NL2018611B1

NL2018611B1 - Light armature

Info

Publication number: NL2018611B1
Application number: NL2018611A
Authority: NL
Inventors: P Den Ridder Franciscus; N A M Van De Wiel Theodorus
Original assignee: Sustainder Holding B V
Priority date: 2017-03-30
Filing date: 2017-03-30
Publication date: 2018-10-10
Also published as: EP3601873A1; WO2018182416A1; EP3601873B1

Abstract

The present disclosure relates to a light armature, comprising: an envelope defining an interior space; a light source in the interior space emitting light from the envelope in more than one direction; and a controller, connected to the light source and configured to drive the light source dependent on a selected one of the more than one direction. Also the present disclosure relates to a method of operating such a light armature, comprising: controlling the light source and driving the light source dependent on a selected one of the more than one direction. As an interesting embodiment of the method, the present disclosure involves comprising the controller in a control module and, if necessary, exchanging the control module for a replacement control module by: removing the control module from the accommodation, using a drone; and inserting the replacement control module in the accommodation, using the drone.

Description

Octrooicentrum

Θ 2018611

(21) Aanvraagnummer: 2018611 (22) Aanvraag ingediend: 30 maart 2017 (51) Int. CL:

F21S 8/08 (2017.01) F21V 23/00 (2017.01) F21V 23/04 (2017.01) F21Y 113/00 (2017.01) F21W 131/103 (2017.01)

(^) Aanvraag ingeschreven:	(73) Octrooihouder(s):
10 oktober 2018	Sustainder Holding B.V. te EMMEN.
(43) Aanvraag gepubliceerd:
-	(72) Uitvinder(s):
	Franciscus P. den Ridder te Zevenbergen.
(47) Octrooi verleend:	Theodorus N.A.M. van de Wiel te Waalwijk.
10 oktober 2018
(45) Octrooischrift uitgegeven:	(74) Gemachtigde:
26 november 2018	ir. P.J. Hylarides c.s. te Den Haag.

(54) LIGHT ARMATURE

57) The present disclosure relates to a light armature, comprising: an envelope defining an interior space; a light source in the interior space emitting light from the envelope in more than one direction; and a controller, connected to the light source and configured to drive the light source dependent on a selected one of the more than one direction.

Also the present disclosure relates to a method of operating such a light armature, comprising: controlling the light source and driving the light source dependent on a selected one of the more than one direction. As an interesting embodiment of the method, the present disclosure involves comprising the controller in a control module and, if necessary, exchanging the control module for a replacement control module by: removing the control module from the accommodation, using a drone; and inserting the replacement control module in the accommodation, using the drone.

NL Bl 2018611

Dit octrooi is verleend ongeacht het bijgevoegde resultaat van het onderzoek naar de stand van de techniek en schriftelijke opinie. Het octrooischrift komt overeen met de oorspronkelijk ingediende stukken.

LIGHT ARMATURE

The present disclosure relates to a light armature, comprising: an envelope defining an interior space; and at least one light source in the interior space emitting light from the envelope in more than one direction.

To the best knowledge of the inventors of the present disclosure, all known prior armatures having one or a plurality of light sources have aspired to generate a homogenous distribution of light in all peripheral directions relative to the armature. For instance, in case of an armature arranged on a pole or stand, manufacturers of such armatures have all aspired to generate light emitted in all horizontal and downward directions as homogenous as possible. To achieve this goal, it is known to equalise plural light sources in a single armature and even to equalise light sources in neighbouring or remote armatures. This prejudice based desire has to date restricted designers to the point where the designers saw no feasible possibility to generate more versatile armatures.

Quite in contrast with the sentiments and prejudices of the skilled people in the present technical field, the inventors of the present invention have relinquished these chains to generate more versatile, more attractive and user friendly armatures, having the capability of relieving the burden born by residents living near a street light having such a prior art armature of being confronted, often all night, with light penetrating through the windows of their homes and disturbing them in their sleep.

