The present invention relates to a light bulb technology, and more particularly to a LED light bulb with a light-shielding structure.
Nowadays, a LED light bulb with a sensing function has been disclosed. Generally, a sensor is disposed on a top of the LED light bulb. By means of the sensor, the LED light bulb can sense a human body or a light beam. When a human body enters a sensing range of the sensor, the LED light bulb is turned on. This technology is disclosed in for example Chinese Patent No. 200810097926.1 (entitled “Lighting device with sensing function”) and Chinese Patent No. 02102075.2 (entitled “Power-saving LED lamp”). However, after the LED light bulb is turned on, a light beam emitted by the LED light bulb may be projected onto the sensor. Alternatively, the light beam emitted by the LED light bulb may be reflected and refracted by a transparent cover and then projected onto the sensor, so that the light beam emitted by the LED light bulb is received by the sensor. Since the light beam emitted by the LED light bulb may interfere with the sensing action of the sensor, an erroneous operation of the sensor is readily generated.
Therefore, there is a need of providing an improved LED light bulb in order to overcome the above drawbacks.
The present invention provides a LED light bulb with a light-shielding structure in order to overcome the drawbacks of the conventional LED light bulb. By means of the light-shielding structure, the light beam emitted by the LED light bulb and refracted or reflected by a transparent cover is prevented from being projected onto the sensor. Under this circumstance, the possibility of causing the erroneous operation of the sensor will be minimized, and thus the sensing accuracy and sensitivity of the LED light bulb will be enhanced.
For achieving the above objects, the present invention is implemented by using the following technical programs.
In accordance with an aspect of the present invention, there is provided a LED light bulb with a light-shielding structure. The LED light bulb includes a bulb base, a transparent cover, a sensor, a light-shielding barrel and a light-shielding element. The transparent cover is fixed on a top of the bulb base. A lower end of the light-shielding barrel is fixed on the bulb base. An upper end of the light-shielding barrel is extended upwardly toward the transparent cover. The sensor is disposed within an inner hollow portion of the light-shielding barrel. The light-shielding element is disposed within the inner hollow portion of the light-shielding barrel. A sheltering part is arranged around the light-shielding element for sheltering a portion of the light beam which is refracted to the light-shielding barrel by the transparent cover. The sensor is located at a center of the light-shielding element.
In an embodiment, the light-shielding element is embedded into an upper portion of the light-shielding barrel, and a top edge of the sheltering part is higher than, equal to or lower than a top edge of the light-shielding barrel.
In an embodiment, an opening structure is located at a center of the light-shielding element, and the opening structure is defined by a cone-shaped surface. Moreover, a width of an upper end of the opening structure is larger than a width of a lower end of the opening structure, so that the opening structure is tapered from the upper end to the lower end.
Moreover, in a transverse section of the opening structure, an angle between an inner rim of the cone-shaped surface and a vertical line is larger than an angle between the portion of the light beam refracted to the light-shielding barrel by the transparent cover and the vertical line.
In an embodiment, the sensor is located at a lower portion of the opening structure.
In an embodiment, the LED light bulb further includes a LED circuit board, plural LED beads are disposed on the LED circuit board, and the LED circuit board is fixed on the top of the bulb base. The upper end of the light-shielding barrel is coupled with the bulb base. A condenser lens is coupled with the upper end of the light-shielding barrel. Moreover, the light-shielding barrel has a shape of a hollow cylinder.
In an embodiment, the transparent cover has a perforation, and the upper end of the light-shielding barrel is inserted upwardly into the perforation of the transparent cover. A top edge of the light-shielding barrel is at the same level as a top edge of the perforation of the transparent cover, or the top edge of the light-shielding barrel is protruded upwardly over the top edge of the perforation of the transparent cover.
In an embodiment, the bulb base includes a heat sink and a bulb socket. The bulb socket is fixed on a lower end of the heat sink. The transparent cover, the sensor and the light-shielding barrel are fixed on a top of the heat sink.
In an embodiment, the sensor is selected from one or two of an infrared sensor, a microwave sensor and a light sensor.
Due to the above technical programs, the LED light bulb of the present invention has many benefits. By the light-shielding barrel and the light-shielding element, the light beam emitted by the LED light bulb can be effectively prevented from being directly projected onto the sensor. Furthermore, by the light-shielding barrel and the light-shielding element, the light beam emitted by the LED light bulb and reflected or refracted by the transparent cover can be effectively prevented from being projected onto the sensor. Since the light beam emitted by the LED light bulb is not received by the sensor, the light beam emitted by the LED light bulb will not interfere with the sensing action of the sensor. Under this circumstance, the possibility of causing the erroneous operation of the sensor will be minimized, and thus the sensing accuracy and sensitivity of the LED light bulb will be enhanced.
