NL2030986B1 - Holder for a light source - Google Patents

Abstract

Holder for a light source 5 A holder for receiving a light source comprises an extrusion profile of at least one thermoplastic polyurethane compound (TPU) with a cavity (15) running therein in the longitudinal direction and bounded by longitudinal walls (10,20). The cavity provides a seat (25) for placement of the light source (40,45). A first wall (10) of the said walls provides an exit window for a light image to be cast by the light source. The first wall lies on a supporting body (30) that extends into the cavity and is formed at least substantially from a transparent, or at least translucent, aliphatic polyurethane compound. At least substantially a transparent, or at least translucent, aromatic polyurethane compound has been used for the supporting body. The further walls (20) on the side of the cavity at least in particular mainly comprise an aromatic polyurethane compound to which UV protection has been added.

Description

Holder for a light source

The present invention relates to a holder for receiving a light source, comprising an extrusion profile of at least one thermoplastic polyurethane compound with a hole extending in the longitudinal direction therein and bounded by longitudinal walls, which cavity provides a seat for placing the light source.

The invention relates in particular to a holder for a ribbon-shaped light source, such as in particular an LED strip. Such an LED strip usually comprises a strip-shaped and somewhat flexible carrier that is covered lengthwise with a series of successive light-emitting diodes (LEDs). The carrier also comprises a metallization that provides electrical wiring for the light sources and possibly further control electronics provided on the carrier. The carrier with light sources is placed in a holder to enable practical mounting and connection. With a view to applications in a humid environment or in the open air, it is desirable that the carrier is in the holder is sealed against moisture.

A known holder comprises a sturdy U-shaped extrusion profile of a thermoplastic polyurethane (TPU) compound. The light source is received at the bottom and the space in the cavity above is filled with a flowing transparent plastic that then hardens. However, this process is labor-intensive and time-consuming, not least because of the drying time that the plastic used requires. Another known holder comprises a comparable extrusion profile based on a silicone compound. However, this turned out to be insufficiently stable under the influence of UV radiation.

The present invention is therefore intended, among other things, to provide a holder in which a light source can be accommodated that at least largely meets these drawbacks.

In order to achieve the intended purpose, a holder of the type described in the opening paragraph according to the invention is characterized in that a first of the said walls offers an exit window for a light image to be cast by the light source, and that the first wall lies on a supporting body. that extends into the cavity, that the first wall is at least substantially formed from a transparent, at least translucent, aliphatic polyurethane compound, and that at least substantially a transparent, at least translucent aromatic polyurethane compound is used for the supporting body.

The extrusion profile thus comprises a co-extrusion of different components that together will form the holder. The first wall that has an exit window for the light image to be emitted by the air source must therefore be transparent. This will also be a visible side when used with the light source, which means that this layer is also susceptible to the effects of ambient light and in particular degradation as a result of UV radiation. The aliphatic polyurethane compound used for the first layer is highly UV-resistant and transparent and therefore meets these two requirements.

However, the aliphatic polyurethane compound cannot be directly extruded in a form-retaining manner, but is instead still soft or even thinly liquid immediately after extrusion. The supporting body under the aliphatic top layer is composed of an aromatic polyurethane compound and emerges from the extrusion die in a sufficiently stable condition. This provides support to the incompletely hardened aliphatic top layer lying on top. Because this body is made transparent, or at least translucent, light is transmitted to the aliphatic top layer. The further walls can also be composed of an aromatic polyurethane compound and in that case can also be extruded directly to retain their shape. However, an aliphatic polyurethane compound can also be chosen for these walls, in which case the supporting body provides support for them in a similar manner as for the first layer following the extrusion.

A preferred embodiment of the holder according to the invention is therefore characterized in that the extrusion profile comprises a co-extrusion of at least the first wall and the supporting body.

With a view to a homogeneous light image from a series of successive light sources within the holder, a special embodiment of the holder according to the invention is characterized in that the first wall is provided with an optically scattering surface structure.

The diffusing top layer spreads the light coming from the light source from below, so that individual light sources are to a lesser extent not recognizable as such in the light image. Instead, the arrangement in the longitudinal direction gives a largely even effect! light image, both above and between the successive light sources.

With a view to simple assembly, a further preferred embodiment of the holder according to the invention is characterized in that the supporting body leaves a recess in one of the further walls, which recess provides the seat for the light source, in particular to accommodate a strip-shaped light source. , such as in particular an LED strip equipped with a series of light-emitting diodes (LEDs). The opening offers an axially extending input slot into which a strip-shaped light source can easily be introduced afterwards.

Typically, an LED strip includes a flexible carrier on which individual LEDs are mounted.

