NL2012360B1 - Device for illuminating an object, reflector and method therefor with UV light. - Google Patents

Description

Device for illuminating an object, reflector and method therefor with UV light.

The invention relates to a device for illuminating an object with UV light. Such devices are used, for example, for drying a coating or paint layer applied to an object. For example, the object to be exposed is a car.

Conventional devices for illuminating an object with UV light often comprise a space in which a UV lamp is arranged. The object to be exposed is positioned in the space, after which the UV lamp is switched on. A drawback of conventional devices is that the UV lamp can only illuminate a part of the object. To illuminate the entire object, the object must be repositioned, which is cumbersome. An alternative solution is to provide several UV lamps in the room, so that the object is illuminated from multiple sides. However, this has the disadvantage that the energy consumption of the device increases.

An object of the invention is to prevent or at least reduce the above problems and to provide an apparatus for illuminating an object with UV light with which an object can be efficiently exposed from multiple directions.

This object is achieved with the device according to the invention, comprising: - a UV lamp; and - a reflector, with at least one reflecting wall spaced apart from the UV lamp, such that the object to be exposed can be placed between the UV lamp and the at least one reflecting wall, wherein the reflector has a reflective surface surface for illuminating a part of the object that cannot be directly exposed by the UV lamp by means of targeted reflection of light from the UV lamp.

Mirroring surface is understood to mean a surface that allows mirroring reflection, also referred to as targeted reflection or non-diffuse reflection. It is emphasized that the reflective surface can be flat, for reflection as with a mirror, or a non-planar surface, whereby non-diffuse reflection is still obtained, although in that case the reflected image is distorted to a greater or lesser extent.

Due to the presence of the reflective surface, the light from the UV lamp can be reflected towards the part of the object that cannot be directly exposed by the UV lamp. This part of the object would be in the shadow of the object without reflecting walls. Because of the reflective surface, the UV light is not scattered in all directions, but is specifically reflected. Scattering the light as in conventional devices has the disadvantage that the UV light is also reflected in directions that already receive light directly from the UV lamp. It may even happen that the UV light is reflected in a direction away from the object. By directing the light energy with the reflective surface, uniform illumination of the object can be achieved. Moreover, an energy-efficient exposure is achieved in this way.

The distance from the UV lamp to the reflecting wall is, for example, more than 5 cm, more than 10 cm, more than 20 cm, more than 30 m, more than 40 cm or even more than 50 cm.

It is noted that a plurality of UV lamps can also be used in the device according to the invention. Although a second or further lamp may be able to directly illuminate a part of the object that cannot be exposed directly by the first UV lamp, a more intense exposure is obtained in total by the targeted reflection. This also makes such a device more efficient than conventional devices.

In an embodiment according to the invention, the reflector comprises at least one adjustable reflective wall.

Because the reflective wall is adjustable, the reflection of light towards the part of the object that is not directly exposed by the UV lamp can be adjusted. This makes it possible to adapt the device to the specific shape and size of the object to be exposed.

The adjustable reflective wall comprises, for example, a surface for diffuse reflection or a surface for specular reflection.

In a further embodiment according to the invention, the at least one reflective adjustable wall comprises a plurality of wall parts that are pivotable relative to each other.

This increases the setting options of the adjustable wall.

The at least one adjustable wall preferably comprises the mirror surface. The adjustable wall is adjustable such that light from the UV lamp can be reflected towards the reflecting wall that is at a distance from the UV lamp. For example, the reflecting wall remote from the UV lamp also comprises a mirror surface.

In a further embodiment, the at least one reflecting wall that is at a distance from the UV lamp has a light-scattering surface and this wall is moreover connected to an adjustable reflecting wall which has a mirror surface for targeted reflection of light from the UV lamp towards the light-scattering surface.

In other words, light from the UV lamp is reflected via the reflecting surface to the light-scattering surface, where the light is then scattered. This is advantageous, for example, in the case that the light-scattering surface is arranged near the part of the object that cannot be exposed directly by the UV lamp. The guiding of the UV light to the light-scattering surface is carried out without scattering, so that no energy loss occurs. However, in the vicinity of the part of the object that cannot be directly exposed by the UV lamp, scattering may be desirable to illuminate a relatively large surface.

In an embodiment according to the invention, the reflector comprises anodized aluminum.

Anodized aluminum is preferably used as the reflective surface of the reflector. It appears that anodized aluminum is particularly effective for the reflection of UV light, and in particular for targeted reflection of UV light. Alternatively, the reflector comprises non-anodized aluminum or another metal.

In an embodiment according to the invention, the reflector comprises a profiled surface. For example, the reflector comprises a wave pattern, ridges, a rectangular pattern of mountains and valleys or other profile. The reflecting surface preferably comprises such a profile. Due to the profile, the reflective surface can still have some degree of scattering, with which the surface that is exposed can, for example, be enlarged, without the advantages of targeted reflection being canceled out.

