PATENT DOCUMENT

Abstract:
The present invention is directed generally to building tools with improved comfort in gripping and/or efficient control that may be used in various manners and orientations. A handle and work object (e.g., trowel blade) may be connected together by a connecting member (or connecting means) that may be a sloped, angled, and/or substantially curved member, so that a user has increased hand orientation options and/or control over the tool while gripping the handle and/or connecting member in various manners and orientations. In various embodiment(s), the connecting member (e.g., a tang for a trowel) may be a relatively gradually and/or notably sloped, angled, and/or curved structure that may reasonably provide a comfortable extension of the handle and augment the gripping of the tool. The various tools may include a handle connecting member having construction whereby a portion of the sides of the handle connecting member are removed. Magnesium may be used.

Full Description:
This patent application claims priority to, and is a continuation of, U.S. patent application Ser. No. 13/888,281, filed on May 6, 2013, which claims priority to, and is a continuation of, U.S. Pat. No. 8,434,188 from U.S. patent application Ser. No. 12/212,809, filed on Sep. 18, 2008, which claims benefit of U.S. Provisional Patent Application No. 60/973,737, filed Sep. 19, 2007. These prior patent applications are hereby incorporated herein by reference for all purposes. 
    
    
     BACKGROUND 
     Field of the Invention 
     The present invention pertains to various building tools and methods related thereto. For example, the invention involves various methods and apparatuses for comfortably gripped and efficiently controlled building tools. Further, the invention involves various methods and apparatuses for high quality, durable and/or lightweight building tools. 
     Description of Related Art 
     Various tools have been known in the past for working with cements, concretes, mastics and/or muds to, for example, prepare, apply and/or finish a desired shape or smooth surface for various building surfaces. For example, some tools used for applying material to or preparing the surface of, for example, concrete, include trowels. These types of tools are typically hand tools that are used to apply materials for making and/or smoothing various building surfaces such as floors and walls and may be used to apply various materials to building surfaces. These tools may be used by skilled craftsman working on a number of surfaces for long periods of time during the work day. As such, a comfortable grip(s) may be particularly important in developing a most desirable building tool(s). 
     Referring to  FIGS. 1A-1D , one typical prior art trowel including a trowel tang and blade is shown. A handle  110  for gripping is provided. The handle has a generally oval or round shape. In particular, referring to  FIG. 1A , the trowel  100  includes a tang  150  that connects the trowel handle  110  to the trowel blade  105 . The tang  150  includes a handle connecting member  151 , a blade attachment member  152 , and a handle support member  153  (see  FIG. 1D ) that all cooperate as a tang  150  in connecting the trowel handle  110  to the trowel blade  105 . In the view of  FIG. 1A , the connecting member  151  has a slight curve to its upper half so as to reflect its shape on either side to somewhat follow the round sides of the handle  110 , but as shown below connecting member  151  has a side view that is substantially straight and vertical relative to the plane (horizontal when the trowel bottom surface of the blade is set on a horizontal surface) of the handle  110  and trowel blade  105 . In other words, when looking at the trowel handle from the top as shown in  FIG. 1C , the front or forward surface of the connecting member  151  of the tang has some curve to the left and the right of the center line, but when looking at the side view shown in  FIGS. 1B and 1D , that from top to bottom the connecting member  151  is substantially straight and vertical having only a very slight slant relative to perfect perpendicular. Further, the back surface of the connecting member  151  is substantially flat and also approximately perpendicular to blade  105  and main axis of the handle  110 . The very top, and a substantial portion of, the connecting member  151 , is also as wide as the handle  110 , so as to cover a forward face of the handle  110 , resulting in a very abrupt drop and bulky front end surface to the tang  150 . 
     Referring now to  FIG. 1B , a side view of a prior art trowel and trowel tang is shown. As more clearly shown in  FIG. 1B , the handle connecting member  151  is a substantially solid and straight member having a front surface  151 A and a back surface  151 B each with an approximately linear top-to-bottom and side-to-side slope. Further, the handle connecting member  151  has a narrow width measured from the front surface  151 A to the back surface  151 B. A typical trowel, for example, may have a handle connecting member  151  with a front-to-back width of approximately 1 cm (0.4 inches). The handle connecting member  151  is coupled at one end to the blade attachment member  152  at a connection point  154  slightly offset in a forward direction from the center of the blade attachment member  152 . This typical trowel has a connection point  154  so that the front surface  151 A meets the blade attachment member  152  at a point  154 A having a distance of approximately 9.5 cm (3.75 inches) from a front end  152 A of the blade attachment member  152  and the back surface  151 B meets the blade attachment member  152  at a point  154 B having a distance of approximately 11 cm (4.375 inches) from the front end  152 A of the blade attachment member  152 . Note that the front point  154 A has an abrupt angle that is approximately 90 degrees, and the back point  154 B has a slightly rounded connection point but is still approximately a 90 degree angle, with the vertical axis of the connecting member  151  being approximately perpendicular to the horizontal axis of the blade attachment member. As can be clearly seen from this side view in  FIG. 2B , the handle connecting member  151  is also connected approximately perpendicular to the blade attachment member  152 . The typical trowel may have a handle connecting member  151  with an angle (denoted  165 ) relative to the blade attachment member  152  of approximately 85 to 95 degrees. The blade attachment member  152  is elongated laterally across the trowel blade  105  and has a short height and narrow width that is used for coupling the blade attachment member  152  to the trowel blade  105 . The typical trowel may have a blade attachment member  152  with a height and width both of approximately ⅔ to 1⅓ cm (0.25 to 0.5 inches). Substantially the entire top surface of the blade attachment member  152  is approximately parallel to the trowel blade  105  having no slope so as to be approximately the same height across its entire length, from its very forward most point at the end of section  152 A, adjacent the connection point  154  of the connecting member  151  and blade attachment member  152  of the tang  150 , and through the very rearward most end of section  152 B. 
     Referring to  FIG. 1C , a top view of a typical trowel is shown. From this view it can be seen that the handle member  110  with front portion  150  is approximately ⅓ the width of blade  105  and oriented to the center of the blade width. The constant width of the blade attachment member  152  is also illustrated as width  1 F and  1 G at ends  152 A and  152 B of the blade attachment member  152 , respectively, and is the same in size. The blade attachment member  152  is mounted to the blade  105  at approximately the center of the blade width and extends across most of the blade  105  length. The handle  110  is held to the tang via a cap  115  and a nut or bolt  120 . Most notably in  FIG. 1C , the handle connecting member  151  is very narrow along the length of the blade  105 . The top most portion  151 C of the handle connecting member  151  is also very narrow and abuts the handle front portion  150 , but is slightly narrow than the handle  110  and handle front portion  150 . In any case, there is little lateral top surface of the handle connecting member  151  available onto which a user may place their hand, palm or finger on comfortably. 
