Abstract:
A decorating and cutting device includes a housing. A cutting blade and decorating material dispenser are disposed within the housing and are operable to simultaneously dispense decorating material and cut a target material. The cutting blade includes a depth stop for controlling the depth of cut made by the cutting blade.

Description:
IN THE CROSS REFERENCE TO RELATED APPLICATIONS 
     This is a continuation-in-part of U.S. Ser. No. 10/061,653, field Feb. 1, 2002 still pending, and entitled “Decorating and Cutting Device” by the same inventor and claims benefit therefrom. 
    
    
     TECHNICAL FIELD OF THE INVENTION 
     The present invention relates generally to the field of decorating and cutting, and more particularly to a device which is operable to perform decorating and/or cutting functions either independently or simultaneously. 
     BACKGROUND OF THE INVENTION 
     In crafting and other tasks the operations of cutting and decorating are usually performed separately. This is why there are many different types of cutting tools and many different types of decorating tools. 
     Felt tip markers are able to efficiently, and for a low cost, provide their users with an ability to decorate items and material like cloth, paper, plastics, cardboard, wood and other porous and non-porous material. Felt tip markers have a felt nib that is connected to an ink or decorating material storage and transference system. The ink or decorating material is drawn from the storage system, usually by capillary or wicking action, and moistens the nib to allow the nib to transfer the ink or decorating material to a target material. 
     A major problem with markers involves the durability of the nib. When most markers are used their nibs begin to distort due to the pressure placed on them and the rapid reversal of forces caused by the changing direction of the drawing and writing process. As the marker is moved up and down, back and forth and to and fro the angle at which pressure is exerted, on the nib, is changed and this can weaken, warp and destroy the nib. To resolve or lessen this problem many markers are made with springs helping to absorb the pressure of using the markers and/or a tube like casing is used to support the nib. 
     Rubber stamps have the ability to transfer complex images quickly and in a repeatable fashion. Rubber stamps have been shaped into cylinders and when run across a material can create long repeating decorations. 
     Many cutting tools are available. They come in all shapes and sizes. Some use stationary blades, some use moving blades and some use blades that swivel to allow their cutting direction to be controlled. These devices can be used to create precision cuts, however, precision cutting using these devices, by its nature, is a tedious and difficult task. The task of cutting is extremely difficult when it must be coordinated with an existing design. The user not only needs to make sure all their cuts are done in a fashion that gives a pleasing appearance they too must work to make sure they cut close enough to the existing design so as to remove all surrounding non-design material while at the same time working to avoid removing any of the design. 
     Present technologies do not directly address the need to cooperatively decorate and cut either in a freeform fashion or when using a template. A need has thus arisen for a device that allows a user to cut, decorate and/or to cooperatively cut and decorate either independently or simultaneously with the same device. 
     Another deficiency with present markers is seen in the damage caused to their nib by the pressures applied to them during use. A need has arisen for a marker with a supported nib. This extra support is in addition to, any spring, casing or other support means. 
     Cutting blades dull, as they are used and, depending on their material&#39;s composition, can rust or tarnish making them dull. A need has arisen for a cutting device which keeps the blade coated with ink or decorating material when it is stored and when it is used with the decorating tool. 
     Depth stops and blade guards have been used for many years in many different tools. The purpose of such stops and guards is to protect against unintentional cuts, bias cutting to specific and/or set depths and to bias cuts that can be made. Most circular saws, routers, table saws and other such tools use devices to set the depth of cut to protect objects from being unintentionally cut. 
     Many hobby and pocketknives do not have such depth stops or blade guards. These devices are very dangerous when used incorrectly or without great care. 
     Another type of cutter, sometimes called a “coupon cutter”, “transparency cutter” or a “top page cutter”, uses a blade with a depth stop set to allow only a very small section of the blade to engage a target material. The blade will protrude only about 4 to 6 thousands of an inch (0.004″-0.006″). This stop allows the device to cut only the top page of a normal sheet of paper. With a sufficient dept stop such cutters will not cut human skin. 
     A need has thus arisen for a cutting device that allows for decorating in a safe manner. 
