The invention relates to electrical light sources and particularly, but not exclusively, to electrical light sources in artificial candles.

Electrical light sources are often controlled to vary the intensity of illumination of the light source. An example is an electrical rheostat. In an artificial candle, where the light source is controlled to provide a flickering effect, a manually operated electrical switch may be provided to switch off the light source.

According to the invention, there is provided an electrical light comprising a light source and a device sensitive to changes in air pressure, the device, on sensing a predetermined change in air pressure, controlling the light source to change the intensity of illumination of the light source.

In this way, the intensity of illumination can be controlled by a person blowing on the device.

Referring first to Figures 1 and 2, the artificial candle comprises a generally cylindrical body 10 which may be made from a white plastics material that may be translucent. The body 10 comprises a generally cylindrical shell 11 closed at one end by an end wall 12. The end wall 12 is formed with central upstanding cylindrical housing 12a that accommodates a light source 13. The housing 12a is translucent and may provide a suitably coloured filter.

The light source 13 may be a light bulb or a light emitting diode or any other suitable light emitting device. The light source 13 is connected to a power source 14, such as a battery, via a control system 15 and a first switch 16. The control system 15 controls the light source 13 to provide a flickering effect to emulate a candle. The first switch 16 includes an operating buffer 17 that project through the end wall 12. The end wall 12 also includes a hole 18 beneath which is a pressure sensitive device 19, which may be in the form of a piezo-electric device. The pressure sensitive device 19 is connected to a second switch 20 in the circuit controlling the light source 13.

In use, the first switch 16 is operated by pressing the button 17 to illuminate the light source 13 to provide the flickering candle-emulating effect. When it is desired to switch off the candle, a person blows through the hole 18. The pressure sensitive device 19 senses the change in air pressure as being above a predetermined minimum and produces an electrical signal that is fed to the second switch 20. This switches off the light source 13 and then re-sets so allowing the light source 13 to be switched on again using the first switch 16.

In this way, the artificial candle can be blown out in the same way as a real candle.

A modified form of the artificial candle of Figures 1 and 2 in shown in Figures 3 and 4. Parts common to Figures 3 and 4 and to Figures 1 and 2 are given the same reference numerals and will not be described in detail.

In the embodiment of Figures 3 and 4, the cylindrical housing 12a is movable relative to the end wall 12 in a direction parallel to the axis of the shell 11. The housing 12a is spring loaded urging it outwardly of the end wall 12. The light source 13 moves,with the housing 12a. Depression of the housing 12a operates a switch 21, which replaces the first switch 16, and acts to switch on the light source 13. The artificial candle of Figures 2 and 3 operates otherwise in the same way as the artificial candle of Figures 1 and 2.

A further modified form of the artificial candle of Figures 1 and 2 is shown in Figure 5. Parts common to Figure 5 and to Figures 1 and 2 are given the same reference numerals and will not be described in detail.

In the embodiment of Figure 5, the end wall 12 is movable relative to the shell 11 in a direction parallel to the axis of the shell 11. The end wall 12 is spring loaded urging it outwardly of the shell 11. The light source 13 moves with the end wall 12. Depression of the end wall 12, which may be achieved by pressure on the housing 12a, acts to switch on the light source 13. On release, the end wall 12 returns under the action of the spring to its rest position. The artificial candle of Figure 5 operates otherwise in the same way as the artificial candle of Figures 1 and 2.

It will be appreciated that blowing on the pressure sensitive device 19 need not turn the light source 13 off. It could incrementally increase or decrease the intensity of illumination of the source between the source 13 being out, or nearly out, and full illumination. The pressure sensitive device 19 will be calibrated so that small changes in air pressure, such as occur naturally in the atmosphere, do not result in any change of the light source 13 but only pressure changes caused by blowing achieve that effect.

The end wall 12, including the housing 12a, may be covered in a flexible protection material (not shown) to prevent the egress of contamination into the shell 11. The candle may be of any suitable size or shape.

The arrangement described above with reference to the drawings need not be used with an artificial candle. It could be used with any light source to control the intensity of illumination. None of the pressure sensitive device, first switch, second switch and control system needs to be located in the body 10 but can be located outside the body 10.

More than one light source can be connected to the control system so that the second switch, upon receipt of an electrical signal from the pressure sensitive device, switches off all of the light sources and re-sets to allow the light sources to be switched on again together. Alternatively, more than one light source could be arranged with each light source having a respective associated first switch for switching on that light source and connected to the control means or each to a respective associated control means so that each light source could be individually switched on. The second switch would then, upon receipt of an electrical signal from the pressure sensitive device, switch off all the switched on light sources and re-set to allow the light sources to be switched on again separately using the respective associated first switch.

The electrical light and arrangement of electrical lights described above could also be included in a novelty card, for example, a birthday or Christmas card. The or each electrical light may be arranged in the form of a candle or otherwise. If in the form of a candle, the candle might be in a flattened form. If the card is one which opens, the opening of the card could actuate a switch for switching on of the light source.