at least one filler grip piece. At least one negative space pattern may include a plurality of separate and distinct negative space patterns. The at least one filler grip piece may include a plurality of separate and distinct filler grip pieces. The number of negative space patterns may equal the number of filler grip pieces. 
     A sheet of nonskid adhesive material comprising: a primary grip layer having a rough upper surface and a sticky lower surface, the primary grip layer having a negative space pattern formed therein; a filler grip piece having a rough upper surface and a sticky lower surface, the filler grip piece being located within the negative space pattern; an adhesive patch layer having an upper surface and a sticky lower surface, the upper surface of the adhesive patch layer having a first section affixed to a first area of the sticky lower surface of the primary grip layer, and the upper surface of the adhesive patch layer having a second section affixed to the sticky lower surface of the filler grip piece; a removable primary backing coupled to a second area of the sticky lower surface of the primary grip layer; and a removable patch backing coupled to the sticky lower surface of the adhesive patch layer. 
     A sheet of nonskid adhesive material comprising: a primary grip layer having a negative space pattern formed therein; a filler grip piece located within the negative space pattern; an adhesive patch layer having an upper surface affixed to a portion of the primary grip layer, and having a sticky lower surface; and a graphics layer located between the filler grip piece and the upper surface of the adhesive patch layer, the graphics layer having an upper surface and a graphic feature on its upper surface, wherein the graphic feature is at least partially visible through the filler grip piece. In one embodiment, the graphics layer has a first portion and a second portion, the first portion is located between the primary grip layer and the upper surface of the adhesive patch layer, the second portion is located between the filler grip piece and the adhesive patch layer, and the graphic feature is located on the second portion. The filler grip piece can be translucent to facilitate visibility of the graphic feature. The filler grip piece can be transparent to facilitate visibility of the graphic feature. The filler grip piece may be colorless or it may be colored and translucent. The sheet of nonskid adhesive material may further comprise a removable primary backing coupled to a sticky lower surface of the primary grip layer, and a removable patch backing adhered to the sticky lower surface of the adhesive patch layer. In one embodiment, the upper surface of the adhesive patch layer is non-sticky. The adhesive patch layer may span the negative space pattern. The filler grip piece may fill the negative space pattern. The adhesive patch layer can be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. 
     A method for producing a sheet of nonskid adhesive material with a graphics component, the method comprising: providing a sheet of grip tape comprising a primary grip layer having a sticky lower surface and a removable primary backing coupled to the sticky lower surface; perforating or cutting the removable primary backing, without cutting through the primary grip layer, to define a patch section in the sheet of grip tape; perforating or cutting the sheet of grip tape in an area within the patch section to define a negative space pattern; removing a first portion of the removable primary backing from the patch section, while leaving in place a second portion of the removable primary backing corresponding to the negative space pattern, to reveal an exposed section of the sticky lower surface of the primary grip layer; and affixing an adhesive patch layer to the exposed section. The adhesive patch layer may be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. The method may further comprise trimming the adhesive patch layer to match the size of the patch section. The adhesive patch layer typically has an upper surface, a sticky lower surface, and a removable patch backing coupled to its lower sticky surface. The method may further comprise removing a scrap piece from the sheet of grip tape, the scrap piece representing a positive pattern corresponding to the negative space pattern. The method may further comprise locating a filler grip piece within the negative space pattern. The primary grip layer may be a first color, while the filler grip piece is a second color. The primary grip layer may be translucent. The filler grip piece may be translucent. For one embodiment of the method: the adhesive patch layer is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored; and the filler grip piece is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. The method may further comprise: removing a scrap piece from the sheet of grip tape, the scrap piece representing a positive pattern corresponding to the negative space pattern, resulting in an exposed area of the adhesive patch layer, the exposed area corresponding to the negative space pattern; and affixing a filler grip piece to the exposed area. The method may further comprise forming the filler grip piece such that it represents the positive pattern. 