To this end, armatures according to the present disclosure exhibit the novel and inventive feature of a controller connected to the light source and configured to drive the light source dependent on at least a selected one of the more than one direction. As a result light emitted from the armature may be inhomogeneous, to the point where light emitted in a predetermined direction, such as a window of a resident’s house, may be prevented entirely, and any dimming effect between full activation and complete dimming of the light source in the direction may be realised in the framework of the present disclosure, going entirely against all prior art in a novel and nonobvious manner.

In a particular embodiment, the light armature according to the present disclosure may exhibit the feature of a plurality of light sources in the interior space, where the controller is configured to drive at least two of the plurality of light sources, each emitting light in a distinct one of the more than one direction, independently from each other. In such an embodiment at least one separation between the at least two of the plurality of light sources may be arranged in the interior space of the envelope, where preferably the separation comprises a wall between the at least two of the plurality of light sources.

In a particular embodiment, the light armature according to the present disclosure may exhibit the alternative or additional feature that the controller is arranged in the interior space of the envelope.

In a particular embodiment, the light armature according to the present disclosure may exhibit the alternative or additional feature that the controller is comprised in a control module. In such an embodiment the control module may further comprise at least one sensor from a group of sensors, said group of sensors comprising: ambient light sensors; temperature sensors; armature movement sensors; environment motion sensors; electronic compass sensors; GPS sensors, and the like. In an embodiment having at least the control module, the control module may further comprise at least one sensor from a group of sensors, said group of sensors comprising: CO? sensors; fine dust sensors; gas sensors; humidity sensors; and the like. Additionally opr alternatively, in an embodiment having at least the control module, the the control module may comprise or be connected to a communication device.

An embodiment having at least a control module and the feature that the controller is in the interior space, the interior space of the envelope may comprise an accommodation of the control module, and the envelope comprises an access hatch at the accommodation of the control module. Then, then the accommodation of the control module and the control module may comprise quick couplings, such as pin-hole couplings, jack plug coupling and the like.

In a particular embodiment, the light armature according to the present disclosure may exhibit the alternative or additional feature that the armature comprises a fixture configured to mount the armature in open air, for example as street lighting furniture.

In a particular embodiment, the light armature according to the present disclosure may exhibit the alternative or additional feature that the controller is configured to allow user input, for example via an app being executed on a mobile device owned by a resident near the armature, to adjust an operational parameter of the light source.

The present disclosure further relates to a method of operating a light armature, comprising an envelope defining an interior space and a light source in the interior space and emitting light from the envelope in more than one direction, the method comprising: controlling the light source and driving the light source dependent on a selected one of the more than one direction.

In a particular embodiment, the light armature based method according to the present disclosure may exhibit the feature that the interior space of the envelope comprises a plurality of light sources each emitting light in a distinct one of the more than one direction, wherein the method comprises driving at least two of the plurality of light sources independently from each other.

In a particular embodiment, the light armature based method according to the present disclosure may exhibit the additional or alternative feature of providing at least one sensor. In such an embodiment the method may further comprise communicating sensor signals through a communication device.

In a particular embodiment, the light armature based method according to the present disclosure may exhibit the additional or alternative feature of arranging a controller for independent driving of the light source in a control module and positioning the control module in an accommodation in the envelope of the light armature, monitoring the control module, and exchanging the control module if necessary, for a replacement control module. Such an embodiment may include the possibility of exchanging the control module, if more and/or other sensors are desired, and not just replace the module, when components thereof are broken or malfunction. In such an embodiment, the method may further exhibit the feature, that exchanging the control module for a replacement control module comprises: removing the control module from the accommodation, using a drone; and inserting the replacement control module in the accommodation, using the drone.