     SUMMARY OF THE INVENTION 
     A decorating and cutting device includes a housing. A cutting blade and decorating material dispenser are disposed within the housing and are operable to simultaneously dispense decorating material and cut a target material. The cutting blade includes a depth stop for controlling the depth of cut made by the cutting blade. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     For a more complete understanding of the present invention and for further advantages thereof, reference is now made to the following Description of the Preferred Embodiments taken in conjunction with the accompanying Drawings in which: 
     FIG.  1 . is an exploded side view of the stationary spring tensioned cutting edge and decorating device of the present invention; 
     FIG.  2 . is a side view of the cutting blade shown in FIG. 1; 
     FIG.  3 . is a side view of the nib with opening to accept the cutting blade shown in FIG. 1; 
     FIG.  4 . is a side view of a rotating cutter and decorating device of the present invention; 
     FIG.  5 . is a bottom view of device shown in FIG. 4; 
     FIG.  6 . is a top view of a cut and decorated edge; 
     FIG.  7 . is a front view of a dual decorating wheel device with a single shaped cutting wheel and sized spacers; 
     FIG.  8 . is a top view of a cut and decorated edge using the dual decorating wheels and a single round flat cutting wheel with the device of FIG. 7 and a perforating wheel with the device of FIG. 7; 
     FIG.  9 . is a side view of a swivel blade cutting and decorating device of the present invention; 
     FIG.  10 . is a side view of a cutting blade with decorating material duct of FIG. 9; 
     FIGS. 11 a . and  11   b . are side and front views of a decorating nib of FIG. 9; 
     FIGS. 12 a . and  12   b . are top and side views of the blade nib lock of FIG. 9; 
     FIGS. 13 a  and  13   b . are side and bottom views of the blade nib support and decorating material valve of FIG. 9; 
     FIGS. 14 a .,  14   b .,  14   c . and  14   d . are top views showing the blade and decorating nib of FIG. 9 in various positions; 
     FIG.  15 . is a side view of an additional embodiment of the present invention; 
     FIG.  16 . is a side view of the top component of the device shown in FIG. 15; 
     FIG.  17 . is a side view of a piece of see through compressible material of FIG. 15; 
     FIG.  18 . is a side view of the bottom component of the device shown in FIG. 15; 
     FIG. 19 is a top view of the device shown in FIG. 15; 
     FIG.  20 . is a perspective view showing the attachment of FIG.  15 . and a cutting decorating device; 
     FIG.  21 . is a side view of a pull blade and ball bearing system with ball bearings as support and to facilitate rotation and swiveling and or for applying decorating material in accordance with the present invention; 
     FIG.  22 . is a side view of a push blade and ball bearing system with low friction sleeve as support and to facilitate rotation and swiveling and or for applying decorating material in accordance with the present invention; 
     FIG.  23 . is a side view of a push blade with multiple ball bearings surrounding it to facilitate rotating, swiveling and cutting in accordance with the present invention; 
     FIG.  24 . is a bottom view of the pull blade of FIG. 21; 
     FIG.  25 . is a bottom view of the push blade of FIG. 22; 
     FIG.  26 . is a bottom view of the multiple ball bearings surrounded blade of FIG. 23; 
     FIG.  27 . is a side view of a retractable blade nib assembly in the cut and decorate position in accordance with the present invention; 
     FIG.  28 . is a side view of the blade nib assembly of 
     FIG.  27 . in the cut only position; 
     FIG.  29 . is a side view of the blade nib assembly of FIG.  27 . in the color only position; 
     FIG.  30 . is a side view of a blade assembly of FIG. 27; 
     FIG.  31 . is a side view of a decorating nib of FIG. 27; 
     FIG.  32 . is a top view of a blade assembly of FIG. 27; 
     FIG.  33 . is a top view of a decorating nib of FIG. 27; 
     FIG. 34 a . is a top view of the assembly of FIG.  27 . showing the blade and nib handles in a cut and decorate position; 
     FIG. 34 b . is a top view of the assembly of FIG.  27 . showing the blade and nib handles in a decorate only position; 
     FIG. 34 c . is a top view of the assembly of FIG.  27 . showing the blade and nib handles in a cut only position; 
     FIG.  35 . is a bottom view of a further embodiment of the invention with four decorating surfaces and five cutting surfaces; 
     FIG.  36 . is a bottom view of the four cutting surfaces of the device of FIG. 35; 
     FIG.  37 . is a bottom view of a decorating nib of FIG. 35; 
     FIG.  38 . is a bottom view of a further embodiment of the invention with four decorating nibs and each containing one internal cutter; 
     FIG.  39 . is a side view of device of FIG. 38; 
     FIGS. 40 a . and  40   b . are side and bottom views, respectively, of a drawing nib shown in FIG. 35; 
     FIGS. 41 a . and  41   b . are side and top views, respectively, of a four-faced blade assembly shown in FIG. 35; 
     FIGS. 42 a . and  42   b . are bottom and side views, respectively, of a decorating nib with internal cutter shown in FIG. 35; 
     FIG. 43 shows a front view of the present cutting tool support with cutting tool and depth stop; 
     FIG. 44 shows a side view of the tool shown in FIG. 43; 
     FIG. 45 shows a bottom view of the tool shown in FIG. 43; 
     FIG. 46 shows a side view of a decorating and cutting device using the cutting tool support, cutting tool and dept stop shown in FIG. 43; 
     FIG. 47 is an exploded side view of the cutting tool shown in FIG. 46; 
     FIG. 48 is a front view of a cutting tool support with rotating cutting tool and depth stop; 
     FIG. 49 is a side view of the device shown in FIG. 48; 
     FIG. 50 is a bottom view of the device shown in FIG. 48; 
     FIG. 51 is a front view of the rotating cutting tool shown in FIG. 48; 
     FIG. 52 shows a front view of a cutting tool support with rotating cutting tool and depth stop operating against 5 sheets of paper; 
     FIG. 53 is a front view of a cutting tool support with cutting tool and depth stop operating against 5 sheets of paper; 
     FIG. 54 is a front view of a cutting tool support with rotating cutting tool and cutting tool positioning mechanism and depth stop operating against 5 sheets of paper; 
     FIG. 55 is a front view of a cutting tool with mounting hole that interfaces with cutting tool positioning mechanism; and 
     FIG. 56 is a front view of a cutting tool support with rotating cutting tool and cutting tool positioning mechanism and depth stop operating against 5 sheets of paper. 