This carrier in particular allows a transverse bending transverse to a longitudinal direction thereof over a back side thereof. In a first further embodiment, the holder according to the invention is characterized in that the said walls are flexible and that the further wall and the recess are located opposite the first wall. The holder is thus flexible in the longitudinal direction transverse to the exit window. However, according to the invention, a second further embodiment of the holder is characterized in that the said walls are flexible and the further wall and the recess are located adjacent to the first wall. This embodiment thus allows a bending of the holder in the plane of the exit window.

In a further special embodiment, the holder according to the invention is characterized in that the supporting body comprises an at least substantially U-shaped recess on a side facing the seat, which opens towards the seat. The supporting body is not solid but hollow with a limited wall thickness along the recess. On the one hand, the limited wall thickness promotes uniform and faster hardening during extrusion and prevents the formation of inclusions that could otherwise disrupt the light image. On the other hand, the wall is still sufficiently strong to provide sufficient support to the adjacent longitudinal outer wall of the holder.

Due to the reduced wall thickness of the supporting body, the light originating from a light source located underneath it follows a more comparable optical path in all directions.

This also benefits the uniformity of the light image. In a further embodiment of the holder, the latter is further promoted, characterized in that the U-shaped recess on a side opposite the seat has an internal curvature and in particular runs at least substantially semi-circular.

A-

From the point of view of optical efficiency, it is preferable that light emitted by a light source can only escape through the exit window of the first layer as much as possible. Therefore, a further preferred embodiment of the holder according to the invention is characterized in that the further longitudinal walls are at least substantially light-tight, in particular reflective, more particularly because a pigment has been added therein.

Apart from the exit window in the first layer, the light is thus confined and reflected as much as possible within the holder so that as much light as possible leaves the holder via the exit window.

Unlike an aliphatic polyurethane, many aromatic polyurethane compounds are sensitive to UV light. On the other hand, aromatic polyurethane compounds can be extruded more firmly and retain their shape. A preferred embodiment of the holder is therefore characterized in that the further longitudinal walls at least substantially comprise an aromatic polyurethane compound and are provided with UV protection, in particular in the form of a UV-resistant coating or UV-resistant additive. The further walls thus provide strength immediately after extrusion and are also protected against degradation as a result of UV radiation.

The invention will be explained in more detail below on the basis of an exemplary embodiment and an associated drawing. In the drawing shows:

Figure 1 is a view of a first exemplary embodiment of the holder according to the invention;

Figure 2 in cross-section, the first exemplary embodiment of the holder according to the invention; and

Figure 3 in cross-section, a second exemplary embodiment of the holder according to the invention.

It should be noted that the figures are purely schematic and not always drawn on the same scale. In particular, for the sake of clarity, some dimensions may be exaggerated to a greater or lesser extent. Corresponding parts are indicated in the figures with the same reference numeral.

Figure 1 shows an isometric view of a first exemplary embodiment of a holder according to the invention. The holder is intended and designed to accommodate a light source therein, as illustrated in cross-section in Figure 2. The holder comprises an extrusion profile that is formed as a whole by co-extrusion of different thermoplastic polyurethane (TPU) compounds at an elevated temperature. A first wall 10 is based on a transparent aliphatic TPU block polymer, while an opaque aromatic TPU is chosen for the further walls 20. TPUs include block copolymers with hard and soft blocks, allowing a wide variation in mechanical properties to be achieved; from rubbery to tough high-quality plastics. TPUs generally have high tensile strength and very good flexibility and toughness at low temperatures. Due to their good cushioning and high wear resistance, TPUs are also suitable for industrial applications. A high resistance to oils and greases also make TPUs suitable for automotive applications.

The soft elements in the block copolymer can be ether or ester based and the hard blocks can be aromatic or aliphatic. Suitable TPU compounds for the present application are, for example, polyether-based polyurethanes, with a hardness typically between 50 shore A and 75 shore D, which are commercially available under the brand name Elastollan® from BASF. A white pigment has been added to TPU for the further walls 20 as well as a UV blocker that protects the layer 20 against degradation under the influence of UV radiation. The aliphatic TPU of the first layer is naturally sufficiently resistant to UV radiation.

The walls 10,20 mutually enclose a body cavity 15 that continues axially in the profile. The profile further comprises a supporting body 30 that was formed in the body cavity 15 together with the walls 10,20. The supporting body 30 at least substantially comprises a transparent aromatic TPU and is thus, shielded from UV radiation, enclosed under the top layer 10 and between the opaque side walls 20. The supporting body 30 retains a recess 25 in one of the further walls 20. As in Figure 2 is more clearly visible in cross-section, this recess 25 provides a seat for a light source 40,45.

