BE1030887B1 - LIGHTING KIT FOR MOUNTING AGAINST A CURVED SUPPORT OR SUPPORTING STRUCTURE - Google Patents

Abstract

This invention concerns a lighting kit (1) designed to be attached to a support surface (5), wherein the kit (1) comprises a printed circuit board (2) comprising light-emitting diodes and an elongated support profile (3), with a (3) formed receiving cavity (4) which extends in the longitudinal direction of the supporting profile (3) and which is provided for receiving said printed circuit board (2), wherein said supporting profile (3) is an extruded profile of silicone rubber.

Description

LIGHTING KIT FOR MOUNTING AGAINST AN ARCHED

SUPPORT OR SUPPORT STRUCTURE

This invention concerns a lighting kit designed to be attached to a supporting surface or supporting structure, wherein the kit comprises on the one hand a light source, preferably in the form of a printed circuit board with light-emitting diodes, and on the other hand an elongated supporting profile with a receiving cavity formed in the elongated supporting profile. extends in the longitudinal direction of the supporting profile and which is provided for receiving the said light source. The lighting kit is preferably designed to be attached to flat and/or curved supporting surfaces, flat and/or curved supporting structures or flat and/or curved supporting walls. More specifically, the kit is suitable for outdoor use. The lighting kit is particularly designed to be attached to the outside walls of buildings with rounded or curved surfaces.

In practice, lighting the outside of buildings and other large surfaces is done with LED fixtures that are sufficiently waterproof (typically IP class > 65), UV and temperature resistant. The LED fixtures are mounted directly or indirectly using a separate mounting profile against the outside of the surface to be illuminated with a known mounting material, such as screws or glue. Such an LED fixture is well known and usually consists of an elongated extruded steel or aluminum profile (standard 6 meters long), a printed circuit board with light-emitting diodes (the so-called LED light strip) that is attached to the profile using glue or clips. , and a semi-transparent cover to diffuse the light. To bridge large lengths, especially more than 5 to 6 meters, the various luminaires are connected to each other via suitable connectors.

However, due to their length and straight shape, the known fixtures have the disadvantage that they are less suitable for illuminating curved or curved surfaces.

Moreover, a lighting system composed of the known fixtures connected together will not form a continuous visual unit, because the zone (seam) where the mutual connection takes place will not light up because that is where the so-called cable entry elements are located that provide the power supply and connection via the cabling installed in it. the control of the diodes mounted on the printed circuit board. In practice, the mentioned zone can be a few centimeters wide

The Chinese patent publication CN 213 299 691 U describes a one-piece flexible lamp strip comprising a printed circuit board with light-emitting diodes which is surrounded by a silicone rubber housing, wherein the cross-sectional shape of the connector corresponds to the surrounding housing.

The German patent publication DE 10 2016 003 733 A1 describes a lighting module for illuminating an interior of a vehicle, comprising a flexible basic body, a flexible printed circuit board held on the basic body with at least one light source. Different lighting modules can be connected mechanically and/or electrically via connecting elements.

European patent publication EP 3 594 558 A1 describes a method of installing a lighting device, wherein the device comprises an elongated body with a first light-emitting surface and at least one second surface with an encapsulation layer on the underside of the at least one second surface and a distribution of electrically driven light radiation sources arranged in the elongated body along the length thereof to project light radiation toward the light emitting surface, the method comprising: providing electrically conductive formations configured to transmit electrical signals with respect to the electrically powered light radiation sources, and providing at least one passageway for the electrically conductive formations through the encapsulation layer on the at least one second surface, wherein at least a portion of the electrically conductive formations pass through the at least one passageway. With the method in question it is possible to place two or more devices of this type next to each other without the formation of dark areas or shadows between the respective light radiation emitting surfaces, and this is because the cables or wires at the ends of the light radiation sources can extend through passageways formed on the surface of the device opposite the emission radiation surface, wherein the cables or wires pass through the encapsulation layer.

The aim of this invention is to find a solution to the aforementioned problems and to provide a lighting kit that can be easily and simply mounted on both straight and curved supporting surfaces, which preferably has a minimal seam between adjacent supporting profiles.

The object of the invention is achieved by providing a lighting kit designed to be attached to a supporting surface, as described in the first claim. By using an extruded support profile made of a flexible plastic material, in particular silicone rubber, it becomes possible to easily and simply place the support profile with printed circuit board against a curved support surface. Silicone has the advantage of being flexible and weather resistant (waterproof and

UV resistant). Preferably, silicone with a Shore hardness of 80A is used. Due to the flexible material from which the supporting profile is made, the printed circuit board can easily be placed in the receiving cavity.

