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This application is a continuation-in-part of U.S. patent application Ser. No. 12/817,617 filed Jun. 17, 2010, which is a continuation of U.S. patent application Ser. No. 12/220,102 filed Jul. 22, 2008 which claims the benefit of U.S. Provisional Patent Application Ser. No. 61/005,739 filed Dec. 7, 2007. 
    
    
     FIELD OF THE INVENTION 
     The present invention relates generally to safety components and more particularly to nosing components for architectural structures and improved manufacturing thereof. 
     BACKGROUND OF THE INVENTION 
     Safety devices are used on architectural structures in a variety of environments to reduce risk. Many environments exist where various poor lighting scenarios occur, for example, dimmed lighting or darkness due to a power failure or smoke resultant from a fire. Risks may occur when people attempt to navigate in poorly lit environments; such risks include physical injury, lack of orientation, lack of information regarding navigation and lack of familiarity with the environment. To mitigate these risks, illuminated safety devices exist that are typically installed on stairs, floors, walls, and handrails such as that disclosed in application Ser. No. 12/215,971 filed Jul. 1, 2008, entitled Safety Handrail Apparatus and Manufacturing Methods, incorporated herein by reference. 
     But, these prior art devices are deficient in several respects including limitations in design, manufacturability and functionality. One limitation is due in part to material compositions of the device. For example, U.S. Pat. No. 4,522,861 requires a material mixture including zinc sulfide, copper phosphorescent pigment, bleached aluminum oxide and silicon carbide; U.S. Pat. No. 5,904,017 requires a material including a transparent resin mixed with zinc sulfide particles; and U.S. Pat. No. 5,103,608 requires lumilux-N pigment carried by a two part epoxy. 
     Another limitation of the prior art devices is due in part to material requirements such as an adhesive. For example, U.S. Pat. No. 6,632,506 requires traction tape with an adhesive; and U.S. Pat. No. 4,360,557 requires a laminate with a pressure sensitive adhesive. 
     Yet another limitation of the prior art devices is due in part to inflexibility in design, which further results in costly and time-consuming manufacturing. For example, U.S. Pat. No. 5,898,814 includes a device with multiple parts including an illuminating plane to emit light that is reflected by a reflecting member; U.S. Pat. No. 4,058,942 includes a device that requires a transparent covering strip positioned over a fluorescent material strip; and U.S. Pat. No. 6,554,446 includes a device that requires electrically activated light sources such as seat-mounted lamps, or beacon lamps. 
     These prior art devices are limited in functionality by only serving as a safety device. There is a desire for improved safety nosing components that provide other functionality, for example, a non-slip surface, dock boat bumper, illumination guide, an illuminated boat fender or advertising medium. 
     While the prior art devices fulfill their respective particular objectives and requirements, the need still remains for safety nosing components and manufacturing methods thereof that fulfill the deficiencies of these devices and provide additional functionality. The present invention satisfies this need. 
     SUMMARY OF THE INVENTION 
     The improved safety nosing component and methods of the present invention fulfill the deficiencies in design, manufacturability and functionality of prior art devices. The present invention includes improved material compositions and material requirements. Additionally, the present invention is flexible in design thereby reducing cost and time associated with manufacturing. Embodiments according to the present invention contemplate one-step, two-step, or three-step manufacturing processes. Certain embodiments of the present invention may also provide functionality in addition to a visual safety marker. 
     For purposes of this application, an architectural structure is any physical formation. The present invention is discussed herein with respect to steps, decks and docks, but any physical formation is contemplated such as floors, walls, ceilings, piers, decks, balconies, hallways, bridges, wharfs, landings, platforms, fences, ladders, stairways, escalators, elevators, parking lots, boats, ships, planes, automobiles, and arenas just to name a few. It is further contemplated the present invention can be the architectural structure itself such as a stake or post, for example, a deck post and sign post. 
     The safety nosing component may be attached to an architectural structure of any construction, such as wood, composite wood, cement, fiberglass, plastic, metal, concrete, steel, stone, brick, glass, asphalt, carpet to name a few. The safety nosing component may be portable or permanently secured to an architectural structure such as by using hardware including screws or nails, adhesive including liquid or tape adhesive, or Velcro®. The safety nosing component may further include an attachment member to assist with securement to an architectural structure. 