This example concerns a strip-shaped light source, such as the LED strip shown here. Such an LED strip usually comprises a somewhat flexible, elongated plastic carrier 40 on which a series of individual light-emitting diodes (LEDs) 45 are arranged in a regular pitch in the longitudinal direction. The carrier 40 also contains metallization to which the individual LEDs are electrically connected. Just like the cavity 15 and the supporting body 30, the recess 25 also extends over the full length in the profile so that the strip can be accommodated therein over the full length. In practice, this is done by sliding the strip in from one of the two ends of the profile.

The support body 30 has at least substantially a side on a side facing the seat

U-shaped recess that opens towards the seat 25. On a side opposite the seat, the U-shaped recess has an internal curvature that runs at least substantially semicircular. As a result, the supporting body 30 around the recess has a reduced wall thickness w, which is still sufficient to provide adequate support. This promotes the drying and hardening of the supporting body during extrusion and prevents the formation of inclusions therein that could otherwise optically disrupt the light image.

For the purpose of an even light image, a surface structure has also been provided in the first layer 10, which scatters the light entering from below. The individual LEDs 45 of the LED strip 40 therefore appear as a continuous light line. This surface structure can be provided simultaneously with the extrusion by working on the top layer 10 with a profiled roller or by adding a granular additive therein. A specific aliphatic TPU component with a naturally matt and diffuse surface can also be selected for the first wall.

In the embodiment shown in figure 2, the recess 25 lies opposite the first layer 10 and the assembly shown is flexible backwards around the line B-B. Figure 3 shows a comparable exemplary embodiment, in which the recess 25, on the other hand, is located adjacent to the first layer 10 and the holder is therefore laterally flexible. In both cases, the transparent first layer 10 provides an exit window through which the light from the light source 45 can escape. The white side walls 20 reflect any light incident on them so that this ultimately also exits as much as possible via the first layer.

Although the invention has been explained in more detail above on the basis of only a single exemplary embodiment, it is clear that the invention is by no means limited thereto.

On the contrary, many variations and manifestations are still possible for an average skilled person within the scope of the invention. In particular, instead of a jointly extruded TPU profile, a sufficiently stiff U-profile ys can also be used as a pre-finished product for the further walls of the container, for example made of aluminium, another metal or another plastic, in which case a co-extrusion of the supporting body together with the first layer is inlaid while a recess for the light source is maintained.

A co-extrusion of UV-stable aliphatic TPU can also be used for the further walls of the container, which in that case is also supported by the supporting body, just like the first wall.

Claims (10)

Conclusions: 1. Holder for receiving a light source, comprising an extrusion profile! of at least one thermoplastic polyurethane compound with a cavity extending in the longitudinal direction therein and bounded by longitudinal walls, which cavity offers a seat for placing the light source, characterized in that a first of said walls offers an exit window for an exit window to be absorbed by the light source cast a light image, that the first wall lies on a supporting body that extends into the cavity, that the first wall is formed at least substantially from a transparent, or at least translucent, aliphatic polyurethane compound, and that the supporting body is at least substantially transparent, or at least translucent aromatic polyurethane compound has been used. 2. Container according to claim 1, characterized in that the extrusion profile comprises a co-extrusion of at least the first wall and the supporting body. 3. Container according to claim 1 or 2, characterized in that the first wall is provided with an optically scattering surface structure. 4. Container according to claim 1, 2 or 3, characterized in that the supporting body leaves a recess in one of the further walls, which recess provides a seat for the light source, in particular to accommodate a strip-shaped light source, such as in particular an LED strip equipped with a series of light-emitting diodes (LEDs). 5. Container according to claim 4, characterized in that said walls are flexible and that the further wall and the recess are located opposite the first wall. 6. Container according to claim 4, characterized in that said walls are flexible and the further wall and the recess are located adjacent to the first wall. 7. Container according to one or more of the preceding claims, characterized in that the supporting body comprises an at least substantially U-shaped recess on a side facing the seat, which opens towards the seat. 8. Container according to claim 7, characterized in that the U-shaped recess on a side opposite the seat has an internal curvature and in particular runs at least substantially semi-circular. 9. Container according to one or more of the preceding claims, characterized in that the further longitudinal walls are at least substantially light-tight, in particular reflective, in particular because a pigment has been added therein. 10. Container according to one or more of the preceding claims, characterized in that the further longitudinal walls at least substantially comprise an aromatic polyurethane compound and are provided with UV protection, in particular in the form of a UV-resistant coating or UV-protection barrier additive.