Description:TECHNICAL FIELD
[0001] The present disclosure relates generally to the technical field of buildings, constructions, and furniture. In particular, it pertains to an architrave lighting profile for a fenestration unit which enhances aesthetic appeal, provide functional lighting, and simplify installation and maintenance.

BACKGROUND
[0002] Background description includes information that may be useful in understanding the present invention. It is not an admission that any of the information provided herein is prior art or relevant to the presently claimed invention, or that any publication specifically or implicitly referenced is prior art.
[0003] Architraves have long been used as decorative mouldings placed around doors and windows. Traditionally, the architraves serve the dual purpose of enhancing the aesthetic appeal of the space while also providing protection to the window and door sills from physical damage and water seepage. The architraves, with their clean lines and visually appealing finish, act as a boundary between the wall and the aperture, adding an element of design to otherwise plain openings.
[0004] Over the time, architectural trends have evolved, with modern interior and exterior design placing a greater emphasis on the integration of technology and functional aesthetics. Among the latest trends is the incorporation of an architectural lighting, which plays a crucial role in enhancing the visual appeal, mood, and functionality of spaces. Lighting not only illuminates the surroundings but also contributes to the overall design theme of a room, whether residential or commercial. While various lighting solutions are now available, integrating these solutions into traditional architectural elements such as architraves remains an untapped opportunity.
[0005] Traditionally, architraves and lighting systems were kept separate, with little thought given to seamlessly combining the two elements. This has led to challenges when trying to integrate lighting into architraves, as conventional methods often require complex installation procedures, custom configurations, and result in non-uniform light distribution or unsightly gaps. Additionally, existing architrave profiles are predominantly designed to protect the door or window from physical damage but do not incorporate a modern lighting system, making them less adaptable to contemporary interior and exterior design needs.
[0006] Several prior patents have addressed architraves, for instance, patent document IN201722028914, which describes a method for manufacturing an architrave that can be installed without the need for nails or screws, thus simplifying the installation process. Similarly, another patent document IN202241042233 describes an improved door assembly and the method of attaching architraves to doors. However, neither of said patents addresses the integration of lighting systems into the architrave profiles in it.
[0007] Therefore, there is a need for an architrave profile that not only serves its traditional decorative and protective functions but also accommodates modern lighting technology in a seamless, easy-to-install, and aesthetically pleasing manner.

OBJECTS OF THE PRESENT DISCLOSURE
[0008] An object of the present disclosure relates, in general, to the field of buildings, constructions, and furniture, and more specifically, relates to an architrave lighting profile for a fenestration unit.
[0009] Another object of the present disclosure is to provide an architrave lighting profile that can be easily installed without need of any complex procedures, configurations, or specialized tools.
[0010] Another object of the present disclosure is to provide an architrave lighting profile that can provide even and consistent illumination.
[0011] Yet another object of the present disclosure is to provide an architrave lighting profile that can be designed to be energy-efficient, providing illumination while minimizing energy consumption, contributing to sustainable and cost-effectiveness of the lighting profile.
[0012] Yet another object of the present disclosure is to provide an architrave lighting profile which continues providing protection against physical damage and water seepage around door and window sills, ensuring that the architrave maintains its traditional protective function.
[0013] Yet another object of the present disclosure is to provide an architrave lighting profile which reduces visibility of fitting installed in the lighting profile, thereby enhancing overall aesthetic of the architrave lighting profile.
[0014] Still yet another object of the present disclosure is to provide an architrave lighting profile designed to be adaptable for use in a wide range of settings, from residential homes to commercial buildings, ensuring broad applicability across different types of interior and exterior spaces.

SUMMARY
[0015] The present disclosure relates, in general, to the field of buildings, constructions, and furniture, and more specifically, relates to an architrave lighting profile for a fenestration unit.
[0016] According to an aspect, the present disclosure relates to an architrave lighting profile for a fenestration unit. The lighting profile comprises a fitting mechanism configured at a first end of the lighting profile. The fitting mechanism is configured to snap the profile with a surface of the fenestration unit. Further, the lighting profile comprises a corner alignment groove configured at a second end of the lighting profile. The corner alignment groove is configured with corner alignment 126 to align the corners in the lighting profile 100. Furthermore, the lighting profile comprises an internal chamber running between the first end and the second end of the lighting profile. The internal chamber is configured within the lighting profile to accommodate wiring, drainage and electrical components associated with a lighting unit such that the accommodated wiring drainage, and electrical components hide inside the lighting profile and remain invisible while viewing an exterior of the lighting profile. Moreover, the lighting profile comprises a lighting space configured beside the internal chamber and the corner alignment groove, the lighting space is facilitated to house the lighting unit. The lighting unit comprises light diffusers which direct light downward creating a wall washer effect across a perimeter of the fenestration unit by distributing the light evenly along the perimeter of the fenestration unit.