     In one embodiment, the safety nosing component according to the present invention includes a base element and a photoluminescent light emission element. Additional embodiments may further include a substrate element. 
     The base element, in one embodiment, includes a main member with an inside surface, outside surface, first edge, second edge, third edge and fourth edge. It is contemplated any of the edges of the main member may include a bevel feature, for example, to prevent shoes or feet from catching on the safety nosing component. According to the present invention, the base element may be any length, width, depth, shape or size. For example, in one embodiment, the base element may be about and including 3 feet to about and including 12 feet in length. In another embodiment, the base element may be about and including 20 feet or greater in length. 
     In another embodiment, the base element includes a main member as described above as well as a support member. The support member includes an interior surface, exterior surface, first border, second border, third border and fourth border. It is contemplated any of the borders of the support member may include a bevel feature, for example, to prevent shoes or feet from catching on the safety nosing component. The main member and support member unite at an edge of the main member and a border of the support member. The main member and support member are united such as to form approximately a ninety-degree angle between the two elements, although any angle resultant from the application of the safety nosing component is contemplated. 
     In another embodiment of the present invention, an edge of the main member and a border of the support member are united via a living hinge member. A living hinge member is a thin flexible hinge that may be formed during manufacturing such as by injection molding or may be a separate part such as a thin strip of material, such as thermoset or thermoplastic resin, polyethylene or polypropylene, that is molded into the component to create a line along which the component can bend. Properly designed and executed, the living hinge member can be closed and opened over the life of the component with little or no loss of function. 
     The base element includes a channel member extending from a proximate end to a distal end and is formed by boundaries. The channel member may be positioned on either the main member or support member of the base element. More specifically, the channel member may be positioned on the outside surface of the main member or the exterior surface of the support member. The channel member may run along the entire length or a portion of the entire length of the outside surface of the main member or exterior surface of the support member. 
     Any depth of the channel member is contemplated in order to receive the light emission element. It is further contemplated that the channel member can be any cross-sectional shape such as dovetail, triangular, square, to name a few. The channel member may be, for example, about and including ½ inches to about and including 2½ inches in width. 
     The light emission element is any length, width, depth, shape or size for positioning within the channel member of the base element. The light emission element stores energy, for example, as by absorbing photons and releasing the energy as light over a duration of time. The light emission element is capable of producing a sustained visible glow including in darkness such as at a minimum of one hour or longer. According to the present invention, the light emission element is a material with a fluorescent or photoluminescent quality, for example, strontium oxide, strontium aluminate, strontium silicate with magnesium or metal sulfides such as calcium sulfide, strontium sulfide, zinc sulfide, and cadmium sulfide. The light emission element may further be a metal or polymer. 
     The base element and light emission element of the present invention are made of any material that can be molded or extruded, for example metal such as aluminum or powdered metals, composite lumber, and polymers, thermoset or thermoplastic resins. Polymers include plastics such as thermoplastic, thermoset plastic, polyurethane, polyethylene, polypropylene and engineering plastic, for example, synthetic polymers including nylon. The materials may further be compounded with a glass fiber or powdered metal to maintain rigidity such that the component does not warp or twist during manufacturing or installation. 
     The material used for the safety nosing component is easily cut, for example on a table saw or miter saw, to form various configurations such as to accommodate varying lengths or corners. It is further contemplated that the material may be cured by a radiation source such as ultraviolet (UV) light or contain a UV additive in the material. Additionally, the material may be impact modified to improve the material properties such as wear, non-slip, and weatherability, for example 2000 kilojewels of weatherability. The material may also be compounded with a flame retardant additive to meet certain fire codes and regulations. 
     The materials used to manufacture the present invention may further be compounded with any color concentrate. This contemplates color matching, such as deck stains, paints, and composite lumber colors. The entire safety nosing component may be manufactured with any color concentrate, including those that emit light such that the entire component illuminates. 
