WO2012155799A1 - Luminescent pipe with ellipsoidal-surface lens - Google Patents

Abstract

A luminescent pipe with an ellipsoidal-surface lens comprises a lens, a package, pins and a luminescent chip, wherein the lens is arranged on the package, the luminescent chip is arranged in the package, the pins are connected with the luminescent chip, the luminescent chip comprises a left image luminescent chip and a right image luminescent chip, and the lens has an ellipsoidal surface or a spherical surface. Deformation design is carried out on the existing light-emitting diode (LED); the luminescent chip capable of displaying the information of the left image and the right image is arranged in the package; the newly designed luminescent pipe with the ellipsoidal-surface lens can be used for stereoscopic large-screen display; the stereoscopic display is compatible with the planar display; the operation is simple and the definition is high.

Description

 Ellipsoidal lens tube Technical field

 The invention relates to an LED light-emitting diode, in particular to an ellipsoidal lens light-emitting tube.

Background technique

 Ordinary light-emitting diodes are generally used for two-dimensional display, and for stereoscopic display, Shutter stereo glasses are generally used in the prior art, and the shortcoming is that the images are quickly switched to the left and right eyes, resulting in serious visual flicker, visual fatigue on the eyes, and stereo display/planar display are not fully compatible.

technical problem

The object of the present invention is to provide an ellipsoidal lens light-emitting tube, which is designed to deform a conventional light-emitting diode, and a light-emitting chip capable of simultaneously displaying left image and right image information in the package body, and the newly designed ellipsoidal lens light-emitting tube can be Used for stereo large screen display.

Technical solution

 In order to achieve the above object, the present invention adopts the following technical solutions:

An ellipsoidal lens light-emitting tube, comprising a lens, a package body, a lead and a light-emitting chip, the lens is disposed on the package body, the light-emitting chip is disposed in the package body, and the pin is connected to the light-emitting chip, and the light-emitting chip comprises A left image light emitting chip and a right image light emitting chip, the lens being ellipsoidal or spherical.

 Further, the lens is provided with a cylindrical surface or a cylindrical groove; the ellipsoidal lens luminous tube is divided into two parts which are bilaterally symmetrical. Displaying a left image and a right image respectively; the pins are three or four; the ellipsoidal lens tube is SMD type, the lens is ellipsoidal or spherical, or an ellipsoidal or spherical cover is disposed on the package; a cylindrical or cylindrical groove is disposed on the lens, or a cylindrical or cylindrical groove is disposed on the ellipsoidal or spherical cover; the ellipsoidal lens luminous tube is divided into two parts of left and right symmetry, respectively showing left Image and right image.

 The package body of the present invention is provided with a light-emitting chip capable of simultaneously emitting left image and right image, and a large screen made by the invention The left and right images are respectively emitted, and the left and right eye images respectively enter the corresponding left and right eyes. After the large screen is installed, the macroscopic vertical direction is the cylindrical outline of the basic shape. According to the principle of cylindrical lens illumination, the left and right eye images are poorly visualized, and finally the final stereoscopic image is formed in the human brain. When viewing, people do not need to wear any stereo glasses to realize the naked eye stereoscopic large screen display.

 Providing a cylindrical groove or cylinder on the lens of the present invention, using the large screen made by the present invention, except in macroscopic In the vertical direction (perpendicular to the large screen), the cylinder outline is still on the basic shape, and the cylindrical groove or cylinder is arranged to enhance the stereoscopic display effect and resolution.

 The design of the present invention can be applied to an SMD type light tube, which can be used for original monochrome (including one of RGB) or three primary colors (including RGB). Three kinds of light) SMD An ellipsoidal or spherical cover is added to the package of the light-emitting tube, and the lens of the original SMD-type light-emitting tube can be deformed, and the original lens shape is changed to an ellipsoidal shape or a spherical shape, so that a new SMD type illumination is used. The big screen made by the tube, The macroscopic vertical direction still shows the cylindrical outline of the basic shape. According to the principle of illumination, the left and right eye images are poorly visualized, and finally the final stereoscopic image is formed in the human brain. When viewing, people do not need to wear any stereo glasses to realize the naked eye stereoscopic large screen display. In order to increase the resolution and the stereoscopic display effect, a cylindrical or cylindrical groove may be provided on the lens of the SMD type light-emitting tube, or on the ellipsoidal or spherical cover.

Beneficial effect

 The invention is a monochrome light-emitting tube capable of simultaneously displaying left and right eye images (can display RGB One of them), or a three-primary color light tube, can form a complete pixel of high-definition display. This makes the system resolution, contrast, and color saturation not reduced, the stereo display is compatible with the flat display, the operation is simple, and the definition is high.

