WO2011010326A2 - Dispositif d'éclairage portable - Google Patents

Dispositif d'éclairage portable Download PDF

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Publication number
WO2011010326A2
WO2011010326A2 PCT/IN2010/000483 IN2010000483W WO2011010326A2 WO 2011010326 A2 WO2011010326 A2 WO 2011010326A2 IN 2010000483 W IN2010000483 W IN 2010000483W WO 2011010326 A2 WO2011010326 A2 WO 2011010326A2
Authority
WO
WIPO (PCT)
Prior art keywords
lighting device
power
unit
lighting
charging
Prior art date
Application number
PCT/IN2010/000483
Other languages
English (en)
Other versions
WO2011010326A3 (fr
Inventor
Ramendra S. Baoni
Dipendra Baoni
Original Assignee
Ecco Electronics Private Limited
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Ecco Electronics Private Limited filed Critical Ecco Electronics Private Limited
Priority to IN1567DEN2012 priority Critical patent/IN2012DN01567A/en
Priority to AP2012006080A priority patent/AP2012006080A0/xx
Publication of WO2011010326A2 publication Critical patent/WO2011010326A2/fr
Publication of WO2011010326A3 publication Critical patent/WO2011010326A3/fr

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Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q10/00Administration; Management
    • G06Q10/10Office automation; Time management
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q30/00Commerce
    • G06Q30/02Marketing; Price estimation or determination; Fundraising
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02BCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
    • Y02B10/00Integration of renewable energy sources in buildings
    • Y02B10/10Photovoltaic [PV]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y04INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
    • Y04SSYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
    • Y04S50/00Market activities related to the operation of systems integrating technologies related to power network operation or related to communication or information technologies
    • Y04S50/14Marketing, i.e. market research and analysis, surveying, promotions, advertising, buyer profiling, customer management or rewards