     As more clearly shown in  FIG. 1D , showing the handle  110  and cap  115  in cross sectional taken along line  1 D and  1 E of the  FIG. 1C  top view, the handle connecting member  151  is connected at its other end to the handle support member  153  so as to be approximately perpendicular to the handle connecting member  151  and approximately parallel to the blade attachment member  152  and trowel blade  105 . As shown, the typical trowel may have the entire length of the handle support member  153  with an angle (annotated as  170 ) relative to the handle connecting member  151  angle of approximately 85 to 95 degrees, both relative to the plane of the blade attachment member  152 . As previously indicated, the typical trowel also has a handle connecting member  151  with an angle (annotated as  165 ) relative to the blade attachment member  152  of approximately 85 to 95 degrees. The handle support member  153  includes a forward portion  153 A and a rearward portion  153 B, both approximately parallel to each other and approximately perpendicular to the handle connecting member  151 . The rearward portion  153 B is substantially round in shape and thinner than the forward portion  153 A. The forward portion  153 A of the handle support member  153  is substantially square in shape and thicker than the rearward portion  153 B. The major lateral axis through hole of the handle  110  is substantially straight so that the substantially straight handle support member  153  may be assembled easily into the lateral through hole (from end to end of the handle  110 ) in the handle  110 . An inside forward portion of the trowel handle  110  is through hole is hollowed with a similar square shape of the handle support member forward portion  153 A such that the thickness and square shape of the forward portion  153 A of the handle support member  153  allows the trowel handle  110  to snugly fit onto the handle support member  153  and prevents side-to-side rotation about a center axis of the trowel handle  110  during use. An end cap  115  and end nut  120 , hollowed with a similar round shape, are attached to the end of the trowel handle  110  and handle support member  153 , respectively, so as to prevent front-to-back sliding of the trowel handle  110  during use. 
     The trowel handle  110  has a top surface  110 A and a bottom surface  110 B and side surfaces (not labeled), which together provide a user with a gripping area and have only slight curvature due to a gradually increasing width in the trowel handle  110 . The trowel handle  110  meets the handle connecting member  151  at a handle interface  145  (see  FIG. 1A ) in such a way that both the top surface  110 A and the bottom surface  110 B of the trowel handle  110  are adjacent to a portion of the handle connecting member  151  and are approximately perpendicular therewith. 
     These types of tools, for example trowels, are typically designed to be held by the hand of a user in a single manner and orientation. For example, with the typical prior art trowel shown in  FIGS. 1A-1D , the user would most comfortably grip the handle coming from a the direction of the back end of the trowel (end with the end cap  115 ) with their fingers, palm and thumb of one hand surrounding the central portion of trowel handle  110 . However, many users may find it more advantageous to shift, modify, and/or change the orientation of their method of holding the trowel or tool(s). Therefore, it is advantageous to build such trowel(s) or tool(s) to be comfortably gripped and efficiently controlled by the hand of a user in various manners and orientations so as to increase the comfort and control of such tools for various surfaces or for use during long periods of time. 
     In addition to being used on various surfaces and for long periods of time, these types of tools are exposed to various bumps, jolts and mechanical stresses, as well as corrosive substances in their use. Therefore, it is advantageous to build such tools to be cost effective, light in weight and durable against extensive use and stress as well as the corrosion from corrosive materials they are designed to work on (e.g., concrete, mastic, mud, etc.). 
     SUMMARY 
     The present invention is directed generally to building tools that have improved comfort in gripping and/or efficient control that may be easily used in various manners and orientations. Further, the present invention is directed generally to building tools that are high quality, durable, and lightweight so as to help reduce user fatigue that occurs from extended tool use. For example, various tools may connect a handle in approximately parallel orientation with and to a work object (e.g., tool blade) to be moved by means of the handle and manual hand motion. The handle and work object may be connected together by a connecting member (or connecting means) that is a sloped, angled, and/or substantially curved member, so that a user has increased hand orientation options and/or increased and improved control over the tool while gripping the handle and/or connecting member in various manners and orientations, now enabled, during use. In various embodiment(s), the connecting member (e.g., a tang for a trowel) may include at least one portion that is relatively gradually and/or notably sloped, angled, and/or curved structure that may reasonably provide a comfortable extension of the handle and not just connect the handle to the work object, but augment the gripping and control of the tool. Further, various tools may include a handle that is shaped to smoothly continue the slope, angle, and/or curvature of such handle connecting member so that a user may shift, modify, and/or change the orientation of his or her grip onto and/or along the handle connecting member so as to be closer to the work object to be moved, for increased control by comfortably overlapping his or her hand onto at least a portion of the handle connecting member. This may result in a handle connecting member that is an alternative and/or extension of the gripping locations that are available with the handle alone. 
     Still further, various tools may include a handle connecting member having construction whereby a portion of the sides of the handle connecting member are removed so as to reduce the weight of the tool and may be designed in such a way as to increasing the structural integrity of the handle connecting member. For example, the handle connecting member may be formed, at least in part, with an I-beam or ribbed structure or cross-section. 
     Yet further, various tool(s) may include a connecting member or means formed to connect the handle to the object to be moved (e.g., a blade) having additional means of an attachment member (e.g., blade attachment member) that is elongated laterally across the object to be moved, and may be at least partially gradually sloped downwardly (or built up or taller in various locations). For example, the attachment member may be at least partially gradually sloped downwardly from the point(s) where connected to the handle connecting member, so as to increase the strength of the connecting means and/or the connection point(s). Further, the at least partially gradually sloped downwardly attachment member may add little weight and maintaining most of the distance between the handle and itself and the object to be moved to ensure sufficiently large distance for comfortable gripping without obstructing a user&#39;s fingers or hand. Still further, the connecting member may have a narrower width closer to a connecting point to an attachment member (e.g., blade attachment member) than at a location that interfaces or abuts a handle portion. And still further, the connecting member may have, for example, a ¼ circle radius on both an upper surface and a lower surface such that the two surface (and the entire outer surfaces of the handle and connecting member) approximately follow one another in a relatively smooth circular radius or curvature that narrows the width of the connecting member from a location against which the handle rests and the connection point to the blade attachment member (e.g., following a reducing circumference along the front length of the handle that is the general design shape of the handle). Yet even further, various tools may be made, at least in part, using a material including, for example, magnesium for the connecting member and/or the attachment member (e.g., trowel tang) to help reduce the weight of the tool. 