Other advantages, objects, and features of the invention will be set forth in part in the description which follows, and in the <RTIgt; The teachings of the present invention are taught. The objectives and other advantages of the invention may be realized and obtained by the structure of the <RTIgt;

DRAWINGS

 Figure 1 is a schematic diagram of a general ellipsoidal lens light-emitting diode; Figure 2 is a schematic diagram of an LED lens as an extreme spherical lens; 4 is a schematic structural view of a lens of the present invention; FIG. 5 is a schematic structural view of a lens surface of the lens of the present invention; FIG. 6 is a schematic side view of FIG. The end face of the lens of the present invention is a cylindrically concave light-emitting tube; FIG. 8 is a side view of FIG. 7; FIG. 9 is a schematic view of a four-pin of the light-emitting tube supporting pin in the middle; FIG. FIG. 11 is a schematic view of the four pins of the outer side of the present invention; FIG. 12 is a schematic view of the top of the light-emitting tube of the present invention; FIG. Figure 14 is a top plan view of Figure 13; Figure 15 is a three-pin schematic view of the light-emitting tube of the present invention on the outside; Figure 16 is a top view of Figure 15; Figure 17 The schematic diagram of the arrangement of the circuit board of the luminous tube of the present invention; FIG. 18 is a schematic diagram of the high-density arrangement of the circuit board of the luminous tube of the present invention; FIG. 19 is a schematic diagram of the installation of the circuit board of the present invention; For the present invention, the light-emitting tube is divided into two, and the supporting pin is on the inner side; FIG. 21 is a schematic view showing the light-emitting tube divided into two and the supporting pin on the outer side according to the present invention; For the purpose of the present invention, two ellipsoidal lens tubes are assembled and mounted on a circuit board; FIG. 23 is a top view of FIG. 22; It is a schematic diagram of the installation of the spherical lens light-emitting tube on the circuit board of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION

 The light-emitting tube of the present invention is equivalent to two light-emitting diodes in each package, and the two light-emitting diodes are enclosed in an ellipsoidal lens package, as shown in FIG. As shown, the left and right LEDs respectively emit corresponding left and right eye images for three-dimensional display. As an extreme of the ellipsoid, the lens of the present invention can also be made into a spherical surface, as shown in FIG. When making an ellipsoidal lens tube, the two internal hair The optical chip can display the left image and the right image respectively. The front ellipsoid lens determines that part of the light emitted by the optical chip is sent to the left eye, and a part of the light is sent to the right eye to form a visual difference, and finally forms a final stereoscopic image in the human brain. When viewing, people do not need to wear any stereo glasses to achieve a naked-eye stereo large screen display.

As shown in FIG. 3 to FIG. 16 , the present invention includes a lens 1 , a package 2 , a lead 4 , and a light-emitting chip 3 . The lens 1 is an ellipsoid or a spherical surface, and is disposed on the package 2 , and the lead 4 is connected to the light-emitting chip 3 . The light emitting chip 3 is disposed in the package 2, and the light emitting chip 3 includes a left image light emitting chip and a right image light emitting chip.

 Figure 3 As shown in FIG. 12, the lead pins of the present invention are four, as shown in FIG. 5 and FIG. 6, the lens 1 is an ellipsoidal surface or a spherical surface, and the cylindrical surface 6 is processed on the ellipsoidal surface to obtain a cylindrical lens, or an ellipse. A cylindrical groove 5 is machined on the spherical surface 1. As shown in FIG. 7 and FIG. 8, the lens 1 is an ellipsoidal surface, including four pins, and a cylindrical groove 5 can be machined on the ellipsoidal surface to change the vertical viewing angle.

As shown in FIG. 13 to FIG. 16, the light-emitting tube of the present invention comprises three pins 4, which are put together, and the pins are also merged into three by four. The backing pins in the pins of the present invention may be in the middle, as shown in Figures 13-14, or outside, as shown in Figures 15-16.

 A complete ellipsoidal lens light-emitting diode can be split into two parts with left and right symmetry, and the left and right parts are respectively processed and manufactured, as shown in Fig. 20. Figure 21 shows the two parts Display the left image and the right image respectively. When making the large screen, the two diodes after splitting are assembled and assembled. The two lenses are combined into a complete ellipsoid or spherical lens, as shown in Figure 22 and Figure 23. A complete ellipsoidal lens LED can be achieved.

 Figure 17 and Figure 18 show two typical installations of LEDs on a circuit board; Figure 19 It is a schematic diagram of the installation of the light-emitting tube on the circuit board; FIG. 24 shows the installation of the light-emitting tube with the spherical surface as an ellipsoidal lens light-emitting tube on the circuit board.

Embodiments of the invention

 The present invention will be further described in detail below through the specific embodiments and the accompanying drawings:

 Ordinary ellipsoidal LEDs are shown in Figure 1. As an extreme of the ellipsoid, the lens of an ordinary LED can also be made into a spherical surface. 2 is shown. Ordinary light-emitting diodes are generally used as two-dimensional displays. The light-emitting tube of the present invention is equivalent to two light-emitting diodes in each package, and the two light-emitting diodes are enclosed in an ellipsoidal lens package, as shown in FIG. As shown, the left and right LEDs respectively emit corresponding left and right eye images for three-dimensional display. As an extreme of the ellipsoid, the lens of the present invention can also be made into a spherical surface, as shown in FIG. When making an ellipsoidal lens tube, the two internal hair The optical chip can display the left image and the right image respectively. The front ellipsoid lens determines that part of the light emitted by the optical chip is sent to the left eye, and a part of the light is sent to the right eye to form a visual difference, and finally forms a final stereoscopic image in the human brain. When viewing, people do not need to wear any stereo glasses to achieve a naked-eye stereo large screen display.