Definitions

  • the present invention relates to the field of lighting devices and more particularly to portable lighting devices operated with solar energy.
  • Various types of portable solar lamps are designed to provide illumination by utilizing solar energy for several applications such as households, factories, streets, and other places. These lamps may be used as street lamps, table lamps, handheld lamps, wall lamps and the like. Adaptation of LEDs into these lamps provides additional advantages such as high efficiency, longer life and less power consumption which makes them suitable for portable lighting purposes.
  • Solar lamps depend on the availability of solar energy for efficient functioning and availability of solar energy may vary with time of day/year and latitude. This may lead to unavailability of solar energy for long periods at specific times of the year and locations resulting in complete power loss in the lamp.
  • a solar lamp may be required to utilize other sources of power such as a rotating dynamo capable of being turned on by a mechanical motion of the hand, bicycle or the like, fuel cells, chemical energy, main electric supply, and other renewable and nonrenewable sources of energy and the like. Therefore, intelligent and adaptive power utilization may be required based on the nature of power sources and the rate of power consumption.
  • sources of power such as a rotating dynamo capable of being turned on by a mechanical motion of the hand, bicycle or the like, fuel cells, chemical energy, main electric supply, and other renewable and nonrenewable sources of energy and the like. Therefore, intelligent and adaptive power utilization may be required based on the nature of power sources and the rate of power consumption.
  • Lamps generate a beam of light that directly impacts the eyes of a person, which may not be desirable for health reasons. The impact may intensify in cases of applications with sharp lighting requirements and particularly with Light Emitting Diodes (LEDs) since an LED is extremely bright.
  • LEDs Light Emitting Diodes
  • An objective of the present invention is to provide a portable lighting device that is solar powered and capable of controlled charging and discharging depending on requirements. Further, the lighting device should be capable of being charged from other power sources as well.
  • Another objective of the present invention is to provide a portable lighting device that may be configured to derive power intelligently from a plurality of power sources based on predefined characteristics to charge a storage unit.
  • Another objective of the present invention is to provide a portable lighting device that may be configured to derive power intelligently from a storage unit for illumination.
  • Another objective of the present invention is to provide a portable lighting device that may be configured into various physical shapes based on various requirements.
  • Yet another objective of the present invention is to provide a portable lighting device capable of charging external electronic devices.
  • Still another objective of the present invention is to provide a portable lighting device that may function as a media player.
  • Still another objective of the present invention is to provide a portable lighting device with adjustable optical parameters of illumination.
  • Still another objective of the present invention is to provide a portable lighting device with a measure to safeguard human eyes from direct exposure to light beams.
  • Still another objective of the present invention is to provide a lighting device that is low cost, multipurpose, portable, efficient and controlled by an automated and integrated controller to monitor and regulate various functions of the lighting device in real time.
  • Still another objective of the present invention is to provide a method for operating a portable lighting device.
  • the present invention provides a solar-powered portable lighting device configured to be separable mechanically and optically into two or more elements.
  • the two or more elements may be adapted to form an electrical connection.
  • the present invention provides a method for operating the lighting device.
  • the lighting device may be equipped with at least a power management unit for at least one of controlled charging and discharging of the lighting device, a lighting unit for illumination that may be powered by the power management unit and an optical assembly for adjusting at least one of optical parameters of the illumination.
  • the power management unit may further be adapted to control the rate of charging of the lighting device based on a capability of a power source to deliver charge to the power management unit.
  • the power management unit may control the rate of charging of the lighting device without overloading the power source.
  • the optical assembly may be configured to prevent direct exposure of light beams on human eyes.
  • Irradiance, brightness and intensity of light emitted by the lighting unit may be controlled by a controlling unit integrated within the power management unit.
  • the lighting device may be connected with external electronic devices for charging and may also function as a media player.
  • a low cost controlling unit integrated with the lighting device may form an interface with various elements and corresponding features to allow operation of the lighting device with multiple functionalities efficiently in real time within a portable setup.
  • FIG. 1 illustrates a block diagram of a portable lighting device in accordance with an embodiment of the present invention.
  • FIG. 2 depicts a perspective view of a portable lighting device in accordance with an embodiment of the present invention.
  • FIG. 3 depicts a perspective view of a portable lighting device in accordance with another embodiment of the present invention.
  • FIG. 4A and 4B depict rotary mechanism for engagement/disengagement of a portable lighting device in accordance with an embodiment of the present invention.
  • Fig. 5 depicts a first element and a second element of a portable lighting device separated from one another in accordance with an embodiment of the present invention.
  • Fig. 6 depicts a first element and a second element of a portable lighting device separated from one another in accordance with another embodiment of the present invention.
  • Fig. 7 depicts a portable lighting device in a wall hanging mode in accordance with an embodiment of the present invention.
  • Fig. 8 depicts a portable lighting device in a reading mode in accordance with an embodiment of the present invention.
  • Fig. 9 depicts a portable lighting device in an ambient mode in accordance with an embodiment of the present invention.
  • Fig. 10 depicts re-configurability of a portable lighting device along an axis of symmetry in accordance with various embodiments of the present invention.
  • Fig. 1 1 depicts an optical assembly in accordance with an embodiment of the present invention.
  • Figs. 12A-12D depicts exemplary angular adjustments with varied view angles based on positioning of a set of reflectors.
  • Fig. 13 depicts a method of operating a portable lighting device in accordance with an embodiment of the present invention.
  • Fig. 1 illustrates a block diagram of a portable lighting device 100 in accordance with an embodiment of the present invention.
  • the portable lighting device 100 may alternatively be referred to as a lighting device 100 hereinafter, merely for convenience and simplicity of the description.
  • the lighting device 100 may include a first element 102 and a second element 104.
  • the first element 102 may be equipped with a power management unit 106 for at least one of controlled charging and discharging of the lighting device 100.
  • the second element 104 may be equipped with a lighting unit 114 for illumination powered by the power management unit 106, and an optical assembly 1 16 for adjusting at least one of view angles and beam patterns of illumination.
  • the first element 102 and the second element 104 may be detachably attached with one another in a housing supporting the first element 102 and the second clement 104.
  • the lighting device 100 as depicted in Fig. 1 may act as torches, emergency lights, flashlights, table lamps, street lights, wall mounted lamps, ceiling lights, handheld lamps and the like without limitations.
  • the lighting device 100 as described in the present invention in general, is powered by solar energy.
  • various other energy sources or a combination of the energy sources such as electrical energy, mechanical energy, for example, through a rotating dynamo capable of being turned by a mechanical motion of the hand, bicycle or the like, fuel cells, chemical energy, other renewable and non-renewable sources of energy and the like, may be utilized for powering the lighting device 100.
  • various elements and associated embodiments of the lighting device 100 as described in the present invention may be applicable to portable devices other than lighting devices.
  • the power management unit 106 as depicted in Fig. 1 may further include a power input unit 108 configured to receive power, storage unit 1 10 configured to store at least a portion of the power received by the power input unit 108, a controlling unit 1 12 configured to control at least one of the rate of charging and discharging of the lighting device 100, a first power drive unit 1 18 configured to drive power from the power input unit 108 to the storage unit 1 10, and a second power drive unit 120 configured to drive power from the storage unit 1 10 to the lighting unit 1 14.
  • the power management unit 106 may be adapted to receive an input power, regulate and store the received power, and control power supply and utilize the stored power to drive the lighting unit 1 14.
  • the power management unit 106 may further include one or more DC-DC converters, input protection devices, output protection devices and the like.
  • the power input unit 108 may be coupled to a solar panel or a set of solar panels. As stated earlier, the power input unit 108 may receive power from other external power sources in addition to solar power, and the electrical circuitry of the power management unit 106 may accordingly be modified in compliance with the external power source.
  • the power input unit 108 may convert power received at the solar panel into an equivalent DC power that may be suitable to be stored.
  • the power input unit 108 may be adapted to receive regulated and unregulated, half-wave rectified and fully rectified power supplies. Alternatively, an unregulated power source may directly be coupled to the power input unit 108.
  • the power input unit 108 may be configured to draw a variable amount of power from a plurality of power sources based on predefined characteristics.
  • the power input unit 108 may include a voltage or a current regulator that may be controlled by the controlling unit 1 12.
  • the maximum power that may be drawn from the plurality of power sources may be ascertained, and the controlling unit 1 12 may modulate the power drained by the input unit 108 according to the plurality of power sources, the power required by the lighting device 100, and the type of current (AC or DC current).
  • the plurality of power sources may be similar or different.
  • the plurality of power sources may include solar power source, electrical power source, chemical power source, mechanical power source, or some other type of power source.
  • the predefined characteristics may include a capability of the plurality of power sources to deliver charge for charging and re-charging.
  • DC power may be stored in the storage unit 1 10 through the first power drive unit 1 18.
  • the first power drive unit 1 18 may allow adaptive and intelligent charging and re-charging of the storage unit 1 10 based on signals provided by the controlling unit 1 12.
  • the first power drive unit 1 18 may be configured to drive power intelligently from the plurality of power sources to the storage unit 1 10.
  • the intelligent operations may be governed by the controlling unit 1 12.
  • the intelligently driven power may allow flexibility in charging and re-charging of the lighting device 100 from the plurality of power sources.
  • the controlling unit 1 12 may send signals to the first power drive unit 1 18 to vary a duty cycle for controlling the rate of charging of the storage unit 1 10.
  • the storage unit 1 10 may include any conventional or non-conventional power storage device such as, but not limited to, one or more batteries, super/ultra capacitors, fuel cells or any other source of rechargeable energy storage device.
  • the one or more batteries may be a nickel cadmium battery, nickel hydrogen battery, nickel-metal hydride battery, lithium ion battery, lithium ion polymer battery, lithium sulfur battery, rechargeable alkaline battery, lithium iron phosphate battery, lead-acid battery, flow batteries, zinc-bromine and vanadium redox batteries, sodium-sulfur batteries, lithium-sulfur batteries, and the like.
  • the battery may also utilize dry cells.
  • the power input unit 108 may not be required in the power management unit 106 since there is no possibility to charge dry cells.
  • the first power drive unit 1 18 may not be required while utilizing dry cells.
  • the selection and design of the storage unit 1 10 and its specifications may be performed based on predetermined factors such as, but not limited to, economic factors, environmental factors, technical factors, and the like.