[0017] In one or more embodiments, the lighting profile may include a plurality of guided ribs to accommodate one or more components. The plurality of guided ribs may include a first guided rib and a second guided rib. The first guided rib can be configured to accommodate a structural element to enhance structural integrity and stability at joints of the lighting profile. The second guided rib can be configured to accommodate the lighting elements within the lighting profile.
[0018] In one or more embodiments, the structural element may be a corner cleat.
[0019] In one or more embodiments, the lighting profile may include a plurality of holding means configured to hold surface-mounted appliances.
[0020] In one or more embodiments, the plurality of holding means may include one or more projections, and one or more slots. The one or more projections may facilitate a platform for mounting the surface-mounted appliances. Further, the one or more slots may be configured to accommodate fasteners and/or snap fits which hold the surface-mounted appliances in place.
[0021] In one or more embodiments, the fitting mechanism may be any one of a snap-fit mechanism or a screw fit mechanism, wherein the snap-fit mechanism may include a snap fit groove configured at the first end of the lighting profile, which snap fit groove may align with a retainer clip housed in the fenestration unit.
[0022] In one or more embodiments, the lighting profile may be designed to provide a pathway for airflow, and water flow in the internal chamber to aid heat dissipation from the lighting unit.
[0023] In one or more embodiments, the lighting profile may be an extruded product made of material selected from a group consisting of: aluminum, composites, Polyvinyl Chloride (PVC), unplasticized polyvinyl chloride (UPVC), Chlorinated polyvinyl chloride (CPVC), galvanized steel, brass, copper, Polycarbonate (PC), and fiberglass.
[0024] In one or more embodiments, the surface-mounted appliances may be selected from a group consisting of: lighting elements, the lighting diffusers, power input, and insulations.
[0025] In one or more embodiments, the fenestration unit pertains to door and window assemblies.
[0026] In one or more embodiments, the power input is provided along any surface of the lighting profile.
[0027] Various objects, features, aspects, and advantages of the inventive subject matter will become more apparent from the following detailed description of preferred embodiments, along with the accompanying drawing figures in which like numerals represent like components.

BRIEF DESCRIPTION OF THE DRAWINGS
[0028] The following drawings form part of the present specification and are included to further illustrate aspects of the present disclosure. The disclosure may be better understood by reference to the drawings in combination with the detailed description of the specific embodiments presented herein.
[0029] FIG. 1A illustrates an exemplary representation of a proposed architrave lighting profile for a fenestration unit, in accordance with en embodiment of the present disclosure.
[0030] FIG. 1B illustrates an assembly of the architrave lighting profile of FIG.1A to a window assembly, in accordance with an embodiment of the present disclosure.

DETAILED DESCRIPTION
[0031] The following is a detailed description of embodiments of the disclosure depicted in the accompanying drawings. The embodiments are in such detail as to clearly communicate the disclosure. If the specification states a component or feature “may”, “can”, “could”, or “might” be included or have a characteristic, that particular component or feature is not required to be included or have the characteristic.
[0032] As used in the description herein and throughout the claims that follow, the meaning of “a,” “an,” and “the” includes plural reference unless the context clearly dictates otherwise. Also, as used in the description herein, the meaning of “in” includes “in” and “on” unless the context clearly dictates otherwise.
[0033] The present disclosure relates, in general, to the field of buildings, constructions, and furniture, and more specifically, relates to an architrave lighting profile for a fenestration unit.
[0034] Existing architraves primarily focus on decorative and protective functions, such as safeguarding window and door sills from physical damage and water seepage. However, they lack integration with modern lighting technology, resulting in the need for separate lighting installations that are often complex and time-consuming. Traditional methods of incorporating lighting into architraves require custom configurations and may lead to uneven light distribution or unsightly gaps, diminishing the overall aesthetic appeal. Moreover, these existing systems are generally not designed to offer flexibility in terms of both lighting integration and ease of installation, limiting their adaptability to modern interior and exterior design trends and creating a disconnect between functional and decorative elements in contemporary spaces.
