NL1011749C2 - Optical switch and assembly of at least two such optical switches. - Google Patents

Description

Optical switch and assembly of at least two such optical switches

The present invention relates to an optical switch with which light supplied to the optical switch can be switched. By switching is meant not only to change the amount of light, but also to change the color of the light being supplied.

In many fields of application there is a need for such an optical switch which, inter alia, has a high light output, shows no phantom effects due to undesired internal reflections, has a very large switching range, and requires little maintenance.

The present invention meets this need by providing an optical switch for switching light supplied to the optical switch, which optical switch is provided with a light guide receiving the supplied light, which light guide is provided with a light exit surface wherein the light guide conducts the received supplied light to the light exit surface where the light exits the light guide, an optical element having a light receiving surface and a viewing surface, said optical element arranged such that the light receiving surface emerges from the light light-emitting surface receives light emitted, the optical element being made of a material which is at least partially transparent to light, so that light from the light-receiving surface is guided to the viewing surface, comprising a reservoir of an at least partially transparent liquid, wherein a At least an amount of the liquid can be placed between the light exit surface and the light receiving surface. Switching of the optical switch is accomplished by the liquid that can be placed between the light exit surface and the light receiving surface. In other words, by changing the characteristics, such as transparency, density, color and the like, of the liquid, the light guided by the optical switch is influenced. It is thus possible to obtain a light range between white and black, as well as, for example, different "shades of gray" red.

The invention has arisen from a need for new possibilities for the so-called Dynamic Route Information Panels (DRIPs), which provide for the route users to display route information, graphics, such as traffic signs and the like. In particular, there is a need for DRIPs to display certain traffic signs as desired, which may be of different colors. To date, LED-25 technology has been used for this purpose. However, this LED technology has several drawbacks for various applications, particularly when used in DRIPs. First, the light output of LEDs is limited. Second, the angle at which LEDs emit light is limited. Third, 30 LEDs have a limited switching range (less than 60%). Fourth, LED technology is expensive. Such drawbacks are not associated with the use of an optical switch according to the invention. Moreover, it has been found that such an optical switch can be used in many other applications, such as in mood lighting, billboards, car industry, printed circuit boards and so on.

In a preferred embodiment of an optical switch

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3 according to the invention, the light-emitting surface and the light-receiving surface are variably spaced apart. This makes it possible to adjust the amount of liquid between the light-emitting surface and the light-receiving surface, whereby the light passing through the liquid is absorbed more or less, thus creating a simple switching of the light. Although it is possible to vary the distance between the light-emitting surface and the light-receiving surface by increasing the liquid pressure, so that when the light-emitting surface and the light-receiving surface are correctly suspended, it has a variable distance therebetween, due to reproducibility of the distance, it is preferred that means are provided for moving the light exit surface and the light receiving surface relative to each other, for spacing the light exit surface and the light receiving surface at a variable distance.

In a preferred embodiment of an optical switch according to the invention, the means for moving the light-emitting surface and the light-receiving surface relative to each other, comprising a first electromagnetic means mounted on the optical element, are a co-acting second electromagnetic means attached to the light guide, and means for energizing the first and second electromagnetic means.

Preferably, the light guide is a tubular element. In particular, the tubular element has a central blind cavity, which is closed at the light exit surface. The tubular element is preferably made of an acrylic.

According to a further embodiment of an optical switch according to the invention, the reservoir is formed by a cylindrical element which surrounds both the liquid and the light guide. Preferably, the cylindrical element is located at least substantially coaxially about the tubular light guide. This enables a compact liquid-tight construction. The cylindrical element is preferably made flexible, for instance 5 from a silicone material. This compensates for and absorbs pressure variations that may arise when the distance between the light-emitting surface and the light-receiving surface is increased.

In an embodiment of an optical switch according to the invention, the optical element is provided with a cylindrical part, the end face of which forms the light-receiving surface, and wherein the cylindrical element at least partly surrounds the cylindrical part. Hereby, a simple mechanical construction is obtained, whereby the light-emitting surface and the light-receiving surface are arranged relative to each other.

A very compact, simple and reliable optical switch is obtained when the second electro-magnetic means is cylindrical and has a U-shaped section, and wherein the first electro-magnetic means is in the space between the legs of the U of the second electromagnetic means is placed. Preferably, the optical switch according to the invention further comprises a cap-shaped housing with a central opening for receiving and mounting the light guide and with a cylindrical wall, the second electromagnetic means being arranged on the free end of the cylindrical wall.