Based on the foregoing reference to embodiments of the present disclosure in terms corresponding with the definitions according to the appended claims, herein below practical embodiments of the present disclosure are provided, referring to the appended drawings, wherein the same or similar elements, components and features in general may be designated using the same or similar reference signs, but where it is to be noted that the particularly shown and described embodiments are in no way to be taken as limitations on the scope of protection according to the appended claims, as only the claims impose limitations on the scope of protection, whereas even alternatives for specific features in the claims are encompassed in the scope of the claims. In the drawings:

Figure 1 shows an exemplary embodiment of an armature according to the present disclosure on a pole or mast;

Figure 2 shows a top view on the armature of figure 1 along arrow II;

Figure 3 shows a view of a possible embodiment according to figures 1 and 2;

Figure 4 shows an alternative embodiment with two light sources;

Figure 5 shows an alternative embodiment with three light sources;

Figure 6 shows a potential method according to the present disclosure; and

Figure 7 shows a possible embodiment of the method according to figure 6 in more detail along arrow VII in figure 6.

Figure 1 shows an exemplary embodiment of an armature 3 according to the present disclosure on a pole 2 or mast, forming a street light 1 defining a fixture for mounting the armature 3 of the present disclosure. The armature may alternatively be wall mounted, or the like.

Figure 2 shows a top view in the direction of arrow II in figure 1.

As shown in figure 3, the armature comprises four lamps, each defining a light source, arranged in a bottom half 8 of armature 3, where partition walls 9 defining separations separate compartments each configured to accommodate one of the lamps 6. A cover 7 to be arranged on top of bottom half 8 exhibits a similar structure of partition walls 9.

A central compartment 10 is provided to accommodate a control module 11 comprising a controller. The controller of the control module 11 is configured to drive each lamp 6 individually, or sub-groups of lamps 6 in unison. Under specific circumstances, the controller may be configured to have light emitted from the armature equally in all direction, but will then do so by driving the lamps 6 individually or in groups, smaller than the total number of lamps 6.

The armature 3 comprises an at least partially transparent housing, to emit light in the directions of each of the arrows A, B, C, and D in figure 1 individually. This allows light emitted in the direction of arrow C towards a window 5 in a building wall 4 to be dimmed partially or completely, without affecting light yield in the other directions A, B, and D.

The lamps may be of any arbitrary type, such as gas lamps, TL-tubes, LED lights or LED strings, et cetera. This already typifies that a single light source, source as a LED string, may also be considered to form a single light source exhibiting directionality in the sense that discrete LED’s in such a string may be individually driven. Other single light source embodiments are also possible within the scope of the present disclosure.

Figures 4 and 5 show embodiments with respectively two and three lamps 6, which exhibit more coarse adaptation of light distribution in larger ranges than the embodiment of figure 1, but more than four individually adaptable directions for light emission may also be realized within the scope of the present disclosure, for instance by deploying more than four lamps 6.

Figures 6 and 7 shows a control module 11 comprising a controller, in the process of being inserted into (arrow E) or taken out of (arrow F) the central compartment 10. This is performed by deploying, for example, a drone 12. The armature 3 comprises a central top lid 13 forming an access hatch, which may be opened using an actuator inside the armature 3, or by using the drone

12. The control module 11 is suspended from or carried by the drone 12, and after opening of the lid 13 inserted into or taken from the central compartment. The control module may comprise pins 14 and the central compartment 10 may comprise holes 15, or vice versa, to establish electric contacts also to power supply and enable the control module 11 to drive the lamps 6 individually.

The central compartment may exhibit sloping walls 16 to ensure proper alignment of the pins 14 and holes 15, so by simply lowering the control module, electric contacts are established.

As an alternative for the pin-hole connectors, jack plugs or other equivalent quick couplings may be employed.

In the embodiment of figures 6 and 7, schematically disclosing a method of exchanging or at least placing or removing - control module 11, an “old” control module 11 may be replaced if malfunctioning, or simply to add more and other sensors or insert a control module with an updated control program, for example if the armature doesn’t comprise a communications module.

The control module 11 may comprise at least one sensor from a group of sensors, said group of sensors comprising: ambient light sensors; temperature sensors; armature movement sensors; environment motion sensors; electronic compass sensors; GPS sensors, and the like. Such sensors are directly related to the function of the armature 3.

The light armature 3 may have a control module 11 further comprises at least one sensor from a group of sensors, said group of sensors comprising: CO₂ sensors; fine dust sensors; gas sensors; humidity sensors; and the like. Such sensors are less directly related to the particular function of the armature 3 and can serve to monitor the environment around the armature 3.