The above objects and advantages of the present invention will become more readily apparent to those ordinarily skilled in the art after reviewing the following detailed description and accompanying drawings, in which:
The present invention provides a LED light bulb with a light-shielding structure. Hereinafter, the LED light bulb will be illustrated with reference to
The LED light bulb further comprises a light-shielding element 8. The light-shielding element 8 is disposed within the inner hollow portion of the light-shielding barrel 4. Moreover, a sheltering part 9 is arranged around the light-shielding element 8 for sheltering the portion of the light beam that is refracted to the light-shielding barrel 4 by the transparent cover 2. The sensor 3 is located at a center of the light-shielding element 8.
The light-shielding element 8 is embedded into an upper portion of the light-shielding barrel 4. Moreover, a top edge of the sheltering part 9 is higher than, equal to or lower than a top edge of the light-shielding barrel 4.
An opening structure 10 is located at the center of the light-shielding element 8. The opening structure 10 is defined by a cone-shaped surface. The width of the upper end of the opening structure 10 is larger than the width of the lower end of the opening structure 10. That is, the opening structure 10 is tapered from the upper end to the lower end.
In the transverse section of the opening structure 10, the angle between the inner rim of the cone-shaped surface and a vertical line is larger than the angle between the portion of the light beam refracted to the light-shielding barrel 4 by the transparent cover 2 and the vertical line. Consequently, the portion of the light beam refracted to the light-shielding barrel 4 by the transparent cover 2 will be completely directed to the light-shielding element 8. In other words, the light beam cannot be directed into the light-shielding barrel 4. Since the light beam is prevented from being projected onto the sensor 3, the light beam emitted by the LED light bulb will not interfere with the sensing action of the sensor 3. Under this circumstance, the sensing accuracy and sensitivity of the LED light bulb will be enhanced, and the possibility of causing the erroneous operation of the sensor will be minimized.
In accordance with the present invention, by the light-shielding barrel 4 and the light-shielding element 8, the light beam emitted by the LED light bulb can be effectively prevented from being directly projected onto the sensor 3. Furthermore, by the light-shielding barrel 4 and the light-shielding element 8, the light beam emitted by the LED light bulb and reflected or refracted by the transparent cover 2 can be effectively prevented from being projected onto the sensor 3. Since the light beam emitted by the LED light bulb is not received by the sensor 3, the light beam emitted by the LED light bulb will not interfere with the sensing action of the sensor 3. Under this circumstance, the possibility of causing the erroneous operation of the sensor will be minimized, and thus the sensing accuracy and sensitivity of the LED light bulb will be enhanced.
The LED light bulb further comprises a LED circuit board. Moreover, plural LED beads are disposed on the LED circuit board. The LED circuit board is fixed on the top of the bulb base 1. The upper end of the light-shielding barrel 4 is coupled with the bulb base 1. The light-shielding barrel 4 has a simple structure, and is easily assembled.
Moreover, a condenser lens 5 is coupled with the upper end of the light-shielding barrel 4. The light-shielding barrel 4 has a shape of a hollow cylinder. The curvy surface of the condenser lens 5 matches the curvy surface of the transparent cover 2. Moreover, the junction between the condenser lens 5 and the transparent cover 2 is smooth, the contour is smooth, and the appearance is elegant.
Moreover, the transparent cover 2 has a perforation. The upper end of the light-shielding barrel 4 is inserted upwardly into the perforation of the transparent cover 2.
In a preferred embodiment, the top edge the light-shielding barrel 4 is at the same level as a top edge of the perforation of the transparent cover 2. Consequently, the portion of the light beam refracted to the top edge of the light-shielding barrel 4 by the transparent cover 2 will be hindered by the top edge of the light-shielding barrel 4. Under this circumstance, the portion of the light beam refracted by the transparent cover 2 is prevented from being projected onto the sensor 3.
Alternatively, in another embodiment, the top edge of the light-shielding barrel 4 is protruded upwardly over the top edge of the perforation of the transparent cover 2. Similarly, the portion of the light beam refracted to the top edge of the light-shielding barrel 4 by the transparent cover 2 will be hindered by the top edge of the light-shielding barrel 4. Under this circumstance, the portion of the light beam refracted by the transparent cover 2 is prevented from being projected onto the sensor 3.
The bulb base 1 comprises a heat sink 6 and a bulb socket 7. The bulb socket 7 is fixed on a lower end of the heat sink 6. The transparent cover 2, the sensor 3 and the light-shielding barrel 4 are fixed on a top of the heat sink 6.
The sensor 3 is located at a lower portion of the opening structure 10. Moreover, the sensor 3 is selected from one of an infrared sensor 3, a microwave sensor 3 and a light sensor 3. Of course, the sensor 3 may be a combination of any two of an infrared sensor 3, a microwave sensor 3 and a light sensor 3.
While the invention has been described in terms of what is presently considered to be the most practical and preferred embodiments, it is to be understood that the invention needs not be limited to the disclosed embodiment. On the contrary, it is intended to cover various modifications and similar arrangements included within the spirit and scope of the appended claims which are to be accorded with the broadest interpretation so as to encompass all such modifications and similar structures.
Number | Date | Country | Kind |
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201120199303.2 | Jun 2011 | CN | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2011/080910 | 10/18/2011 | WO | 00 | 12/13/2013 |