A printed circuit board with emitting diodes is chosen as the light source for the lighting kit according to the invention. Such a flexible printed circuit board is known as LED strips. Such LED strips are produced on rolls (print strips) of 1 meter, 5 meters or more. Each LED strip is equipped with extra current-carrying electrical connection cables. LED strips are available as standard in warm white, natural white or white. To generate multiple colors, the circuit board is equipped with RGB LEDs or RGB with white or amber color.

LED strips are dimmable and/or controllable by means of. an external dimmer or control unit directly connected to the LED strips, although an LED strip dimmer/control unit is required.

In a preferred embodiment of the lighting kit according to the invention, the elongated support profile is constructed in one piece and the support profile comprises two side walls and a top wall extending between the side walls, wherein the side walls are designed to block the light from the light-emitting diodes and wherein the The top wall is designed to diffusely spread the light from the light-emitting diodes. For the diffuse distribution of the light, the top wall is preferably made of semi-transparent silicone. To avoid the lateral spread of the (scattered) light, the side walls are made of opaque colored silicone rubber. The different silicone rubbers, namely the semi-transparent silicone rubber for the top wall and the opaque silicone rubber for the side walls, are placed in the mold together at the desired position during the production of the supporting profile.

According to a more preferred embodiment of the lighting kit according to the invention, the elongated supporting profile further comprises a base wall extending between the side walls and extending at a distance below the top wall so that an intermediate cavity is formed between the base and top wall, extending in the longitudinal direction of the profile extends. Naturally, the base wall is also designed to diffusely spread the light from the light-emitting diodes. To this end, the base wall is preferably made of the same material as the top wall.

The lighting kit according to the invention comprises a number of supporting profiles, each of which is provided with a printed circuit board that extends at least partially into the receiving cavity, wherein the lighting kit further comprises coupling means that are provided for mutually connecting supporting profiles placed next to each other, and wherein the lighting kit furthermore comprises cable feedthrough elements are arranged at the ends of the printed circuit board, which cable feedthrough elements are designed to electrically connect the printed circuit boards of supporting profiles placed next to each other. 5 For the mutual connection of supporting profiles placed next to each other, the coupling means are designed as a connecting piece that is provided for connecting adjacent supporting profiles, wherein the intermediate cavity at the end of one profile is designed to receive part of the connecting piece in a sliding fit and the intermediate cavity at the end of an adjacent profile is designed to accommodate another part of the connecting piece in a sliding fit. Because the connecting piece extends into both supporting profiles, these supporting profiles are mechanically connected to each other. The connecting piece preferably has a shape corresponding to the shape of the intermediate cavity. The connecting piece is preferably made of a silicone rubber, preferably a transparent silicone rubber. The use of a transparent material for the connecting piece offers the advantage that it will also allow the light from the light source to pass through, which contributes to a visual unity.

More specifically, the connecting piece is made of a silicone rubber with a higher hardness than the silicone rubber used for the manufacture of the supporting profile. By using such a connecting piece, supporting profiles placed next to each other can be firmly connected to each other. In addition, the connecting piece ensures better water and dust sealing.

In the lighting kit according to the invention, the printed circuit board is enclosed by a housing made of silicone rubber, wherein the housing further comprises one or more passage channels in which an electric current-conducting wire extends. The enveloping housing is preferably applied via extrusion. During extrusion, the desired electrically conductive wires are immediately co-extruded. Preferably, there is a passage channel with an electric current-conducting wire, provided on both sides of the housing.

Said conductive wire is preferably of the 10 - 15 AWG type. The presence of this wire in the one or more passage channels makes it possible to easily bridge distances of 10+ meters without loss of light quality, intensity and voltage. The presence of the aforementioned one or more passage channels is not a requirement, this invention also offers protection for a printed circuit board enclosed in a silicone rubber housing. The receiving cavity of the supporting profile in particular has a design suitable for receiving the light source, preferably the housing with printed circuit board.

According to a more special embodiment, a cable passage element is provided on the longitudinal ends of the said housing, wherein each cable passage element is provided with one or more passage openings for a data and/or power cable. The cable entry elements are preferably one-piece profiles made of plastic, which are manufactured more particularly via injection moulding. The injection moldings that form the cable guide elements are preferably integrally (inseparably) connected to the ends of the housing. The connection to the ends will preferably be made with heat.

Due to the integral connection of the cable entry elements with the housing that encases the printed circuit board, this will contribute to the watertightness of the supporting profile with printed circuit board.