     In various embodiment(s), a trowel may include(s) a tang that may connect(s) the trowel handle to the trowel blade. The trowel may be, for example, a concrete trowel including a cross-ground trowel, a flat back end finishing trowel, a round/round finishing trowel, etc. A handle connecting member may be included with the tang and may assist the tang in coupling the trowel handle to the trowel blade. A handle support member may also be included with the tang and may be attached to the handle connecting member in such a way that at least a portion of the handle support member is approximately parallel with the trowel blade. A blade attachment member may further be included with the tang and may be attached to the handle connecting member and elongated laterally across the trowel blade. The handle connecting member may be a sloped, angled, and/or substantially curved member having a cross section that is thicker in one area than another. In various embodiments, the handle connecting member may be a larger circular shape where it interfaces to the handle and taper to a smaller round or oval shape in an area close to where it connects to the blade attachment member. In the case where the handle connection member is substantially curved, the handle connecting member may have a curved top/front surface and a curved bottom/back surface that approximately follows the curvature of the top/front surface. In one variation, the top/front surface may be substantially convex (as viewed from the top surface perspective) and the bottom/back surface may be substantially concave (as viewed from the bottom surface perspective) so as to approximately follow the curvature of the top/front surface and curve toward a major axis of the trowel handle. In another variation, the handle outer surface may be curved and may be shaped so to follow the curvature of the top/front surface and the bottom/back surface of the handle connecting member until the handle is approximately parallel to the trowel blade. In this case, the smooth transition between the handle and the handle connecting member permits a user to shift his or her normal forward grip in a lateral direction toward and/or over or around the handle connecting member for increased control of the trowel blade while maintaining a comfortable lower forward grip. In addition, the sloped design and/or smooth transition between the handle and the handle connecting member may also facilitate a user reversing the orientation of his or her lower forward grip by 180 degrees for dealing with various surfaces or action with the trowel while maintaining a comfortable reverse grip. In this case, the user&#39;s palm may rest comfortably even though it is primarily on the connecting member. In still another variation, the handle connecting member may have an I-beam construction whereby a portion of the sides of the handle connecting member are removed so as to reduce the weight of the trowel without reducing the structural integrity of the handle connecting member. In yet another variation, the blade attachment member may be gradually sloped from approximately the point where connected to the handle connecting member, so as to increase the strength of such connection point between the handle connecting member and the blade connecting member. In yet another variation, the trowel may be made, at least in part, of a magnesium material so as to create a more light weight trowel. For example, the trowel tang may be made of a magnesium alloy or metal including magnesium. 
     Still further aspects included for various embodiments will be apparent to one skilled in the art based on the study of the following disclosure and the accompanying drawings thereto. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The utility, objects, features and advantages of the invention will be readily appreciated and understood from consideration of the following detailed description of the embodiments of this invention, when taken with the accompanying drawings, in which same numbered elements are identical and: 
         FIGS. 1A-1D  depict a prospective view, side view, top view and partial cross-sectional side view, respectively, of a traditional trowel; 
         FIG. 2  is a perspective view of an exemplary trowel, according to at least one embodiment of the invention; 
         FIG. 3  is a side view of an exemplary trowel, according to one embodiment of the invention; 
         FIG. 4  illustrates a typical gripping on the handle area of an exemplary trowel, according to at least one embodiment of the invention; 
         FIGS. 5A-5B  illustrates two of the possible forward gripping orientations of an exemplary trowel, according to at least one embodiment(s) of the invention; 
         FIGS. 6A-6B  illustrate two of the possible reverse gripping orientations of an exemplary trowel and the inclusion of removing some material along a connecting member, according to at least one embodiment of the invention; 
         FIG. 7  is a top view of an exemplary trowel, according to at least one embodiment of the invention; 
         FIG. 8  is a cross-sectional view of an exemplary trowel of  FIG. 7  taken across the line A, according to at least one embodiment of the invention; 
         FIG. 9  is a front view of an exemplary trowel, according to at least one embodiment of the invention; and 
         FIG. 10A-10C  are cross-sectional views of an exemplary trowel of  FIG. 9  taken across the lines  920 A- 920 B,  925 A- 925 B, and  930 A- 930 B, respectively, according to at least one embodiment of the invention. 
     
    
    
     DETAILED DESCRIPTION 
     The present invention is directed generally to building tools that are comfortable to grip and efficient to control in various manners and orientations. The present invention is also generally directed to building tools that are high quality, durable and in some cases lightweight. As such, the present invention includes various embodiments showing various apparatuses and methods for working with, for example, concrete, masonry, mastic, mud(s), finishing drywall, etc. Various embodiment(s) are directed to a trowel that may typically be used for applying and/or smoothing various building surfaces such as floors, walls, etc. 
     Various embodiments of the present invention are directed to a new geometry of the tang and handle of hand tools, for example trowels, floats, etc., that may be used for working with concrete, masonry, mastics, muds, adhesives, etc. in the building trades. Historically, these types of hand tools have had tang and handle configurations that were connected to one another and to a blade at approximately right angles (as show by the prior art trowel show in  FIGS. 1A-1D  described above), leaving the only comfortable grip area to be on the handle portion. The present inventions “Grip Right” or “EZ Grip” has been designed with ergonomics so as to provide a feel good grip(s) that has multiple comfortable gripping areas and orientations so that the tool may be gripped high or low along a handle and handle connection member area (e.g., a full tang—handle length) so that a worker&#39;s hand feels comfortable and remains feeling good even after many hours of working with the tool. The present invention handle and handle connecting member may also be designed so that the handle and handle connecting member may be gripped comfortably closer to the tools working member (e.g., trowel blade) to increase directional control of the tool for precision performance. For example, the handle and handle connecting member may have a smooth transition, the handle-to-tool connecting member and handle may have a curved radius shape to fit into the palm or support the fingers of a worker&#39;s hand, and/or the handle-to-tool connecting member may be at an angle or slope to the handle and/or the working portion of the tool. The invention may also include various other unique aspects, like the use of an I-beam type construction to increase the strength of the handle connecting member while maintaining a light weight structure. The invention may also include various aspects relating to the tang to blade connecting feature where the tang has a non uniform geometry where it has a taller cross sectional height where the blade is attached. This further increases the strength of the tool while keeping the weight as a minimum. In any case, the present invention marks a significant advancement in hand tool handle and connecting member design that increase the ease, comfort and versatility of working with the hand tool(s). This is particularly true for the embodiments of trowels and/or floats described below, but as one skilled in the art would understand, the generalities of the present invention may be applied to various other handle and handle connection applications and be equally useful. 