In a preferred embodiment of the invention, the optical switch is further provided with a cap of transparent material, which preferably has a lens shape, inter alia, in order to spread emerging light over a large field of view. The cap is preferably applied to the second electromagnetic means, and in particular is made of an acrylate.

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In order to prevent the light-emitting surface and the light-receiving surface from sticking together at a minimum distance, in an embodiment of an optical switch according to the invention the light-emitting surface is embossed, preferably the light-emitting surface is partially spherical. Alternatively or additionally, the light receiving surface is embossed, preferably the light receiving surface is partially spherical.

In a preferred embodiment of an optical switch according to the invention, the viewing surface has a lens shape, so that certain optical properties can be given to emerging light.

In order to switch over a wide range of colors, it would be possible to use different light sources to supply light to the optical switch. However, this is impossible in some applications due to a lack of space, among other things. In order to be able to switch a wide range of colors with a single light source, the invention also provides an assembly of at least a first and a second optical switch, each according to the invention, in which the light coming from the viewing surface of the first optical switch is supplied to the light guide of the second optical switch. Preferably, the assembly is further provided with a common housing surrounding and serving for mounting all optical switches of the assembly thereto. Because several optical switches are placed in line, it is possible to provide each of the optical switches with a liquid of different color to switch a wide range of colors.

The present invention will be described by way of example with reference to some embodiments shown in the drawing, in which:

Figure 1 shows schematically in section an optical switch according to the invention, 10 1 17 4 9 6

Figure 2 schematically shows part of a DRIP with optical switches according to the present invention, and

Figure 3 shows a schematic perspective view of an assembly according to the present invention.

Figure 1 shows an optical switch according to the invention schematically in cross-section. The optical switch 1 is intended for switching light supplied to the optical switch 1. This light can be supplied by a known light source (not shown) such as, for example, an incandescent lamp, a fluorescent tube, a laser and the like. The optical switch 1 has a light guide 2 receiving the supplied light.

The light guide 2 can take any known form for light guides, but is preferably a tubular element. This tubular element can be solid, but can alternatively be provided with a central blind cavity, for accommodating, for example, an optical fiber. The cavity is closed at a light exit surface 3 of the light guide 2. Preferably, the tubular element is made of an acrylate, although any other at least partially transparent material is also suitable.

The light guide 2 guides the received supplied light to the light exit surface 3, where the light 25 emerges from the light guide 2.

The optical switch 1 is further provided with an optical element 4 with a light receiving surface 5 and a viewing surface 6. This optical element 4 is arranged such that the light receiving surface 5 receives light emerging from the light-exit surface 3. The optical element 4 is made of a material which is at least partly transparent to light, preferably an acrylate, so that light from the light receiving surface 5 is guided to the viewing surface 6.

Furthermore, a reservoir 7 is provided with an at least partly transparent liquid, such as, for example, an oily emulsion, a coloring agent or the like. At least an amount of the liquid can be placed between the light exit surface 3 and the light receiving surface 5.

In the exemplary embodiment shown, the reservoir 7 is formed by a cylindrical element 8 which surrounds both the liquid and the light guide 2. In order to provide a compact construction, the cylindrical element 8 is placed at least substantially coaxially around the tubular light guide 2.

For obtaining a good and defined positioning of the light guide and the optical element, the optical element 4 is provided with a cylindrical part 9, the end face of which forms the light receiving surface 5. The cylindrical element 8 hereby surrounds the cylindrical part 9 at least partially.

Switching of supplied light is realized, for example, by changing the characteristics, such as transparency, density, color and the like of the liquid, so that the light which is guided through the optical switch is, in other words, switched. It is possible to introduce different liquids, or liquids with different characteristics, into the reservoir and to remove existing liquids therefrom. However, this requires more parts and is undesirable for some more compact applications.

In a simple and compactly designed optical switch according to the invention, the light-emitting surface 3 and the light-receiving surface 5 can be placed at a variable distance from each other. As a result, use can be made of a closed liquid reservoir, and the absorption can be more or less depending on the distance between the light-emitting surface 3 and the light-receiving surface 5. It is thus possible to obtain a light range between white (low absorption, short distance) and black (maximum absorption, long distance), as well as, for example, different "shades of gray" red, so that, for example, in an automobile the optical switch is used. used as brake light, the differences in braking force exerted by the driver are clearly shown by different shades of red.