     In another embodiment of the present invention, the safety nosing component further includes a substrate element. The substrate element includes a top face and a bottom face along with a first side, second side, third side and fourth side. The substrate element according to the present invention is made of any material that can be molded or extruded, for example metal such as aluminum, or polymers. Additionally, the substrate element may include a substance such as a film, pad, metal, grit or tape such as a pre-finished, cut to size, non-skid friction substance and may further include a self adhesive backing used in co-extrusion or triple-extrusion processes. The substrate element is any length, width, depth, shape or size to be positioned adjacent to the light emission element. The advantages of a substrate element are that it may optimize the illumination of the light emission element by preventing the base element from “bleeding through” the light emission element. In a preferred embodiment, the substrate element is white although any color is contemplated to achieve the advantages discussed herein. 
     For purposes of this application, the term “light emission element” used herein may include either the light emission element or the light emission element including substrate element. 
     The light emission element includes an upper face and a lower face along with a first wall, second wall, third wall, and fourth wall. Although numerous configurations are contemplated, in a preferred embodiment the light emission element, is positioned substantially about the channel member and is about and including ½ inches to about and including 2½ inches in width and runs along the entire length or a portion of the entire length of the channel member. 
     In another embodiment, the present invention allows configuration into any desired length or shape by interconnecting any number of individual nosing components. For example, a first nosing component may be interconnected to a second nosing component and so on to form a continuous linear component or to form a corner component for architectural structures with bends or curves. Interconnection includes insert injection molding, overmolding, heat stake, weld, snap fit such as annular snap fit or cantilever snap fit, adhesive, adhesive tape, fasteners, chemical bonding, mechanical fit, or interference fit. For purposes of this application, the term “weld” includes sonic weld, vibration weld, orbital weld, ultrasonic weld, frictional weld, spin weld, radio frequency weld and laser weld, to name a few. 
     The present invention is manufactured by extrusion, co-extrusion, triple-extrusion, injection molding, insert injection molding, or two-shot molding. Extrusion is a process for manufacturing wherein material is pushed or drawn through a die in the desired shape of a fixed cross-sectional profile of the component. The component is cooled and solidified as it is pulled through the die. According to the present invention, the base element, the substrate element and light emission element may each be extruded. 
     Co-extrusion is the manufacturing process of extruding two or more materials through a single die with two or more orifices arranged so that the two or more materials, which may further be of different color, merge and weld together. Each material is fed to the die from a separate extruder, but the orifices may be arranged so that each extruder supplies two or more plies. Each ply may be of the same material, or each ply may be of different materials such as one ply of a polymer material and the other ply of a non-skid friction substance that is co-extruded upon the polymer material. In one embodiment according to the present invention, the base element and the light emission element are co-extruded using two plies to achieve the safety nosing component. In another embodiment, the base element and the substrate element are co-extruded. In yet another embodiment, the light emission component and substrate element are co-extruded. 
     Triple-extrusion is the manufacturing process similar to co-extrusion, except that three or more materials are extruded through a single die with three or more orifices arranged so that the three or more materials merge and weld together. The three or more materials of a triple-extrusion process may each be of different color or may each be of different material. Each material is fed to the die from a separate extruder, but the orifices may be arranged so that each extruder supplies three or more plies. Each ply may be of the same material, or each ply may be of different materials, for example, one ply of a photoluminescent polymer, one ply of aluminum, and one ply of a different material, such as a non-skid friction substance, tape substance, shiny metal, or a white polymer. An embodiment according to the present invention includes triple-extruding the base element, substrate element and light emission element. 
     It is also contemplated that the elements of the present invention can include a texture element created by a calendering process during the extrusion, co-extrusion, or triple-extrusion process. Calendering includes a series of hard or heat-treated pressure rollers used to create a texture element, for example on the outside surface of the main member of the base element, the exterior surface of the support member of the base element, the upper face of the light emission element, or top face of the substrate element. A texture element includes, for example, cleats, ridges, or grooves to form a non-slip surface tread, dock illumination guide, dock bumper, a boat fender or advertising constituent. An advertising constituent may be the advertisement itself or a pocket for receiving an advertisement. The embodiments of the present invention that include a dock bumper provide additional functionality of cushioning an impact of an incoming water vessel. The embodiments of the present invention that include an advertising constituent provides additional functionality of an advertising medium. For example, an advertisement may be positioned on or within the base element or light emission element. An advertisement may even be positioned on or within the substrate element. 
