Light

Illumination – Plural light sources – With modifier

Reexamination Certificate

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C362S294000, C362S373000, C362S545000, C362S547000, C362S470000, C362S471000, C362S555000, C362S439000, C174S016300, C361S688000, C361S704000

Reexamination Certificate

active

06568833

ABSTRACT:

The present invention is concerned with solid state lights.
Conventional incandescent lights are being increasingly replaced by solid state lights, notably light emitting diodes (LEDs) which have substantially increased reliability and lower maintenance costs. This has traditionally been at the expense of brightness and colours restricted to red, green and yellow but the latest technologies now enable LEDs to compete in many more applications where incandescent light bulbs with coloured filters are conventionally used.
Nonetheless using LEDs to replace incandescent bulbs involves careful optical design, not least because the light emitted from the solid state chip is directional and to enable it to leave the chip (inside which it is generated) without reflection at the chip's inside surface, the chip has to be covered with a transparent high refractive index plastic that is preferably in the form of a lens and which is thermally compatible with the chip, wire bonds and the connecting leads.
Careful design of this nature has allowed LEDs to be used in applications such as automobile rear lights, traffic lights and most electronic instrumentation.
In these applications the light is emitted in a relatively narrow beam and thus brightness requirements can be satisfied with conventional LEDs mounted by conventional means.
In avionic lighting the polar pattern of the light is dictated by authorities such as the Civil Aviation Authority (UK) or the Federal Aviation Authority (US). The polar light pattern is important for navigation and formation lights because these are intended to indicate to neighbouring aircraft the relative position of the aircraft to each other to facilitate flying at night. Navigation and formation lights are provided on wing tips, air intakes and other distinctive parts of the aircraft.
Night flying is further facilitated by the use of night vision goggles (NVG) which amplify the low levels of infra red in the night scene and present the resulting image to the pilot. Advantageously aviation external lighting should be virtually free from infra red so that the goggles of a neighbouring pilot are not blinded which would prevent the much lower intensity infrared light from the night scene being visible and thus endanger the aircraft. This type of lighting is called NVG Friendly.
This can be achieved with conventional incandescent bulbs by the use of optical filters (see for example the applicant's own U.S. Pat. No. 6,011,493.
Because of the nature of light generation in LEDs, the light output has a relatively sharp spectrum and in particular, unlike the “black body” radiation (in accordance with Wien's Law) from a hot incandescent filament, LEDs can be selected which emit very little infra red radiation which makes them particularly suitable for NVG Friendly aircraft external lighting. Provided the polar light pattern can be achieved and the correct colour and brightness, the reduced maintenance and improved reliability of LEDs offer significant benefits for their use on the outside of aircraft.
In covert military operations it is required to turn off the visible lights and to operate with only infra red emitters (of relatively low intensity) at the aircraft exterior to enable NVG equipped pilots to “see” neighbouring aircraft. To achieve this, infra red emitting LEDs can be incorporated relatively simply with the visible LEDs because they use similar power requirements and are physically similar. Again it is important that the polar light pattern of the infra red LEDs is specially designed, the requirement being to signify the relative spatial positions of the aircraft with respect to each other but not to observers with NVG on the ground. Typically therefore infra red polar light patterns are such as to minimise infra red emissions below the plane in which the aircraft is flying (so called “below the water line”). Thus both the polar light patterns of the LEDs (in accordance with CAA/FAA regulations) and the IR LEDs (for covert operations) are important and in general terms are different and they need to be optimised by careful design of the LED assembly and its mounting, noting also that the LEDs and IR LEDs generally have different transparent lens covers (their primary encapsulation).
Another problem to address in solid state light design is that of dissipating the heat from high brightness (and hence high power) solid state emitters.
Existing solid state lights have typically been modelled on filament bulb designs, having tubular bodies (as required for a standard bayonet fitting) with circuitry and a PCB bearing the LEDs mounted within die body.
In accordance with the present invention, there is a light comprising a base for mounting the light, a chassis upstanding from the base, a circuit board mounted upon an outer face of the chassis and at least one solid state emitter mounted upon the circuit board.
The arrangement can be constructionally simple while meeting the requirements for heat dissipation and polar light pattern.
Preferably the chassis comprises a heat sink. The heat sink may be integrally formed with the chassis. It is particularly preferred that the circuit board is mounted on a front face of the chassis and the heat sink projects from the rear of the chassis.
Still more preferably, the heat sink comprises a set of fins projecting from the rear of the chassis
The light preferably comprises a reflector or baffle adjacent the solid state light emitter(s). This is advantageous in ensuring that the required polar light pattern is achieved. The reflector or baffle preferably has a surface which is adjacent the solid state light emitter(s) and forms an angle, most preferably an acute or right angle, with the portion of the circuit board bearing the emitter(s).
It is particularly advantageous that the reflector or baffle is mounted on the circuit board. To this end the reflector may be elbowed to provide a reflector/baffle portion and a portion for mounting to the circuit board.
The base is preferably provided with means for connection to the electrical supply.
In one preferred embodiment, the base is formed as a bayonet fitting. Hence this embodiment can substitute for a bayonet fitting incandescent bulb.
In a further preferred embodiment, the base has a base surface upon which the light rests in use. In such an embodiment the base may be adapted to be bolted in position. This may be by provision of holes for receipt of a pair of terminal posts, through which the light is connectable to an electrical supply.
By allowing the potentially unreliable bayonet fitting (originally designed for easy replacement of the less reliable and vibration sensitive incandescent bulbs) to be dispensed with, this arrangement allows reliability to be improved.
It is especially preferred that the circuit board is inclined to a mounting axis of the base. This again can assist in providing a required polar light pattern.
The mounting axis is the axis of the bayonet fitting body (in embodiments having this fitting) or is perpendicular to the base surface of the light (in embodiments having this feature).
It is especially preferred that the circuit board is removably mounted upon the chassis. To this end the chassis and circuit board may be provided with respective contacts arranged to form a circuit for electrical supply upon mounting of the circuit board to the chassis. The contacts may comprise a male contact on one of the circuit board and the chassis and a socket for receiving the male contact on the other of the circuit board and the chassis.
The chassis may be provided with means defining a channel for receipt of an edge of the circuit board. One edge at least of the board can thereby be coupled to the chassis in a manner allowing rapid de-coupling.


REFERENCES:
patent: 5567036 (1996-10-01), Theobald et al.
patent: 5857767 (1999-01-01), Hochstein
patent: 6011493 (2000-01-01), Bushell et al.
patent: 6180874 (2001-01-01), Brezina et al.
patent: 6183100 (2001-02-01), Suckow et al.
patent: 6198272 (2001-03-01), Pool et al.
patent: 6220722 (2001-04-01),

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