In an embodiment according to the invention the reflector is provided with wheels. The reflector can be moved within the device with the aid of the wheels, so that the illumination of the object can be adjusted even better to the size and shape of the object to be exposed.

In an embodiment according to the invention, the reflector comprises a plurality of reflector walls defining a chamber in which the UV lamp is arranged.

All reflector walls preferably comprise a reflective surface. For example, the reflector wall that is spaced apart from the UV lamp forms a first wall of the chamber and this reflector wall is connected to further reflector walls, so that they jointly form the chamber.

In a further embodiment the chamber is lockable. This has the advantage that it is possible to work in a safe manner, since no UV light, at least not or hardly, can exit the room. This also has the advantage that no energy is lost.

The invention further relates to a reflector for a device as described above, comprising a mirror surface on the underside of which wheels are provided. The reflector preferably comprises a plate-shaped part with a reflective upper surface, under which the wheels are provided.

In a further embodiment the reflector comprises an adjustable reflective wall.

The invention further relates to a further device for illuminating an object with UV light, comprising: a UV lamp; and a reflector, with at least one reflecting wall spaced from the UV lamp, so that the object to be exposed can be placed between the UV lamp and the at least one reflecting wall for reflecting through the reflecting wall light from the UV lamp to a part of the object that cannot be directly exposed by the UV lamp, wherein the reflector comprises at least one adjustable reflective wall.

The invention further relates to a method for illuminating an article with UV light, comprising the following steps: providing a UV lamp; providing a reflector comprising a reflective surface; placing a reflective wall of the reflector at a distance from the UV lamp; placing an object to be exposed between the reflecting wall and the UV lamp; illuminating with the UV lamp, via the mirror surface, a part of the object that cannot be directly exposed by the UV lamp.

The same advantages and effects apply to the reflector, the further device and the method as described above for the device according to the invention. In addition, features of the devices, reflector and method can be combined as desired.

Further advantages, features and details of the invention are elucidated on the basis of preferred embodiments thereof, wherein reference is made to the accompanying drawings. Figure 1 shows schematically a first embodiment of a device according to the invention, wherein Figure 1A shows an opened state and Figure 1B shows a closed state; Figure 2 shows schematically a second embodiment of the device according to the invention, with a profiled reflective wall; Figure 3 schematically shows a third embodiment of a device according to the invention, in which adjustable side walls are provided; Figure 4 shows schematically a fourth embodiment of the device according to the invention, wherein the adjustable wall comprises a harmonica wall; Figure 5A schematically shows a reflector according to the invention; Figure 5B schematically shows the use of this reflector for illuminating a lower edge of a car; Figure 6 shows schematically an example of the reflective surface of the reflective wall of the reflector; Figure 7 shows schematically a fifth embodiment of the device according to the invention; and - Figures 8A-8B schematically show an alternative embodiment of a reflector for a device according to the invention. UV device 2 (Figure 1A) comprises side wall 4, bottom 6 and side wall 8. Walls 4, 6 and 8 form a chamber that can be closed by means of side wall 10 which is hingedly attached to side wall 8 by means of hinge 12. The device 2 further comprises front and rear walls that are not shown in this schematic representation. A UV lamp 14 is provided on the upper wall 10. Alternatively, UV lamp 14 can be arranged on another wall 4, 6, 8.

On the bottom wall 6 of device 2, holders 16 are provided for receiving an object 18. In the closed state (Fig. 1B), UV lamp 14 is switched on and the light from UV lamp 14 reflects through reflective walls 4, 8 to the bottom 6. Bottom wall 6 reflects the light towards the object, so that the underside of object 18 can also be exposed. In the example shown, all walls 4, 6, 8, 10 and the front and rear wall (not shown) are made of anodized aluminum, so that all walls are reflective. In an alternative embodiment, walls 4, 8 are in any case mirrored and bottom wall 6 scattering.

Device 20 (Figure 2) corresponds to the first embodiment, with the difference that the lower wall 6 is profiled. In the example shown, the lower wall is reflective, whereby the profiling still provides some spread of the UV light beam. Alternatively or additionally, the side walls 4, 8, front and rear wall and / or upper wall 10 are profiled.

Device 22 (Figure 3) comprises side walls 4, 8 which are built up from a plurality of wall parts 4a, 4b, 8a, 8b. Wall part 4a is hinged to wall part 4b and also hinged to upper wall part 10. Wall part 4b is connected to lower wall part 6. Wall part 8a of wall 8 is hinged to wall part 10 and hinged to wall part 8b and wall part 8b is hinged to wall part 6. It is noted that wall part 10 can again serve as a valve, for example wall part 10 is only hingedly connected to wall part 8a and not to wall part 4a. The angle of incidence of the UV light on each wall part is adjustable by means of the hinged attachment of the wall parts, by adjusting the angles a, β, γ and δ .. This makes it possible to adjust the reflection properties of the wall parts to to fit, in particular if it concerns mirrored wall parts.