     It is further contemplated that the elements of the present invention can include a texture element created by a laser etched detail during injection molding, insert injection molding, or two-shot molding. 
     Injection molding is a manufacturing process for making components by injecting materials at high pressure into a mold shaped as the inverse of the desired shape of the component. In one embodiment, the base element and light emission element are individually injection molded. In another embodiment, the base element, substrate element and light emission element are individually injection molded. The elements are then interconnected. 
     Interconnection includes insert injection molding, overmolding, heat stake, weld, snap fit such as annular snap fit or cantilever snap fit, adhesive, adhesive tape, fasteners, chemical bonding, mechanical fit, or interference fit. For purposes of this application, the term “weld” includes sonic weld, vibration weld, orbital weld, ultrasonic weld, frictional weld, spin weld, radio frequency weld and laser weld, to name a few. 
     It is also contemplated that certain elements are extruded and others are injection molded after which the elements are interconnected. For example, the base element is extruded and the light emission element is injection molded or the base element is injection molded and the light emission element is extruded. Other examples include a co-extruded base element and substrate element and an injection molded light emission component, or a co-extruded light emission element and substrate element and an injection molded base element. 
     Insert injection molding is a manufacturing process that includes an insert part that is placed into the mold cavity prior to injecting material to encapsulate the insert part. According to the present invention, the insert part may be the base element, the light emission element, the light emission element and substrate element, or the base element and substrate element. The insert part may be manufactured, for example, by extrusion, co-extrusion, injection molding, or even formed applications wherein a malleable material such as metal is formed into a desired any length, width, depth, shape or size. In one embodiment, the insert part is the base element such that the light emission element or light emission element and substrate element is injected molded to encapsulate the insert part. For example, the light emission element is insert injection molded into an aluminum metal base element. In another embodiment, the insert part is the light emission element such that the base element or base element and substrate element is injected molded to encapsulate the insert part. In another embodiment, the insert part is the light emission element and substrate element such that the base element is injected molded to encapsulate the insert part. In yet another embodiment, the insert part is the base element and substrate element such that the light emission element is injected molded to encapsulate the insert part. 
     Two-shot injection molding allows the production of a component from two different materials, which may further be of different color, at the same time during one machine cycle. The two different materials may be joined to form the component, for example, through a heat and pressure process or bonded through mechanical interference. In one embodiment, the base element and light emission element are manufactured with a two-shot injection molding process. In another embodiment, the base element and substrate element are two-shot injection molded. In yet another embodiment, the substrate element and light emission element are two-shot injection molded. 
     In one embodiment of the present invention, the safety nosing component is overmolded, otherwise referred to as in-molded. Overmolding improves efficiency and can be achieved with injection molding, insert injection molding, or two-shot molding manufacturing processes. With overmolding, only one element of the component is molded in one material, and that element is manipulated so an additional material can be molded around, over, under, or through it to complete the final component. 
     In embodiments that include a substrate element, the light emission element and substrate element may be manufactured using extrusion, co-extrusion, injection molding, insert injection molding and two-shot injection molding. The light emission element including substrate element are then assembled with the base element such as by insert injection molding. In embodiments where the base element is manufactured via extrusion, injection molding, or insert injection molding, the light emission element including substrate element are interconnected to the base element. Again, interconnection includes insert injection molding, overmolding, heat stake, weld, snap-fit such as annular snap fit or cantilever snap fit, adhesive, adhesive tape, fasteners, chemical bonding, mechanical fit, or interference fit. 
     Other embodiments include separately manufacturing each of the base element, light emission element and substrate element such as by extrusion, injection molding or insert injection molding. Then, the light emission element, substrate element and base element are interconnected. 
     Yet other embodiments may include manufacturing the base element and substrate element such as by co-extrusion, injection molding, insert injection molding, or two-shot molding. The light emission element may then be assembled with the base element such as by insert injection molding. In embodiments where the light emission element is manufactured via extrusion, injection molding, or insert injection molding, the light emission element is interconnected to the base element including substrate element. 
