This application is a U.S. National Phase of International Patent Application Serial No. PCT/CN2005/000707 filed May 23, 2005.
The present invention relates to a decorative lighting device, and in particular to a color changeable tube light for simulating the effects of successive, even, vivid and soft light beams of the neon light.
The known tube light for simulating the effects of the neon light is provided with transversal through-holes in the core line and LEDs in the transversal through-hole. Though the effects of successive, even, bright-color and soft light beams of the neon light are obtained, the effect of color changeable remains unavailable. In the PCT International Application No. PCT/CN2004/000634 filed by the present applicant, a fixing means for containing a red LED, a green LED and a blue LED and disposing in the transversal through-hole of the core line is not disclosed. If a tube light for simulating the effects of color changeable neon light is designed according to the above international application, a red LED, a green LED and a blue LED should be disposed into three parallel transversal through-holes respectively, and thus the spacing is obviously large, which goes against the scattering and homogenizing of light beams by the diffuser, color mixing and color changing. If the red LED, the green LED and the blue LED are simultaneously disposed in the transversal through-hole, the three LEDs would be dislocated easily for lacking of fixing means, which goes against color mixing, color changing and results in color unevenness of the emission light, and besides the structure is not compact and firm enough, the LED lead wire would be broken easily which lead to bad electrical connection. Therefore, it is an object for the companies in this field to design a tube light for simulating the effects of successive, even, vivid and soft light beams of the neon light, which is capable to change the color and mix the colors of light beams, and is of compact and firm structure, and can be bended freely and cut off or extended if necessary.
Having outlined the state of the prior art and its attendant shortages, it is an object of the present invention to provide a tube light for simulating the effects of successive, even, bright-color and soft light beams of the neon light, which is capable to change the color and mix the colors of light beams, and is of compact and firm structure, and can be bended freely and cut off or extended if necessary.
The above object of the present invention is achieved by the following technical solutions:
An improved color changeable tube light, comprises:
a core line, the core line being formed of a strip with predetermined length produced by extrusion molding of white opaque flexible plastic, wherein four copper stranded wires are provided vertically at interval in one side portion of the cross section of the strip, two longitudinal through holes are provided at the middle portion of the cross section of the strip, the copper stranded wire is of the same length as that of the longitudinal through hole, a slot is formed longitudinally on the upper side wall of the longitudinal through hole, a plurality of transversal through-holes are arranged at predetermined even interval along the longitudinal length of the strip, each of the transversal through-holes parallel to the copper stranded wire is provided in the central of the strip, a reverse trapezoidal groove is provided on the upper side wall of the strip;
a plurality of LEDs, the LEDs being connected in series with each other and with at least one current limiting resistor, the two ends of the string of the serially connected LEDs electrically connected to the copper stranded wires in the core line;
a diffuser, the diffuser being a milky translucent object with the same length as the core line and with predetermined height and width and provided above the plurality of LEDs for scattering the light beams of the LEDs;
a cladding layer with the same length as the core line, the cladding layer being formed of white opaque flexible plastic by extrusion molding for wrapping the core line, the diffuser and the plurality of LEDs, the cladding layer being a semicircular surface simulating the tube light emitting surface of neon light, the cladding layer being formed integrally with the diffuser into one piece;
wherein a unit is formed by disposing a red LED, a green LED and a blue LED of the plurality of LEDs into a fixing means, a plurality of the units are connected in series and disposed in the plurality of transversal through-holes of the core line respectively.
The transversal through-hole is quadrate, circular or elliptical in shape.
The fixing device can be a box. The box is quadrate, circular or elliptical in shape. The box is provided with an opening on the top and an opening at the bottom, the opening at the bottom is slightly larger than that on the top. The box is provided with a clasp plate and a clasp key at the bottom for closing over the LED. The box is provided with slots for leading out the LED lead wires on the two sides of the bottom. The clasp plate is provided with a clapboard for supporting the LED and separating the two LED lead wires.
With the present invention, the improved color changeable tube light is of the following advantages:
Due to the fact that a unit is formed by disposing a red LED, a green LED and a blue LED of the plurality of LEDs into a fixing means and a plurality of the units are disposed in the transversal through-holes of the core line respectively, the tube light is of compact and firm the structure, and the LED lead wire is not broken easily, the electrical connection is stable, the three LEDs are not dislocated, the spacing between the three LEDs is small, which is beneficial for the color changing and mixing of the red, green and blue LEDs, so that the tube light according to the present invention is of the effects of successive, even, bright-color and soft light beams and can be bended freely and cut off or extended if necessary. The changing and flashing of seven colors and the variety and floweriness of color can be obtained accordingly.