Device 24 (Figure 4) comprises side walls 4, 8 which are built up from more than three wall parts that are hinged to each other, so that a harmonica wall is obtained. For example, wall 8 is provided at its end with a coupling 26 and wall part 4 is also provided with such a coupling 26, so that a sealed chamber can be obtained by coupling the coupling parts 26. For example, coupling 26 comprises a magnet or a hook which to confirm a corresponding eye.

Reflector 28 (Figure 5A) comprises a plate-shaped reflective bottom 6, at the bottom of which wheels 30 are provided. Connected to bottom 6 are walls 4, 8 which consist of a plurality of wall parts pivotable relative to each other, so that a kind of harmonica wall is formed. The wall parts 4, 8 in this example are reflective, so that the reflector can be used with a UV lamp, wherein the reflection can be adjusted by adjusting the hinged walls 4, 8.

Reflector 28 can be used, for example, in a UV chamber with UV lamps 14 (Figure 5B), in which reflector 28 is driven under the object to be exposed by means of wheels 30, as shown in the figures. The adjustable walls 4, 8 can then be adapted to the shape and size of the object, so that the object can be illuminated from all sides, or at least all desired sides. In the example shown, a car is exposed to UV radiation. In this application, it is not necessary to illuminate the entire underside of the car, but the lower edge of the structure of the car is provided with a coating which can be illuminated with the aid of reflector 28.

The reflector can be provided with a reflective foil 34 (Figure 6). Such a foil is not in itself strong enough to form a wall. According to the invention, it is possible to apply the film to non-reflective wall parts 8a, as shown in Figure 6. In another embodiment, non-reflective wall parts 8a are coated with a reflective coating to achieve the same effect.

It is also possible to adjust the UV lamp so that the orientation and position with respect to the reflector can be adjusted. This is illustrated in Figure 7. Device 36 comprises a UV lamp 14 which is attached to pulley 38, so that the position of the UV lamp can be adjusted in height. The device comprises mirrored side walls 40, 42 which comprise a plurality of convex parts that are hinged to each other. Bottom 6 is also reflective in the embodiment shown.

In an alternative embodiment according to the invention, a reflector 44 (figures 8a and 8b) is provided which is built up from a number of rings 46 between which a reflective foil 48 is provided. Film 48 is, for example, a somewhat flexible film. The reflector can be moved from a collapsed state (Fig. 8a) to a collapsed state (Fig. 8b). Reflector 44 preferably comprises a locking means (not shown) to keep reflector 44 in the unfolded state if desired.

The present invention is by no means limited to the above described preferred embodiments thereof. The requested rights are determined by the following claims within the scope of which many modifications are conceivable. For example, it is possible that a reflector wall is telescopically adjustable.

Claims (14)

Device for illuminating an object with UV light, comprising: - a UV lamp; and - a reflector, with at least one reflecting wall spaced apart from the UV lamp, such that the object to be exposed can be placed between the UV lamp and the at least one reflecting wall, wherein the reflector has a reflective surface surface for illuminating a part of the object that cannot be directly exposed by the UV lamp by means of targeted reflection of light from the UV lamp. Device as claimed in claim 1, wherein the reflector comprises at least one adjustable reflective wall. Device as claimed in claim 2, wherein the at least one reflective adjustable wall comprises a plurality of wall parts that are pivotable relative to each other. Device as claimed in claim 2 or 3, wherein the at least one adjustable wall comprises the mirror surface. Device according to 4, in which the at least one reflecting wall which is at a distance from the UV lamp has a light-scattering surface and is connected to an adjustable reflecting wall which has a mirroring surface for directed reflection of light originating from the UV lamp towards the light-scattering surface. Device as claimed in any of the foregoing claims, wherein the reflector comprises anodized aluminum. Device as claimed in any of the foregoing claims, wherein the reflector comprises a profiled surface. Device as claimed in any of the claims 1-7, wherein the reflector is provided with wheels. The device of any one of claims 1-7, wherein the reflector comprises a plurality of reflector walls defining a chamber in which the UV lamp is arranged. The device of claim 9, wherein the chamber is lockable. Device as claimed in any of the foregoing claims, wherein the reflector comprises a reflective foil. 12. A reflector for a device according to claim 8, comprising a mirror surface on the underside of which wheels are provided. A reflector according to claim 12, comprising an adjustable reflective wall. A method for illuminating an object with UV light, comprising the following steps: - providing a UV lamp; - providing a reflector comprising a mirror surface; - placing a reflective wall of the reflector at a distance from the UV lamp; - placing an object to be exposed between the reflecting wall and the UV lamp; illuminating with the UV lamp, via the mirror surface, a part of the object that cannot be directly exposed by the UV lamp.