CH715275A2 - Active lighting device portable or placed on a bicycle. - Google Patents

Abstract

The active lighting device (1) of a vehicle comprises a first optic (A) with a first arrangement (6) of light sources for long-distance illumination, which are controlled by a control unit (2), and a second optic (B) with a second arrangement (7) of light sources for short-distance illumination, which are controlled by the control unit. It includes a light sensor (3) to determine the light intensity of a place where the vehicle is located and allow the control unit to adjust the light intensity of the light sources, if they are activated and if the ambient light intensity is below a determined light threshold. In addition, a speed sensor (4a, 4b) is provided for determining the speed of the vehicle in use on a path, so that the control unit controls the activation of the light sources from the first arrangement of light sources to from at least a certain speed threshold. An orientation or tilt detector (5a, 5b, 5c) is also provided for selecting and adjusting in light intensity at least certain light sources or certain groups of light sources of the first and second arrangements of light sources.

Description

Description

TECHNICAL FIELD OF THE INVENTION The invention relates to an active lighting device portable or placed on a vehicle with at least one wheel, such as a bicycle. Preferably, each lighting device has a first optic with at least a first arrangement of light sources, and a second optic with at least a second arrangement of light sources, which are placed on the vehicle.

STATE OF THE ART [0002] To adequately illuminate a path or a road taken by a vehicle, it is known to use a lighting device having a suitable adjustment of the intensity of the light generated from headlights or other light sources. Such a lighting device can also be adapted to orient the light beam according to the turns to be made in the dark or to avoid dazzling a driver of a vehicle to be encountered on the road.

Patent application WO 2017/23 293 A1 describes an intelligent illumination system for a two-wheeled vehicle, such as a bicycle. It includes an arrangement of LED light-emitting diodes, which can be independently selected to define a desired light intensity. Motors are also provided to orient the light according to the height or inclination of the bicycle, movement or light intensity sensors, and an arrangement of light according to the speed of the bicycle. However, all the LEDs are oriented at the same time by the motors and not independently of each other. In addition, nothing is specified concerning the orientation of each light beam of the LED diodes to adapt the radiation distance and the intensity of each LED diode according to the speed or the intensity of light detected, which can be a disadvantage.

US patent application 2018/0 020 528 A1 describes an intelligent illumination system for a bicycle. A light arrangement can be provided on the front fork of the bicycle or also on the helmet of the person on the bicycle. It includes a motion detector for sensing acceleration and speed, and means for turning the light source as a function of a turn or the speed and also of the movement of the cyclist's head so that the beam of light is always in line with the direction of the cyclist's eyes facing the road. However, there are no plans to orient two light sources differently to illuminate the road depending on the speed or ambient light, which can be a disadvantage.

EP 3,036,149 B1 describes a lighting device for a bicycle with several LED diodes available. There is also a light sensor. A control element is provided to compare the acceleration, orientation and speed of the cyclist according to reference data. A selection of LED diodes is also provided, but also not to orient at least two light sources differently to illuminate the route followed, which is a drawback.

It is also known from patent FR 2 844 759 B1, a gyrostable headlight for a motorcycle. Means are provided for orienting the light as a function of the turns made in particular. However, nothing is described to orient at least two light sources differently to illuminate the route followed, taking into account the speed and the intensity of light detected, which is a drawback.

SUMMARY OF THE INVENTION The invention therefore aims to overcome the drawbacks mentioned above for producing an active lighting device portable or placed on a vehicle with at least one wheel that is easy to use and uncomplicated for allow good lighting taking into account the speed or inclination of the vehicle.

To this end, the invention relates to an active portable lighting device or placed on a vehicle with at least one wheel, which comprises the characteristics of independent claims 1 or 2.

Particular embodiments of the lighting device are defined in dependent claims 3 to 13.

An advantage of the lighting device according to the invention lies in the fact that a light sensor of the device detects the intensity of ambient light so as to activate light sources or groups of light sources of optics A and B, if the ambient light intensity is below a determined light threshold. The activation of the light sources or groups of light sources can be done automatically on command of a control unit supplied by a supply voltage source, such as a battery.