According to a particularly advantageous embodiment of the lighting kit according to the invention, the cable guide elements are mounted offset from the coupling means, viewed in the longitudinal direction. This offers the great advantage that on the visible side of the lighting kit, only a narrow joint is visible between adjacent supporting profiles. The joint (seam) is formed at the level of the connecting piece where the lateral ends of adjacent supporting profiles connect against each other at the level of a connecting surface. It is at this connection surface that a seam will be formed. Due to the limited width of the seam, approximately 1 mm. and since the connecting piece is made of a transparent plastic material, in use,

in particular when the diodes are on, the lighting kit, in particular the various support profiles with the light sources incorporated in them, form a continuous visual unit. It is possible to realize the lighting kit with a joint of limited width between the adjacent supporting profiles, because the cable entry elements, which are required for controlling and powering the light source, are located at the rear (the opposite side of the visible side) of the supporting profile mounted offset with respect to the coupling means that connect the mutual supporting profiles.

Because the light source, in particular the printed circuit board with the light-emitting diodes, is only placed in the support profile afterwards, preferably on site when the lighting kit needs to be placed against the desired support surface, the lighting kit offers the advantage that when different supporting profiles are mounted together, the different printed circuit boards are placed in the receiving cavities of adjacent supporting profiles in such a way that the visible joint, located on the front (visible side) of the supporting profile, of adjacent supporting profiles, seen along the longitudinal direction of the supporting profile is offset from the cable entry elements located on the rear side of the supporting profile opposite the visible side. As a result, the supporting profiles connected to each other will visually form a unity because virtually no interruption will be visually visible, whereas in the case of the profiles according to the state of the art, the relevant cable guide elements did provide a clear interruption. In practice, the cable entry elements are 2 mm. wide, so that the area where two printed circuit boards lie against each other is approximately 4 mm. (2 mm of each cable entry element) is wide.

In a more special embodiment of the lighting kit, the elongated supporting profile comprises two supporting legs directed towards each other, wherein one supporting leg extends transversely to the end of one side wall and the other supporting leg extends transversely to the end of the other side wall and wherein the said receiving cavity extends between the base wall and said supporting legs.

Since the profile is made of a flexible material, i.e. silicone, the support legs are easily pliable, making it easy to insert the printed circuit board into the receiving cavity. After placement of the printed circuit board, the support legs spring back to their original position, preventing the printed circuit board from coming loose from the profile.

In an advantageous embodiment of the lighting kit according to the invention, the lighting kit comprises a mounting profile for mounting against a supporting surface, which is provided for clampingly receiving the elongated supporting profile. The mounting profile is preferably U-shaped. In use, the mounting profile will be attached to the supporting surface at regular intervals using a known fastening means, such as screws or glue. The supporting profile can then be placed in it. The mounting profile is preferably an extruded profile, preferably made of aluminum.

The mounting profile includes a base surface with two upright walls. For proper anchoring of the supporting profile in the mounting profile, the inside of the upright walls are provided with protrusions that fit into corresponding grooves made in the outer surface of the upright side walls of the supporting profile.

This invention also concerns a separate elongated support profile with a receiving cavity formed in the elongated support profile which extends in the longitudinal direction of the support profile and which is provided for receiving a printed circuit board comprising light-emitting diodes and wherein this support profile is a silicone extruded profile. The said supporting profile is preferably suitable for forming part of a lighting kit as described in the claims.

This invention will now be explained in more detail on the basis of the following detailed description of a preferred embodiment of a lighting kit according to this invention. The purpose of this description is solely to provide illustrative examples and to indicate further advantages and details and can therefore in no way be interpreted as a limitation of the scope of the invention or of the patent rights claimed in the claims.

In this detailed description, reference numerals refer to the accompanying drawings, in which: - figure 1: is a representation of the lighting kit according to the invention; - figure 2: shows a cross-section according to section A-A in figure 1; - figure 3: is an exploded representation of the lighting kit according to the invention; - figure 4: a representation of the housing with printed circuit board, which is provided with a cable guide element at one end; - figure 5: a perspective representation of a connecting piece; - figure 6: is a perspective representation of an end piece that can be placed on the end of the supporting profile; - figure 7: shows the mutual coupling of two adjacent supporting profiles; - figure 8: shows a cross-section according to section B-B in figure 7; - figure 9: shows a top view of the mounting of a lighting kit according to the invention on a curved support surface; - figure 10: shows a top view of the mounting of a lighting kit according to the invention on a straight support surface.

The lighting kit (1) according to this invention and as illustrated in figure 9, among others, was developed for outdoor applications, where the lighting kit (1) is applied to the bearing surfaces (5) of buildings with a specific curved shape, a large number of angles or curvatures. Naturally, the relevant lighting kit (1), as illustrated in figure 10, can also be placed on flat supporting surfaces (5) of a building or room.