[0035] The proposed architrave lighting profile addresses these issues by offering a streamlined, easy-to-install solution that seamlessly integrates lighting into the architrave design. Featuring a snap-fit mechanism at one end, it allows for quick attachment to the fenestration unit surface without the need for tools or fasteners, simplifying installation. A corner alignment groove at the opposite end ensures precise placement, resulting in a clean, uniform finish. An internal chamber runs between the two ends, housing wiring, drainage, and electrical components associated with the lighting unit, keeping the installation organized and minimizing visible clutter. A lighting space, located beside the internal chamber and the corner alignment groove, is designed to accommodate the lighting unit, which includes light diffusers that direct light downward, creating an even wash of light across the fenestration unit’s perimeter. This distributes light uniformly, enhancing the aesthetic of the space while offering functional illumination, thereby combining traditional architectural elements with modern lighting technology in a cohesive, elegant solution.
[0036] Referring to FIG. 1A, the proposed architrave lighting profile 100 (referred simply as “lighting profile 100” or “profile 100” hereinafter) for a fenestration unit 102 is disclosed. The fenestration unit 102 pertains to door or window assemblies and architectural elements associated with the door or window assemblies, where the architrave lighting profile 100 can be installed to enhance both aesthetic and functional value of the fenestration unit 102. In some embodiments, the fenestration unit 102 can also refer to components surrounding the door or window assemblies, such as but not limited to frames, sills, and glazing. As shown in FIG. 1B, the fenestration unit 102 can be the window assembly on which the architrave lighting profile 100 can be assembled. The lighting profile 100 includes a fitting mechanism 104 configured at a first end of 100-1 the lighting profile 100. The fitting mechanism 104 is configured to snap the profile with a perimeter of the fenestration unit 102. The fitting mechanism 102 can be any one of: a snap fit mechanism or a screw fit mechanism, without any limitations. The fitting mechanism 104 can include a snap fit groove configured at the first end 100-1 of the lighting profile 100, which snap fit groove can align with a retainer clip housed in the fenestration unit 102.
[0037] As can be appreciated, the snap-fit mechanism 104 in the proposed architrave lighting profile 100 can be designed to facilitate a quick and secure attachment of the profile 100 to the surface of the fenestration unit 102 (such as the window or door frame) without the need for nails, screws, or additional fasteners. Further, the connection using the snap-fit mechanism 104 ensures that the architrave lighting profile 100 is tightly attached while also allowing for easy removal or repositioning if necessary, providing both a secure and flexible mounting solution. This design simplifies the installation process, as it eliminates the need for drilling holes or using other fasteners that could damage the surrounding structure or create visible marks. It also ensures that the lighting profile 100 remains stable over time, while maintaining a clean, seamless appearance.
[0038] Further, the lighting profile 100 can include a corner alignment groove 106 configured at a second end 100-2 of the lighting profile 100. The corner alignment groove 106 is configured with a corner alignment 126 to align corners in the lighting profile 100. The primary function of the corner alignment groove 106 is to facilitate perfect alignment of the lighting profile 100 during installation, particularly when multiple profiles are joined at the corners. The corner alignment groove 106 can serve as a guide, ensuring that the ends of the lighting profile 100 meet precisely at the correct angle (typically 90 degrees in the case of a standard corner) without any misalignment or gaps. This is particularly important for maintaining a clean, seamless look, as misaligned corners can create noticeable gaps or uneven surfaces that undermine the overall aesthetic of the installation. By aiding in precise surface flatness, the corner alignment groove 106 can help ensure that the architrave lighting profile 100 sits flush against the fenestration unit's 102 surface. This is important for both aesthetic and functional reasons. Any unevenness in the installation could lead to light leakage, inconsistent illumination, or an unprofessional appearance. The corner alignment groove 106 ensures that the lighting profile 100 remains flat and uniform, which also contributes to the even distribution of light emitted from an integrated lighting unit 112.