     Referring now to  FIG. 2 , an exemplary trowel  200  according to one embodiment of the invention will now be described. A trowel  200  includes a tang  250  that connects the trowel handle  210  to the trowel blade  205 . The tang  250  includes a handle connecting member  251  and a blade attachment member  252  that assist the tang  250  in coupling the trowel handle  210  to the trowel blade  205 . The blade attachment member  252  is elongated laterally across the trowel blade  205  and is coupled at one side to the trowel blade  205 . The handle connecting member  251  is coupled at one end to the blade attachment member  252  at a connection point  254  and at another end to the handle  210 . In this case, the handle connecting member  251  may be a substantially curved member having a curved top/front surface  251 A and/or a curved bottom/back surface  251 B, each with an approximately non-linear top-to-bottom slope. In one variation, the top/front surface  251 A may be substantially convex (as viewed from the top and front sides) and/or the bottom/back surface  251 B may be substantially concave (as viewed from the bottom and back sides) so as to curve toward a major axis of the trowel handle  210 . The bottom/back surface  251 B may approximately follow the curvature of the top/front surface  251 A so as to be approximately parallel thereto. In one variation, the handle connecting member  251  narrows from top-to-bottom when looking at it from the side and from the front. The substantially curved top/front surface  251 A may have a convex curvature from approximately the location where it meets the trowel handle  210  at the handle interface  245 , to the location where it meets the blade attachment member  252  at a point  254 A. In order to provide a smooth connection between the top/front surface  251 A and the blade attachment member  252 , the substantially convex curvature of the top/front surface  251 A may transition to being concave (as viewed from the top and front sides) at an inflection point  254 A shortly before reaching the blade attachment member  252 . This permits the top/front surface  251 A of the handle connecting member  251  to gradually become parallel with a top surface of the blade attachment member  252 , rather than having an abrupt angle formed at point  254 A. This curved transition may help to strengthen the connection point  254 A and provide a comfortable surface for resting a portion of a user&#39;s hand. The substantially curved bottom/back surface  251 B may have a concave curvature (as viewed from the bottom and back sides) from approximately the location where it meets the trowel handle  210 , at the handle interface  245 , to the location where it meets the blade attachment member  252  at a point  254 B. In order to provide a smooth connection between the bottom/back surface  251 B and the blade attachment member  252 , the substantially concave curvature of the bottom/back surface  251 B may remain concave past a point  254 B where the bottom/back surface is perpendicular to a top surface of the blade attachment member  252 . This permits the bottom/back surface  251 B of the handle connecting member  251  to gradually become parallel with a top surface of the blade attachment member  252 . These substantially curved surfaces ( 251 A and  251 B) of the handle connecting member  251  also provide a location sufficiently parallel to the trowel blade  205  so that a user may comfortably rest or surround his or her hand in order to apply a force in a direction perpendicular and/or parallel to the trowel blade  205 . This area of the connecting member  251  is thus designed to not only support the handle  210 , but also so that it may be used itself as a hand support and/or grip area (by itself or in conjunction with the handle  210 ) and may provide increased control over the trowel blade  205  during use because a user&#39;s hand may reside closer to the connection point  254  and trowel blade  205 . It is also noteworthy that the interface location  245  between the handle connecting member  251  and the handle  210  may be in a forward direction and angled toward the front of the trowel  200  at an angle that is not substantially perpendicular to the lateral axis of the handle  210 . 
     In another variation, the handle connecting member  251  may be a substantially rounded member having a rounded top/front surface  251 A and/or a rounded bottom/back surface  251 B, each with an approximately non-linear side-to-side slope. Of course, the top/front surface  251 A and the bottom/back surface  251 B may meet at a location on the side of the handle connecting member  251  so that the handle connecting member  251  has an approximately circular or oval shape. These substantially rounded surfaces ( 251 A and  251 B) of the handle connecting member  251  provide a smooth, comfortable, and ergonomic location that a user may rest or surround his or her hand during use. In various embodiments, the handle connecting member  251  and at least a portion of the handle  210  may share a radial centerline axis  260  that is a smooth arc from connection point  254  into approximately one fourth of the handle  210  that is closest to the handle connecting member/handle interface  245 . In one variation, the handle connecting member  251  may be both a substantially curved member from top-to-bottom and a substantially rounded member from side-to-side. In this case, the substantial curvature of the handle connecting member  251  permits a user&#39;s hand to rest on or surround the handle connecting member  251  in order to apply a force in a direction perpendicular and/or parallel to the trowel blade  205 , while the substantial roundness of the handle connecting member  251  increases the comfort of such action. Of course, in at least one variation, rather than being curved, the connecting member front/top surface and/or back/bottom surface, may be substantially straight and at an angle relative to the plane of the blade  205  and lengthwise axis of the handle  210 . 
     In still another variation, the handle connecting member  251  may have a widened width measured from the front surface  251 A to the back surface  251 B. For example, the handle connecting member  251  may have a front-to-back width of approximately 1.5 to 2.5 cm (0.6 to 1.0 inches) that may vary along the radial curved center axis of the handle connecting member  251 . At the lower location near the connection location  254 , the thicker width may provide an increase in the strength of the handle connecting member  251  with the blade attachment member  252  so that significant forces being applied by a user to the handle and/or handle connecting member  251  by a user during use of the trowel  200  does not break the tang. The thicker width may also provide a user with a more substantial support or grip structure so that a user may more comfortably and ergonomically rest or grasp the handle connecting member  251 . 