    
    
     DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     Detailed descriptions of the preferred embodiments are provided herein. It is to be understood, however, that the present invention may be embodied in various forms. Therefore, specific details disclosed herein are not to be interpreted as limiting, but rather as a basis for the claims and as a representative basis for teaching one skilled in the art to employ the present invention in virtually any appropriately detailed system, structure or manner. 
     FIG. 1 shows an embodiment of the present invention that uses a stationary blade and decorating material dispenser or nib in a pen shaped device, which includes a cap and can be used as a normal marking device is used. The decorating material dispenser or nib  1  wicks ink, or other decorating material, from the decorating material storage reservoir  7 , via the decorating material feed duct  12 . The nib  1  is attached to the cutting assembly  2  and also at the cutting assembly base  5  using, for example, screws, tacks, adhesive, or pins  11  or simply a tight fit and a shape designed to discourage any pull-away forces. The decorating nib  1  and cutting assembly  2  are held in place by the cushion and retaining member  6  and the nib and cutting assembly stop blocks  4 . The cutting assembly base  5  is tensioned in place by force from the cushion and retaining member  6 . The cushion and retaining member  6  allows the cutting assembly  2  and nib  1  to be biased in a stationary position and also to give, flex and move slightly, when force is exerted during use. This will prolong blade and nib life and also protect them from shock. Member  6  also gives the device a softer feel and makes it easier to accommodate rough surfaces. The cushion and retaining member  6  also operates with a valve system. One embodiment has the valve attached to and working with the nib and cutter assembly base  5 . 
     The decorating material reservoir  7  can simple be an empty reservoir or it can be filled with a material that is conducive to storing the decorating materials as anyone skilled in the art will know. The closing cap  8  keeps the decorating material sealed inside the main case  15 . 
     Decorating material as used herein is any type of material that can be applied to a target material or surface for any useful purpose. Decorating material includes, for example, but is not limited to ink, dye, glue, lacquer, etching solution, oil, stain, colored wax, glitter and glue, colored glue, clear coat or any other material that might have some useful benefits. A target material includes, for example, paper, cloth, leather, cardboard and the like, or any other material that might receive some useful benefits. 
     Other features of the device of FIG. 1 include a finger grip  9  designed to make the device comfortable to use. A template trace edge  3  designed to make it easy to use the device with a template. A color indicator  10  designed to show the color, type and surface finish, and other characteristics, of the decorating material and or blade. 
     A user uses the device of FIG. 1 like a regular pen type marking device and instead of simply marking they mark and cut simultaneously. 
     FIG. 2 shows a side view of the cutting assembly with cutting edge  2 , base  5 , hole  16  for attachment pin  11  and decorating material duct  12 . 
     FIG. 3 shows the nib  1  with its hole  16  for attachment pin  11  and opening through its center to accommodate the cutting assembly. 
     FIG. 4 shows a side view of an additional embodiment of the invention using a rotating cutter assembly, rotating decorating assembly with decorating material supply pad. The device uses a rotating blade, with flat or shaped cutting edge, in cooperation with a rotating decorating device. 
     This embodiment stores the decorating material in the decorating material storage vessel  35  and feeds it to the decorating material supply pad  32  via the decorating material supply  34  that can use capillary, wicking or any other suitable transmission action. 
     A user uses the device by holding the handle  29  and pushing the decorating disk  20  and cutting disk  21  on a target object and then applying force in the direction they wish to cut and decorate. 
     The spring  28  gives the device a softer feel and more control over the pressure that is applied. 
     FIG. 5 shows a bottom view of the device shown in FIG.  4 . Screw head  23  acts as one end of the shaft that holds the decorating disk  20 , guide shaft  26 , spacing washer  25 , wave spring  22  and cutting disk  21  assembly. The other end is closed by a locking nut  24  that is used to close the end of the shaft and also acts as a tensioning adjustment. This embodiment shows a flat round blade that will produce a straight edge cut. It is important to note that a shaped blade edge is used, with or without spacers, to, make cuts of varying shapes at varying distances from the decoration. The device is assembled with the guide shaft  26 , and other components, arranged differently to create different effects and different feels When being Used. As one example, the device is assembled with the shaft on the right side of the cutting and decorating disks to allow easier use by a left handed person. Another example is to assemble a shaped cutting disk on the left side of the guide shaft  26  with a 2 mm sized spacer  37  and the cutting disk on the right side of the guide shaft  26  with a 3 mm sized spacer  37 . This would allow creation of a shaped cut edge with the design being made 5 mm plus the size of the guide shaft away. Another configuration includes using a nut, acting as a spacer, with the blade and guide shaft held securely and a decorating disk held loosely on the other side. This configuration would make consistent cuts with inconsistent and random designs that might be very appealing when interested in creating one of a kind, natural patters or security bands that need to be difficult to duplicate. 