  • a manufacturer may select a battery that has a short life span but is inexpensive and affordable.
  • the manufacturer may select a battery that lasts for a longer period irrespective of its cost.
  • various combinations may be used to select the battery according to environmental factors such as availability of a specific type and amount of solar energy at a location or the power characteristics of the power source used to charge the storage unit 1 10, or the temperature at which the lighting device 100 operates, and the like.
  • environmental factors such as availability of a specific type and amount of solar energy at a location or the power characteristics of the power source used to charge the storage unit 1 10, or the temperature at which the lighting device 100 operates, and the like.
  • government regulations and schemes to promote the harnessing of renewable sources of energy and recyclability of consumed parts may have a strong impact on the selection and design of the storage unit.
  • Certain technical factors like compatibility of all electrical/electronic components may also form the basis of selection for the manufacturer. In extremely chilly conditions, or in places where power is available for very short durations, ultra capacitors may be employed.
  • the storage unit 1 10 may be adapted to be charged by the power input unit 108 through the first power drive unit 1 18 that may regulate the current flow across circuitry of the lighting device 100.
  • the first power drive unit 1 18 along with an inductive circuit and a solid state switching assembly may implement a DC-DC converter.
  • the solid state switching assembly may be implemented using various switching devices such as MOSFETs, transistors, and the like. Switching frequency may be selected based on the level of compactness and the overall system efficiency required in the lighting device 100.
  • the lighting device 100 may use frequencies greater than 40 kHz so that there is no audible noise or interference.
  • the DC-DC converter may be implemented using the first power drive unit 1 18 and signal conditioning blocks, in an exemplary embodiment.
  • the signal conditioning blocks may use simple discrete devices like transistors, resistors capacitors, operational amplifiers and the like.
  • the DC-DC converter may perform monitoring of duty cycles.
  • one or more input protection units and output protection units may be employed in the power management unit 106 to detect and control supply of current beyond a threshold limit as set according to the design of the circuitry of the lighting device 100 and various elements embedded therein.
  • Some examples of these input and output protection devices may include, without limitations, over-current sensing devices, over-voltage sensing devices, fuses, and the like. These devices may be capable of continued protection of the circuitry and the elements therein against sudden variance in current and voltage.
  • the first element 102 may also include the controlling unit 1 12 integrated within the power management unit 106.
  • the controlling unit 1 12 may further include a microcontroller and a/memory.
  • the controlling unit 1 12 may be adapted to control operations of the power management unit 106, the lighting unit 1 14 and the optical assembly 1 16. In case of incorrect or faulty operations performed by any of the components embedded in the lighting device 100, the controlling unit 1 12 may send signals and accordingly rectify faulty or inaccurate operations.
  • the controlling unit 1 12 may control the status, health and operations of the lighting device 100 resulting in a decreased and optimized consumption of power in real time.
  • the controlling unit 1 12 may recognize utility contexts through context driven sensing elements and accordingly decide and regulate operational parameters by transmitting real time signals to the power management unit 106 or the concerned devices disposed within the lighting device 100.
  • the second power drive unit 120 may facilitate in adaptive consumption of power stored in the storage unit 1 10 based on signals received from the controlling unit 1 12. For example, the controlling unit 1 12 may ensure that the current provided to the lighting unit 1 14 through the second power drive unit 120 remains constant for constant brightness. In embodiments, the controlling unit 1 12 may send signals to the second power drive unit 120 to ensure that sufficient current is drawn for various types of LED loads. For example, the controlling unit 1 12 may ensure that the second power drive unit 120 provides sufficient current to strings of LEDs in series and parallel combination for constant brightness. In accordance with various embodiments of the present invention, the second power drive unit 120, along with the inductive circuit and the solid state switching assembly, may also implement a DC-DC converter.
  • the second power drive unit 120 may be configured to drive power intelligently from the storage unit 1 10 for illumination.
  • the intelligent operations may be governed by the controlling unit 1 12.
  • the intelligently driven power may allow adaptive power consumption based on signals received from the controlling unit 1 12 thereby achieving variable intensity of illumination depending on the requirements.
  • the controlling unit 1 12 may intelligently control the power drive units 1 18 and 120 and the input/output protection devices to control the rate of charging, discharging or re-charging of the storage unit 1 10 through adaptive control. For example, if an external electronic device is plugged into the portable lighting device 100, the controlling unit 1 12 may detect that an external device is connected to the lighting device 100. This external device may require constant voltage. The controlling unit 1 12 may enable the second power drive unit 120 to adapt to a constant voltage mode.
  • the controlling unit 1 12 may include components capable of exhibiting intelligence to detect the capability of the power source to deliver a particular amount of power. Further, the controlling unit 1 12 may accordingly configure the power drive units 1 18 and 120 and DC-DC converters to adapt to the power delivery capability of the power source. In accordance with various embodiments, the adaptability and configurability may be achieved on a continuous basis so that the lighting device 100 may adapt to sudden environmental changes even when the lighting device 100 is in use.
  • Adaptively controlled charging of the storage unit 1 10 based on set and predefined parameters may be governed by the controlling unit 1 12 to optimize power consumption.
  • one of the set and predefined parameters may be the chemistry of the storage unit 1 10 or the battery included therein.
  • the required voltage and current may be maintained by controlling the power drive unit 1 18, consequently regulating the rate of charging/recharging of the storage unit 1 10.
  • the power input unit 108 in conjunction with the first power drive unit 1 18 may allow receipt of higher power (instantaneous voltage and current product) to the storage unit 1 10 which ensures a higher rate of charging/re-charging of the storage unit 1 10.
  • the controlling unit 1 12 may control charging based on an existing level of charge in the storage unit 1 10.
  • the power drive units 1 18 and 120 may receive instructions/signals from the controlling unit 1 12 to vary the rate of charging or re-charging by regulating the rate of flow of current based on the existing level of charge stored in the storage unit 1 10.
  • the controlling unit 1 12 may send signals to the first power drive unit 1 18 to control the rate of charging/recharging of the storage unit 1 10 in the minimum or optimized time.
  • the controlling unit 1 12 may instruct the first power drive unit 1 18 to charge the storage unit in a user defined time.
  • the power management unit 106 may thus be configured to sense a time restriction imposed by the user through a timer or similar counter arrangements disposed within the power management unit 106.
  • the timer connected with the controlling unit 1 12 may detect allowed time limits for charging the storage unit 1 10 while the controlling unit 1 12 may send instructions in real time to the first power drive unit 1 18 and the power input unit 108 to vary the flow of the current accordingly.
  • the lighting device 100 may be capable of extracting required power for charging and re-charging through an external charging device such as an adapter without overloading it even when the external charging device is incapable of delivering an optimal charging current.
  • rate of discharging may also be adaptively controlled by the controlling unit 1 12. This may allow consumption of only limited power, as set by the requirements, and accordingly adjusting intensity of illumination.
  • the second power drive unit 120 implementing a second DC-DC converter may be provided at an output end to govern output currents and voltages based on commands signaled by the controlling unit 1 12.
  • the second power drive unit 120 and the second DC-DC converter may also be utilized to govern power delivered to external devices such as a portable media player and the like plugged in with the lighting device 100.
  • the controlling unit 1 12 may also perform tasks such as health monitoring of the storage unit 1 10, monitoring intensity/irradiance of the lighting source, usage data, charge/discharge cycle information, and the like.
  • the controlling unit 1 12 may keep a log in an inbuilt memory that may be monitored by authorized personnel for maintenance, subscription or authentication purposes. For example, various parameters associated with the storage unit 1 10 and the usage patterns such as charge/discharge characteristics may be stored in the memory. This may enable a user to maintain the storage unit of the portable lighting device 100 accordingly. This may also enable a user to be informed of servicing and maintenance requirements of certain components of the lighting device 100.
  • the lighting unit 1 14 may include one or more light emitting diodes (LEDs) that may receive power from the storage unit 1 10 of the power management unit 106 and convert the received power into an equivalent light beam.
  • the one or more LEDs may be secured on the periphery of a fixed arc shaped and curved support that forms a front wall of the lighting device 100.
  • the support securing the one or more LEDs may be rotatable along an axis substantially perpendicular to the axial direction of the lighting device 100. The rotatable support may ensure directional arrangements of the light beam emitted by the one or more LEDs.
  • the portable lighting device 100 may embody methods, procedures and elements that may produce a more focused and directed beam of light along a wide range of angles. This is further described in the subsequent text.
  • the support holding the one or more LEDs may be movably engaged with housing of the lighting device 100 to offer a translatory motion to the one or more LEDs substantially along the axial direction of the lighting device 100 to produce a back and forth motion.
  • the rotational motion of the movable support, which holds the LEDs may be adjusted automatically by the controlling unit 1 12.
  • the translatory motion of the movable support holding the LEDs may also be adjusted automatically by the controlling unit 1 12.
  • the controlling unit 1 12 may recognize environmental and contextual patterns to identify the most appropriate position of the movable support through sensors.
  • the controlling unit 1 12 may accordingly transmit signals to actuators that may be embedded within the movable support allowing it to rotate or move back and forth for view angle and beam pattern settings without any manual intervention.
  • the one or more LEDs may be secured to the support through any conventional arrangements such as lock fitting, threading, and the like.
  • the arrangement of the support and the one or more LEDs described herein is merely exemplary and any modifications or changes thereof must be considered falling within the scope of the present invention.
  • the one or more LEDs may be disposed in parallel, series, a combination of parallel and series and the like arrangements.
  • the lighting unit 1 14 may include elements that emit light other than the LEDs such as incandescent lamps and the like. These individual elements may be referred to as load since they draw current from the circuitry.
  • irradiance, intensity and brightness of the light emitted by the lighting unit 1 14 may be automatically controlled by the controlling unit 1 12.
  • the intensity of the lighting unit 1 14 may be reduced so that it draws less power from the battery and eventually helps the battery to last for a longer time frame. In other words, the dimmer the intensity of the lighting unit 1 14, the longer it may last.
  • the controlling unit 1 12 may send signals to the second power drive unit 120 to draw more current from the storage unit 1 10 when a user requires more brightness from the lighting unit 1 14. This may cause the battery to discharge rapidly.
  • the controlling unit 1 12 may send signals to the second power drive unit 120 to draw less current from the storage unit 1 10 when the user requires less brightness from the lighting unit 1 14. This may cause the battery to discharge slowly.