     Yet other embodiments may include a base element of a malleable material such as aluminum that can manufactured using forming processes. The light emission element may then be interconnected on the base element. Metal forming processes include: stamping, bending, spinning, stretching, drawing, ironing, wheeling, roll forming, and incremental sheet forming. 
     Other embodiments may include co-extruding a polymer material and a non-skid friction substance such that the non-skid friction substance only covers a portion of the polymer material. The co-extruded non-skid friction substance and polymer material are insert molded into the base element, wherein the base element overmolds the portion of the polymer material without the non-skid friction substance such that the non-skid friction substance is flush with the base element. 
     An object of the present invention is to provide an improved safety nosing component that complies with all current and future contemplated industry standards and specifications, including Property Services Agency (PSA), International Building Code (IBC), National Fire Protection Association (NFPA), International Code Compliance (ICC), American National Standards Institute (ANSI), International Residential Code (IRC), and American with Disabilities Act (ADA). 
     Yet another object of the present invention is to reduce risks that may occur when people attempt to navigate in poorly lit environments. The present invention provides components that function as a safety egress or ingress pathway to quickly evacuate people in the case of an emergency. 
     Another object of the present invention is to provide components that serve additional functions such as a non-slip surface, dock bumper for boats, illumination guide, an illuminated boat fender or advertising medium. 
     Another object of the present invention is to provide a safety nosing component manufactured by extrusion, co-extrusion, triple-extrusion, injection molding, insert injection molding, two-shot injection molding, or any combination thereof. 
     Yet another object of the present invention is to provide an interconnecting safety nosing component system. The present invention contemplates any configuration by interconnecting any number of individual nosing components. 
     Yet another object of the present invention is to provide a safety nosing component that requires little to no maintenance. 
     Yet another object of the present invention is to provide a light emission element that does not lift or peel away from the substrate element or the base element. 
     Yet another object of the present invention is to provide a manufacturing process for a component comprising compatible materials as well as a component comprising non-compatible materials. 
     Another object of the present invention is to protect architectural structures from wear and maintenance regardless of substance, e.g., such as wood, composite wood, cement, fiberglass, metal, concrete, steel, stone, brick, glass, asphalt, carpet. 
     These and other aspects, features, and advantages of the present invention will become more readily apparent from the attached drawings and the detailed description of the preferred embodiments, which follow. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
       The preferred embodiments of the invention will be described in conjunction with the appended drawings provided to illustrate and not to the limit the invention, where like designations denote like elements, and in which: 
         FIG. 1  is a perspective view of a safety nosing component shown as a stair nosing component in accordance with one embodiment of the present invention; 
         FIG. 2  is an exploded perspective view of a base element and light emission element of a safety nosing component in accordance with an embodiment of the present invention; 
         FIG. 3  is an assembled perspective view of a base element and light emission element of the safety nosing component of  FIG. 2  according to the present invention; 
         FIG. 4  is a side view of a base element and light emission element of the safety nosing component of  FIG. 2  according to the present invention; 
         FIG. 5A  is a side view of a base element and light emission element including substrate element of a safety nosing component in accordance with an embodiment of the present invention; 
         FIG. 5B  is a side view of a base element and light emission element including substrate element of a safety nosing component in accordance with another embodiment of the present invention; 
         FIG. 5C  is a side view of a base element and light emission element including substrate element of a safety nosing component in accordance with another embodiment of the present invention; 
         FIG. 6  is a bottom view of the base element of the safety nosing component according to one embodiment of the present invention; 
         FIG. 7  is a side view of a base element of the safety nosing component of  FIG. 6  according to the present invention; 
         FIG. 8  is a perspective view of a safety nosing component shown as a dock nosing component in accordance with one embodiment of the present invention; 
         FIG. 9  is a side view of a base element and light emission element of a safety nosing component with additional functionality as a dock bumper and illumination guide for incoming water vessels in accordance with an embodiment of the present invention; 
         FIG. 10  is a perspective view of a safety nosing component with additional functionality of an advertising medium in accordance with an embodiment of the present invention; and 
         FIG. 11  is a perspective view of a safety nosing component with additional functionality of an advertising medium in accordance with another embodiment of the present invention. 