     In yet another variation, the trowel handle  210  may also be a somewhat curved member having a curved top/front surface  210 A and/or a curved bottom/back surface  210 B, each with an approximately non-linear or curved top-to-bottom slope. The top/front surface  210 A may be somewhat convex and/or the bottom/back surface  210 B may be somewhat concave so as to curve from the outer surfaces of the handle connecting member  251  toward a major axis of the trowel handle  210 . The curvature of the top/front surface  210 A and/or the bottom/back surface  210 B of the trowel handle  210  may continue or follow the curvature of the top/front surface  251 A and/or the bottom/back surface  251 B of the handle connecting member  251 . In one exemplary embodiment shown in  FIG. 2 , the curvature of the trowel handle  210 , however, continues only until a major axis of the trowel handle  210  is approximately parallel with the blade attachment member  252  and trowel blade  205 . Further, a shallow circular or oval indentation where a user&#39;s thumb or index finger might be placed on the top/front surface  210 A of the handle  210  while gripping in a normal forward manner may provide a comfortable and ergonomic grip (see, for example, the top view in  FIG. 7 , item  765 ). This shallow indentation may only be a slight aberration in the curvature of the top/front surface  210 A so that the top/front surface  210 A may still be said to continue the curvature of the top/front surface  251 A of the handle connecting member  251 . In order to provide a smooth transition between the handle connecting member  251  and the trowel handle  210 , the front-to-back width of the trowel handle  210  near the handle interface  245  also follows the front-to-back width of the handle connecting member  251  (and visa versa). In this case, the smooth transition between the trowel handle  210  and the handle connecting member  251  effectively adds length to the available hand support or grip area because a user&#39;s hand may comfortably, easily, and ergonomically overlap the handle interface  245  onto the top/front surface  251 A and bottom/back surface  251 B of the handle connecting member  251 . Although not shown clearly in  FIG. 2 , the sides of the trowel handle  210  and the handle connecting member  251  may also be coincident, at least at the handle interface  245 . The hand support or grip area, therefore, may be enlarged to consist not only of the top/front surface  210 A, at least portions of the side surfaces, and the bottom/back surface  210 B of the trowel handle  210  but also the top/front surface  251 A, at least portions of the side surfaces, and the bottom/back surface  251 B of the handle connecting member  251 . As the tang  250  including the handle connecting member  251  may be made, at least in part, of metal, the enlarged hand support or grip area may include metal. 
     In still another variation, the tang  250  may be made completely, or at least in part, of a material including magnesium, aluminum, long fiber carbon or glass filled materials, etc., so as to create a more light weight trowel. The material including magnesium may be magnesium alloy. For example, a magnesium alloy such as AZ31C containing approximately the following approximate percentages of materials: Magnesium: Al: 2.5-3.5%; Cu: 0.05% max; Fe 0.005% max; Mn 0.20% min; Ni 0.005% max; Si 0.30% max; Zn 0.60-1.40%; Ca 0.30% max; OT 0.30% max; Mg the remainder %. This composition or alloy of Magnesium may be particularly useful for forming parts by extrusion. Further, the formulation may have variations from those above, for example, the composition of magnesium may vary within the above by +/−5% for Al and Mg, and +5% on Mn. Another useful magnesium compound or alloy, may include the following substances in the following amounts: Aluminum (Al) at 8.5% to 9.5%; Copper (Cu) at 0.25% maximum; Manganese (Mn) at 0.15% minimum; Nickel (Ni) at 0.01% maximum; Silicon (Si) at 0.20% maximum; Zinc (Zn) at 0.45% to 0.9%; other materials (OT) at 0.30% maximum; and Magnesium (Mg) is the % remainder. This composition of Magnesium may be particular good for forming parts by casting. Further, other formulations are possible, such as the formulation of the magnesium alloy may vary within the above by +/−5% for Al and Mg, and +5% on Mn. The trowel blade  205  may be made of high carbon steel covered with a clear coat or from Stainless Steel. 
     The blade attachment member  252  and handle connecting member  251  may be part of an integral tang  250  made of the same material or may be welded together and made of the same or different materials such as materials including, for example, aluminum and/or magnesium. Of course, one skilled in the art would appreciate that a connecting member or tang of lightweight magnesium alloy may be useful in coupling a blade and a handle for a variety of other hand tools or other applications not specifically described herein where desired ergonomics, weight, durability, gripping and strength may be similar to the trowel described herein as exemplary embodiments. 
     The present invention may be made using the following process. The trowel  200  may be assembled form various parts. The handle  210  may be typically molded from various types of plastic and may (but need not) have an over-molded soft surface such as a thermoplastic elastomer. The tang  250  described in detail above may be produced by a casting process which produces a nearly finished part directly out of the mold. Cleaning excess parting line material from the casting process and machining the tang attachment features may complete the process for these parts. The trowel blade  205  may be stamped from hard sheet metal. In this manner, the blade  205  blank may then have fastening studs, or posts welded in place along the center of the blade. These studs may match mating holes machined into the base of the tang. The posts and mating holes may be spaced approximately 1-2 inches apart. The tang  250  may then be pressed onto the posts permanently securing the tang to the blade. The handle  210  may then be assembled onto the tang  250  and secured with an end cap (similar to  FIG. 1 ) or plug (not shown in  FIG. 2, 315  in  FIG. 3 ) and nut  220  or nut  220  alone. 
     Referring now to  FIG. 3 , this embodiment shows a side view of a trowel  300  as viewed from the left side. Although not shown, the right side view may be a mirror image of the left side view. The trowel  300  of this embodiment is similar to the trowel in the embodiment shown in  FIG. 2 , but includes an angled handle connecting member  351  that may be connected to the blade attachment member  352  at a forward position with increased strength due to an inclined upper surface of the blade attachment member  352  near the connection point  354 . In this case, the handle connecting member  351  may be connected to the blade attachment member  352  in such a way that a major axis of the handle connecting member  351  along the line from “ 3 A” to “ 3 B” has an angle or slope, C ( 360 ), relative to a major axis of the blade attachment member  352  along the line from “ 4 A” to “ 4 B” of approximately 30 to 60 degrees. In a preferred embodiment, the angle or slope, C ( 360 ), between the handle connecting member  351  and the blade attachment member  352  is, for example, approximately 45 degrees. The slope may vary between, for example, approximately 20 degrees and approximately 75 degrees. This angle or slope, C ( 360 ), of the handle connecting member  351  relative to the blade attachment member  352  may provide increased control over the trowel blade  305  while gripping the trowel handle  310 . As this angle or slope, C ( 360 ), may also contribute to determining the area or distance, D, in between the trowel handle  310  and the blade attachment member  352 , the angle or slope, C ( 360 ), may be sufficient to provide an area along the bottom/back surface  310 B of the handle  310  that may be gripped by a user&#39;s finger(s) or hand. For example, with the handle connecting member  351  at an angle of approximately 45 degrees relative to the blade attachment member  352 , the area between the bottom/back surface  310 B of the trowel handle  310  and the blade attachment member  352  may be approximately 2.5 to 3.5 cm (1 inch to 1.3 inches). Further, the angle or slope, C ( 360 ), may also be sufficient to provide an area along the bottom/back surface  351 B of the handle connecting member  351  that may be gripped by a user&#39;s finger(s) or hand. For example, with the handle connecting member  351  at an angle of approximately 45 degrees relative to the blade attachment member  352 , the area between the bottom/back surface  351 B of the handle connecting member  351  and the blade attachment member  352  may be approximately 1.5 to 2.5 cm (0.6 inches to 1 inch). 