  • the intensity variation of the lighting unit 1 14 may be achieved by using the Pulse Width Modulation (PWM) technology. This may allow rapid switching on and off of the lighting unit 1 14 so that the average current consumption may be reduced.
  • PWM Pulse Width Modulation
  • the controlling unit 1 12 may ensure that the current provided to the lighting unit 1 14 remains constant for constant brightness for a given intensity setting selected by the user.
  • the second power drive unit 120 may ensure that the average current provided to the lighting unit 1 14 remains constant in order to get a uniform beam of light irrespective of the voltage being delivered by the storage unit 1 10.
  • the optical assembly 1 16 may be attached in a rotatable manner to the front panel of the housing of the lighting device 100 substantially in front of the lighting unit 1 14.
  • the optical assembly 1 16 may include a centrally located transparent portion made of polycarbonate, acrylic or other suitable material, which may allow the light beam emitted by the lighting unit 1 14 to pass through with minimal loss of light.
  • the centrally located transparent portion may be surrounded by a metallic or a plastic frame.
  • the metallic or plastic frame may be attached to the front panel of the housing of the lighting device 100 such that it may be rotated with respect to the front panel of the housing. This may allow rotational capability to the optical assembly 1 16 and the rotation of the optical assembly 1 16 may allow adjustment of beam patterns and view angles.
  • various other mechanisms may be utilized for providing a rotational capability to the optical assembly 1 16 fitted on the front panel of the lighting device 100.
  • the rotatable optical assembly 1 16 may allow adjustment of a view angle formed by spreading of the light beam emitted from the lighting unit 1 14.
  • the rotation of the optical assembly 1 16 relative to the front panel of the housing may be automatically adjusted in real time by the controlling unit 1 12 or adjusted manually by the user mechanically.
  • various beam patterns may be obtained by the rotatable adjustment of the optical assembly 1 16.
  • the optical assembly 1 16 is further described in conjunction with Fig. 9.
  • multiple second elements such as 104 may be connected with a single first element 102. This is further described in the subsequent text.
  • the present invention provides a lighting device 100 configured to be separated mechanically and optically into the first element 102 and the second element 104.
  • the optical separation indicates that the optical assembly 1 16 and the lighting unit 1 14 may be separated from the power management unit 106.
  • the first element 102 and the second element 104 may form a single, integrated unit and the elements 102 and 104 may not be separable mechanically and/or optically.
  • Fig. 2 depicts a perspective view of a portable lighting device 100 in accordance with an embodiment of the present invention.
  • the portable lighting device 100 may include a housing 200 that may support an illuminated panel 202, an ergonomically designed handle 204 for a stable and secure grip, one or more charging ports 206 for charging external electronic devices, one or more air vents 208 for efficient dissipation of heat, a button 210, an optical assembly 1 16 attached to the front panel of the housing 200 in a rotatable manner, one or more screws 212 to dismantle the lighting device 100 during maintenance and the like.
  • the button 210 may be used to switch on or off the flow of power from a storage unit 1 10 inside a power management unit 106 to a lighting unit 1 14.
  • the switched on or off status of the power may be indicated at the illuminated panel 202 that may include a small sized blinking LED. Blinking of the LED at the illuminated panel 202 may indicate a switched on state of the lighting device 100.
  • the blinking LED may be used to indicate various functionalities of the lighting device 100 such as the status of the battery, health of the battery, requirements for servicing and maintenance and the like.
  • the LED may be replaced with other display devices such as an LCD, OLED and the like.
  • the button 210 may be utilized for various other purposes as well such as intensity control and the like. In accordance with various other embodiments of the present invention, multiple buttons including such as the button 210 may be utilized for controlling several distinct functions such as power on/off, intensity control and the like. In embodiments, the button 210 may be an analog button or a digital button.
  • the handle 204 may be attached to the housing 200 for a stable and secure grip to allow easy handling of the lighting device 100.
  • the handle 204 may include a gripper spaced from a periphery of the housing 200 to allow easy gripping of the lighting device 100.
  • a pad formed of plastic, leather, cotton, or the like material may be positioned around the gripper and the periphery of the housing 200 that is in direct contact of the hand for an ergonomic and comfortable effect.
  • the handle 204 may be mounted with rigid protrusions around an outer periphery or a portion of the outer periphery with which the lighting device 100 may rest on a support such as a floor or a table.
  • the design of the handle 204 may be adjustable to allow tilting of the lighting device 100 while resting on the floor or ground, without allowing a direct contact between the floor or the ground and the housing 200. Further, the handle 204 may be designed in an extendible form that allows extension of length of the handle 204 to an extent that may be comfortably fixed over the chest of a user or around the head. Such an arrangement may allow easy usage in applications such as petroleum drilling, mining, constructions, deep water diving and the like. In an embodiment of the present invention, the power on/off button 210 may be located close to the handle 204 so that the power control is accessible to the user with a hand even while holding the handle 204.
  • the one or more air vents 208 provided on an outer surface of the housing 200 may facilitate effective heat dissipation.
  • the one or more air vents 208 spaced at regular distance from one another may allow heat dissipation by thermal conduction, thermal convection or any other known heat transfer techniques.
  • the one or more air vents 208 may be designed in a special way such that they may allow flow of air without allowing insects to get in.
  • the one or more charging ports 206 may be provided to receive power from an external source to the lighting device 100 such as from a solar panel or a mains adapter connected with the lighting device 100.
  • the one or more charging ports 206 may be provided to charge external electronic devices such as, but not limited to, a cellular phone, a portable media player or other utility and entertainment devices, and delivering power to the optical assembly 1 16.
  • the one or more charging ports 206 may be utilized for multiple distinct applications and functions such as multiple ports may be utilized for driving multiple lighting units such as the lighting unit 1 14 in cases where more than one light is required.
  • plugging of the external electronic device inside the one or more charging ports 206 may trigger the controlling unit 1 12 to transmit signals/instructions to the power management unit 106 to shift to a constant voltage mode.
  • Load sensing by the controlling unit 1 12 may be achieved algorithmically through software that may be implemented within the controlling unit 1 12. This may allow intelligent detection of the type of load and accordingly switch the lighting device 100 to a constant voltage or a constant current mode from one another. This may, therefore, allow the user to charge the external electronic device in case of an emergency.
  • the external electronic device may be charged simultaneously while the lighting device 100 is switched on for lighting purposes.
  • the storage unit 1 10 may supply a first portion of the stored energy to the lighting unit 1 14 at constant current for lighting purposes. Simultaneously, a second portion of the stored energy may be supplied to the external electronic device at a constant voltage for charging the external electronic device.
  • the entire supply of the stored energy may be diverted to either the external device or the lighting unit 1 14 according to necessity.
  • the controlling unit 1 12 may control detection and monitoring of power supply for a required mode (constant current/constant voltage mode) thereby facilitating easy and optimized management of power in real time.
  • the controlling unit 1 12, along with its operation, has been described in conjunction with Fig. 1.
  • the optical assembly 1 16 may include a centrally located transparent portion made of polycarbonate, acrylic, and the like to allow the light beam emitted by the lighting unit 1 14 to pass through without loss of light.
  • the centrally located transparent portion may be formed of other types of materials without limitations.
  • the centrally located transparent portion may be surrounded by a metallic or plastic frame.
  • the optical assembly 1 16 may be attached to the front panel of the housing 200 of the lighting device 100 substantially in front of the lighting unit 1 14 such that it may be rotated relative to the front panel of the lighting device 100. The rotation of the optical assembly 1 16 may allow adjustment of a view angle formed by spread of the light beam emitted from the lighting unit 1 14.
  • the rotation of the optical assembly 1 16 may allow adjustment of beam patterns too.
  • rotation of the optical assembly 1 16 relative to the front panel of the housing 200 may be adjusted automatically by the controlling unit 1 12. This may allow automated view angle and beam pattern settings based on requirements and usage without requiring a user to adjust view angles and beam patterns manually.
  • the optical assembly 1 16 and its rotatable adjustment are further described in conjunction with Fig. 9 in detail.
  • the one or more screws 212 may be provided peripherally along an edge of the lighting device 100.
  • the one or more screws 212 may be used to dismantle the lighting device 100 for repairing and maintenance operations.
  • the LEDs or reflectors may also be replaced simply by unscrewing the one or more screws 212.
  • Various fastening elements other than the screws may be adapted to dismantle the lighting device 100 for repair and maintenance purposes.
  • the lighting device 100 as shown in Fig. 2 may be sealed in a transparent and flexible casing that may provide a waterproof and watertight effect to the lighting device 100.
  • a waterproofing gasket may also be employed to ensure complete waterproofing.
  • the waterproof lighting device such as the lighting device 100 may find application in, for example, deep water diving, and other similar activities.
  • the lighting device 100 in accordance with this embodiment may find special applications in fish tanks as an aquarium lighting system in which lighting unit 1 14 may be positioned fully or partially dipped in water, while the power management unit 106 may be detachably attached with the lighting device 100 and fitted at the top of a building to receive solar power directly.
  • Various connecting elements such as wires or cords may be used to supply power to the lighting unit 1 14. Further, multiple color lights may be emitted by utilizing various LEDs to provide a colorful impact in the fish tank.
  • Decorative designs with a stylized and colorful impact may be added to the lighting device 100 shown in Fig. 2.
  • Various shapes and designs such as that of a Christmas tree, toys, and the like may be used. Such customized designs may be used in festive decorations, parties, holiday gatherings and the like places since these are light weight and portable.
  • the lighting device 100 may be installed on a support or a structure in permanent, removable or semi-permanent manner. In other embodiments, some parts of the lighting device 100 may be permanently fixed while others may be removable or semi-permanent.
  • the lighting device 100 may be folded along a substantially longitudinal or any other axis of the lighting device 100. Since the lighting device 100 is compact and light weight, therefore, the folded design may allow the lighting device 100 to be kept in a pocket.
  • Fig. 3 depicts a perspective view of a portable lighting device 100 in accordance with another embodiment of the present invention.
  • the figure shows rear end of the portable lighting device 100.
  • the rear end of the lighting device 100 may support a rod 302 for allowing hanging of the lighting device 100 to an elevated location such as a ceiling.
  • the rod 302 may be formed of a solid metallic body or a flexible material such as a plastic, rubber, fiber, metal, woven rope, chain or the like.
  • the rod 302 may be hinged to a protruded part 304 at its two ends formed at the rear end of a housing 200 of the lighting device 100.
  • the protruded part 304 may include a guiding pass-through hole that may allow receipt of the rod 302 within.
  • Similar rods such as the rod 302 and protruded parts such as the protruded part 304 may be disposed at other ends such as the sides of the housing 200 for allowing hanging of the portable lighting device 100 along multiple directions.