Advantageously, the light intensity of the activated light sources or groups of activated light sources is managed by the control unit normally inversely proportional to the intensity of the ambient light.

Advantageously, a speed sensor is provided in the lighting device for activating light sources or groups of light sources of optics A only if a speed of the vehicle in use exceeds a determined speed threshold. Light sources or groups of light sources of optics B can be

CH 715 275 A2 activated as soon as the ambient light intensity is below the determined light threshold, regardless of the vehicle speed.

Advantageously, at least one orientation or tilt detector can also be provided in the lighting device for selecting and adjusting in light intensity at least certain light sources or certain groups of light sources of the first arrangement of light sources and / or the second arrangement of light sources. The lighting of the selected light sources or groups of light sources, possibly in combination with a set of lenses, makes it possible to orient the resulting beam of light coming from each arrangement of light sources in a direction depending on the turn made on a road or path.

BRIEF DESCRIPTION OF THE FIGURES The aims, advantages and characteristics of an active lighting device portable or placed on a vehicle with at least one wheel will appear better in the following description on the basis of at least one form of non-limiting execution illustrated by the drawings in which:

fig. 1 shows a simplified block diagram of the components of the active lighting device according to the invention, FIG. 2 schematically represents a vehicle on a road or path with the light sources activated by the two optics A and B of the active lighting device, taking into account the light intensity and the measured speed to select and adjust in light intensity at least certain light sources or certain groups of light sources of optics A according to the invention, and FIGS. 3a, 3b and 3c schematically show a vehicle on a road or path taking a turn to select and adjust in light intensity at least certain light sources or certain groups of light sources of the optics A and B of the active lighting device according to the invention.

DETAILED DESCRIPTION OF THE INVENTION In the following description, reference is made to an active lighting device portable or placed on a vehicle with at least one wheel. All the electronic components, which are well known to a person skilled in the art in this technical field, are described only in a simplified manner. The vehicle may for example be a two-wheeled bicycle so as to be set in motion by a user on a path, for example on a road or in the forest.

[0016] FIG. 1 shows in a simplified manner the different components of an active lighting device 1 portable or placed on a vehicle, which can for example be a bicycle. The lighting device 1 mainly comprises two optics referenced A and B. The first optic A comprises at least a first arrangement 6 of light sources, while the second optic B comprises at least a second arrangement 7 of light sources. The first arrangement 6 of light sources is provided for long-distance illumination and preferably with variable intensity. The second arrangement 7 of light sources is intended for illumination at a short distance and preferably at variable intensity.

Each arrangement 6,7 of light sources can comprise light-emitting diodes or groups of light-emitting diodes selected by the control unit 2 or all of them activatable at the same time. There can be at least two light sources per arrangement 6,7 of light sources. Preferably, at least three light sources can be provided by arrangement 6, 7 of light sources each capable of generating a light beam in the form of a cone having a different direction or axis of illumination. The orientation of the light beam is provided directly at the output of each light source or through one or more lenses. In this way, certain light sources can be selected by the control unit 2 if it is necessary to orient the average beam of light provided by each arrangement 6, 7 of activated light sources. This makes it possible to orient the average beam according to a turn made by the user of the vehicle.

It should also be noted that each arrangement 6, 7 of light sources can comprise an array of light sources, such as LED light-emitting diodes, which can be selected independently of one another or in groups of light emitting diodes. The matrix can for example comprise x2 light-emitting diodes, where X is an integer greater than or equal to 2. For example, one can provide 64 light-emitting diodes per arrangement 6, 7 of light sources.

Generally, each optic A and B further comprises, in addition to the arrangements 6, 7 of light sources, an arrangement of lenses combined with the light sources, and mirrors not shown for providing an orientation light beam. determined. In the case shown in fig. 1, the light sources of the arrangements 6,7 are controlled by a control unit 2 connected to a continuous power source Vdd. This source of electrical power is preferably a source of direct voltage, which comes from a rechargeable or primary battery, or which is extracted and rectified from received electromagnetic radiation.