     
    
    
     DESCRIPTION OF PREFERRED EMBODIMENTS 
     Preferred embodiments of a protective flooring device according to the present invention are generally shown by referring to the accompanying drawings. 
     A safety nosing component  10  is shown in  FIG. 1  as stair nosing component  15  in accordance with one embodiment of the present invention. As shown in  FIG. 1 ,  FIG. 2 ,  FIG. 3  and  FIG. 4 , the stair nosing component  15  according to the present invention includes a base element  100  and light emission element  300 . Additional embodiments may further include a substrate element  200  as shown in  FIG. 5A ,  FIG. 5B  and  FIG. 5C . 
     In  FIG. 1 ,  FIG. 2 ,  FIG. 3  and  FIG. 4 , the base element  100  includes a main member  110  with an inside surface  111 , outside surface  112 , first edge  113 , second edge  114 , third edge  115  and fourth edge  116 . 
     In this embodiment, the base element  100  includes a main member  110  as described above as well as a support member  120 . The support member  120  includes an interior surface  121 , exterior surface  122 , first border  123 , second border  124 , third border  125  and fourth border  126 . As shown, the main member  110  and support member  120  unite at the second edge  114  of the main member  110  and the second border  124  of the support member  120 , although uniting any edge or border is contemplated. The main member  110  and support member  120  are united such as to form approximately a ninety-degree angle between the inside surface  111  of the main member  110  and the interior surface  121  of the support member  120 , although any angle is contemplated. 
     The outside surface  112  of the main member  110  further includes a texture element  160 , shown here as cleats  161  to form tread  165  to serve as a non-slip surface. It is contemplated the texture element  160  may further form an advertisement element as described more fully with respect to  FIG. 10 . 
     As shown, the inside surface  111  of the main member  110  includes an attachment member  150 , although it is contemplated the support member  120  may include an attachment member. The attachment member  150  as shown is a conduit structure  151 . In this embodiment, adhesive  154  is applied to the conduit structure  151  to secure the safety nosing component  10  to an architectural structure. 
     The base element  100  includes a channel member  140  extending from a proximate end  141  to a distal end  142 . The channel member  140  may be positioned on either the main member  110  as shown, or on the support member  120  of the base element  100  as shown in  FIG. 9 . More specifically, the channel member  140  is positioned on the outside surface  112  of the main member  110  as shown, or on the exterior surface  122  of the support member  120  as shown in  FIG. 9 . 
     As shown in  FIG. 1 ,  FIG. 2 ,  FIG. 3  and  FIG. 4 , channel member  140  runs along the entire length of the outside surface  112  of the main member  110  formed by a first boundary  143 , second boundary  144  and third boundary  145  between a proximate end  141  and distal end  142 . The channel member  140  is positioned such that the proximate end  141  and distal end  142  are located on the third edge  115  and fourth edge  116  respectively, although it is contemplated the proximate end  141  and distal end  142  may be located on the first edge  113  and second edge  114  respectively. As shown, the first edge  113  includes a bevel feature  170 . 
     The light emission element  300  includes an upper face  301  and a lower face  302  along with a first wall  303 , second wall  304 , third wall  305 , and fourth wall  306 . The light emission element  300  is positioned substantially about the channel member  140  such that the lower face  302  of the light emission element  300  abuts the first boundary  143  of the channel member  140 . Additionally, the first wall  303  abuts the second boundary  144  and the second wall  304  abuts the third boundary  145  such that the proximate end  141  and the distal end  142  of the channel member  140  align with the third wall  305  and the fourth wall  306  of the light emission element  300  respectively. 
     As shown in  FIG. 5A ,  FIG. 5B  and  FIG. 5C , the base element  100  of the safety nosing component  10  further includes a substrate element  200 . The substrate element  200  includes a top face  201  and a bottom face  202  along with a first side  203 , second side  204 , third side  205  and fourth side  206 . 