[0039] Furthermore, the lighting profile 100 includes an internal chamber 108 running between the first end 100-1 and the second end 100-2 of the lighting profile 100. The internal chamber 108 is configured within the lighting profile 100 to accommodate wiring, drainage and electrical components associated with the lighting unit 112 such that the accommodated wiring drainage, and electrical components hide inside the lighting profile 100 and remain invisible while viewing an exterior of the lighting profile 100. A person skilled in the art would appreciate that by accommodating the wiring within the lighting profile 100, the lighting profile 100 ensures that the electrical components remain organized, hidden from view, and protected from potential damage. This helps to maintain the aesthetic appeal of the installation, preventing unsightly exposed wires or cables that could compromise both the appearance and safety of the architrave lighting profile 100.
[0040] Moreover, the lighting profile 100 includes a lighting space 110 configured beside the internal chamber 108 and the corner alignment groove 106, the lighting space 110 is facilitated to house the lighting unit 112. The lighting unit 112 is integrated within the lighting profile 100. The lighting unit 112 includes lighting elements 114’, and lighting diffusers 114 which is either a direct or indirect light creating an ambience lighting effect or wall washer effect across a perimeter of the fenestration unit 102 by distributing the light evenly along the surface of the fenestration unit 102. As can be appreciated, by positioning the lighting unit 112 in the lighting space 110, the design ensures that the light is distributed uniformly along the surface of the fenestration unit 102 such as the window or door frame, illuminating the surrounding areas in a visually appealing manner. The combination of diffused light and the controlled downward direction of the light creates a soft and consistent lighting environment that enhances both the aesthetic of the space and the functionality of the architrave.
[0041] Additionally, the precise arrangement of the lighting unit 112 within the lighting space 110 ensures that the light is hidden from view, contributing to a clean and streamlined architectural profile. This setup allows the lighting unit 112 to blend seamlessly into the overall design, maintaining the traditional decorative qualities of the architrave while integrating modern lighting technology in a way that enhances the architectural image without being obtrusive.
[0042] The lighting diffusers 114 are designed to direct the light direct and indirect creating a soft, uniform illumination effect across the perimeter of the fenestration unit 102. This light distribution creates ambience lighting or the wall washer effect, a lighting technique where light is spread evenly across a surface, often resulting in a smooth gradient or seamless glow that enhances the visual appeal of the space. This effect helps eliminate harsh shadows or uneven light spots that might occur in other, less carefully designed lighting unit 112.
[0043] In an embodiment, the architrave lighting profile 100 can include a plurality of guided ribs 116 (collectively referred as “guided ribs 116” hereinafter). The guided ribs can include a first guided rib 116-1, and a second guided rib 116-2, where the first guided rib 116-1 can be configured inside the internal chamber 108. The first guided rib 116-1 can be configured to accommodate a structural element 118 to enhance structural integrity and stability at joints of the lighting profile 100. The second guided rib 116-2 can be configured to accommodate the lighting element within the lighting profile 100. The structural element 118 can be selected from but not limited to a corner cleat, a reinforcing bracket, an insert plug, an angular reinforcement, and the like. In a preferred embodiment, the corner cleat as the structural element 118 can be incorporated within the guided rib spaces 116 to significantly enhance the structural integrity and stability of the lighting profile 100, especially at joints where multiple sections of the lighting profile 100 can be connected. The corner cleat can be made of material such as but not limited to metal, or durable plastic. The corner cleat can provide additional support and strength by locking sections of the lighting profile 100 together.
[0044] Alternatively, the reinforcing brackets as the support element can provide additional support at the joints of the lighting profile 100. These brackets can be inserted into the guided rib spaces 116 to connect the sections of the lighting profile 100, ensuring that the profiles remain securely attached to one another.
[0045] In an embodiment, the lighting profile 100 can include a plurality of holding means 120 configured to hold surface-mounted appliances. The surface-mounted appliances can be selected from but not limited to a group consisting of: the lighting elements 114’, the lighting diffusers 114, a power input 122, and insulations 124. The lighting elements 114’ can be light emitting devices (LEDs) as the LEDs are highly energy-efficient, consuming significantly less power than traditional incandescent or halogen bulbs. In addition, the LEDs have a long lifespan compared to other lighting options, with some lasting tens of thousands of hours. This reduces the frequency of replacements and the overall maintenance cost. Moreover, small size of the LEDs can allow them to be easily integrated into tight spaces within the lighting profile 100, providing flexibility in design. The plurality of holding means 120 can include one or more projections (collectively referred as “projections” hereinafter), and one or more slots (collectively referred as “slots” hereinafter). The projections can facilitate a platform for mounting the surface-mounted appliances, and the slots can be configured to accommodate fasteners and/or snap fits which hold the surface-mounted appliances in place. The power input 122 can be provided along any surface of the lighting profile 100. In some embodiments, the power input 122 can be provided at a side surface as shown in FIG. 1A. In some embodiments, the power input 122 can be at any other surface of the lighting profile 100, depending on type and construction of the fenestration unit 102.