The lighting kit (1) comprises on the one hand a light source, preferably in the form of a printed circuit board (2) provided with light-emitting diodes (a so-called LED strip) and on the other hand an elongated support profile (3) with a receiving cavity (4) extending in the longitudinal direction of the supporting profile (3) and with a shape that is suitable for receiving the said light source. According to this invention, the said supporting profile (3) is an extruded profile of a flexible plastic material, preferably silicone rubber.

Such a shaped supporting profile (3) is on the one hand sufficiently water and UV resistant, but due to its flexibility it can also be easily mounted on either flat or curved supporting surfaces.

The supporting profile (3), as shown in Figure 3, among others, is a one-piece profile that comprises two side walls (6) and a top wall (7) and base wall (8) extending between the side walls (6). The base wall (8) extends at a distance below the top wall so that there is an intermediate cavity (9) between the base and top wall that extends in the longitudinal direction of the profile. As illustrated in Figures 7 and 8, a coupling means in the form of a connecting piece (10) can be provided in the formed intermediate cavity (9) in order to connect different supporting profiles (3) with each other. A possible embodiment of the connecting piece (10) is shown in figure 5, the connecting piece (10) preferably has a shape corresponding to the shape of the intermediate cavity (9) and is preferably made of a transparent silicone rubber with a higher hardness than the silicone rubber used for the manufacture of the supporting profile (3).

To produce the supporting profile (3), a plastic material, preferably silicone rubber, is pushed through a mold. By using two different silicone rubbers, one semi-transparent and the other opaque, which are introduced into the mold simultaneously, a support profile (3) is obtained, the side walls (6) of which are provided to allow the light from the emitting diodes and whose top wall (7) and base wall (8) are provided to diffusely spread the light from the light-emitting diodes. The opaque side walls (6) prevent the lateral spread of the (scattered) light.

To protect the printed circuit board (2), it is covered with a plastic material, preferably silicone rubber. This is done via an extrusion process. In this way a housing (12) in which a printed circuit board (2) is included is obtained. During extrusion, the desired electrically conductive wires (24) are immediately co-extruded. These wires (24) are provided in a passage channel (13).

In the housing (12) shown, a passage channel (13) is provided in the housing (12) to the left and right of the printed circuit board (2). The conductive wire (24) used is preferably of the 10 - 15 AWG type. The presence of this wire makes it possible to easily bridge distances of 10 meters and more without loss of light quality, intensity and voltage.

It is this housing that is placed in the receiving cavity (4) of the supporting profile (3). The housing (12) is often installed on site. The relevant housing (12) is often longer than the supporting profile (3), so that part of the housing (12) is provided in one supporting profile (3), while the remaining part of the housing (12) is provided in the next ( adjacent) supporting profile (3).

For easy mounting and to prevent the said housing (12) from coming loose from the receiving cavity (4), the elongated support profile (3), as visible in figure 3, includes two supporting legs (16; 17) facing each other, whereby the one support leg (16) extends transversely to the end of one side wall (6) and the other support leg (17) extends transversely to the end of the other side wall (6)

The said receiving cavity extends between the base wall (8) and the said supporting legs (16; 17). Since the profile is made of a flexible material, ie. silicone, the support legs are easily pliable, making it easy to insert the housing (12) with enclosed printed circuit board (2) into the receiving cavity (4). After placing the housing (12), the support legs (16; 17) spring back to their original position, preventing the housing from coming loose from the profile.

To supply and control the diodes on the printed circuit board (2), a so-called cable entry element (11) is fitted to both ends of the housing (12). The cable entry elements (11) are preferably injection molded parts made of plastic that are inseparably connected to the housing (12) via heat.

As standard, these cable entry elements (11) are approximately 2 mm. wide. Each cable passage element (11) is provided with two passage openings, whereby one passage opening is provided for passing through a data cable (14) and the other passage opening is provided for passing through a power cable (15). The adjacent printed circuit boards are electrically connected to each other via the cables (14, 15). This connection will be made when the supporting profiles (3) are placed. After adjacent printed circuit boards are electrically connected to each other, the cable grommet element (11) provided on one housing lies against or almost against the cable grommet element (11) provided on the next housing.

For mounting the supporting profile (3), the lighting kit (1) includes a number of mounting profiles (18), preferably made of aluminum, which are mounted against the supporting surface at regular intervals using suitable fasteners.