  • simple hooks or bars attached at one end with the housing 200 and the other end freely allowing hanging of the hook with a rigid support of such as a wall or a ceiling may be used instead of the protruded parts such as the protruded part 304 and the rods such as the rod 302.
  • the complete hanging assembly may be detachably attached to the rear end of the housing 200 with a magnetic impact that may hold the hanging assembly capable of being lifted by pulling.
  • Figs. 4A and 4B depict rotary mechanism for engagement/disengagement of a portable lighting device 100 in accordance with an embodiment of the present invention.
  • the lighting device 100 may include a first element 102 that may be suitably positioned on a second element 104 in a detachable manner.
  • the first element 102 and the second element 104 have been described in conjunction with Fig. 1 in detail.
  • the detachability of the first element 102 and the second element 104 may be achieved with the rotary mechanism that may form an interface over a portion of the peripheries of the first element 102 and the second element 104 through a common area of contact.
  • the rotary mechanism may be configured to generate a rotational motion as indicated by pointer 402 along an axis substantially perpendicular to the area of contact between the first element 102 and the second element 104 on an application of an external push or pull.
  • the first element 102 and the second element 104 are together hereinafter referred to as elements 102 and 104 for the purpose of simplicity of description.
  • the rotational motion for a predetermined range over the peripheries of the elements 102 and 104 based on the design of a channel 404 on a portion of the periphery of the first element 102 may engage or disengage the elements 102 and 104.
  • the channel 404 may be mould designed, along with a housing 200, along the portion of the periphery of the first element 102.
  • the channel 404 may extend along the portion of the periphery of the first element 102 in a curved shape in confirmation to a trajectory traced by the rotational motion either clockwise or anticlockwise.
  • a complementary protrusion 406 may be provided along a portion of the periphery of the second element 104.
  • the protrusion 406 may extend along the portion of the periphery of the second element 104 in a curved shape in conformation with the trajectory traced by the rotational motion either clockwise or anticlockwise.
  • the protrusion 406 may substantially fit on to the channel 404 on the application of a rotational force thereby allowing engagement or may substantially dislodge the channel 404 to allow disengagement.
  • the length of the channel 404 in the design may determine the extent of rotation for engaging or disengaging the elements 102 and 104.
  • the channel 404 and the protrusion 406 are shown in an exploded view in Fig. 4B.
  • a simple groove may be designed instead of the channel 404 and a simple twist of one of the elements 102 and 104 may engage or disengage the elements 102 and 104.
  • the rotational pull or push may be applied clockwise or anti clockwise to engage and disengage the elements 102 and 104.
  • several other designs of mechanism for engaging and disengaging the elements 102 and 104 may be employed without any limitations.
  • the rotary mechanism or any other mechanism designed on the interfaces of the elements 102 and 104 as described above may allow separation of the elements 102 and 104 from one another into two individual elements. Fig.
  • FIG. 5 depicts a first element 102 and a second element 104 of a lighting device 100 separated from one another in accordance with an embodiment of the present invention.
  • the first element 102 and the second element 104 are together referred to as elements 102 and 104 or merely elements hereinafter for the purpose of simplicity of description.
  • the first element 102 may include a key shaped slot 502 to accommodate a nail.
  • the elements 102 and 104 may include one or more locks such as a lock 504 to lock the elements 102 and 104 against rotation while engaged together, one or more channels such as a channel 404, one or more protrusions such as a protrusion 406, one or more guiders such as a guider 506 to align the elements 102 and 104 together before locking, and copper contact 508 for allowing flow of electric current across the two elements 102 and 104.
  • the dotted lines X-X and Y-Y show axes of symmetries that may aid in alignment while engaging the elements 102 and 104.
  • the second element 104 may house an elevated part which may fit into a complementary designed hollow part in the first element 102 to receive the second element 104.
  • the elevated part and the hollow part are indicated by pointers 510 and 512 respectively in Fig. 5.
  • pointers 510 and 512 respectively in Fig. 5.
  • the fixation of the first element 102 with the second element 104 may allow engagement or disengagement of the elements 102 and 104.
  • the one or more locks such as the lock 504 may be automatically adjusted and the elements 102 and 104 may be locked and engaged against rotation unless an oppositely directed rotational motion to disengage the elements 102 and 104 is applied externally.
  • the elements 102 and 104 may be aligned in accordance with a predefined design of interfaces of the elements 102 and 104 that may remain in substantial contact with one another.
  • the alignment may be obtained through an axis of symmetry such as X-X and Y-Y as shown in Fig. 5.
  • the axis of symmetry may define a symmetrical design of each of the elements 102 and 104 across the two halves.
  • the symmetrical design across the axis of symmetry may allow configurability of the lighting device 100 into various designs and shapes achieved through distinct orientations of the plane of contact between the first element 102 and the second element 104.
  • the configurability may be achieved by a combination of several design features such as the axis of symmetry and the rotary mechanism.
  • the configurability may be achieved by using a controlling unit 112 that may automatically configure several possible designs by pressing a user operated button to shift from one mode of operation to another.
  • the modes of operations of the lighting device 100 are further described in conjunction with Figs. 6- 8.
  • the user may align the elements 102 and 104 along the axis of symmetry through guiders such as the guider 506 positioned adjacent to the axis of symmetry along its two ends, as shown in Fig. 5.
  • guiders such as the guider 506 positioned adjacent to the axis of symmetry along its two ends, as shown in Fig. 5.
  • There may be one or more axes of symmetry depending on the shape and design of the lighting device 100.
  • the lighting device 100 has a square footprint and a rhombus cross section in an exemplary embodiment as described above. However, those skilled in the art would appreciate that other shapes and cross sections may also be possible.
  • one of the elements 102 and 104 may house a power management unit 106 and the power may be transferred to another element of the elements 102 and 104 while in the engaged position through the copper contacts 508.
  • the copper contacts 508 may provide an electrically conductive contacting interface either through a copper metal plate or a spring pressed as a result of the engagement of the elements 102 and 104.
  • Various other electricity conducting materials in addition to copper may also be used to form a conductive contacting interface.
  • the lighting device 100 may be detached into more than two elements.
  • the elements as described herein may alternatively be referred to with other similar terms such as fragments, parts, and the ' like.
  • the elements may be permanently coupled together while still allowing configurability of the lighting device 100 through rotation.
  • Fig. 6 depicts elements 102 and 104 of a lighting device 100 separated from one another in accordance with another embodiment of the present invention.
  • the first element 102 may include a key shaped slot 502 to accommodate a nail.
  • the elements 102 and 104 may further include one or more channels such as a channel 404, one or more protrusions such as a protrusion 406, and copper contact 508 for allowing flow of electric current across the two elements 102 and 104.
  • the second element 104 may be provided with a convex surface 604.
  • the first element 102 may be provided with a concave surface 602 that may be substantially designed complementary to the convex surface 604.
  • the concave surface 602 may include slots 606 and the convex surface 604 may include complementary projections 608 that may fit into the slots 606 for engaging the elements 102 and 104.
  • the slots 606 are designed to receive the projections 608 such that the projections 608 are locked and fitted within the slots 606 on receipt.
  • the design and profile of the projections 608 and the slots 606 may vary without limiting the spirit and scope of the present invention.
  • the slots 606 may be designed as extended portions from the surface of the housing of the lighting device 100, and the projections 608 may simply provide a hollow design to receive the slots 606.
  • the slots 606 may be designed in the form of rectangular, spherical or hemispherical shaped extended portions.
  • the profile of the projections 608 may be designed as extended portions with variable width from the surface of the lighting device 100 such that the projections 608 have thin profile at one end of the projections 608 and a wider profile at the other end of the projections 608 as depicted in Fig. 6.
  • the first element 102 and the second element 104 are locked when the slots 606 fit into the wider end of the projections 608 that have a wider profile.
  • the wider end of the projections 608 allow the slots 606 to be guided and snapped into a correct and fixed position to assist in locking. This may also ensure that the elements 102 and 104 do not disengage easily.
  • a force is applied on the projections 608 to overcome the resistance of the wider end.
  • the design of the projections 608 and the slots 606 may allow locking and fitting of the elements 102 and 104 together on an application of an external rotational force.
  • a rotational force in a reverse direction may unlock and disengage the elements 102 and 104 from one another. Once disengaged, the projections 608 may easily slide out of the slots 606 and the elements 102 and 104 may get separated.
  • the alignment may be obtained through an axis of symmetry such as X-X and Y-Y.
  • the axis of symmetry may define a symmetrical design of each of the elements 102 [0086]
  • the rotational mechanism to engage and/or disengage the elements 102 and 104 (as described above) is merely exemplary. Various other mechanisms that may possibly engage and/or disengage the elements 102 and 104 may also be utilized without limiting the spirit and scope of the present invention.
  • sliding and translatory movement may be utilized to engage/disengage the elements 102 and 104.
  • a simple push-pull mechanism with a lock fitting technique may be utilized for engaging/disengaging the elements 102 and 104.
  • various clamping and fastening devices may be utilized to engage and disengage the elements 102 and 104.
  • various designs for engagement and disengagement of the elements 102 and 104 may be provided on the contacting interfaces of the elements 102 and 104 in addition to those described above in conjunction with Figs. 5 and 6.
  • Fig. 7 depicts a portable lighting device 100 in a wall hanging mode in accordance with an embodiment of the present invention.
  • Configurability of the lighting device 100 by the application of a rotational force applied on a rotary mechanism as shown in Fig. 4 and achievable by the symmetrical design of elements 102 and 104 in one orientation may result in transformation of the lighting device 100 in a first shape.
  • the first shape that may be possibly achieved by the disengagement of the elements 102 and 104 into separated elements may facilitate the wall hanging mode as shown in Fig. 7.
  • the lighting device 100 in the wall hanging mode may be termed as a wall hanging light, wall hanging lamp, wall mounted light, wall mounted lamp and the like.
  • Hanging portable lighting devices such as the lighting device 100 as shown in Fig.
  • the hanging portable lighting device 100 or simply a hanging lighting device 100 may be mounted on a ceiling, wall, door, window and the like by a cord or a wire 702 such as shown in Fig. 7.
  • a second element 104 may be mounted on the wall while a first element 102 may be supported on the floor or a table.
  • the cord or wire 702 may be connected with the first element 102 through a plug-in port and the second element 104 through another plug-in port mounted either on the second element 104 or on the wall that may house an electric circuitry connecting the wall with the first element 102. Therefore, the first element 102 and the second element 104 may be connected either directly or indirectly through the wall circuitry.
  • the second element 104 may be permanently fixed at an ' elevated height inside a room, and the first element 102 may be portably transferred to connect with the second element 104.
  • the second element 102 may be inserted inside a plug fitted in the wall, and the electric circuitry through the wall may form a connection between the elements 102 and 104.
