ES2411722A1 - Luminaire with liquid optics of orientation controlled by electrical signal (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

Luminaire with optical optics controlled by electrical signal, applicable to domestic or professional lighting and for cars or other vehicles, comprising at least one light source (4), which may be an led, and an optical (6) liquid constituted by a liquid electro-optical device whose shape is modified by the application of an electrical signal to control the direction of the emitted light. Said optic (6) comprises several active electrodes (7b) and a mass electrode (7a) with a hydrophobic coating in a cavity containing two transparent liquids (9, 10) immiscible with each other and of different refractive index, being at least one (9) of them electrically conductive. (Machine-translation by Google Translate, not legally binding)

Description

Luminaire with liquid orientation optics controlled by electrical signal.

OBJECT OF THE INVENTION

The invention, as expressed in the present specification, refers to a luminaire with liquid optics of controllable orientation by means of an electrical signal, which provides, to the function that is intended, several advantages and innovative structural and constitutive technical characteristics, which will be described later, which represent a remarkable novelty in the current state of the art.

More particularly, the object of the invention is centered on a luminaire, being understood as any type of lamp, lantern, headlight, spotlight or element architecture intended to provide light, and which can be applicable both for domestic or professional lighting and for cars or other vehicles, which presents the innovative feature of incorporating a control system of the direction of the emitted light that does not use moving mechanical parts, but a liquid optic that constitutes an optofluidic device whose shape is modified by applying a signal electric

FIELD OF APPLICATION OF THE INVENTION

The field of application of the present invention is part of the industry sector dedicated to the manufacture of luminaires, covering both those intended for domestic or professional lighting of spaces, such as for cars or other vehicles.

BACKGROUND OF THE INVENTION

As is known, the direction of the light emitted by a source, can be modified by the movement of the light source support, as is done in home or professional lighting systems and also in applications to car bulbs. .

However, this method requires mechanical actuation parts and the consequent electrical system

or electronic control thereof.

It is also possible to modify the direction of the light emitted by movement, not of the light source, if not of an associated optics, in which case the mechanical system and its corresponding electrical control system are still necessary.

All optical systems, such as lenses, cameras, microscopes, glasses, etc., change the direction of light through the phenomenon of refraction that occurs in a change of medium between two materials of different refractive indices.

However, if the position of the optical element and the light do not change, the direction of the light beam will always be the same.

In order to modify the path of the emitted light without using moving parts, it can be done in several other ways:

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 One is the change in the refractive index of the optical medium through which the emitted light propagates, known with the Kerr effect (J. Kerr, Philosophical Magazine, vol 3, p.321, 1877), but such a phenomenon does not occur in all the materials; The material where the effect is greater is in the nitrobenzene that is poisonous and has a very weak intensity, so voltages in the kilovolt range must be applied, normally out of the reach of the most common applications.

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 The other way to achieve the change of direction of the light emitted by a source is to use the phenomenon known as “electrowetting” or electrohumidification, discovered by Gabriel Lippmann in 1875 (F. Mugele, JCBaret, Journal of Physics: condensed matter vol. 17, pp. R705-R774 (2005)) and which, fundamentally, consists in modifying the contact angle of a liquid on a solid substrate by applying an electrical potential.

In this way, liquid lenses are achieved, in which the focal length can be electrically modified without moving mechanical parts; display pixels, in which a conductive liquid can displace an opaque oil (by electrical means) to modify the transparency of the pixel; and microfluidic devices can also be made, in which drops can be moved, mixed and broken, all by applying electrical potential and without moving mechanical parts.

There is a record of the invention patent US2012216863 (A1) of 30/8/2012 in which a method of concentrating photovoltaic solar energy is proposed by associating an electro-optical element of concentrating solar energy on a solar cell, It contains a liquid prism formed by two immiscible and electrically controllable liquids.

However, there is literature prior to this patent describing the operation of these liquid prisms (NRSmith, DCAbeysinghelm J.W. Baus, J. Heikenfeld, Optics Express, vol. 14p.6557, 2006, and J. Heikenfeld, A. Steckl. N. Smith, D.Abeisinghe, J. Haus, IEEE LEOS Newsletter, August 2006, p.4 2006).