The cylindrical element 8 is preferably flexible.

As a result, pressure variations which may arise when the distance between the light-emitting surface 3 and the light-receiving surface 5 are increased and compensated for.

There are many means which allow to set the mutual distance between the light exit surface 3 and the light receiving surface 5, in other words to effect liquid displacement. This may include electric motors, piezo elements, pistons and the like. Moreover, by applying pressure, for example by controlled squeezing elements, to the flexible reservoir 8 and a correct mutual suspension of the light guide and the optical element, the mutual distance between the light-emitting surface and the light-receiving surface 20 can be adjusted. The agents described below are particularly suitable for use in low-maintenance, compact and reliable structures that can be used, for example, in DRIPs.

According to an embodiment of the invention, the means for moving the light-emitting surface 3 and the light-receiving surface 5 relative to each other are provided with a first electromagnetic means 10 mounted on the optical element 4, and with a second electromagnetic means 11 co-acting therewith attached to the light guide 2. Furthermore, means are provided for energizing the first and second electromagnetic means. These members are shown in Figure 2 by cabling 16, 17 which can provide the first and second electromagnetic means with an excitation current.

In the exemplary embodiment shown, the second electromagnetic means 11 is cylindrical and has 101 in cross section in the form of a U. The second electromagnetic means 11 can for instance be a ferrite ring. magnetic means 10, for example a coil, is placed in the space between the legs of the U of the second electromagnetic means 11. Thus, by energizing the electromagnetic means 10, 11, the optical element 4 is displaceable relative to of the light guide 2. Here, the cylindrical part 9 slides into the cylindrical reservoir 8, and more or less liquid can get between the light-emitting surface 3 and the light-receiving surface 5.

The optical switch 1 further has a cap-shaped housing 12, 14 with a central opening 13 for receiving and attaching the light guide 2. The housing has a cylindrical wall 14, the second electromagnetic means 11 being arranged on the free end of the cylindrical wall 14. This ensures that the supply side of light of the optical switch 1 has a closed construction, whereby the unwanted penetration of dust and the like is prevented.

To further close the optical switch 1 against unwanted dirt, a cap 15 of transparent material, for example an acrylic, is provided, but another transparent material used in the optics is also suitable. Preferably the cap 15 is mounted on the second electromagnetic means 11, although an attachment to the wall 14 of the housing is also possible.

In order to prevent them from sticking together undesirably at a minimum distance between the light-emitting surface 3 and the light-receiving surface 5, the light-emitting surface 3 and / or the light-receiving surface 5 are embossed. This relief gives a partial spherical shape to the element in question.

In order to give the light emerging from the optical switch a certain optical characteristic, it is preferred to provide the viewing surface 6 and / or the hood 15 with a lens shape.

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Figure 2 schematically shows a cross-section of a part of a DRIP, in which a number of optical switches 1 according to the invention are mounted side by side (for example in matrix arrangement) on a front panel 22. For example, the cap 15 of the optical switch 1 rests on the front panel 22. The power of the optical switches 1 is energized via cabling 16, 17, which is shown for only one of the optical switches. It is noted that an additional advantage of the present invention is that the existing cabling of existing DRIPs can be used to control the inventive optical switches and that the adaptation to the invention can thereby be carried out at relatively low cost.

In order to switch over a wide range of colors, it would be possible to use different light sources to supply light to the optical switch. However, this is impossible in some applications due to a lack of space, among other things. In order to be able to switch a wide range of colors with a single light source, the invention also provides an assembly of at least a first 1 'and a second 1 "optical switch (see figure 3, in which also a third optical switch is 1"). each according to the invention. The light coming from the viewing area of the first optical switch 1 'is supplied to the light giver of the second optical switch 1 ". Preferably the assembly is further provided with a common housing 20 surrounding and serving for the attachment thereto of all optical switches 1 ', 1 ", 1"' 'of the assembly. Because different optical switches 1', 1 ", 1 ' Placed in line, it is possible to provide each of the optical switches with a liquid of different color to switch a wide range of colors. Consider a green, blue and red liquid for the individual optical switches.

It will be clear that, in principle, light is offered to the optical switch in various ways at 1 0 1 Ί ihj 11, whereby due to simplicity the light guide technology present in existing DRIPs can be assumed, whereby the luminous flux from a central light source through glass fibers to the optical switches. A logo or icon can also be integrated in any optical switch.