The control module may comprise or be connected to a communication device. In this manner operational information of the armature 3, environment monitoring parameters and the like may be communicated to a central location, from which also operational commands and/or programs may be uploaded to the control module 11.

The controller of the control module may be configured to allow user input, for example via an app being executed on a mobile device owned by a resident near the armature, to adjust an operational parameter of the light source. This can enable a resident to influence the operations of an armature 3 according to the present disclosure, which was in the past the exclusive territory of cities and utility companies. .

Based on the foregoing embodiment description, it is clear that the present disclosure relates to specific embodiments for the sake of a sufficient disclosure, but that these specifically disclosed embodiments can and should not impose limitations on the scope of protection as defined in the appended claims, and in particular in the independent claims. Many alternatives will readily present themselves to a person of average skill in the relevant technical field, which are all encompassed In the scope of protection according to the appended claims, unless such embodiments are significantly distinct from the claimed embodiments.

Claims

Conclusions

A light fixture comprising:

an envelope defining an inner space;

at least one light source in the interior space, which emits light in more than one direction from the envelope;

a controller which is connected to the light source and is configured to control the light source, depending on at least one selected direction of the more than one directions.

A light fitting according to claim 1, which has a plurality of light sources in the interior space, the control of which is configured to control at least two of the plurality of light sources, each of which emits light independently of one another in one of the more than one one directions,

The light fixture of claim 2, wherein at least one partition is disposed between the at least two of the plurality of light sources in the interior space of the envelope.

The light fixture of claim 3, wherein the partition comprises a wall between the at least two of the plurality of light sources.

Light fitting according to one or more of the preceding claims, wherein the control is placed in the inner space.

Light fitting according to one or more of the preceding claims, wherein the control is comprised of a control module.

The light fitting according to claim 6, wherein the control module further comprises at least one sensor from a group of sensors, said group of sensors comprising: ambient light sensors; temperature sensors; armature motion sensors; environmental motion sensors; electronic compass sensors; GPS sensors; and such.

A light fitting according to claim 6 or 7, wherein the control module further comprises at least one sensor from a group of sensors, said group of sensors comprising: CO ₂ sensors; fine sensors; gas sensors; humidity sensors; and such.

Light fitting according to one or more of the preceding claims 6-8, wherein the control module comprises a communication device or is connected to a communication device.

The light fitting of claim 5 and at least claim 6, wherein the interior space of the housing comprises an accommodation of the control module, and the housing comprises an access hatch at the accommodation of the control module.

The light fitting according to claim 10, wherein the accommodation of the control module and the control module comprise electronic couplings, such as pin-coupling, plug couplings and the like.

12. Light fitting according to one or more of the preceding claims, wherein the fitting comprises a mounting which is configured to mount the fitting in the open air, for example as street lighting.

A light fitting according to one or more of the preceding claims, wherein the control is configured to allow input from a user, for example via an app executed on a mobile device, which is the property of a resident near the fitting , to adjust an operational parameter of the light source.

A method for operating a light fixture comprising an enclosure defining an interior space and a light source in the interior space and emitting light from the enclosure in more than one direction, the method comprising:

controlling the light source and controlling the light source depending on one selected direction of the more than one directions.

The method of claim 14, wherein the interior space of the envelope comprises a plurality of light sources, each light source of which emits light in one separate one of the more than one directions, the method controlling independently of each other at least two of the plurality of light sources.

The method of claim 14 or claim 15, comprising providing at least one sensor.

The method of claim 16, further comprising communicating sensor signals through a communication setting.

Method according to one or more of the preceding method claims 14 - 17, comprising placing a control for independently controlling the light source in a control module and positioning the control module in an accommodation in the housing of the light fixture, the supervising the control module, and exchanging the control module for a replacement control module, if necessary.

The method of claim 18, wherein exchanging the control module for a replacement control module comprises: removing the control module from the accommodation by using a drone; and introducing a replacement control module into the accommodation through the use of a drone.