CH 715 275 A2 The lighting device 1 also comprises one or more sensors 3, 4a, 4b, 5a, 5b, 5c connected to the control unit 2 to allow the activation of each arrangement 6,7 of light sources according to a measured parameter. Preferably, the control unit 2, supplied by the DC voltage source Vdd, is arranged, as soon as the vehicle is used, to control the lighting of the light sources of the first and second arrangements 6, 7 of the first and second optics A, B automatically.

The control unit 2 can also include a low frequency oscillator, which can be a clock or quartz crystal oscillator or MEMS, and at least one volatile or non-volatile memory. Thus, the control unit 2 can be a microcontroller. The volatile or non-volatile memory not shown makes it possible to store measurements made by the sensor (s) and at least one calculation algorithm for managing and calculating the measurements made by the sensors 3, 4a, 4b, 5a, 5b, 5c.

The lighting device 1 mainly comprises a light intensity sensor or light sensor 3, which can be composed of a solar cell or a network of solar cells. From a brightness threshold detected by the light intensity sensor 3, the control unit 2 controls the activation of at least certain light sources or groups of light sources of the first optic A and of the second optic B. This is done if the ambient light intensity is below a determined light threshold. The light intensity threshold may depend directly on the ambient light, where the vehicle in use is located. In addition, the light intensity of activated light sources, or groups of activated light sources can be variable and normally inversely proportional to the change in intensity of ambient light.

It should be noted that certain light sources or groups of light sources of the second arrangement 7 of the second optic B are always activated as soon as the intensity of the ambient light is below the determined light intensity threshold. , when using the vehicle. On the other hand, certain light sources or groups of light sources of the first arrangement 6 of the first optic A are activated only if the intensity of the ambient light is insufficient and in addition with an additional condition as described below.

Of course, when the vehicle is no longer in use, a manual switch can also be provided so as to deactivate the lighting device with all light sources. Said light sources can also be deactivated after a period of non-use of the vehicle, that is to say after a determined time without movement, for example after 5 minutes.

In a first alternative embodiment of the device 1, the lighting device 1 comprises at least one speed sensor 4a, 4b connected to the control unit 2. When using the vehicle, the sensor 4a, 4b determines the speed of the vehicle and, from exceeding a determined speed threshold, controls the activation of at least certain light sources or groups of light sources of the first arrangement 6 of the first optic A. In addition, certain light sources or groups of light sources of the first arrangement 6 of the first optic A generate light, if the ambient light intensity detected by the light sensor 3 is less than the threshold of determined light. As mentioned above, the selected light sources of the second arrangement 7 of light sources are activated independently of the calculated vehicle speed, i.e. as soon as the ambient light intensity detected by the light sensor 3 is below the determined light threshold.

As indicated above, when the vehicle is no longer in use, a manual switch makes it possible to deactivate the lighting device with all light sources. These light sources can also be deactivated after a determined time without movement, for example after 5 minutes.

The speed sensor can be a GPS receiver or equivalent 4a or preferably a magnetic sensor 4b for picking up the passage of at least one permanent magnet disposed on a spoke or the rim of a vehicle wheel. Each magnetic pulse of passage of the permanent magnet near the magnetic sensor 4b, and according to a cadence in time generated by the low frequency oscillator, allows the control unit 2 to calculate the speed and the moment of exceeding the determined speed threshold.

The lighting device 1 can further include or receive a calendar 3 'of dates and times (ephemeris) of each month in the year of a place of use of the device, from which the ambient brightness is deemed insufficient. The control unit 2 can store these calendars of the determined place of use of the device to control the activation of the selected light sources of the optics A, B, if for example the determined speed threshold is also exceeded. This determined speed threshold can be set at 15 km / h or 25 km / h, but can be set to another value and stored.

It is also possible, depending on the location, to vary the activation thresholds depending on whether the vehicle is in an open plain or in a narrow valley, where the ambient light is more rapidly weak.