In any case, it is unknown the existence of any other luminaire with liquid optics of controlled orientation by means of an electrical signal, or of any other invention of similar application, which has similar technical, structural and constitutive characteristics to those presented by the luminaire that is here advocates, as claimed, and whose objective is to provide a system that associates a light source with an electro-optical device, controllable in two dimensions, in order to deflect the emitted light.

EXPLANATION OF THE INVENTION

Thus, the luminaire with liquid optics of controlled orientation by means of an electrical signal that the present invention proposes is configured as a remarkable novelty within its field of application, since according to its implementation and in a restrictive way the aforementioned objectives are satisfactorily achieved, the characterizing details making it possible and distinguishing it from what is already known, conveniently included in the final claims that accompany the present specification thereof.

Specifically, the luminaire proposed by the invention has a control system for the direction of the light emitted by the light source, constituted by an LED or other source, which for this, instead of using mobile mechanical parts, contemplates the use of an optical or liquid optical device whose shape is modified by the application of an electrical signal.

In addition, said device allows the direction of the light emitted by each of the sources of the luminaire to be individually modified, so that a set of LEDs in a lamp or spotlight can emit an addressable light independently through the use of An electrical signal This architecture is designed for domestic or professional lighting and in spotlights for cars and other vehicles.

In conventional lighting, the movement of the light direction can be programmed according to the ambient light, sunlight or artificial means of use in nightclubs and other environments or scenarios.

In automotive this architecture is designed so that the headlights of cars or other vehicles, without excluding other bulbs or lights of the car, can be automatically oriented according to the weight and rear load of the vehicle or depending on the curves of the road , without excluding other needs to redirect the light inside or outside the vehicles, all without the need to have to incorporate moving parts to said lights or lights.

For all this, the optical or optical device that incorporates the luminaire of the invention is a liquid electro-optical device in which the shape of its surface is modified by applying an electrical signal that modifies the surface tension by the effect known as "Electrowetting" that is to say electrohumidification.

For this purpose, said optics contemplates the existence of several active electrodes and a mass or reference electrode in the walls and floor. These electrodes are indium tin oxide (ITO) or any other transparent conductive oxide coated with a film of hydrophobic material in a cavity containing two immiscible liquids, one of them being an electrical conductor.

In a preferred embodiment of the invention, the luminaire has, as a light source, with at least one LED diode, which is fixed, by means of an adhesive, in a recess of a layer of electrically insulating material deposited on top of a support and, on said layer of insulating material and said led, a transparent insulating film is assembled, which can be of the same insulating material as the layer where the LED is fixed. These two layers are joined either paid by adhesive or fixed by mechanical bonding.

In any case, on this transparent film, the liquid optics itself is incorporated, and that constitutes the device whose shape is modified by the application of an electrical signal, which consists of control electrodes, which extend along the bottom and the side walls of the optics, which can be perpendicular or oblique to said bottom, but which in any case determine a central cavity, which have a coating of hydrophobic material, for example, Teflon.

Two transparent transparent liquids immiscible with each other and having a different index of refraction are incorporated on said coating, occupying the aforementioned central cavity of the optic, being one of them electrically conductive. Of these liquids, preferably one of them is a conductive liquid such as water and the second a non-conductive oil

Finally, the optics have a transparent outer covering, which can be glass or other material, which, for example by means of adhesive, is fixed tightly over the cavity where the described liquids are housed.

The electrodes, as already mentioned above, are at least five: four lateral and one central. The side electrodes are those that receive an electrical potential with respect to the central electrode that is always at the reference or mass potential. In this way, by activating two opposite side electrodes, the contact angle between the liquid and the hydrophobic wall can be modified in one direction, for example horizontal. And when the electrode signal is applied to the other two electrodes, the modification of the contact angle occurs in the opposite direction, that is, vertical.

In this way, the light emitted by the LED, finds an inclined surface of the interface between two means of different index of refraction, leaving its trajectory modified laterally, or to the left or to the right, and also up or down , depending on the activated electrode.

The simultaneous activation of all electrodes with different potential values allows the shape of the interface between the two liquids to be adjusted to other shapes, so that the light can be oriented in any desired direction.

In addition, if the luminaire comprises a plurality of light sources, for example if it is a car headlight with multiple LEDs, the direction of the emission of said light will be controlled through the liquid optics individually in each of them.

In view of the foregoing, it is found that the described luminaire with liquid optics of controlled orientation by means of an electrical signal represents an innovative structure of structural and constitutive characteristics unknown until now, reasons that, together with its practical utility, provide it with a sufficient basis to obtain the privilege of exclusivity that is requested.