The support profile (3), in which the printed circuit board is already mounted, can then be placed in the mounting profile. The dimensions and/or design of the mounting profile (18) are chosen in such a way that the supporting profile is clamped in the mounting profile. As can be seen from figures 2 and 3, the mounting profile (18) comprises a base surface (20) with two upright walls (21). For proper anchoring of the supporting profile (3) in the mounting profile (18), the inside of the upright walls (21) are provided with protrusions (22) that fit into corresponding grooves (23) made in the outer surface of the upright side walls (6) of the supporting profile (3).

The lighting kit (1) according to the invention has the additional advantage that virtually no joint is visible between supporting profiles (3) that are mounted adjacent to each other on a supporting surface. This is achieved by designing the housing with printed circuit board and the supporting profile as separate parts, making it possible to place the necessary cable entry elements (11), which are required to supply and control the diodes, at the rear of the supporting profile (3). ) and place this offset with respect to the coupling elements required to interconnect the connecting supporting profiles. It is possible to place the cable entry elements offset from the coupling means, because the mutual coupling of supporting profiles, which takes place at the front of the supporting profile, does not have to take place at the same height as where the electrical coupling of the printed circuit boards will be realized.

The lighting kit according to the invention meets all requirements regarding water tightness, preferably IP class 67 and UV resistance.

To complete the whole, the lighting kit (1) according to the invention includes an end piece (see figure 6), which is suitable for being fitted in the supporting profile (at its end).

Claims (8)

CONCLUSIONS 1. Lighting kit (1) designed to be attached to a supporting surface (5), wherein the kit (1) comprises a printed circuit board (2) comprising light-emitting diodes and a number of elongated extruded supporting profiles (3) made of silicone rubber, wherein the lighting kit (1) further comprises coupling means that are provided for mutually connecting supporting profiles (3) placed next to each other, characterized in that the said printed circuit board (2) is enveloped by a housing (12) made of silicone rubber, wherein the housing (12) ) further comprises one or more passage channels (13) in which an electric current-conducting wire (24) extends, wherein the = lighting kit (1) further comprises cable lead-through elements (11) arranged at the ends of the housing (12), which cable lead-through elements ( 11) are designed to electrically connect the printed circuit boards (2) of supporting profiles (3) placed next to each other. wherein each supporting profile comprises a receiving cavity (4) that extends in the longitudinal direction of the supporting profile (3) and which is provided for receiving said housing (12) with printed circuit board (2) in such a way that one part of the housing (12) ) extends into the receiving cavity of one support profile and the other part of the housing (12) extends into the adjacent support profile. 2. Lighting kit (1) according to claim 1, characterized in that the elongated support profile (3) is constructed in one piece and that the support profile (3) comprises two side walls (6) and a top wall (7) extending between the side walls (6). , wherein the side walls (6) are designed to block the light from the light-emitting diodes and wherein the top wall (7) is designed to diffusely spread the light from the light-emitting diodes. 3. Lighting kit (1) according to claim 2, characterized in that the elongated supporting profile (3) further comprises a base wall (8) extending between the side walls (6) and extending at a distance below the top wall (7) so that the base (8) and top wall (7) form an intermediate cavity (9) that extends in the longitudinal direction of the supporting profile (3). 4. Lighting kit (1) according to any one of the preceding claims, characterized in that a cable passage element (11) is provided on the longitudinal ends of said housing (12), each cable passage element (11) being provided with one or more passage openings for a data (14) and/or power cable (15). 5. Lighting kit (1) according to any of the preceding claims, characterized in that, viewed along the longitudinal direction, the cable guide elements (11) are mounted offset from the coupling means. 6. Lighting kit (1) according to any one of claims 3 to 5, when dependent on 3, characterized in that the coupling means are designed as a connecting piece (10) that is provided for connecting adjacent supporting profiles (3), wherein the intermediate cavity (9) at the end of one profile (3) is designed for receiving part of the connecting piece (10) in a sliding fit and the intermediate cavity (9) at the end of an adjacent profile (3) is designed for inserting another part of the connecting piece (10) in a sliding fit. 7. Lighting kit (1) according to any one of claims 3 to 6, if dependent on 3, characterized in that the elongated supporting profile (3) comprises two supporting legs (16; 17) directed towards each other, wherein one supporting leg (16) ) extends transversely to the end of the one side wall (6) and the other support leg (17) extends transversely to the end of the other side wall (6) and that said receiving cavity (4) extends between the base wall (8) and said supporting legs (16; 17). 8. Lighting kit (1) according to one of the preceding claims, characterized in that the lighting kit (1) comprises a mounting profile (18) for mounting against a supporting surface (5) and which is provided for clampingly receiving an elongated supporting profile (3). ).