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Claims (24)

1. Optical switch (1) for switching light supplied to the optical switch (1), which optical switch (1) is provided with: - a light guide (2) receiving the supplied light, which light guide (2) is provided from a light exit surface (3), the light guide (2) guiding the received supplied light to the light exit surface (3) where the light exits the light guide (2), 10. an optical element (4) with a light receiving surface (5) and a viewing surface (6), which optical element (4) is arranged such that the light receiving surface (5) receives light emitted from the light-emitting surface (3), the optical element (4) 15 is made of a material which is at least partly transparent to light, so that light from the light-receiving surface (5) is guided to the visible surface (6), - containing a reservoir (7) of an at least partly transparent liquid, which at least an amount of the liquid can be placed between the light exit surface (3) and the light receiving surface (5). The optical switch (1) according to claim 1, 25, wherein the light exit surface (3) and the light receiving surface (5) are variably spaced apart. Optical switch (1) according to claim 2, in which means are provided for moving the light-emitting surface (3) and the light-receiving surface (5) relative to one another, on a variable 'I u 1' 17 4 9 spacing the light exit surface (3) and the light receiving surface (5). Optical switch (1) according to any one of the preceding claims, wherein the light guide (2) is a tubular element. The optical switch (1) according to claim 4, wherein the tubular element has a central blind cavity, which is closed at the light exit surface (3). Optical switch (1) according to claim 4 or 5, wherein the tubular element is made of an acrylic. Optical switch (1) according to any one of the preceding claims, wherein the reservoir (7) is formed by a cylindrical element (8) surrounding both the liquid and the light guide (2). Optical switch (1) according to claim 7 with reference to one of claims 4 to 6, wherein the cylindrical element (8) is placed at least substantially coaxially around the tubular light guide (2). Optical switch (1) according to claim 7 or 8, wherein the optical element (4) comprises a cylindrical part (9), the end face of which forms the light receiving surface (5), and wherein the cylindrical element (8) the cylindrical part (9) at least partly surrounds. Optical switch (1) according to claim 7, 8 or 9, wherein the cylindrical element (8) is flexible. Optical switch (1) according to claim 3, wherein the means for moving the light-emitting surface (3) and the light-receiving surface (5) relative to each other are provided with a first electromagnetic means (10 ) mounted on the optical element (4), of a co-operating second electromagnetic means (11) attached to the light guide (2), and of means for energizing the first and second electromagnetic means. 101 1749 12. The optical switch (1) according to claim 11, wherein the second electromagnetic means (11) is cylindrical and has a U-shaped cross section, and wherein the first electromagnetic means (10) is in the space between the legs of the U of the second electromagnetic means (11) are placed. Optical switch (1) according to claim 12, wherein the optical switch (1) further comprises a hood-shaped housing (12, 14) with a central opening (13) for receiving and mounting the light guide (2) and with a cylindrical wall (14), the second electromagnetic means (11) being mounted on the free end of the cylindrical wall (14). Optical switch (1) according to any one of the preceding claims, wherein the optical switch (1) further comprises a cap (15) of transparent material. The optical switch (1) according to claims 13 and 14, wherein the cap (15) is mounted on the second electromagnetic means (11). Optical switch (1) according to claim 14 or 15, wherein the material is an acrylate. Optical switch (1) according to any one of the preceding claims, wherein the light exit surface (3) is embossed. The optical switch (1) according to claim 17, wherein the light exit surface (3) is partially spherical. Optical switch (1) according to any one of the preceding claims, wherein the light receiving surface (5) is embossed. The optical switch (1) according to claim 19, wherein the light receiving surface (5) is partially spherical. Optical switch (1) according to any one of the preceding claims, wherein the viewing surface (6) has a lens shape. The optical switch (1) according to claim 14, 10 117 4 3 or 16, wherein the cap (15) has a lens shape. 23. Assembly of at least a first and a second optical switch (1, 1 ', 1 ") each according to any one of the preceding claims, wherein the light coming from the viewing surface of the first optical switch is supplied to the light guide of the second optical switch. An assembly according to claim 24, wherein the assembly further includes a common housing 10 (20) surrounding and serving for mounting thereto all optical switches of the assembly. -o-o-o-o-o-o-o-o- 1011749