     The handle connecting member  351  may also be connected laterally along the blade attachment member  352  at an approximately forward connection point  354  toward the front end of the blade attachment member  352 A. For example, the trowel  300  may have a connection point  354  so that the front surface  351 A meets the blade attachment member  352  at a point  354 A having a distance of, for example, approximately 6.5 to 7.5 cm (2.5 to 3.0 inches) from a front end  352 A of the blade attachment member  352  and the back surface  351 B meets the blade attachment member  352  at a point  354 B having a distance of, for example, approximately 10 to 11 cm (4 to 4.375 inches) from the front end  352 A of the blade attachment member  352 . This forward connection point  354  may provide increased control over the trowel blade  305  while gripping the trowel handle  310 , especially where the handle connecting member  351  is substantially curved and may thereby shift the position of the trowel handle  310  more towards the rear of the trowel  300 . 
     The connection point  354  between the handle connecting member  351  and the blade attachment member  352  may be strengthened by forming it to have included a gradually sloping top surface, for example, at least a portion of an upper surface of the blade attachment member  352  on either side, or both sides, of the connection point  354 . A forward sloping surface  352 C (shown as a dashed line) may gradually incline from the front end  352 A of the blade attachment member  352  to a point  354 A where the top/front surface  351 A of the handle connecting member  351  meets the blade attachment member  352 . Of course, the forward sloping surface  352 C may begin its gradual incline from any point along the entire length of the blade attachment member  352  between the front end  352 A and the point  354 A. Likewise, a rearward sloping surface  352 D (shown with dashed line) may gradually incline from any point along the rear of the blade attachment member  352 , for example, at a midpoint thereof or near end  352 B of the blade attachment member  352 , to a point  354 B where the bottom/back surface  351 B of the handle connecting member  351  meets the blade attachment member  352 . Of course, the rearward sloping surface  352 D (shown with dashed line) may also begin its gradual incline from any point along the entire length of the blade attachment member  352  between the rear end  352 B and the point  354 B. In one embodiment like shown in  FIG. 2 , the rearward sloping surface  352 D may begin its gradual incline from approximately the center of the length of the blade attachment member  352  between the rear end  352 B and the point  354 B. These inclined surfaces ( 352 C and  352 D) may provide additional structural strength to the connection point  354  so that a user may apply additional force to the trowel handle  310  and handle connecting member  351  without fracturing or breaking the trowel tang at connection point  354 . This is particularly important when using lighter weight material(s), such as a magnesium alloy or compound as the tang material, that is less strong. 
     Referring now to  FIGS. 4, 5A-5B, and 6A-6B , various embodiments of the present invention are shown that include exemplary manners and orientations in which a user may grip the exemplary trowel.  FIG. 4  shows a side view of a trowel  400  having one exemplary unique tang design according to at least one embodiment of the present invention and illustrate it as being gripped in a fairly typical or normal forward manner. As shown, when gripping the trowel in a forward manner the user&#39;s hand  425  (in this example the user&#39;s left hand shown in dashed lines) is gripping the trowel handle  410  only with the fingers encircling the sides and lower handle area  410 B, while the palm of the user&#39;s hand and the thumb abut the upper handle surface  410 A. In this case, the hand gripping is achieved entirely on the handle  410  and does not touch, cover or encroach on the handle connecting member  451 . The user&#39;s arm in this grip is approximately parallel with the major lateral axis of the handle  410  and the major lateral axis of the blade attachment member  452 . This is a fairly typical user&#39;s grip as is used with typical trowel and trowel tang designs (e.g.,  FIGS. 1A-1D ). Further, with this particular tang design, having an approximately 45 degree slope of the handle connecting member  451 , and hand  425  with grip illustration shown in  FIG. 4 , one can see that the distance D between the bottom surface  410 B and top of the blade attachment member  452  provides plenty of room for the user&#39;s fingers when gripping the handle  410  in the forward manner. In fact, the slope of the handle connecting member  451  may be change to approximately 30 degrees and still provide sufficient distance D, with or without the increased height  425 D of blade attachment member  452 . 
     Referring now to  FIG. 5A , a side view of a trowel  500  is shown according to one embodiment of the present invention and includes further exemplary illustrations of how a user may grip the handle  510  and handle connection member  551  in a lower forward manner. In one exemplary manner, the hand  525  (shown in dashed lines) may be shifted forward and downward onto the tang ( 550 ) so as to cover a portion of the handle connecting member  551  and the handle  510 . As shown, in this gripping manner the index finger of the hand  525  may surround the back/underside surface  551 B and the thumb may abut a portion of the front/top surface  551 A of the handle connection member  551 . The thumb side of the palm of the hand  525  may cover the interface  545  between the handle  510  and the handle connection member  551 . In one variation, the thumb of the user&#39;s hand  525  may be advanced lower on the front/top surface  551 A of handle connection member  551  so as to the be adjacent to or abut the upper surface of the front portion  552 A (or surface  552 C) of the blade attachment member  552 . In any case, the index finger of hand  525  may comfortably rest against or abut the lower back concave area where the handle connection member  551  and the back part of blade attachment member  552  meet. Furthermore, if the tang includes strengthening slope  552 D on the back portion of blade attachment member  552 , the index finger may also abut or rest on this raised surface also, while the distance D is sufficient for the index finger to comfortably fit into this are of the tang. These forward gripping positions are facilitated by the angled and smooth transition handle connection member  551  and may provide more stable control of the trowel during various uses. 