       FIG. 5A  is a side view of a base element  100  and light emission element  300  including substrate element  200  of a safety nosing component  10  in accordance with an embodiment of the present invention. As shown, the substrate element  200  is positioned substantially about the channel member  140  such that it is located between the base element  100  and the light emission element  300 . The bottom face  202  of the substrate element  200  abuts the first boundary  143  of the channel member  140  and the top face  201  of the substrate element  200  abuts the lower face  302  of the light emission element  300 . Further, the third side  205  of the substrate element  200  aligns with the proximate end  141  of the channel member  140  and the third wall  305  of the light emission element  300 . Likewise, the fourth side  206  of the substrate element  200  aligns with the distal end  142  of the channel member  140  and the fourth wall  306  of the light emission element  300 . 
     In this embodiment, the channel member  140  has a second boundary  144  including a bevel feature  171  and a third boundary  145  with a bevel feature  172 . Additionally, the first side  203  and the second side  204  of the substrate element  200  include reverse-bevel features  173  and  174  respectively. The first wall  303  and the second wall  304  of the light emission element  300  also include reverse-bevel features  175  and  176  respectively. The bevel features mate with the reverse-bevel features in order to overmold the base element  100 . This secures the substrate element  200  and the light emission element  300  within the channel member  140  of the base element  100 . 
       FIG. 5B  is a side view of a base element  100  and light emission element  300  including substrate element  200  of a safety nosing component  10  in accordance with another embodiment of the present invention. As shown, the light emission element  300  includes an attachment member  150  on the lower face  302 . The attachment member  150  as shown is a pair of stake structures  152 . 
       FIG. 5C  is a side view of a base element  100  and light emission element  300  including substrate element  200  of a safety nosing component  10  in accordance with another embodiment of the present invention. As shown, the light emission element  300  includes an attachment member  150  on the lower face  302 . The attachment member  150  as shown is a pair of pin structures  153 . 
     In the embodiment of  FIG. 5B , the stake structures  152  assist in assembling the light emission element  300 , substrate element  200  and base element  100  by interconnecting the elements via heat staking. In the embodiment of  FIG. 5C , the base element  100  further includes aperture members  130 . The pin structures  153  assist in assembling the light emission element  300 , substrate element  200  and base element  100  by interconnecting the pin structures  153  with the aperture members  130  via welding. It is also contemplated that interconnection may be performed via snap-fit, adhesive, adhesive tape, chemical bonding, mechanical fit, or interference fit. 
       FIG. 6  illustrates a bottom view of the base element  100  of the safety nosing component  10  and  FIG. 7  illustrates a side view of the base element  100  of the safety nosing component  10  of  FIG. 6 . 
     As shown in  FIG. 6  and  FIG. 7 , the conduit structure  151  of the attachment member  150  on the inside surface  111  of the main member  110  is defined by a nodular portion  180  and a planar portion  190 . 
     The nodular portion  180  includes one or more continuous parallel lower ribs  182  and one or more continuous parallel extended ribs  186 . Each lower rib  182  protrudes from the inside surface  111  and is defined by first perimeter surface  183 , a second perimeter surface  184 , and a third perimeter surface  185 . Each extended rib  186  protrudes from the inside surface  111  and is defined by a first perimeter border  187 , a second perimeter border  188 , and a third perimeter border  189 . The extended rib  186  protrudes past the lower rib  182  as measured from the inside surface  111 . 
     The perimeter surfaces  183 ,  185  of the lower ribs  182  and perimeter borders  187 ,  189  of the extended ribs  186  along with the inside surface  111  form continuous parallel conduits  199 . As an example, the first perimeter surface  183  of lower rib  182  and the third perimeter border  189  of the extended rib  186  along with the inside surface  111  forms continuous conduit  199   a  as shown in  FIG. 6  and  FIG. 7 . As another example, the third perimeter surface  185  of lower rib  182  and the first perimeter border  187  of the extended rib  186  along with the inside surface  111  forms continuous conduit  199   b.    
     Specifically, the lower ribs  182  and the extended ribs  186  of the nodular portion  180  alternate such that each of the first perimeter surface  183 , the second perimeter surface  184 , the third perimeter surface  185  of the lower ribs  182  and the first perimeter border  187 , the second perimeter border  188 , and the third perimeter border  189  of the lower rib  182  of the extended ribs  186  along with the inside surface  111  increase the surface area of the nodular portion  180 . 