     FIG. 6 shows a cut edge with a design on the right of it, as one might see, created by a device as shown in FIG.  4 . 
     FIG. 7 shows an embodiment of the device that uses multiple decorating wheels  36  and a single cutter  38 . In this embodiment two different decorating material supply pads  32  are used, one to supply each decorating wheel  36 , but each using different decorating materials. This allows the device to color each side of the cut with different, or same, material. In this configuration the main cutting blade  38  is sandwiched between two legs of a guide shaft  26 . The main cutting wheel  38  shown is a perforation wheel, as shown by the diagonal lines, so instead of making a full cut wheel  38  makes a perforation that can be later hand torn to the shape with the decoration on each side. Cutting wheel  38  can be interchanged to create different effects and different types of cuts or other operations like embossing, engraving, punching or any other desirable outcome. The screw head  23  maintains the assemblies on shaft  26 . The wave washer  22  allows the nut and tension adjustment  24  to remove slack from the assembly, which allows it to turn as freely or as tightly as the material being cut and decorated and the user needs and wants it to. The support screw  27  is sized to accept at least one cutting wheel  38  and at least one decorating wheel  36 . One or more cutting wheels  38  and one or more decorating wheels  36  and one or more sized spacers are assembled in varying configurations that perform various tasks of decorating and cutting. This allows these devices to make cut and decorated edges and also strips cut on both sides with decorations down the center. It can create one to many strips each with cut edges and or perforations and designs all at the same time. The decorating material supply  34  draws decorating material from the decorating material storage vessel  35 . If desired the decorating material supply  34  can be discarded and instead the decorating material supply pad  32  can store the decorating material. Replacing the decorating material supply pad  32  will replenish the decorating material supply. This configuration also allows for quick decorating material changes. 
     FIG. 8 shows a target material, like a sheet of paper or cloth, with edges created by the device of FIG.  7 . The single cut is surrounded by two decorated edges. The decoration is almost touching the cut edge because a small spacer  37  is used to separate the blade  38  from the decorating wheel  36 . The cut edges shown in FIG. 8 are made with a straight flat cutting wheel like the one shown in FIG.  5 . The decorated perforation  39  is created from a device configured with a perforation blade and two decorating wheels. 
     FIG. 9 shows an embodiment of the present invention that uses a swiveling blade nib assembly to allow easy creation of curved cuts and designs. The cutting blade  41  is attached to the decorating nib  40  and the swivel mount  55  to create an assemble that can rotate about the cutting edge of the blade. The blade nib end support  43  interfaces with the decorating material valve  54  that is attached to the blade nib support spring  45 . When pressure is applied to the blade  41  and nib  40  the decorating material valve  54  opens to provide decorating material to the nib  40 . Decorating material valves are generally known to those skilled in the art. Valve  54  includes a rounded and cut through piece of material that will keep the decorating material in the decorating material storage area  44  until pressure is applied then it will leak, at the seams of the cuts thus supplying decorating material. The decorating material that is released is drawn by the decorating material feed  48  and then through the decorating material exit opening  49  to the nib. Wicking or capillary action can draw the decorating material to the tip of the nib and the nib will draw the material to its end. The rounded top of the decorating material valve acts as a bearing for the blade nib end support  43  and helps lower friction to increase ease of swivel action. The blade and nib assembly is held in place by the blade nib retaining lock  42 . The blade nib retaining lock  42  is moveable far enough away from the blade nib assemble to allow it to be removed and replaced with a new or different blade nib assemble. This will allow a user to change the blade and nib either to replace a well-worn blade and/or nib or to use one with different characteristics like thickness or shape of nib or size or type of cutter. 
     FIG. 10 shows the blade with its end support  43 , decorating material feed  48 , decorating material exit opening  49 , blade nib attachment means  51  and cutting edge  50 . The use of each of these is outlined in the embodiment above. 
     FIGS. 11 a . and  11   b . show the nib  40  with swivel mounts  55  and duct  52  for blade. Swivel mount  55  is used to attach the nib and blade in a manner that will allow them to be firmly pressed to the target material yet still swivel to cut and decorate curves. 
     FIGS. 12 a . and  12   b . show the blade nib retaining lock  42  details. It has a fingernail pull recess  53 , and entry slot and a cylindrical cutout in the center that supports and snaps onto the center swivel mount attached to the blade nib assembly. 