     Referring now to  FIG. 5B , a side view of a trowel  500  is shown according to one embodiment of the present invention and includes a grip similar to the grips shown in  FIG. 5A  in a lower forward manner. However these exemplary grips are modified so that the top/front surface  551 A of the handle connecting member  551  is used as primarily a hand grip support with much of the palm of the hand  526  resting on the handle connection member  551 . In these cases, the index finger of the hand extended so that the tip of the finger rests along the top/front surface  551 A of the handle connection member  551 . Alternatively, the index finger may be extended ( 526 A) so that the index finger tip rests on the front portion  552 A of the blade attachment member  552  while the rest of the index finger no longer rests on the top/front surface  551 A of the handle connection member  551 . In this case, the palm of the hand  526  (shown in dashed lines) may be shifted forward a bit so that most of the palm of the hand straddling interface  545  is forward of interface  545 . As such, the middle finger may then abut the curved surface in the rear of the connection area  554  between the handle connecting member  551  and the blade attachment member  552 . Once again, these forward gripping positions are facilitated by the angled and smooth transition handle connection member  551  and may provide more stable control of the trowel during various uses. 
     Referring now to  FIG. 6A , a side view of a trowel  600  according to one embodiment of the present invention is shown that includes a cut out side area  651 C and another exemplary hand  625  (shown in dashed lines) grip orientation, a reverse grip. In this example, a lower reverse hand grip orientation is shown. In the lower reverse hand grip orientation, approximately one half of the palm of the hand  625  may rest comfortably on the forward/top surface  651 A of the handle connecting member  651  and may straddle interface  645  between handle connecting member  651  and the handle  610  with a large portion of the palm resting on the forward most portion  610 A of the handle  610 . The four fingers may surround the sides and the lower/back portion  651 B of the handle connecting member  651  and the sides and lower portion  610 B of the handle  610 , with the majority of the finger grip area being on the handle  610 . Although, the butt of the palm of the hand  625  rests squarely on the handle connecting member  651  and provides the primary force during working with the trowel  600 . Given the smooth radial curvature of the handle connecting member&#39;s  651  front/top surface  651  and bottom/back surface  651 B, a comfortable and controlled reverse hand grip is enabled and there are no abrupt angles or edges on the trowel tang that may cause discomfort or blisters from extended reverse hand grip use of the trowel. In this embodiment the pinky finger may fit comfortably in the rounded rear facing surface of the connection area of the handle connecting member  651  and the blade attachment member  652  at connection area  654  as a result of sufficient distance D. This embodiment also shows that the pinky finger may abut the bottom/back surface  651 B of the handle connecting member  651  and may abut the top of the blade attachment member  652 , particularly if a slope  652 D is provided. 
     Further, the exemplary trowel shown in  FIG. 6A  includes a cut-away, indent, or valley area  651 C in the side of the handle connecting member  651 . The opposite side of the handle connecting member  651  may be symmetrical to the side shown in  FIG. 6A . This area may help to reduce the weight of the tang and trowel, with little or no loss of the strength of the handle connecting member  651  by forming an I-beam type cross section of the handle connecting member  651 . This variation will be described in more detail below with reference to  FIGS. 8-10C . 
     Referring now to  FIG. 6B , an exemplary side view of a trowel  600  according to one embodiment of the present invention is provided and includes a hand  626  (shown in dashed lines) exemplary gripping in a lower reverse manner, but the grip has been modified so as to rotate the grip, move it slightly further toward the back of the trowel and handle, and extend the index finger across the top surface  610 A of the handle  610  while moving the thumb (also shown in dashed lines) to the far side of the handle  610 . Although the hand  626  fingers and thumb orientation is moved further toward the back of the handle  610 , the primary pressure point of the hand  626  remains the palm area of the hand  626  and the butt of the palm of the hand  626  rests squarely on the handle connecting member  651 , particularly on the front/top surface  651 A of the handle connecting member  651 . Again, in this manner and orientation of gripping, the handle connecting member  651  may be the primarily hand support mechanism while the handle with the fingers and thumb orientation thereon may become a control arm for proper orientation and movement of the trowel  600 . Once again, in this embodiment the pinky finger may fit comfortably in the rounded rear facing surface of the connection area of the handle connecting member  651  and the blade attachment member  652  at connection area  654 . The pinky finger may also abut the bottom/back surface  651 B of the handle connecting member  651  and may abut the top of the blade attachment member  652 , particularly if a slope  652 D is provided. 
     Referring to  FIG. 7 , a top view of an exemplary trowel  700 , according to at least one embodiment of the present invention is shown. In this embodiment a thumb indent  765  has been added to the handle  710  and the I-beam cut away  751 C has been indicated on the handle connection member  751 , but is not the primary embodiment shown. The top view illustrates the rectangular shape of the blade  705  having straight sides. One skilled in the art recognizes that the blade may be one of many other shapes or designs, for example rounded, notched, irregular, etc., depending on the intended use of the trowel  700 . The blade attachment member  752  of the tang is shown in this view as having ends  752 A and  752 B, and a width or thickness of 7 F which may be in the range of, for example, 0.8-1.2 cm (¼ to ½ inches). Although the width may be wider, this exemplary range has proven sufficient for the stresses that this trowel will typically experience, even when the tang is made of lighter and less strong materials such as a metal including magnesium. The handle connection member  751  may be tapered from a narrow width equal to the width of  7 F (e.g., 0.8-1.2 cm (¼ to ½ inches)) where it connects to the blade attachment member  752  up to a width of, for example, 2.5-3.5 cm (⅞ to 1⅜ inches) at the interface  745  of the handle connection member  751  and the handle  710 . In preferred embodiments the width of the handle  710  and the abutting portion of the handle connection member  751  are made to be the same size so that there is a smooth transition in dimension between the two members. The width of the handle  710  at its widest portion may be, for example, 3.5 to 4.5 cm (1⅜ to 1⅞ inches), but may be made to any width as long as it fits comfortably in a user&#39;s hand. The far end of the handle  710  may be rounded. As will be seen more clearly in  FIGS. 9 and 10A-10C , the handle may also preferably have a rounded or oval cross-section so that a user&#39;s hand may fit comfortably around it. As noted above, the handle may include a thumb indent or detent  765  where a thumb may comfortably set when the handle  710  is gripped in a typical forward manner. Further, the handle  710  may be attached to the tang using a plug, spacer or washer  715  and a nut or bolt  720 . A cross-sectional line  6 D- 6 E is provided so that a cross-section of handle  710  may be provides and the handle support member may be clearly seen and explained relative to  FIG. 8  below. 