[0046]
[0047] In addition, the lighting profile 100 can be an extruded product made of material selected from but not limited to a group consisting of: aluminum, composites, Polyvinyl Chloride (PVC), unplasticized polyvinyl chloride (UPVC), Chlorinated polyvinyl chloride (CPVC), galvanized steel, brass, copper, Polycarbonate (PC), and fiberglass. In a preferred embodiment, the lighting profile 100 can be the extruded product made of aluminum. Aluminium offers a high strength-to-weight ratio, making it durable enough to maintain the structural integrity of the lighting profile 100 while remaining easy to handle and install. The material’s corrosion resistance ensures that the lighting profile 100 can maintain its appearance and function over time, even in environments where moisture or temperature fluctuations are prevalent. Additionally, the aesthetic versatility of aluminium allows it to blend seamlessly with a wide range of architectural styles, from modern to traditional designs, and can be finished in a variety of ways to suit the specific visual needs of the space.
[0048] In an implementation, to assembly the architrave lighting profile 100, cut-off the lighting profile 100, and make slots and holes to accommodate the corner cleat and the power input cables. Thereafter, the architrave lighting profile 100 can be connected with the corner cleat and corner alignment 126 in the respective slots. The lighting elements 114’ can be installed in the lighting space 110 provided in the architrave lighting profile 100. The power input cables can be then connected to the lighting elements 114’ and inserted in the respective slots. The architrave lighting profile 100 can be now fixed on the fenestration unit 102. The snap-fit groove can be aligned with the retainer clip housed in the fenestration unit 102 such as the window to align the architrave lighting profile 100 with the retainer clip. The lighting profile 100 can be snap-fitted with the window. Thereafter, the power sources and switches on the lighting unit 112 can be connected.
[0049] A person skilled in the art would appreciate that the proposed architrave lighting profile (100) offers a versatile and innovative solution that integrates modern lighting technology with traditional architectural elements. The lighting profile, designed with a snap-fit mechanism, a corner alignment groove, and an internal chamber, provides a streamlined method for installing lighting while ensuring structural integrity and ease of installation. The inclusion of light-emitting devices (LEDs) or other suitable lighting technologies, along with features such as lighting diffusers and guiding ribs, enhances the distribution and uniformity of light, delivering aesthetically pleasing effects such as a wall washer effect. The extrusion materials, including aluminium, offer durability, energy efficiency, and aesthetic flexibility, making the profile suitable for a wide range of applications, from residential to commercial spaces. Furthermore, the design allows for integration with various lighting units, ensuring that the lighting profile 100 can meet the specific needs of different installations. Overall, the proposed architrave lighting profile 100 addresses existing challenges in lighting integration, providing an effective solution that is both functional and visually appealing.
[0050] It will be apparent to those skilled in the art that the proposed architrave lighting profile 100 of the disclosure may be provided using some or all of the mentioned features and components without departing from the scope of the present disclosure. While various embodiments of the present disclosure have been illustrated and described herein, it will be clear that the disclosure is not limited to these embodiments only. Numerous modifications, changes, variations, substitutions, and equivalents will be apparent to those skilled in the art, without departing from the scope of the disclosure, as described in the claims.

ADVANTAGES OF THE PRESENT DISCLOSURE
[0051] The present invention provides an architrave lighting profile for a fenestration unit.
[0052] The present invention provides an architrave lighting profile that can be easily installed without need of any complex procedures, configurations, or specialized tools.
[0053] The present invention provides an architrave lighting profile that can provide even and consistent illumination.
[0054] The present invention provides an architrave lighting profile that can be designed to be energy-efficient, providing illumination while minimizing energy consumption, contributing to sustainable and cost-effectiveness of the lighting profile.
[0055] The present invention provides an architrave lighting profile which continues providing protection against physical damage and water seepage around door and window sills, ensuring that the architrave maintains its traditional protective function.