     FIGS. 13 a . and  13   b . show the blade nib support spring  45 . This is made of a springy material that also acts as a barrier holding in the decorating material in the decorating material storage area  44 . When the blade nib support spring  45  is pressed, by the force of using the blade and nib, the slits in the decorating material valve open enough to allow decorating material to pass from storage to the decorating material feed  48 . 
     FIGS. 14 a - 14   d . show how the blade and nib will swivel in the direction of the desired cutting and decorating as the user uses the device. 
     FIG. 15 shows an attachment that allows a swivel cutting and decorating device, like the one described above in FIG. 9, to be more easily controlled. A swivel cutting and/or decorating device is attached to the device as shown in FIG.  20 . The user inserts the pen, cutting implement, or a cutting and decorating device into the pen and cutter opening  63  and screws it into the threaded pen attachment location  69 . This attachment can also be made by friction, a pin or other forms of attachment. Now the user can hold the edges of the device, with one to many, fingers on the finger grip  61 . The user can see the target material and the cutting and decorating tool through the magnifying lens  62 . By pushing down on the finger grip  61  the silicon like see through spring  64 , or a real spring, compresses allowing the blade and/or nib to contact the target material. Moving the device With the top element pressed down will cause the decoration and/or cutting to take place at the point the decorating and/or cutting assembly contacts the target material as seen through the lens. Rollers  66  assist the device moving across the target material and also keep the blade and nib from contacting the target material until engaged to do so. 
     FIG. 16 shows the top assembly  60  of the device. Its center opening  63  firmly holds the decorating and cutting device, which can have screw threads that mesh with those inside the center opening  63 . The assembly threaded opening  71  allows the top assembly  60  to be attached to the bottom assembly  65  via a screw passed from the bottom assembly  65  through the spring  64  and finally screwing into the top assembly  60 . 
     FIG. 17 shows one embodiment of a spring  64  that uses a piece of compressible clear material, such as, for example, gel or silicon, with openings molded or cut into it to allow it to match the openings in the top and bottom assemblies. The spring  64  acts as a spring and also allows the target material to be more viewable. 
     FIG. 18 is the bottom assembly  65 . The pass through  73  allows the pen to freely move up and down as the pressure on the top assembly  60  dictates it should. It also has a stop on it to keep the pen and or cutting device from slipping out the bottom of the entire device. Roller snap-in recesses  72  are designed to allow a ball bearing type roller to be snapped in place and then to freely turn to assist in rolling the device across a target material. Assembly screw recesses  68  allow a screw to connect the top and bottom assemblies, along with their integrated components, together. 
     FIG. 19 is a top view showing a device and one possible layout of rollers  66  and assembly screw recesses  68 . 
     FIG. 20 is an orthogonal view of one embodiment of the device showing the pen and or cutting device in the center. 
     The shape of the entire device can be any shape. A circle was selected as an example and should not be considered limiting. Hand conforming tear drop shapes, square, rectangle, oval, shapes of company logos and any other shape that would be desirable could be used. 
     FIGS.  21 . and  24 . show a modified blade roller assembly that uses the roller to distribute decorating material while cutting or uses the roller simply to assist in cutting or uses the roller to distribute a material or solution that performs a task or assists in cutting without decorating or applying any material. This embodiment of the invention uses a pull cutting blade  81  with a roller  80  set ahead of it. The roller  80  scores a path in front of the blade  81  assisting the blade in cutting along a specific path. The roller  80  also allows a user to make more accurate and intricate turns and curves. In addition to other benefits the roller  80  provides a cushion protecting the cutting blade and or limits the cutter&#39;s depth protecting beneath the material by pushing the cutter above the material. Ball bearings  82  are used to support the device in a manner that allows it to swivel freely. 
     FIGS.  22 . and  25 . show a modified blade roller assembly that uses the roller to distribute decorating material while cutting or uses the roller simply to assist in cutting or uses the roller to distribute a material or solution that performs a task or assists in cutting without decorating or applying any material. This embodiment of the invention uses a push cutting blade  81  with a roller  80  set behind it. The roller  80  assists the blade  81  in rolling across the target material. The roller  80  also allows a user to make more accurate and intricate turns and curves. In addition to other benefits the roller  80  also provides a cushion protecting the cutting blade and limits the cutter&#39;s depth protecting beneath the material by maintaining the cutter above the material. A low resistance sleeve  83  is used to hold the shaft in place in a manner that allows it to swivel freely. 