As shown in FIG. 3 to FIG. 16 , the present invention includes a lens 1 , a package 2 , a lead 4 , and a light-emitting chip 3 . The lens 1 is an ellipsoid or a spherical surface, and is disposed on the package 2 , and the lead 4 is connected to the light-emitting chip 3 . The light emitting chip 3 is disposed in the package 2, and the light emitting chip 3 includes a left image light emitting chip and a right image light emitting chip.

 Figure 3 As shown in FIG. 12, the lead pins of the present invention are four, as shown in FIG. 5 and FIG. 6, the lens 1 is an ellipsoidal surface or a spherical surface, and the cylindrical surface 6 is processed on the ellipsoidal surface to obtain a cylindrical lens, or an ellipse. A cylindrical groove 5 is machined on the spherical surface 1. As shown in FIG. 7 and FIG. 8, the lens 1 is an ellipsoidal surface, including four pins, and a cylindrical groove 5 can be machined on the ellipsoidal surface to change the vertical viewing angle.

As shown in FIG. 13 to FIG. 16, the light-emitting tube of the present invention comprises three pins 4, which are put together, and the pins are also merged into three by four. The backing pins in the pins of the present invention may be in the middle, as shown in Figures 13-14, or outside, as shown in Figures 15-16.

 A complete ellipsoidal lens light-emitting diode can be split into two parts with left and right symmetry, and the left and right parts are respectively processed and manufactured, as shown in Fig. 20. Figure 21 shows the two parts Display the left image and the right image respectively. When making the large screen, the two diodes after splitting are assembled and assembled. The two lenses are combined into a complete ellipsoid or spherical lens, as shown in Figure 22 and Figure 23. A complete ellipsoidal lens LED can be achieved.

 Figure 17 and Figure 18 show two typical installations of LEDs on a circuit board; Figure 19 It is a schematic diagram of the installation of the light-emitting tube on the circuit board; FIG. 24 shows the installation of the light-emitting tube with the spherical surface as an ellipsoidal lens light-emitting tube on the circuit board.

 The design of the present invention can also be applied to an SMD type of light-emitting tube, which can be used in existing monochrome (including one of RGB) or three primary colors (including RGB three kinds of light) SMD An ellipsoidal or spherical cover is added to the package of the light-emitting tube, or the lens of the existing SMD-type light-emitting tube is deformed, and the original lens shape is changed to an ellipsoidal shape or a spherical shape, so that a new SMD type illumination is used. The big screen made by the tube, The macroscopic vertical direction still shows the cylindrical outline of the basic shape. According to the principle of illumination, the left and right eye images are poorly visualized, and finally the final stereoscopic image is formed in the human brain. When viewing, people do not need to wear any stereo glasses to realize the naked eye stereoscopic large screen display. In order to increase the resolution and the stereoscopic display effect, a cylindrical or cylindrical groove may be provided on the lens of the SMD type light-emitting tube, or on the ellipsoidal or spherical cover.

The above embodiments are only intended to illustrate the preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any modifications made within the spirit and principles of the present invention are within the knowledge of those skilled in the art. And equivalent substitutions and improvements, etc., which are all included in the scope of the claimed invention.

Industrial applicability

 The invention provides a light-emitting chip capable of simultaneously displaying left image and right image information in the package body, and can be used for stereoscopic large-screen display, and has industrial applicability.

Claims (7)

1. An ellipsoidal lens light-emitting tube, comprising: a lens, a package, a lead and a light-emitting chip, wherein the lens is disposed on the package, the light-emitting chip is disposed in the package, and the pin is connected to the light-emitting chip, and the light is emitted The chip includes a left image light emitting chip and a right image light emitting chip, the lens being an ellipsoid or a spherical surface.
2. The ellipsoidal lens light-emitting tube according to claim 1, wherein the lens is provided with a cylindrical surface or a cylindrical groove.
3. The ellipsoidal lens light-emitting tube according to claim 1, wherein the pins are three or four.
4. The ellipsoidal lens luminous tube according to claim 1 or 2, wherein: the ellipsoidal lens luminous tube is divided into two parts which are bilaterally symmetrical, The left image and the right image are displayed separately.
5. An ellipsoidal lens luminous tube according to claim 1, wherein: The ellipsoidal lens tube is of the SMD type, the lens is an ellipsoid or a spherical surface, or an ellipsoidal or spherical cover is disposed on the package.
6. An ellipsoidal lens luminous tube according to claim 5, wherein: The lens is provided with a cylindrical or cylindrical groove, or the ellipsoidal or spherical cover is provided with a cylindrical or cylindrical groove.
7. The ellipsoidal lens light-emitting tube according to claim 5 or 6, wherein the ellipsoidal lens tube is split into two parts which are bilaterally symmetrical, and the left image and the right image are respectively displayed.

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