  • all the major components of the lighting device 100 except a lighting unit 114 and the second power drive unit 120 may be equipped in the first element 102, and the second element 104 may merely house a lighting unit 114 and a second power drive unit 120.
  • multiple second elements such as the second element 104 may be fitted at several locations in a room or rooms of a house and a single first element such as the first element 102 may be utilized to connect with any of the first elements such as the first element 102, wherever required.
  • a controlling unit 1 12 fitted inside the first element 102 may be utilized to control operations of several second elements such as the second element 104 fitted at different locations of a room or house based on requirements and needs.
  • a remotely controlled first element such as the first element 102 and a remotely controlled second element such as the second element 104 may be embodied to enhance functionality of the lighting device 100 through the use of the controlling unit 1 12.
  • the portable lighting device 100 in a wall hanging mode may be utilized as a miner's lamp.
  • the second element 104 may be mounted on the helmet of the miner and the first element 102 powering the lighting device 100 may be carried separately or clipped with the body of the miner.
  • the second element 104 may be a fan, a media player, multiple lights with different intensities, and the like, that may be connected to a single first element 102.
  • An interface of the second element 104 in the wall hanging mode that may form a connection substantially with the wall may be insulated to avoid any conduction of the current from the lighting device 100 to the wall or any connected surface.
  • the insulation may be imparted using any conventionally designed insulating medium.
  • Fig. 8 depicts a portable lighting device 100 in a reading mode in accordance with an embodiment of the present invention.
  • Configurability of the lighting device 100 by the application of a rotational motion applied on a rotary mechanism as shown in Fig. 4 and achievable by the symmetrical design of elements 102 and 104 in a second orientation may result in transformation of the lighting device 100 in a second shape.
  • the second shape that may be possibly achieved by the engagement of the elements 102 and 104 into a single assembly hereinafter referred to as assembled or engaged elements 102 and 104 may facilitate the reading mode as shown in Fig. 8.
  • the lighting device 100 in the reading mode may be termed as a table light, table lamp and the like.
  • the lighting device 100 in accordance with reading mode .as shown in Fig. 8 may find applications for such as, but not limited to, lighting tables, reading desks, or to enhance lighting in an area where the light may be weak and the like.
  • the lighting device 100 may be detached into two separate elements such as a first element 102 and a second element 104.
  • the detachability of the lighting device 100 has been previously described in detail.
  • the first element 102 may form a base to be supported on such as a desk or a table or a floor while the second element 104 pivotally connected to the first element 102 through a connecting interface may house a lighting unit 1 14 that emits light.
  • the pivotal design of the second element 104 with the first element 102 may achieve flexibility of rotational motion along an axis substantially perpendicular to the longitudinal axis of the portable lighting device 100 to rotate the second element 104 with a zero to slightly lesser than 180 degree angle relative to the first element 102.
  • the range of angular rotation may be increased or decreased to as much as zero to 360 degrees which should be considered as falling within the scope of the present invention.
  • the design of the pivotal arrangement may also allow the first element 102 to be removed from the second element 104.
  • ⁇ flexible goose-neck shaped arrangement may be provided that may connect the first element 102 to the second element 104 such that the position of the LEDs scattering the light may be adjusted based on requirements.
  • an interface of the first element 102, in the reading mode, that may form a connection substantially with the support such as a table, floor and the like, may be insulated to avoid any conduction of the current from the portable lighting device 100 to the floor or any connected surface.
  • the insulation may be imparted using any conventionally designed insulating medium.
  • a single first element such as the first element 102 may be used to support multiple second elements such as the second element 104 either through a cord, a wire; or through a remotely controlled mechanism.
  • a controlling unit 1 12 fitted inside the first element 102 may be utilized to control operations of several second elements such as the second element 104 fitted at different locations based on requirements and needs.
  • all the major components of the lighting device 100 except a lighting unit 1 14 and the second power drive unit 120 may be equipped in the first element 102, and the second element 104 may merely house a lighting unit 114 and a second power drive unit 120.
  • This embodiment may find applications in such as, but not limited to, classrooms where the desk of each student may be supported with a table lamp to be controlled and powered by a single unit.
  • Fig. 9 depicts a portable lighting device 100 in an ambient mode in accordance with an embodiment of the present invention.
  • Configurability of the portable lighting device 100 by the application of a rotational force applied on a rotary mechanism as shown in Fig. 4 and achievable by the symmetrical design of elements 102 and 104 in a third orientation may result in transformation of the lighting device 100 in a third shape.
  • the third shape may be possibly achieved by the engagement of the elements 102 and 104 into a single assembly hereinafter referred to as assembled or engaged elements 102 and 104 with an orientation distinct for obtaining the second shape as described in conjunction with Fig. 8.
  • the third shape may facilitate the ambient mode as is shown in Fig. 9.
  • the lighting device 100 in the ambient mode may be termed as a ceiling light, ambient light, ceiling lamp and the like.
  • the lighting device 100 in accordance with ambient mode as shown in Fig. 9 may find applications for such as but not limited to lighting rooms, halls and other such places.
  • the lighting device 100 may be provided with a ceiling mountable fixture including a rod 302 and a protruded part 304.
  • the rod 302 may facilitate hanging of the portable lighting device 100 with an elevated location such as a ceiling, roof and the like.
  • the rod 302 may be hinged with the protruded part 304 at its two ends.
  • the protruded part 304 may include a guiding pass-through hole that may allow receipt of the rod 302 within.
  • Similar rods such as the rod 302 and protruded parts such as the protruded part 304 may be disposed at other ends such as the sides for allowing hanging of the portable lighting device 100 along multiple directions.
  • simple hooks or bars attached at one end with the lighting device 100 and the other end freely allowing hanging of the hook with a rigid support of such as a wall or a ceiling may be used instead of the protruding parts such as the protruded part 304 and the rods such as the rod 302.
  • the complete hanging assembly may be detachably attached to the rear end of the lighting device 100 with a magnetic impact that may hold the hanging assembly and that may be lifted merely by pulling.
  • a single first element such as the first element 102 may be used to support multiple second elements such as the second element 104 either through a cord, a wire; or through a remotely controlled mechanism.
  • a controlling unit 1 12 fitted inside the first element 102 may be utilized to control operations of several second elements such as the second element 104 fitted at different locations based on the requirements and needs.
  • all the major components of the lighting device 100 except a lighting unit 1 14 and the second power drive unit 120 may be equipped in the first element 102, and the second element 104 may merely house a lighting unit 1 14 and a second power drive unit 120.
  • This embodiment may find applications in such as but not limited to large halls, conference rooms and the like places where several lights are deployed and merely by switching on a plug to activate power supply, all the lamps may be lighted.
  • the first element 102 that may be configured to receive solar power from external sources may be detached and fitted on the top of the building to directly receive solar power.
  • the lighting device 100 in the ambient mode may be used as a handheld lamp or a torch to be carried by a user into a dark area.
  • the lighting device 100 of the present invention may be embodied in several other modes of operations based on various axes of symmetries and configurations in addition to those described above.
  • the portable lighting device 100 may be used as a vehicle mounted light such as a headlight, a tail light, an indicator light, a stop light and the like.
  • the housing 200 of the lighting device 100 may be designed to fit a respective fixture of the vehicle.
  • the lighting device 100 may accept various other shapes such as rectangular, dome- shaped and the like depending on requirements and ease of use.
  • the first element 102 and the second element 104 may house any of the devices such as a power management unit 106, lighting unit 1 14 and optical assembly 1 16.
  • each of the elements 102 and 104 may house the power management unit 106, optical assembly 1 16 and lighting unit 1 14. Therefore, each of the elements 102 and 104 may act as independent lighting devices such as the lighting device 100 that may be adapted to work independently without being aided by the other. In this scenario, one of the elements 102 and 104 may be charged by the other of the elements 102 and 104 and vice versa in case the stored charge is consumed and may act as a backup storage unit.
  • Fig. 10 depicts re-configurability of a lighting device 100 along an axis of symmetry in accordance with various embodiments of the present invention.
  • the re- configurability of the lighting device 100 into various shapes such as those described in conjunction with Figs. 7, 8 and 9 may be achieved by the utilization of the axis of symmetry provided in the interface between a first element 102 and a second element 104 of the lighting device 100.
  • the axes of symmetries are indicated with dotted lines. Different shapes of the cross section 1002 may result in one or more axes of symmetry, which may allow multiple orientations of the lighting device 100 along the cross section 1002, as is shown in Fig. 10.
  • axes of symmetry may depend on the shape of the cross section.
  • Various components of the lighting device 100 may be rearranged to implement various usage scenarios by taking advantage of the axis of symmetry in the lighting device 100.
  • the lighting device 100 as shown has a square footprint 1004 and a rhombus cross section 1006.
  • any other lighting device having a different shape and cross section may be reconfigured by using axis of symmetries in a similar manner.
  • Fig. 1 1 depicts an optical assembly 1 16 in accordance with an embodiment of the present invention.
  • the optical assembly 1 16 may be attached to the front panel of housing 200 of the lighting device 100 substantially in front of a lighting unit 1 14 through a fixture that may allow rotatable motion of the optical assembly 1 16 relative to the front panel.
  • the rotatable optical assembly 1 16 may include a centrally located transparent portion made of polycarbonate or acrylic and the like to allow the light beam emitted by the lighting unit 1 14 to pass through significantly without loss of light.
  • the centrally located transparent portion may be made of materials other than polycarbonate or acrylic.
  • the centrally located transparent portion may be surrounded by a metallic or a plastic frame that may form a base attachable to the front panel of the housing 200.
  • the optical assembly 1 16 may provide a wide range of view angle or beam angle adjustments ranging from as low as 2 degrees to as much as 180 degrees simply by rotating the optical assembly 1 16 by hand relative to the front panel.
  • the wide angle or short angle beam patterns may be achieved by using a set of reflectors and/or lenses disposed at an interface of the rotatable fixture of the optical assembly 1 16 that may be substantially in front of the lighting unit 1 14.
  • the rotation of the optical assembly 1 16 may adjust position of focal point thereby varying focal length which in turn may regulate the view angle.
  • the lighting unit 1 14 may, in general, be positioned in a fixed manner and a change in the position of the set of reflectors and varying the shape of cone of illumination may adjust the view angle. This may permit light rays passing through the set of reflectors to converge or diverge based on adjustments.
  • Figs. 12A-12D depicts exemplary angular adjustments with varied view angles based on positioning of the set of reflectors.
  • the optical assembly 1 16 may be configured to adjust the patterns of light beams emitted by the lighting unit 1 14.
  • Beam patterns may include variations in intensity, brightness of light beams for various parts of cone of illumination and the like.