     FIGS.  23 . and  26 . show a modified blade roller assembly that uses the roller to distribute decorating material while cutting or use the roller simply to assist in cutting or use the roller to distribute a material or solution that performs a task or assists in cutting without decorating or applying any material. This embodiment of the invention uses a centrally located cutting blade  81  with, more than one, roller  80  set near it. The rollers  80  assist the blade  81  in rolling across the target material. The rollers  80  also allow a user to make more accurate and intricate turns, cuts and curves. In addition to other benefits the rollers  80  also provide a cushion protecting the cutting blade and limiting the cutter&#39;s depth protecting beneath the material by maintaining the cutter above the material. A low resistance sleeve  84  shaped and acting like a spring is used to hold the shaft in place in a manner that allows it to swivel freely. The ball end and concave low resistance mount means  85  allows the device to be attached to a receptacle that will hold it firmly in place and allow it to swivel. 
     In the embodiments shown in FIGS. 21,  22 ,  23 ,  24 ,  25  and  26  it is important to note that the blade can be made to be higher or lower than the rollers and/or at different angles in relation to each other to provide different advantages when cutting different materials. Separate adjustments are added to allow manual adjustment to be made allowing the user to adjust the orientation and/or height of the roller, or rollers, in reference to the blade or blades. These devices may be made, for example, with one or more blades and one or more rollers in any orientation or configuration that is found to be advantageous and/or as the needs of the task require or would be assisted by. 
     FIGS. 27,  28  and  29  show a blade and nib configuration that allows the user to set the tool so it will exhibit different characteristics. By moving the blade and or nib a user can change the way the tool works and acts. For example if the user moves the nib all the way out, toward the target material, and then moves the blade toward the inside of the device, further away from the target material, the user could set the blade so it only scores, instead of cuts through, the target material while it is decorating the target material. If the user moves the blade all the way into the device the device will still decorate the target material but will not score, mark or cut it. By moving the nib slightly into the device and the blade all the way out the user could cut the target material and only lightly mark it or move it further in and not mark it at all. Different combinations of relationships between the blade and nib and their performance on different target material can produce different useful results. This makes this tool quite useful and able to adapt to different target material and to perform many useful functions. 
     The following descriptions show some of the many ways the relationship between the protrusion of the blade and nib from or into the device and the relationship between the blade and nib can be used to create some of the many combinations of features this device can perform. These drawings are not meant to be limiting but simply meant to show examples of several of the almost infinite possible combinations of the blade, nib and device relationship. 
     FIG. 27 shows the blade  100  and nib  101  in a position that allows the user to cut and decorate simultaneously. The handles  102  allow the user to engage or disengage the blade and/or nib. A spring  103  helps to tension the blade and nib and the incremental movement position fins  106  work with ridges inside the case to cause the blade and nib to click as they are moved and also biases them to stay in the position they are set in. By placing more ridges inside the case the user has more ability to determine the incremental distance in the relationship between the blade and the nib and the blade and nib&#39;s protrusion or insertion into the device. The fin  106  works similar to a locking blade in a cable tie and the ridges are similar to the ridges in the cable tie&#39;s main strip. In a cable tie the locking blade and ridges allow for movement in only one direction but in this device the movement is allowed in both directions. 
     FIG. 28 shows the blade  100  and nib  101  in a position that allows the user to cut without decorating. The handles  102  allow the user to engage or disengage the blade and/or nib. Its other features are similar to the description of FIG. 27 above. 
     FIG. 29 shows the blade  100  and nib  101  in a position that allows the user to decorate without cutting. The handles  102  allow the user to engage or disengage the blade and/or nib. Its other features are similar to the description of FIG. 27 above. 
     The user, because of the almost infinite free movement between the blade  100  and nib  101 , can select any position for the blade  100  and nib  101 . This allows the user to take advantage of the different possibilities created by changing the orientation of the blade to the nib, the blade to the device, the nib to the blade, the nib to the device and the combination of the blade and nib&#39;s orientation to the device. Moving the blade and nib all the way into the device closes the device for storage, transportation, and protects the blade and nib and items they come in contact with. 
     FIG. 30 shows a side view of the blade  100  assembly. 
     FIG. 31 shows a side view of the nib  101  assembly. 
     FIG. 32 shows a top view of the blade  100  assembly with a protruding alignment pin to hold the blade and nib in alignment. 
     FIG. 33 shows the top view of the nib  101  assembly. 
     FIGS. 34 a .,  34   b . and  34   c . show three top views of the device with its blade and nib in three of their many possible combinations. FIG. 34 a . shows how the handles  102  would look, in this embodiment, when they are set for cut and decorate. FIG. 34 b . shows how the handles would look, in this embodiment, when they are set for decorate only. FIG. 34 c . shows how the handles would look, in this embodiment, when they are set for cut only. 
     The blade and nib can be moved in any combination and to orient themselves to each other and the device itself in any manner. Indicator indicia and or pronounced internal ridges and or internal or external stops can be added to the device to allow easy reference for setting the tool. If, for example, we find an optimal setting for a target material, like ⅛ inch thick leather, to be with the blade as far out as possible and the nib to be {fraction (1/16)} inch further away; toward the device, causing the blade to protrude {fraction (1/16)} inch beyond the nib. It could be noted on the device, in a visual, auditory, tactile or combination of any or all three methods of indication of this optimal position for the blade and the nib. This allows the user to set the device quickly for the task or material at hand. 