To do this, a first intensity variation block 12 is provided, which includes a set of first variators 10 connected to the supply voltage source Vdd. These first dimmers 10 are also each connected to first respective switches 8, which are themselves connected to the first arrangement 6 of light sources. Each first switch 8 is controlled by the control unit 2 to activate at least certain light sources of the first arrangement 6 of light sources, if at least the ambient light intensity is insufficient. A second intensity variation block 13 is provided and includes a set of second dimmers 11 connected to the source of

CH 715 275 A2 supply voltage Vdd. These second dimmers 11 are also each connected to respective second switches 9, which are themselves connected to the second arrangement 7 of light sources. Each second switch 9 is controlled by the control unit 2 to activate at least certain light sources of the second arrangement 7 of light sources, if at least the ambient light intensity is insufficient.

The first and second switches 8, 9 of each intensity variation block 12, 13 are preferably MOS transistors, such as PMOS transistors as shown, but NMOS transistors can also be envisaged. The source of each first PMOS transistor 8 is connected to each respective first variator 10, while the source of each second PMOS transistor 9 is connected to each respective second variator 11. The gate of each first PMOS transistor 8 is connected to the control unit 2 to make it conductive or non-conductive. The gate of the second PMOS transistor 9 is connected to the control unit 2 to make it conductive or non-conductive.

It should be noted that each dimmer 10, 11 may be a current source, the current of which is expected to pass through each light source or group of light sources is variable and increases when the ambient light intensity decreases in below the determined light threshold. The variation of the current of each variator is controlled directly by the control unit 2. The current sources can also be alternating current sources.

It should be noted that the current in a dimmer 10, 11 may be different from a current in another dimmer 10, 11 according to the control of the control unit 2. This makes it possible to modify the light intensity d 'a light source or a group of light sources compared to another light source or another group of light sources. This makes it possible to ultimately generate, as a function of the selection of the light sources or the groups of light sources of each arrangement 6, 7 of light sources, to precisely orient the average light beam generated at the output of optics A and B.

In a second variant embodiment of the device 1, the lighting device 1 comprises at least one orientation or inclination detector 5a, 5b, 5c connected to the control unit 2. During the use of the vehicle, the orientation or inclination detector 5a, 5b, 5c determines for example a curve made by the vehicle in use on a path or a road. The orientation or tilt detector 5a, 5b, 5c provides an orientation or tilt signal to the control unit 2 to select and adjust in light intensity at least certain light sources or certain groups of light sources. light from the first arrangement 6 of light sources and / or from the second arrangement 7 of light sources. The orientation of each light beam is different for the selected light sources or the selected groups of light sources, whether directly at the output of the light sources or the groups of light sources or by combination with a set of lenses . Thus, depending on a turn, the average light beam of the selected light sources or the groups of selected light sources is directed to the right for a right turn or to the left for a left turn.

No motorization is therefore necessary for the orientation of the light beams of the selected light sources to allow the average beam generated by each arrangement 6, 7 of light sources to be oriented as a function of the turn or curve to be carried out. with the vehicle.

One can imagine in this second variant to have the two arrangements 6, 7 of light sources activated as soon as the intensity of ambient light is below a determined light threshold. However, it can also be provided to activate only certain light sources or groups of light sources of the second arrangement 7 of light sources, if the speed detected by the speed sensor 4a, 4b does not exceed the determined speed threshold.

The orientation or tilt detector can be composed of a potentiometer 5a and / or a magnetometer 5b and / or an inclinometer 5c and / or an accelerometer 5c and / or a gyrometer 5c as will be further explained below with reference to FIGS. 3a to 3c.