  • Beam patterns may include sharp illumination in the central part of the beam and dull illumination with lesser brightness at a surrounding loop. Beam patterns may be adjusted simply by rotating the optical assembly 1 16 by hand.
  • default beam patterns may be set merely by selecting buttons disposed on the lighting device 100 representing standard beam patterns.
  • different view angles and beam patterns for illuminating an area may be required in different modes of operations of the lighting device 100 such as reading mode, ambient mode, wall hanging mode and the like.
  • the various modes of operations of the lighting device 100 have been discussed in conjunction with Figs 7-9.
  • a wide view angle setting may be recommended in an ambient mode while a narrow view angle setting may be recommended in a reading mode.
  • various other recommended beam angle settings may be set according to necessity.
  • a controlling unit 1 12 may monitor view angle settings and beam patterns adjusted by a user for various modes of operations and accordingly a record may be kept in a file stored in an inbuilt memory of the controlling unit 1 12.
  • a set of lenses or patterned plastic attachments may be mounted on either the optical assembly 1 16 or the lighting unit 1 14 directly or indirectly to scatter the light rays without reducing brightness or efficiency in order to not hurt eyes of the user. This may ensure that the light source is not directly visible to the user, since an LED is extremely bright and may be unhealthy for the eyes if the user's eyes are in direct contact with the light source for an extended period of time.
  • a concave mirror may be provided in front of the LEDs to reflect light on the reflector which in turn may send the light out.
  • a region that may be directly in front of the LED may be frosted so that it diffuses the light and keeps the rest of the area clear.
  • a user interface may be provided to enable settings of view angles of the lighting device 100 by a user.
  • the user may also select automatic or manual mode of view angle settings through the user interface.
  • the user may further adjust intensity/irradiance/brightness of the lighting unit 1 14 from the user interface.
  • the user interface may be connected with the controlling unit 1 12 that may receive instructions as indicated by user preferences from selection of menu from the user interface.
  • the controlling unit 1 12 may then instruct the concerned units and devices to act accordingly. For example, the user may adjust brightness/irradiance from the menu which the controlling unit 1 12 may implement in real time.
  • the lighting device 100 may be configured to act as a media player.
  • the user may for example play songs, watch videos, listen to radio, store information and data and the like through the media player.
  • the media player may be powered by the same functions which are used to power the lighting device 100.
  • the media player may be powered by a power management unit 106 that may support the lighting device 100.
  • the user may listen to songs stored in the inbuilt memory of the media player or by plugging in an external memory device such as a memory card (such as SD card, MMC Card and the like) or a USB flash drive containing music in various digital formats such as MP3, WMA, AAC, WAV, OGG Vorbis and the like.
  • the controls of the media player may be provided on the user interface.
  • the user may increase/decrease the volume, change the frequency in case of radio, skip to previous/next song in the media player, and the like, from the various buttons provided on the user interface.
  • the present invention has been explained by integrating the media player in the lighting device 100. However, those skilled in the art would appreciate that other electronic devices may be integrated with the lighting device 100.
  • the external electronic devices may be utilized as insect repellers such as to repel mosquitoes. It is well known that insects may be repelled by certain noises that are beyond the audible frequency range of human beings such as ultrasonic ranges. Therefore, the external electronic device such as in the form of an MP3 player may be utilized to emit sound in ranges that are capable of repelling insects.
  • the lighting device 100 may also act as an insect repeller when configured as a media player. In such as scenario, the lighting device 100 may be utilized to emit sound in ranges that are capable of repelling insects.
  • a display unit may be fitted, along with the media player, to display instructions, connection of external devices, status of the battery, play list, play menu and the like.
  • a blinking indicator may also be attached with the display unit that may reflect existing charge stored in a storage unit 1 10.
  • the display unit may include multiple indicators to reflect the health status-of the storage unit 1 10. For example, a green/blue color indicator may represent fully charged batteries. Similarly, other indicators may represent partially charged, empty, or other levels of stored charge.
  • blink codes may be utilized with LEDs to indicate the battery health status.
  • Fig 13 depicts a method of operating a portable lighting device 100 in accordance with an embodiment of the present invention.
  • the method of operating the lighting device 100 may begin at step 1302.
  • the charging and/or discharging of the lighting device 100 may be controlled.
  • the lighting device 100 may be illuminated based on at least controlled charging and discharging.
  • at least one of the optical parameters of illumination may be adjusted.
  • the method of operating the lighting device 100 may end at step 1310.
  • the step 1304 for controlling charging and/or discharging of the lighting device 100 may be based on predefined criteria.
  • the predefined criteria may include existing charge in the storage unit 1 10, chemistry of the storage unit 1 10, user defined time restrictions, environmental factors such as availability of solar energy on particular days and time periods of days and the like.
  • predefined criteria may also include various context based patterns such as current rate and type of usage.
  • historical data related to usage patterns stored in a memory of the lighting device 100 may also serve as predefined criteria.
  • the capability of the power source to deliver power may be another predefined criterion.
  • the maximum power point to deliver maximum power that may be a combination of voltage and current may be regarded as a predefined criterion. The maximum power point may change with a change in the intensity of the sun.
  • the lighting unit 1 14 may receive power from the power management unit 106 for illumination purposes based on the at least one of controlled charging and discharging at step 1306. This means that the lighting unit 1 14 may consume only limited power as set by the predefined criteria described above. Therefore, the lighting intensity of the lighting unit 1 14 may increase or decrease based on the rate of charging and discharging to optimize functionalities of the lighting device 100.
  • At step 1308, at least one of the optical parameters of illumination may be adjusted.
  • Optical parameters may include, without limitations, view angle settings, beam patterns and the like. Optical parameters and their adjustments have been described in conjunction with Figs. 1 , 1 1 and 12.
  • the lighting device 100 may be powered by solar energy which is freely and abundantly available in nature; and as a result, non-renewable sources of energy that are on the verge of exhaustion may be saved. This may avoid pollution indirectly which may be caused by burning non-renewable sources of energy such as kerosene used for lighting lamps or electricity (most of which is produced by burning of Gas/Petroleum products or Coal) that powers conventional electric lamps. Further, the solar powered lighting devices of the present invention may be fully in compliance with the latest norms and regulations prescribed by the government of various states and countries that have established recyclability laws and rules to avoid pollution.
  • the storage units of the solar powered lighting devices of the present invention may be recyclable unlike batteries of the conventional battery operated lamps and torches.
  • Lighting devices of the present invention may utilize an integrated controlling unit that may adaptively control various operations of charging/discharging of the storage units depending on necessity. Accordingly, an automated and integrated monitoring and regulating element may exist that may intelligently adapt power management unit to charging/discharging operations without a manual effort to externally control the storage units. Further, in case of shortage of solar power such as on rainy days, the integrated controlling unit may switch the power management unit to electric power to offer better, efficient and smooth operations. Further, the controlling unit may also instruct the power management unit to receive power from more than one source such as a dynamo, car charger, ac adapter, and the like to charge/re-charge at a speedy rate in case of emergencies. This may enhance charging/recharging operations and avoid unnecessary delay in an emergency condition.
  • an automated and integrated monitoring and regulating element may exist that may intelligently adapt power management unit to charging/discharging operations without a manual effort to externally control the storage units.
  • the integrated controlling unit may switch the power management unit to electric power to offer better, efficient and smooth operations.
  • the lighting device of the present invention may include components that may provide capability to extract maximum power from an external power source intelligently without overloading the power source based on requirements. This enables availability of wide ranges of input voltages and currents.
  • the lighting device of the present invention may be configured into varied shapes which may be used for distinct applications. This may ease the task of using/ purchasing multiple lamps or torches for multiple uses such as a table lamp, wall mounted lamp, handheld torch and the like.
  • the lighting device of the present invention may generate easily configurable shapes through inbuilt design and mechanism without adding any external component or element or device to the lighting device as an attachment.
  • the lighting device may be used as a wall mounted lighting device in a wall hanging mode.
  • the lighting device may also be used as a table lamp in a reading mode.
  • the lighting device may further be used as a ceiling light in an ambient mode. Therefore, the lighting device of the present invention may serve as a multipurpose lamp which may be used for example as a table lamp, wall mounted lamp, handheld torch, ceiling lamp, street light, vehicle light and the like.
  • the lighting device of the present invention may be disengaged into two or more separate elements, and each of the elements may act as an independent lighting device that may supplement operations of the other element when required. This may enhance the capabilities of the lighting device within a single design.
  • An advantage of the present invention is the use of a single lighting device to drive multiple lighting units, fans, chargers for external devices such as media players and the like.
  • Another advantage of the lighting device of the present invention may be the capability of charging external electronic devices such as mobile phones, media players, radios, and the like by the power management unit of the lighting device.
  • Yet another advantage of the lighting device of the present invention may be the capability of functioning as a media player.
  • Still another advantage of the lighting device of the present invention may be the capability of functioning as an insect repeller.
  • Still another advantage of the lighting device of the present invention may be adaptively varying intensity/irradiance of lighting units such as LEDs. Further, the lighting device may allow modifications of view angles of the light with the help of an attached optical assembly.
  • the optical assembly may allow wide view angle settings, medium view angle settings, narrow view angle settings and various other angle settings depending on requirement, thereby focussing on the intended area of illumination and avoiding wastage of energy. Similarly, various beam patterns may also be obtained based on requirement and nature of use. Further, the optical assembly may safeguard eyes by preventing direct exposure to the emitted beam of light.
  • Still another advantage of the present invention may be the use of a low cost integrated controller to form a connected interface physically or through remote methods among various elements and respective features; whether electrical, mechanical or design-related to operate the lighting device with multiple functionalities efficiently in real time within a portable setup.
  • the integrated controller of the present invention may provide automated control of various modes of operations by simply pressing a manually operated button located at a user interface.
  • the overall design of the lighting device may be low cost, portable and efficient with the use of the controller thereby enabling a multi advantageous and multipurpose portable lighting device.