     The increased surface area provided by the alternating lower ribs  182  and extended ribs  186  facilitates a greater concentration of adhesive in the nodular portion  180  of the conduit structure  151 . Specifically, the greater concentration of adhesive toward the first edge  113  of the main member  110  acts to prevent the safety nosing component  10  from detaching from an architectural structure including in instances when shoes or feet catch on the safety nosing component  10 . 
     The planar portion  190  includes a projection  191  defined by a first face  192 , a second face  193 , and a third face  194 . The second face  193  includes a plurality of equally spaced apart apertures  195 . Each aperture  195  is created by the mold cavity as a result of securing the light emission element  300  and substrate element  200  during manufacturing. Specifically, the light emission element  300  and substrate element  200  are insert parts securely held in place by the mold cavity so that the light emission element  300  and substrate element  200  do not move when material is injected into the mold cavity to create the base element  100  which encapsulates the light emission element  300  and substrate element  200 . 
     The apertures  195  provide an additional benefit by serving as ducts for receiving adhesive. Not only is adhesive applied to the second face  193  of the planar portion  190 , but also received within the equally spaced apart apertures  195  to secure the safety nosing component  10  to an architectural structure. 
     The planar portion  190  further includes a continuous parallel rear conduit  197  formed by the third face  194  of the projection  191 , wall  196 , and the inside surface  111 . The rear conduit  197  receives any overflow adhesive from the nodular portion  180  and planar portion  190  as well as further secures the main member  110  of the safety nosing component  10  to an architectural structure. 
       FIG. 8  is a perspective view of a safety nosing component  10  shown as a dock nosing component  20  in accordance with another embodiment of the present invention. In this embodiment, the dock nosing component  20  serves as a dock bumper and illumination guide for incoming water vessels. As shown more specifically in  FIG. 9 , the safety nosing component  10  includes a texture element  160  that is a dock bumper  162 . The dock bumper  162  is positioned on the exterior surface  122  of the support member  120 . In this embodiment, the dock bumper  162  includes a channel member  140  within which the light emission element  300  is positioned. The dock bumper  162  is manufactured from a soft pliable material that can cushion an impact, for example, such as thermoplastic polyurethanes (TPU), urethane, polyvinyl chloride (PVC) or other material. 
       FIG. 10  is a perspective view of a safety nosing component  10  with additional functionality of an advertising medium in accordance with an embodiment of the present invention. As shown in  FIG. 10 , the safety nosing component  10  includes a texture element  160  shown here as an advertising constituent  163 . The advertising constituent  163  is positioned on the base element  100 , more specifically on the exterior surface  122  of the support member  120  as shown, although it is also contemplated that the advertising constituent  163  may be positioned on the outside surface  112  of the main member  110  as shown in  FIG. 11 . It is also contemplated that the advertising constituent  163  is positioned on the upper face  301  of the light emission element  300  or even on the top face  201  of the substrate element  200 . 
     Numerous embodiments of the advertising constituent  163  are contemplated. For example, in one embodiment, the advertising constituent  163  may be formed from the material to illustrate text such as a logo, or picture. In another embodiment, advertising constituent  163  may include a pocket into which a physical advertisement is located, such as using adhesive. The physical advertisement may be inserted, such as by sliding, within the pocket. The pocket may further include an upper lip and a lower lip to secure the physical advertisement. The pocket may even further include a clear cover to secure and protect the physical advertisement. 
     It will be understood that the embodiments of the present invention, which have been described, are illustrative of some of the applications of the principles of the present invention. Numerous modifications may be made by those skilled in the art without departing from the true spirit and scope of the invention.

Summary:
The present invention is an improved safety nosing component including a base element with channel member and a light emission element. The safety nosing component is manufactured by extrusion, co-extrusion, triple-extrusion, injection molding, insert injection molding, two-shot molding or a combination thereof. The present invention allows safety nosing components to be installed on architectural structures while also providing additional functionality.