     A method for producing a sheet of nonskid adhesive material with a graphics component, the method comprising: providing a sheet of grip tape comprising a primary grip layer having a sticky lower surface and a removable primary backing coupled to the sticky lower surface; perforating or cutting the removable primary backing, without cutting through the primary grip layer, to define a patch section in the sheet of grip tape; perforating or cutting the sheet of grip tape in an area within the patch section to define a negative space pattern; removing a first portion of the removable primary backing from the patch section, while leaving in place a second portion of the removable primary backing corresponding to the negative space pattern, to reveal an exposed section of the sticky lower surface of the primary grip layer; providing a graphics layer having an upper surface, a lower surface, and a graphic feature on its upper surface; positioning the graphics layer such that the graphic feature faces the second portion of the removable primary backing; and affixing an adhesive patch layer to the exposed section. The method may further comprise trimming the adhesive patch layer to match the size of the patch section. The adhesive patch layer can have an upper surface, a sticky lower surface, and a removable patch backing coupled to its sticky lower surface. The adhesive patch layer may be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. The method may further comprise removing a scrap piece from the sheet of grip tape, the scrap piece representing a positive pattern corresponding to the negative space pattern. The method may further comprise locating a filler grip piece within the negative space pattern. The filler grip piece can be translucent and colorless, transparent and colorless, translucent and colored, or tinted. In some embodiments, the primary grip layer is black and the filler grip piece is translucent and colorless. The method may further comprise forming the filler grip piece such that it represents the positive pattern. In one embodiment: the adhesive patch layer is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored; and the filler grip piece is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. The method may further comprise: removing a scrap piece from the sheet of grip tape, the scrap piece representing a positive pattern corresponding to the negative space pattern, resulting in an exposed area of the upper surface of the graphics layer, the exposed area corresponding to the negative space pattern; and affixing a filler grip piece to the exposed area, the filler grip piece being configured to facilitate visibility of the graphic feature. The graphics feature may influence the step of perforating or cutting the sheet of grip tape in an area within the patch section to define a negative space pattern. In addition, the size and shape of the negative space pattern can be based upon the graphics feature. In one embodiment: the graphics layer is larger in area than the negative space pattern; and the step of positioning the graphics layer positions the graphics layer such that the upper surface of the graphics layer covers the negative space pattern and such that a section of the upper surface of the graphics layer is affixed to the exposed section of the sticky lower surface of the primary grip layer. In another embodiment of the method: the lower surface of the graphics layer is a sticky lower surface; the graphics layer includes a removable graphics layer backing coupled to its sticky lower surface; the method further comprises removing the removable graphics layer backing prior to the affixing step; and the affixing step affixes the adhesive patch layer to the exposed section and to the sticky lower surface of the graphics layer. 
     A grip tape kit comprising: a primary grip layer having a negative space pattern formed therein; a scrap grip piece residing within the negative space pattern; and an adhesive patch layer having an upper surface and an adhesive lower surface. The scrap grip piece comprises: a scrap grip layer having a rough upper surface and an sticky lower surface; and a removable scrap backing coupled to the sticky lower surface of the scrap grip layer. For the adhesive patch layer, the upper surface has a first area affixed to the primary grip layer, and the upper surface has a second area adjacent to the removable scrap backing. The adhesive patch layer can be translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. The kit may further comprise a filler grip piece sized and shaped in accordance with the negative space pattern. The filler grip piece may comprise: a filler grip layer having a rough upper surface and a sticky lower surface; and a removable filler backing coupled to the sticky lower surface of the filler grip piece. The filler grip piece can be sized and shaped to fill the negative space pattern. In certain embodiments the primary grip layer has a first visual characteristic, and the filler grip piece has a second visual characteristic that is distinguishable from the first visual characteristic. In one embodiment: the adhesive patch layer is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored; and the filler grip piece is translucent and colorless, transparent and colorless, translucent and colored, or transparent and colored. The rough upper surface of the primary grip layer may be a first color, while the rough upper surface of the filler grip piece is a second color. The kit may further comprise a second filler grip piece sized and shaped in accordance with the negative space pattern, wherein the filler grip piece and the second filler grip piece have visually distinguishable characteristics. In another embodiment, the filler grip piece is a first color and the second filler grip piece is a second color. In another embodiment, the filler grip piece has a first translucence characteristic, and the second filler grip has a second translucence characteristic. The removable scrap backing need not be affixed to the upper surface of the adhesive patch layer. The scrap grip piece can be perforated from the primary grip layer. The scrap grip piece and the negative space pattern can be defined by a through cut pattern in the primary grip layer. 
     A method for producing an adhesive antiskid sheet with a graphics component, the method comprising: providing a sheet of grip tape comprising a primary grip layer having a sticky lower surface and a removable primary backing coupled to the sticky lower surface; perforating or cutting the removable primary backing, without cutting through the primary grip layer, to define a patch section in the sheet of grip tape; perforating or cutting the sheet of grip tape in an area within the patch section to define a negative space pattern; removing a first portion of the removable primary backing from the patch section, while leaving in place a second portion of the removable primary backing corresponding to the negative space pattern, to reveal an exposed section of the sticky lower surface of the primary grip layer; affixing an adhesive patch layer to the exposed section; removing a scrap piece from the sheet of grip tape, the scrap piece representing a positive pattern corresponding to the negative space pattern, resulting in an exposed area of the adhesive patch layer, the exposed area corresponding to the negative space pattern; providing a graphics layer having an upper surface, a lower surface, and a graphic feature on its upper surface; and positioning the graphics layer such that its lower surface faces the exposed area of the adhesive patch layer. The method may further comprise affixing a filler grip piece over the upper surface of the graphics layer, the filler grip piece being configured to facilitate visibility of the graphic feature. 
     While at least one exemplary embodiment has been presented in the foregoing detailed description, it should be appreciated that a vast number of variations exist. In particular, the specific insert objects described above are not intended to limit the invention and are not exhaustive of the possible insert objects that can be employed in a practical embodiment. It should also be appreciated that the exemplary embodiment or exemplary embodiments are only examples, and are not intended to limit the scope, applicability, or configuration of the invention in any way. Rather, the foregoing detailed description will provide those skilled in the art with a convenient road map for implementing the exemplary embodiment or exemplary embodiments. It should be understood that various changes can be made in the function and arrangement of elements without departing from the scope of the invention as set forth in the appended claims and the legal equivalents thereof.