     FIG. 35 shows a bottom view of an embodiment of a multi-edged decorating and cutting device with three non-cutting colored nibs  121 ,  122 ,  123 , one colored nib  124  with internal cutter  129 , a four faced blade assembly  133  with four cutting edges  125 ,  126 ,  127 ,  128  and a case  120  holding everything. A user can use one cutter with two nibs simultaneously. For example if one orients the first cutting edge  125  directly toward the target material they will also be orienting the first color nib  121  and the second color nib  122  so that when the device is being used the end result will be a cutter with the decorating material from nib  121  on the one side of the cut and decorating material from nib  122  on the other side of the cut with the cut, made by cutting edge  125  toward the center. The user could also orient one of the non-intemal cutting nibs  121 ,  122 ,  123  toward the target material. This will allow them to apply decorating material without cutting. When the nib  124  with the internal cutter  129  is used it will apply decorating material from itself around the internal cutting blade  129 . The nib is used with cutting blades  127  and  128  and associated nibs  123  and  121  respectively to produce results similar to the other nib and without using the internal cutter. This nib is also used with its internal cutter  129  by itself. 
     FIG. 36 shows a bottom view of the four faced blade assembly  133 . 
     FIG. 37 shows a bottom view of the second color nib  122 . 
     FIG. 38 shows a bottom view of an embodiment with four nibs that contain internal cutters  129 . A spacer  130  is used to separate each nib, and thus each cutter, a specific distance. This keeps the nib far enough away to avoid contamination from one nib to another. This device can be used to create cuts on which both of its edges have applied the same decorating material or material to perform a specific task. The internal cutter will cut while the nib applies the decorating material around the cut. This device contains four different decorating materials or other types of materials. And the user selects which cutter and material they are applying by rotating the case, in reference to whatever is holding it be it their hand or some other holding device, to orient the correct nib and cutter for the task toward the target material. 
     FIG. 39 shows a side view of the device shown in FIG.  38 . This view shows how the internal blades  129  are attached to the nibs  124  via a blade to nib attachment means  137 . Also this device uses a sized spacer/separator  130  in place of a four faced blade assembly  133 , storage vessels  132  and an end cap  136 . This embodiment uses the spacer/separator  130  or a four faced blade assembly  133 . The springy connector supporting blade and spacer/separator  135  attaches the nibs  124  and internal cutters  129  assembly to the device in a manner that allows the blades and nibs to transfer pressure, applied during use, to compress the springy connector supporting blade and spacer/separator  135  to make the device feel responsive during use and to protect the blades and nibs. The decorating material storage separator  131  keeps the materials that feed each individual nib separate to avoid contamination from one decorating material storage vessel  132  to the other. 
     FIGS. 40 a . and  40   b . show a side and bottom view of a nib without an internal cutter. 
     FIGS. 41 a . and  41   b . show a side and top view of a four faced blade assembly. A sized spacer/separator would look similar to this with its fins protruding less than the ones shown for the blades because the fins would not need to contact the target material. 
     FIGS. 42 a . and  42   b . show a bottom and side view of a nib  124  with internal cutter  129  held together by a blade to nib attachment means  137  and the friction made by the assembly itself. 
     Referring to FIG. 43 there is shown a front view of a cutting tool support  504  with depth stop  500  and cutting tool  501 . The cutting tool support  504  is inserted into a case and is, supported by support fin  505 . Support shoulder  503  keeps the cutting tool support  504  in place and biases against it from being unintentionally forced into a case during use. The cutting tool support  504  depth stop  500  is set at an angle that is comfortable for use in a normal writing position. Other embodiments include other angles. Cutting tool  501  is oriented so that it will cut a target material when moved such that the sharp cutting edge is toward the cutting direction. The cutting tool  501  is welded to the cutting tool support  504  in a manner that allows only a specific portion of the blade to extend beneath the depth stop  500 . The extended portion of the blade is called the active cutting surface  502 . The active cutting surface  502  protrudes below the depth stop  500  the specific distance it is intended to cut. In this embodiment the cutting distance is set to about five thousands of an inch (0.005). This will allow the active cutting surface to cut only one sheet of a standard sheet of average copiers paper and also will cause the device to be unable to cut skin making the device very safe for use. Other embodiments of this invention set the active cutting surface  502  to allow it to cut through thicker or thinner sheets and to allow it to perform cuts on other materials that could also include skin. 
     FIG. 44 shows the side view of the device shown in FIG.  43 . Depth stop  500  is set to bias the possible cutting depth of the cutting tool  501 . Active cutting surface  502  is seen below the depth stop  500 . 
     FIG. 45 shows the bottom view of the device shown in FIG.  43 . 