     Referring now to  FIG. 8 , a partial cross-sectional view (handle section  810 ) of an exemplary trowel of  FIG. 7  taken across the line  7 F- 7 F in  FIG. 7  is shown, according to at least one embodiment of the invention. In this Figure it is shown that the tang may also include a unique handle support member  853 . The handle support member may have three separate areas, handle orientation portion  853 A, handle attachment stud  853 B and handle rotation reduction mechanisms  835 C that operate to ensure proper handle  810  mounting, connection, and orientation. As can be seen, the handle support member  853  and the hollow center interior of the handle  810  have two different angles incorporated therein. Various angles  800 C,  800 G, and  800 E are shown for the various different slopes of the tang and handle support portions as illustrated with lines  800 A- 800 A,  800 B- 800 B, and  800 D- 800 D. These angles and slopes are different than traditional trowel tangs and handle support configurations, and enable manufacturability of the curved or angled hand grip to the tang and comfortable gripping of the tool. As such, the handle support member  853  and hallowed out center interior of handle  810  have at least one angle that is not parallel with the plane of the blade  805  or the blade connecting member  852  axis. In this embodiment, the main axis  800 A- 800 A of the handle orientation portion  835 A is at an angle  800 C, which may be, for example, approximately 10 to 20 degrees from the approximately horizontal axis  800 B- 800 B of the handle axis stud  853 B (which is approximately parallel with the lateral main axis  800 F  0   800 F of the blade attachment member  825 ). (Compare to  FIG. 1D  that shows a straight handle support member  153 .) As noted previously, angle G (formed by axis  800 D- 800 D and  800 F- 800 F) may be approximately 45 degrees and may be formed at a larger or smaller angle as desired. The rotation reduction mechanisms  853 C may be triangular shaped protrusions that are located approximately in the center of each side of a square shaped handle orientation portion  853 A. The square shape of the handle orientation portion  853 A may provide the primary proper orientation and rotation reduction for the handle  810 , and the rotation reduction mechanisms  853 C may provide secondary rotation reduction and may result in the hollow end (female) of the handle  810  appear in a pattern, for example an 8 pointed star shape, to match. Finally, the far hollow or hollowed out end of the handle  810  may be capped with a holed pug  815  through which a threaded end of the stud  853 B may slide through. A nut  820  may then be threaded onto the threaded end of the stud  853 B so that the plug and handle may be secured to the handle support member and pulled tight against the handle connecting member  851  at the interface  845 , so as to be securely attached to the tang. 
     Referring now to  FIG. 9 , a front or forward perspective view of an exemplary trowel is shown, according to at least one embodiment of the invention. This view clearly shows the indented sides  951 C on the left and right sides forming an I-beam shape on the handle connecting member  951 . The handle  910  is shown to be at the top of the handle connecting member  951 . The blade  905  is coupled to the bottom of the blade attachment member  952 . The top of the blade attachment member  952  is attached to the bottom of the handle connecting member  951 . Further, the handle connection member  951  may have a thicker top portion G and thinner bottom portion F, so as to smoothly transition from the interface with the handle  910  and the width of the blade attachment member  952  to improve the comfort of gripping the handle  910  and handle connecting member  951 . Cross-section lines  920 A- 920 B,  925 A- 925 B, and  930 A  930 B, are provided to better indicate the removal of portions of the left and right side of the handle connecting member  951 , as will be shown in  FIGS. 10A-10C . 
     Referring to  FIG. 10A-10C , cross-sectional views of an exemplary trowel of  FIG. 9  with exemplary portions of the handle connecting member  910  removed to reduce weight, as taken across the lines  920 A- 920 B,  925 A- 925 B, and  930 A- 930 B in  FIG. 9 , respectively, are shown, according to at least one embodiment of the invention. These figures show the varying cross sections of the connecting member  951 . With respect to  FIG. 10A , this is a cross-sectional view taken across line  930 A- 930 B as provided by this exemplary embodiment. In this case the cross-section is taken high on handle connecting member  951  close to the handle  910  interface in and area that does not have material removed and is solid  1010 . As shown, this area of the handle connecting member  951  is approximately an oval or egg shape  1005 . With respect to  FIG. 10B , this is a cross-sectional view taken across line  925 A- 925 B as provided by this exemplary embodiment. In this case the cross-section is taken at approximately the middle section of the handle connecting member  951  and shows how material has been removed from the left side  1015  and right side  1020  of the handle connecting member  1051 . As shown, in this exemplary embodiment the removal of material on the left side  1015  and right side  1020  results in an approximately I-beam shaped cross-section. With respect to  FIG. 10C , this is a cross-sectional view taken across line  920 A- 920 B as provided by this exemplary embodiment. In this case the cross-section is taken at the lower portion of the handle connecting member  951  and shows how material has been removed from the left side  1025  and right side  1030  of the handle connecting member  1051 . As shown, in this exemplary embodiment the removal of material on the left side  1015  and right side  1020  results in an approximately I-beam shaped cross-section, albeit somewhat large on one side. As shown, the I-beam construction may have one portion thicker than another, e.g., the back/rear area may be thicker than the front portion. Although the reduced weight and removal of material in this exemplary embodiment results in an approximately I-beam shape, one skilled in the art would appreciate that material may be removed in a number of different ways and resulting shapes, and still provide sufficient weight reduction and strength for the material used to construct the tang and/or handle connection member  951 . 
     Various processes may be used for forming the tang. One process includes injecting material into a mold having the desired geometry. If the material is metal such as Aluminum or magnesium a casting method may be used. If the material is a plastic, an injection molding process may be used. These processes may be used to create all or any part of the tang. In any case, once cast or injected, the mold may be opened and the part(s) may be removed. The part(s) may require minor finishing to complete, if there are some imperfections relative to the final desired shape(s). Another variation may be to insert mold a piece of stronger material imbedded inside a less strong lighter material. 
     Although a particular embodiment(s) of the present invention has been shown and described, it will be understood that it is not intended to limit the invention to the preferred embodiment(s) and it will be obvious to those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention. Thus, the invention is intended to cover alternatives, modifications, and equivalents, which may be included within the spirit and scope of the invention as defined by the claims. Accordingly, the scope of the present invention should be determined not by the embodiments illustrated above, but by the claims appended hereto and their legal equivalents.