Referring to
Then, along the whole longitudinal length of the core line 02, a plurality of transversal through holes 03a, 03b, 03c, 03d, 05a and 05b parallel with the copper stranded wires 01a, 01b, 01c and 01d are punched at even interval by automatic punching machine. The interval through holes are arranged in the middle part of the core line 02 on the side opposite to that of the copper stranded wires 01a, 01b, 01c and 01d and parallel to the copper stranded wires 01a, 01b, 01c and 01d. The punched lateral though holes on the core line are of at least one row, and may be two rows, three rows etc. The lateral through hole may be quadrate, circular or elliptical or other in shape. In this embodiment, the transversal through holes 03a, 03b, 03c, 03d are quadrate, and the other two rows of the lateral through holes 05a, 05b are round.
LED bulb is of the good properties such as low energy consumption, low temperature, high brightness and small size, and thus the spacing between the LEDs can be reduced to increase the number of LEDs per unit length, so that the brightness of tube light can be improved safely, and it is possible to obtain the brightness which exceeds that of the glass neon light. Preferably, the LED bulb is elliptical or flat in shape and has a diameter or width of 3 mm to 5 mm, and the brightness of LED is around 200 Mcd, and the spacing between the transversal through holes 03a, 03b, 03c and 03d for containing the LEDs is only ½ inch.
In the present invention, a unit is formed by disposing a red LED, a green LED and a blue LED of the plurality of LEDs into a fixing means, a plurality of the units are connected in series and disposed in the plurality of transversal through-holes of the core line respectively. The box is quadrate, round or elliptic in shape. As shown in
After the core line 02 is produced, the quadrate boxes 04a, 04b, 04c and 04d each of which contains the three LEDs of red, green and blue are connected in series according to the color, that is, red LEDs are connected with each other into one route, green LEDs are connected with each other into one route, and blue LEDs are connected with each other into one route. At least one current limiting resistor 06 is connected in series with the LEDs. The quadrate boxes 04a, 04b, 04c and 04d are inserted into the quadrate transversal through-holes 03a, 03b, 03c, 03d of the core line 02 respectively in sequence. Two round transversal through-holes 05a, 05b for containing the wires connecting the LEDs or the serially connected current limiting resistor 06 are arranged between two quadrate transversal through-holes. The lead wires 291 of the LEDs 04 and the connection wires thereof are disposed in the longitudinal through holes 18a, 18b via the slots 181a and 181b. After the LED string is inserted into the core line 02, the lead wires 07 of the head end of the LED string are connected to the copper stranded wires 01a, 01b, 01c and the other end of the LED string is connected to the copper stranded wire 01d, so that three loop are formed, as shown in
As shown in
After the above LED string is completely inserted into the core line 02, the core line 02 is pulled through the molding hole 17 of the extrusion molding machine 16, as shown in
It is known to the skilled in the art that when the core line 02 passes through the molding hole 17 of the molding machine 16, the diffuser 08 should be disposed on right above the LED bulb 04 in the core line 02, that is, the LED bulb 04 should be disposed on right below the diffuser 08 and close to the midline of the diffuser 08.
Because the core line 02 is made of opaque plastic, the emission light of LED will not penetrate the two side walls of the core line 02 after the LEDs are disposed in the quadrate transversal through-holes of the core line. The opaque core line 02 performs the function of shielding the emission light from the sides of LEDs 04, so that light beams are only emitted from the top of the LEDs 04 and then emitted outwards through the diffuser 08.
The diffuser 08 of the improved color changeable tube light according to the present invention is a milky translucent or foggy translucent object, and normally made of milky flexible PVC or Acrylic by extrusion molding. The width and height of the diffuser 08 is correlative to the brightness and the irradiation angle of LEDs in the core line. The height and width of the diffuser may be larger if the brightness and the irradiation angle of LEDs is large. In contrary, the height and width of the diffuser should be smaller if the brightness and the irradiation angle of LEDs are small. The larger the width and height of the diffuser, the more loss in brightness, and the better in eliminating the appearance of the spot light source. In contrary, the smaller the width and height of the diffuser, the weaker in eliminating the appearance of the spot light source, and the higher in brightness. It is preferred to the present invention that the diameter or the width of a LED is 3-5 mm, the brightness of LED is around 200 Mcd, the irradiation angle of a LED is 45 degree, and the spacing between the quadrate lateral through holes on the core line 02 for containing the quadrate boxes of LEDs is ½ inch. The diffuser 08 is of a height H of 14 mm and a width L of 27 mm, as shown in
After the above-mentioned cladding layer is formed, the copper stranded wires 01a, 01b, 01c, 01d should be electrically connected to the power supply wire 11 and a plastic casing is provided for protecting the electrical connection, and thus a connector 12 is formed, as shown in
The structure of the core line of the improved color changeable tube light according to the present invention is shown in
As shown in
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/CN2005/000707 | 5/23/2005 | WO | 00 | 5/15/2008 |
Publishing Document | Publishing Date | Country | Kind |
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WO2006/125338 | 11/30/2006 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
6361186 | Slayden | Mar 2002 | B1 |
6648498 | Tsao | Nov 2003 | B1 |
Number | Date | Country |
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1453499 | Nov 2003 | CN |
WO2005017408 | Feb 2005 | WO |
Number | Date | Country | |
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20080310183 A1 | Dec 2008 | US |