DESCRIPTION OF THE DRAWINGS

To complement the description that is being made and in order to help a better understanding of the characteristics of the invention, this descriptive report is attached, as an integral part thereof, of a set of drawings, in which with character Illustrative and not limiting, the following has been represented:

Figure number 1.- Shows a schematic sectional view of an embodiment of the luminaire with liquid optics of controlled orientation by means of an electrical signal, object of the invention, in which the main parts and elements it comprises, as well as the configuration and arrangement of them.

Figure number 2.- Shows a plan view of the arrangement of the control electrodes incorporating the liquid optics of the luminaire, according to the invention, the arrangement thereof being appreciated in the example represented in Figure 1.

PREFERRED EMBODIMENT OF THE INVENTION

In view of the aforementioned figures, and in accordance with the numbering adopted, an example of a preferred embodiment of the invention can be observed therein, which comprises the parts and elements indicated and described in detail below.

Thus, as can be seen in Figure 1, in which to ensure greater clarity the thicknesses of the layers are exaggerated, the luminaire (1) in question is configured from a support (2) on which a first layer of electrically insulating material such as polydimethylsiloxane (PDMS) (3) in which the light source (4) is housed, preferably an LED, which is arranged fixed by adhesive in a recess provided in said layer for that purpose, there being on both elements a transparent insulating film (5), which may or may not be of the same PDMS material as the first layer of electrically insulating material (3).

On said transparent insulating film (5) the luminaire (1) incorporates a liquid optic (6), which comprises a series of control electrodes (7a, 7b), a hydrophobic coating (8), for example Teflon®, which It covers said electrodes, two transparent liquids (9,10) immiscible with each other and with different refractive indices, and a transparent outer covering (11), of glass or other transparent material, which seals the optics (6).

Of said transparent liquids, at least one first transparent liquid (9) is an electrically conductive liquid, such as water, while the second transparent liquid (10) can be an oil

As for the control electrodes, as shown in Figure 2, it is preferably contemplated that they are at least one connected to the central ground (7a) and two or four lateral active (7a) arranged around the central, covering the bottom of the optical and rising sideways, vertically or inclined, to determine a central cavity where the two immiscible liquids (9, 10) of different refraction are housed.

Through their corresponding connections, the central ground electrode (7a) is always at the reference or ground potential, while the active side electrodes (7b) receive electrical potential.

In this way, by activating some electrodes or other side electrodes, it is possible to modify the contact angle between the electrically conductive transparent liquid (9) and the hydrophobic cover (8), whereby the light emitted by the light source ( 4) find an inclined surface of the interface between the two transparent liquids (9, 10) with different refractive index, leaving the trajectory of its modified refraction.

Describing sufficiently the nature of the present invention, as well as the way of putting it into practice, it is not considered necessary to make its explanation more extensive so that any person skilled in the art understands its scope and the advantages that derive from it, stating that, within its essentiality, it may be carried out in other embodiments that differ in detail from that indicated by way of example, and to which it will also achieve the protection that is sought provided that it does not alter, change or modify its fundamental principle .

Claims (12)