[0038] FIG. 2 schematically represents a vehicle 100 on a road 50 or a path with at least certain light sources activated from the two arrangements of light sources of the two optics A and B of the active lighting device 1. The two arrangements of light sources are activated, if the vehicle speed is above a determined speed threshold and if the ambient light intensity is insufficient, otherwise only the second arrangement of light sources of the optics B is activated. Thus, the light intensity I _L um (v, Iamb) of the light sources selected from optics A depends on the speed v of the vehicle 100, which can be a bicycle, and on the ambient light intensity Iamb · L light intensity I _L um (Iamb) of the selected light sources of optics B depends only on the ambient light intensity I _A mb [0039] As shown in fig. 2, it can also be expected that the more the speed of the vehicle increases, the more the average beam of light generated by the first arrangement of light sources of optics A increases in light intensity. In addition, certain light sources of optics A can be selected to orient the average beam of light of the first arrangement of light sources to illuminate even further up to a vertical azimuth, which tends towards 0. The light intensity light sources can normally vary in proportion to the inverse of the ambient light intensity, or even in stages.

Figs. 3a, 3b, 3c schematically show a vehicle 100 on a road 50 or a path taking a turn to orient the average beam generated from selected light sources of the optics A and B of the active lighting device 1. Each optic A, B can be mounted for example on a handlebar of the bicycle 100. The orientation detector (s) or

CH 715 275 A2 of inclination are for example a magnetometer 5b or an inclinometer 5c or an accelerometer 5c or a gyrometer 5c or a potentiometer 5a or a combination of these detectors as previously mentioned.

The orientation or tilt detector can be mounted on a support, such as the helmet of the user E of the vehicle 100 and to provide an orientation signal by wireless two-way communication to the unit. of control disposed on the handlebar of the vehicle 100. This makes it possible to control the orientation of the average beam generated by the selected light sources of the optics A and B by a movement of the head of the user E of the vehicle 100.

In fig. 3a, the two light source arrangements of the optics A and B of the lighting device 1 are activated. The average beam of light generated by the selected light sources must be oriented at an angle p as a function of the turn made on route 50.

In fig. 3b, the control unit takes account of an angle of rotation Y of the front wheel D of the bicycle and also of the angular movement e of the head of the user E of the bicycle with respect to the direction of the rear wheel F.

In fig. 3c, it can also be taken into account the inclination of the bicycle with the user E at an angle 5 relative to the route 50 to orient the light sources.

From the description which has just been made, several alternative embodiments of a portable active lighting device or placed on a vehicle with at least one wheel are possible without departing from the scope of the invention defined by the following claims.

Claims (13)