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Abstract

La présente invention concerne un dispositif d'éclairage portable à alimentation solaire conçu pour être séparé mécaniquement et optiquement en au moins deux parties, ainsi qu'un procédé pour faire fonctionner ledit dispositif d'éclairage. Le dispositif d'éclairage peut être équipé d'au moins une unité de gestion de puissance pour la charge et/ou la décharge commandées du dispositif d'éclairage, une unité d'éclairage pour produire une éclairage qui peut être alimentée par l'unité de gestion de puissance et un ensemble optique pour ajuster au moins un des paramètres optiques de l'éclairage.
PCT/IN2010/000483 2009-07-21 2010-07-20 Dispositif d'éclairage portable WO2011010326A2 (fr)

Priority Applications (2)

Application Number Priority Date Filing Date Title
IN1567DEN2012 IN2012DN01567A (fr) 2009-07-21 2010-07-20
AP2012006080A AP2012006080A0 (en) 2009-07-21 2010-07-20 A portable lighting device.

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
IN1488DE2009 2009-07-21
IN1488/DEL/2009 2009-07-21

Publications (2)

Publication Number Publication Date
WO2011010326A2 true WO2011010326A2 (fr) 2011-01-27
WO2011010326A3 WO2011010326A3 (fr) 2011-12-08

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PCT/IN2010/000484 WO2011010327A1 (fr) 2009-07-21 2010-07-20 Activation et désactivation d'attributs d'un dispositif consommateur
PCT/IN2010/000483 WO2011010326A2 (fr) 2009-07-21 2010-07-20 Dispositif d'éclairage portable

Family Applications Before (1)

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PCT/IN2010/000484 WO2011010327A1 (fr) 2009-07-21 2010-07-20 Activation et désactivation d'attributs d'un dispositif consommateur

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IN (2) IN2012DN01568A (fr)
WO (2) WO2011010327A1 (fr)

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CN102777849A (zh) * 2012-07-13 2012-11-14 苏州晶雷光电照明科技有限公司 一种节能型led台灯
CN102777848A (zh) * 2012-07-13 2012-11-14 苏州晶雷光电照明科技有限公司 一种led应急照明装置
CN104378667A (zh) * 2014-12-09 2015-02-25 嘉兴奥塔尔电气科技有限公司 具有智能播放功能的吸顶式电器
CN108167736A (zh) * 2017-12-26 2018-06-15 江苏建筑职业技术学院 一种多功能灭蚊景观灯

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Publication number Priority date Publication date Assignee Title
CN102777849A (zh) * 2012-07-13 2012-11-14 苏州晶雷光电照明科技有限公司 一种节能型led台灯
CN102777848A (zh) * 2012-07-13 2012-11-14 苏州晶雷光电照明科技有限公司 一种led应急照明装置
CN104378667A (zh) * 2014-12-09 2015-02-25 嘉兴奥塔尔电气科技有限公司 具有智能播放功能的吸顶式电器
CN108167736A (zh) * 2017-12-26 2018-06-15 江苏建筑职业技术学院 一种多功能灭蚊景观灯

Also Published As

Publication number Publication date
AP2012006079A0 (en) 2012-02-29
WO2011010327A1 (fr) 2011-01-27
WO2011010326A3 (fr) 2011-12-08
AP2012006080A0 (en) 2012-02-29
IN2012DN01567A (fr) 2015-06-05
IN2012DN01568A (fr) 2015-06-05

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