1.- LIGHTING WITH CONTROLLED ORIENTATION OPTICAL THROUGH SIGNAL ELECTRICAL, applicable for domestic or professional lighting as for cars or other vehicles, characterized in that it comprises at least one light source (4) and a liquid optic (6) constituted by a device Electro-optical liquid whose shape is modified by the application of an electrical signal. 2.- LIGHTING WITH CONTROLLED ORIENTATION OPTICAL THROUGH SIGNAL ELECTRICAL, according to claim 1, characterized in that the at least one light source (4) is an LED. 3.- LUMINARY WITH LIQUID ORIENTATION CONTROLLED OPTICS BY SIGNAL ELECTRICAL, according to claim 1 or 2, characterized in that the liquid optics (6) comprises several active electrodes (7b) and a mass electrode (7a) with a hydrophobic coating in a cavity It contains two transparent liquids (9,10) immiscible with each other and of different refractive index, one (9) of which is electrically conductive. 4.- LIGHTING WITH CONTROLLED ORIENTATION OPTICAL THROUGH SIGNAL ELECTRICAL, according to claim 3, characterized in that it incorporates a first layer of electrically insulating material (3) in which the light source (4) is housed, fixed by adhesive in a recess provided in said layer for this purpose, there being on both elements a transparent insulating film (5) and on said transparent insulating film (5) incorporates the liquid optics (6). 5.- LIGHTING WITH CONTROLLED ORIENTATION OPTICAL THROUGH SIGNAL ELECTRICAL, according to claim 4, characterized in that the transparent insulating film (5) covering the light source (4) and the first layer of insulating material (3) is of the same material that said first layer of electrically insulating material (3). 6.- LIGHTING WITH OPTICAL LIQUID ORIENTATION CONTROLLED BY SIGNAL ELECTRICAL, according to any of claims 1-5, characterized in that the optics (6) incorporates a transparent outer covering (11), of glass or other transparent material, which closes tightly the optics (6). 7.- LUMINARY WITH CONTROLLED ORIENTATION LIQUID OPTICAL THROUGH SIGNAL ELECTRICAL, according to any of claims 3-6, characterized in that the electrically conductive electrode (9) of the optics (6) is indium tin oxide. 8.- LUMINARY WITH LIQUID ORIENTATION CONTROLLED OPTICAL THROUGH SIGNAL ELECTRICAL, according to any of claims 3-7, characterized in that the meniscus is made at the interface between two immiscible liquids and different refractive indices, one of them conductive and the other not 9.- LIGHTING WITH LIQUID ORIENTATION CONTROLLED OPTICAL THROUGH SIGNAL ELECTRICAL, according to any of claims 3-8, characterized in that the hydrophobic coating (8) of the electrodes is Teflon®. 10.- LUMINARY WITH CONTROLLED ORIENTATION OPTICAL OPTICAL THROUGH SIGNAL ELECTRICAL, according to any of claims 3-9, characterized in that the control electrodes are at least one of central mass (7a) and two or four lateral active (7a) arranged around the center, arranged so that they cover the bottom of the optic and rise sideways, vertically or inclined, to determine the central cavity where the two transparent liquids are housed (9, 10). 11.- LUMINARY WITH CONTROLLED ORIENTATION LIQUID OPTICAL THROUGH SIGNAL ELECTRICAL, according to any of claims 1-10, characterized in that it comprises a plurality of light sources (4) whose direction is controlled through the liquid optics (6) individually in each one of them. SPANISH OFFICE OF THE PATENTS AND BRAND Application no .: 201232001 SPAIN Date of submission of the application: 21.12.2012 Priority Date: REPORT ON THE STATE OF THE TECHNIQUE 51 Int. Cl.: F21V14 / 00 (2006.01) RELEVANT DOCUMENTS

Category

56 Documents cited Claims Affected

X

WO 2008 120165 A1 (KONINKL PHILIPS ELECTRONICS NV et al.) 09.10.2008, 1,2,6,11

page 5, line 16 - page 13, line 31; Figures 2-6.

Y

3-5,7-10

Y

US 2012 2166363 A1 (WEN BING et al.) 30.08.2012, 3-5,7-10

paragraphs [0018], [0027]; Figure 1.

TO

1,2,6,11

X

WO 2007007235 A2 (KONINKL PHILIPS ELECTRONICS NV et al.) 18.01.2007, 1,2,11

page 1, line 21 - page 21, line 18; Figures 1-13.

TO

3-10

TO

WO 2004062908 A2 (GLAVERBEL et al.) 29.07.2004, 1-11

pages 1-13; Figures 1-7.

TO

WO 9909351 A1 (STRAND LIGHTING LTD et al.) 25.02.1999, 1-11

pages 1-35; Figures 1-13.

Category of the documents cited X: of particular relevance Y: of particular relevance combined with other / s of the same category A: reflects the state of the art O: refers to unwritten disclosure P: published between the priority date and the date of priority submission of the application E: previous document, but published after the date of submission of the application

This report has been prepared • for all claims • for claims no:

Date of realization of the report 24.06.2013

Examiner B. Weaver Miralles Page 1/4

REPORT OF THE STATE OF THE TECHNIQUE Application number: 201232001 Minimum documentation sought (classification system followed by classification symbols) F21V Electronic databases consulted during the search (name of the database and, if possible, terms of search used) INVENES, EPODOC, WPI, full text bases, NPL State of the Art Report Page 2/4  WRITTEN OPINION Application number: 201232001 Date of Completion of Written Opinion: 06.24.2013 Statement