Claims 1. Device (1) for active portable lighting or placed on a vehicle (100) with at least one wheel, characterized in that the device comprises: - at least one source of electrical power (Vdd), - a first optic (A) with a first arrangement (6) of light sources for long-distance illumination and controlled by a control unit (2) connected to the power supply source (Vdd), and intended to generate each or in groups a beam of light having a different direction of orientation at the output of the first arrangement (6) of light sources, - a second optic (B) with a second arrangement (7) of light sources for short-range illumination and controlled by the control unit (2) connected to the power supply source (Vdd), and intended for each or by generating a light beam having a different direction of orientation at the output of the second arrangement (7) of light sources, - a light sensor (3) for determining the light intensity of a place where the vehicle (100) is located with the lighting device (1) and for supplying a measurement signal to the control unit (2 ), which is arranged to adapt the light intensity of certain light sources or of certain groups of light sources of the first optic (A) and / or of the second optic (B) if the ambient light intensity is in below a determined light threshold, and - a speed sensor (4a, 4b) to determine the speed of the vehicle (100) in use on a path or a road (50), and to provide a measurement signal to the control unit (2) to control the activation of the first arrangement (6) of light sources of the first optic (A) from at least a determined speed threshold. 2. Device (1) for active portable lighting or placed on a vehicle (100) with at least one wheel, characterized in that the device comprises: - at least one source of electrical power (Vdd), - a first optic (A) with a first arrangement (6) of light sources for long-distance illumination, and controlled by a control unit (2) connected to the power supply source (Vdd), and intended for generating each or in groups a beam of light having a different direction of orientation at the output of the first arrangement (6) of light sources, - a second optic (B) with a second arrangement (7) of light sources for short-distance illumination, and controlled by the control unit (2) connected to the power supply source (Vdd), and intended generating each or in groups a light beam having a different direction of orientation at the output of the second arrangement (7) of light sources, - a light sensor (3) connected to the control unit to determine the light intensity of a place where the vehicle (100) is located with the lighting device (1) and which is arranged to adapt the light intensity of the light sources or groups of light sources of the first optic (A) and / or of the second optic (B), if the ambient light intensity is below a determined light threshold, and - an orientation or tilt detector (5a, 5b, 5c) to supply an orientation or tilt signal to the control unit (2) to select and adjust at least some light sources in light intensity or certain groups of light sources of the first arrangement (6) of light sources and / or of the second arrangement (7) of light sources. CH 715 275 A2 3. Device (1) according to one of the preceding claims, characterized in that the control unit (2) is arranged, from the use of the vehicle (100), to control the lighting of the light sources of the first and second optics (A, B) automatically. 4. Device (1) according to claim 1, characterized in that the device comprises an orientation or tilt detector (5a, 5b, 5c) for supplying an orientation or tilt signal to the unit of control (2) for selecting and adjusting in light intensity at least certain light sources or certain light source groups of the first arrangement (6) of light sources and / or of the second arrangement (7) of light sources. 5. Device (1) according to claim 2, characterized in that it comprises a speed sensor (4a, 4b) for determining the speed of the vehicle (100) in use on a path or a road (50), and for providing a measurement signal to the control unit (2) for controlling the activation of the first arrangement (6) of light sources of the first optic (A) from at least a determined speed threshold. 6. Device (1) according to one of claims 1 and 2, characterized in that the first and second arrangements (6, 7) of light sources each comprise a matrix of light emitting diodes arranged to generate each or in groups a beam of light having a different direction of illumination at the output of the first and second arrangements (6, 7) of light sources, and in that the first arrangement (6) of light-emitting diodes is provided for long-distance illumination, whereas the second arrangement (7) of light-emitting diodes is provided for short-distance illumination. 7. Device (1) according to one of claims 1 and 2, characterized in that the control unit (2) is arranged to gradually adapt the light intensity of the light sources of the first arrangement (6) of the first optic (A) and / or the second arrangement (7) of the second optic (B) with respect to the intensity of light picked up by the light sensor (3). 8. Device (1) according to one of claims 1 and 2, characterized in that the control unit (2) is arranged to adapt in stages the light intensity of the light sources of the first arrangement (6) of the first optic (A) and / or the second arrangement (7) of the second optic (B) with respect to the intensity of light picked up by the light sensor (3). 9. Device (1) according to one of claims 1 and 2, characterized in that the control unit (2) is a microcontroller having a memory in which are stored dates and times of the day of the place where finds the lighting device (1) to allow the operation of the light sources of the first and second arrangements (6, 7) of the first and second optics (A, B) from a certain time of the day of a given date. 10. Device (1) according to claim 6, characterized in that the control unit (2) is a microcontroller having a memory in which is stored a program for selecting and adjusting the intensity of the light emitting diodes of the first and second arrangements (6, 7) of light sources so as to provide an average light at a variable distance as a function of the light intensity detected by the light sensor (3). 11. Device (1) according to one of claims 2 and 4, characterized in that the orientation or tilt detector (5a, 5b, 5c) is composed of a magnetometer (5b) and / or an inclinometer (5c) and / or an accelerometer (5c) and / or a gyrometer (5c) and / or a potentiometer (5a). 12. Device (1) according to one of claims 1 and 5, characterized in that the speed sensor (4a, 4b) is composed of a GPS receiver or equivalent (4a) or a magnetic sensor (4b) mounted on a fork of a vehicle wheel (100) to detect the passage of a permanent magnet mounted on a spoke or rim of the wheel to determine the speed of the vehicle (100). 13. Device (1) according to one of claims 2 and 4, characterized in that the orientation or inclination detector (5a, 5b, 5c) is arranged to be mounted on a support, such as a helmet of the driver of the vehicle and to provide an orientation or tilt signal by two-way wireless communication to the control unit (2) arranged on the vehicle with the first and second optics (A, B) for orienting the sources of light from the first and second arrangements (6, 7) of light sources by movement of the driver's head (E) of the vehicle (100).