[0056] The present invention provides an architrave lighting profile which reduces visibility of fitting installed in the lighting profile, thereby enhancing overall aesthetic of the architrave lighting profile.
[0057] The present invention provides an architrave lighting profile designed to be adaptable for use in a wide range of settings, from residential homes to commercial buildings, ensuring broad applicability across different types of interior and exterior spaces.
, Claims:1. An architrave lighting profile (100) for a fenestration unit (102), the lighting profile (100) comprising:
a fitting mechanism (104) configured at a first end (100-1) of the lighting profile (100), wherein the fitting mechanism (104) is configured to snap the lighting profile (100) with a surface of the fenestration unit (102);
a corner alignment groove (106) configured at a second end (100-2) of the lighting profile (100), wherein the corner alignment groove (106) is configured with a corner alignment (126) to align corners in the lighting profile (100);
an internal chamber (108) running between the first end (100-1) and the second end (100-2) of the lighting profile (100), wherein the internal chamber (108) is configured within the lighting profile (100) to accommodate wiring, drainage and electrical components associated with a lighting unit (112) such that the accommodated wiring drainage, and electrical components hide inside the lighting profile (100) and remain invisible while viewing an exterior and interior of the lighting profile (100); and
a lighting space (110) configured beside the internal chamber (108) and the corner alignment groove, the lighting space (110) is facilitated to house the lighting unit (112),
wherein the lighting unit (112) is integrated within the lighting profile (100), wherein the lighting unit (112) comprises lighting elements (114’), and lighting diffusers (114) which is either direct or indirect light creating an ambience lighting or wall washer lighting effect across a perimeter of the each fenestration unit (102) by distributing the light evenly along the perimeter of the fenestration unit (102).
2. The architrave lighting profile (100) as claimed in claim 1, comprising a plurality of guided ribs (116) to accommodate one or more components, wherein the plurality of guided ribs comprises a first guided rib(116-1) and a second guided rib (116-2), wherein the first guided rib is configured inside the internal chamber (108), wherein the first guided rib (116) is configured to accommodate a structural element (118) to enhance structural integrity and stability at joints of the lighting profile, and wherein the second guided rib (116-2) is configured to accommodate the lighting elements (114’) within the lighting profile (100).
3. The architrave lighting profile (100) as claimed in claim 2, wherein the structural element (118) is a corner cleat.
4. The architrave lighting profile (100) as claimed in claim 1, wherein the lighting profile (100) comprises a plurality of holding means (120) configured to hold surface-mounted appliances.
5. The architrave lighting profile (100) as claimed in claim 4, wherein the plurality of holding means (120) comprise one or more projections, and one or more slots, wherein the one or more projections facilitate a platform for mounting the surface-mounted appliances, and the one or more slots are configured to accommodate fasteners and/or snap fits which hold the surface-mounted appliances in place.
6. The architrave lighting profile (100) as claimed in claim 1, wherein the fitting mechanism (104) is any one of a snap-fit mechanism or a screw fit mechanism, wherein the snap-fit mechanism (104) comprises a snap fit groove configured at the first end (100-1) of the lighting profile (100), which snap fit groove connects the lighting profile (100) with the surface of the fenestration unit (102).
7. The architrave lighting profile (100) as claimed in claim 1, wherein the lighting profile (100) is designed to provide a pathway for airflow, and water flow in the internal chamber (108) to aid heat dissipation from the lighting unit (112).
8. The architrave lighting profile (100) as claimed in claim 1, wherein the lighting profile (100) is an extruded product made of material selected from a group consisting of: aluminum, composites, Polyvinyl Chloride (PVC), Unplasticized Polyvinyl Chloride (UPVC), Chlorinated Polyvinyl Chloride (CPVC), galvanized steel, brass, copper, Polycarbonate (PC), and fiberglass.
9. The architrave lighting profile (100) as claimed in claim 4, wherein the surface-mounted appliances are selected from a group consisting of: the lighting elements (114’), the lighting diffusers (114), a power input (122), and insulations (124).
10. The architrave lighting profile (100) as claimed in claim 1, wherein the fenestration unit (102) pertains to fenestration, wherein the fenestration includes door or window assemblies and architectural elements associated with the door or window assemblies.
11. The architrave lighting profile (100) as claimed in claim 1, wherein the power input (122) is provided along any surface of the lighting profile (100).