Novelty (Art. 6.1 LP 11/1986)

Claims 3-5, 7-10 Claims 1, 2, 6, 11 IF NOT

Inventive activity (Art. 8.1 LP11 / 1986)

Claims Claims 1-11 IF NOT

The application is considered to comply with the industrial application requirement. This requirement was evaluated during the formal and technical examination phase of the application (Article 31.2 Law 11/1986).  Opinion Base.- This opinion has been made on the basis of the patent application as published. State of the Art Report Page 3/4  WRITTEN OPINION Application number: 201232001  1. Documents considered.- The documents belonging to the state of the art taken into consideration for the realization of this opinion are listed below.

Document

Publication or Identification Number publication date

D01

WO 2008 120165 A1 (KONINKL PHILIPS ELECTRONICS NV et al.) 09.10.2008

D02

US 2012 2166363 A1 (WEN BING et al.) 30.08.2012

 2. Statement motivated according to articles 29.6 and 29.7 of the Regulations for the execution of Law 11/1986, of March 20, on Patents on novelty and inventive activity; quotes and explanations in support of this statement Claim 1: Document D01 is considered as the state of the art closest to the object of the invention (in brackets the references to the cited document). Said document discloses a luminaire with liquid optics of orientation controlled by an electrical signal comprising a light source (4; D01) and a liquid electro-optical device (8; D01) whose signal is modified by the application of an electrical signal (pages 7, lines 11-20; figure 6; D01). Therefore, the technical characteristics of the first claim have been disclosed in document D01. Thus, said claim would not present novelty according to article 6.1 of patent law 11/1986. Dependent claims 2-11: The second claim refers to the fact that the light source is an LED (4; D01), as disclosed in document D01; whereby said claim would not present novelty according to article 6.1 of patent law 11/1986. Claim three describes that the optics comprises several active electrodes and a mass electrode with a hydrophobic coating in a cavity containing two transparent liquids immiscible with each other and of different refractive index being one of them electrically conductive. The document D01 differs from claim three, the optic used is a liquid crystal without specifying its characteristics. However, document D02 discloses all the technical characteristics of claim three (paragraph [0018]; D02). Thus, a person skilled in the art would incorporate said technical characteristics to achieve a liquid optic as claimed. Therefore, said claim would not present inventive activity according to article 8.1 of patent law 11/1986. Claim four states that the first layer of the luminaire is of an electrically insulating material that houses the light source, there being on both elements a transparent insulating film and incorporating on it the liquid optics. Document D01 discloses that the light source is housed in a thermoplastic layer, which is insulating (page 9, lines 8-10; D01) and liquid optics is incorporated thereon (Figure 6; D01). The fact of adding one more layer of insulating material does not seem to solve any additional technical problem. Therefore, said claim would not present inventive activity according to article 8.1 of patent law 11/1986. Claim five indicates that the insulating material is the same for all insulating layers used. It is a mere choice of materials that produce no surprising effect. Therefore, said claim would not present inventive activity according to article 8.1 of patent law 11/1986. Claim six describes that the optics incorporates a transparent outer covering that seals the optics tightly; as in document D01 (1; figure 6; D01). Therefore, said claim would not present novelty according to article 6.1 of patent law 11/1986. Claim seven indicates that the electrically conductive electrode of the optic is tin indium oxide, as in document D01 (page 7, line 15; D01); whereby said claim would not present inventive activity according to article 8.1 of patent law 11/1986. Claim eight describes where the meniscus is made, as in document D02. Therefore, said claim would not present inventive activity according to article 8.1 of patent law 11/1986. Claim nine states that the hydrophobic coating is Teflon. Said material is one of the possible ones that an expert in the field would choose as hydrophobic; whereby said claim would not present inventive activity according to article 8.1 of patent law 11/1986. Claim ten describes the arrangement of the electrodes, which is the same as can be found in document D02 (paragraph [0018], figures 1a and 1b; D02). Therefore, said claim would not present inventive activity according to article 8.1 of patent law 11/1986. Claim eleven states that it comprises a plurality of light sources whose direction is individually controlled through liquid optics individually in each of them, as set forth in document D01; whereby said claim would not present novelty according to article 6.1 of patent law 11/1986. State of the Art Report Page 4/4