     FIG. 46 shows a side view of a decorating and cutting device that uses the cutting tool support  504  with depth stop  500  and cutting tool  501  and nib  521  with safety zone  524 . Also shown are the case  520  and decorating and/or beneficial material storage vessel  522  and cap  523 . In this embodiment the nib  521  distributes decorating and/or beneficial material wicked from the decorating and or beneficial material storage vessel  522  onto target material. When enough pressure is exerted to compress the nib  521  safety zones  524  the cutting tool  501  will engage the target material and penetrate, as pressure is applied, until the depth stop  500  interfaces the target material. When the device engages the target material, the device is moved in a direction that allows the cutting tool&#39;s  501  active cutting surface  502  to cut to a maximum depth set by the depth stop  500  while the nib  521  decorates. 
     FIG. 47 illustrates the assembly of the tool  501 . Left nib  530 , cutting tool support  504  with cutting tool and depth stop and right nib  531  are sandwiched together to case  520  (FIG.  46 ). Spring  532  holds the nib and cutting tool assembly together at the tip while the case  520  holds together the balance of the body of the nibs and cutting tool support structure. Other embodiments use different supports including plastic molded nib holders with depth stop molded into the structure and other such designs allowing the nibs to cooperate with the blade and depth stop. Cap  523  protects the nibs  530  and  531  and cutting tool and any materials they may come in contact with. 
     FIG. 48 shows a front view of an embodiment of the present invention that uses a rotating cutting tool  543  with cutting edge  540  ground on at least one side and attached to cutting tool support  545  by shaft rivet  541 . The cutting tool support  545  is inserted into a case and is supported by support fin  505 . Support shoulder  503  keeps the cutting tool support  545  from being unintentionally forced too far into a case during use. 
     FIG. 49 is a side view of the device shown in FIG.  48 . Shaft rivet  541  attaches the rotating cutting tool  543  to the cutting tool support  545 . Cutting edge  540  extends a specific depth below the depth stop  500 . This allows the device to cut only to the set dept. 
     FIG. 50 shows a bottom view of the device shown in FIG.  48 . 
     FIG. 51 shows a front view of the rotating cutting tool  543 . In this embodiment the rotating cutting tool  543  has a ground edge  542  on only one side. This allows the depth stop to work more effectively because it keeps the active cutting edge  540  directly adjacent to the depth stop  500 . Shaft bore  544  is sized so that it will ride freely on shaft rivet  541 . 
     FIG. 52 shows a side view of a cutting tool support  545  with rotating cutting tool  543  attached by shaft rivet  541  penetrating only two sheets of the five sheets of paper  562  it is engaged against. The active cutting edge  540  extends the thickness of two sheets of paper beneath the depth stop  500 . Other embodiment set the rotating cutting tool  543  in different locations that allows consistent and repeatable cuts to be made to specific predetermined depths. This is useful when considering the operations of cutting the top sheet of one sheet of paper or if one needed to cut only the top eight sheets of 20 sheets of paper or when needing to accommodate different thickness of and/or grades and/or types of materials. 
     FIG. 53 shows a front view of a cutting tool support  504  with depth stop  500  and cutting tool  501  whose active cutting surface  502  set to cut only the top sheet of the stack of 5 pieces of paper  562 . Other embodiments set the relationship between the cutting tool  501  and blade stop  500  to perform differently by allowing them to cut deeper or shallower. 
     FIG. 54 shows a front view of a cutting tool support  568  with cutting tool depth slot  561 . The cutting tool depth slot  561  allows the rotating cutting tool  565  to be moved closer or farther from the target material and in relation to the depth stop  500 . This embodiment of the rotating cutting tool  565  is attached to the cutting tool support  568  by a screw  560  and nut  570 . By loosening the screw  560  and nut  570  and moving the rotating cutting tool  565  toward or away from the target material the rotating cutting tool  565  is positioned to cut as deep or shallow as desired or not at all. This embodiment is set to cut only the top sheet of the stack of 5 pieces of paper  562 . 
     FIGS. 55 and 56 show a front view of the cutting tool  565  showing the ground surface  567  and the square hole  566  that is used to align the cutting tool  565  to the correct angle no matter where it is positioned on the cutting tool support by the screw  563  and held in place by nut  571 . The screw  563  holds a square spacer  572  that aligns the cutting tool  565  in alignment with cutting tool depth slot  561  and thus the ground edge at the correct cutting angle. 
     Other embodiments of this invention use and take advantage of swiveling cutting tool supports that use cutting tools set off center to allow easy spiraling and curving cuts while still taking advantage of the depth stop. Other embodiments use depth stops set at different angles to allow the devices they interface to be used at different angles than the one shown. And still other embodiments use depth stops that can be moved in relation to the target surface and/or the cutting tool either in reference to angle or position. 
     While the invention has been described in connection with a preferred embodiment, it is not intended to limit the scope of the invention to the particular form set forth, but on the contrary, it is intended to cover such alternatives, modifications, and equivalents as may be included within the spirit and scope of the invention as defined by the appended claims.