JP3942371B2 - White indicator - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a white display.
[0002]
[Prior art]
Conventionally, this type of display is disclosed in, for example, Japanese Patent Laid-Open No. 2000-208815. According to this publication, a blue light emitting diode is placed on a cup of a lead frame, and the blue light emitting diode is covered with a coating member made of a phosphor. The blue light emitting diode, the coating member, and a part of the lead frame are covered with a mold member including a diffusing material.
[0003]
[Problems to be solved by the invention]
However, in the above display, since the cup on which the blue light emitting diode is mounted has a relatively small area, a large number of blue light emitting diodes cannot be mounted and a large display cannot be obtained. There is.
[0004]
Further, since the fluorescent material contained in the coating member settles randomly, the absorption of blue light varies in position, and there is a second drawback that white light is not emitted uniformly (uniformly).
[0005]
Further, on the surface of the mold member located on the side of the blue light emitting diode, there is a third defect that the blue light is strong and the white light cannot be obtained.
[0006]
Accordingly, the present invention provides a white display that can obtain a large-sized display in consideration of such conventional drawbacks, stably arranges phosphors, and emits uniformly tuned white light.
[0007]
[Means for Solving the Problems]
In order to solve the above problems, in the present invention of claim 1, a white display comprising a substrate set, a lens body, a phosphor, and a light shielding frame, the substrate set comprising: a substrate; A first connection pin and a second connection pin fixed through the substrate, and a blue light emitting diode fixed on the first connection pin, wherein the lens body has a lens portion and a cavity formed thereunder And the base portion is disposed on the substrate so as to surround the blue light emitting diode, and the phosphor is located above the blue light emitting diode, and the base portion The light shielding frame projects the lens part, surrounds the base part, and in the white display placed on the substrate , the base part is provided with an insertion part, and the sheet-like fluorescent light is provided. The body is inserted and arranged in the insertion part To.
[0008]
In the present invention of claim 2, the phosphor absorbs blue light from the blue light emitting diode and emits fluorescence, the lens body includes a diffusing material, and white light is emitted from the lens portion.
[0009]
In the present invention of claim 3, the substrate set is provided with one or a plurality of the blue light emitting diodes.
[0011]
In this invention of Claim 4 , the said fluorescent substance is arrange | positioned in the predetermined position by the both ends of the said fluorescent substance contacting the inner surface of the said light shielding frame.
[0012]
In this invention of Claim 5 , the said light shielding frame is arrange | positioned so that the said base part located in the side of the said blue light emitting diode and the side part of the said fluorescent substance may be enclosed.
[0013]
According to a sixth aspect of the present invention, the lens body and the light shielding frame are integrally molded, at least the lens portion is light-transmitting, and at least the light-shielding frame is light-shielding.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the white display 1 according to the embodiment of the present invention will be described with reference to FIGS. 1 to 6. 1 is a perspective view of a substrate 2 used in the white display 1, FIG. 2 is a perspective view of a substrate set 3, FIG. 3 is a perspective view of a lens body 4, FIG. 4 is a perspective view of a light shielding frame 5, FIG. FIG. 6 is a perspective view of the substrate set 3, the lens body 4, the light shielding frame 5, and the phosphor 6, and FIG. 6 is a cross-sectional view of the white display 1.
[0015]
1 and 2, the substrate 2 is made of, for example, an epoxy resin containing glass fiber, and is formed in a rectangular shape when viewed from the plane. In the vicinity of the periphery of the substrate 2, first holes 7 and 8 and second holes 9, 10, 11, and 12 are formed.
[0016]
The first connection pin 13 is, for example, a round bar made of a material having high electrical conductivity (such as copper). The first connection pins 13 pass through holes formed in the substrate 2 and are fixed to the substrate 2 by, for example, press fitting. The upper surface of the first connection pin 13 is the first flat portion 15.
[0017]
The second connection pin 14 is, for example, a round bar made of a material having high electrical conductivity (such as copper). The second connection pin passes through a hole formed in the substrate 2 and is fixed to the substrate 2 by press fitting or the like, for example. The upper surface of the second connection pin 14 is the second flat portion 16.
[0018]
The blue light emitting diode 17 emits blue light and is fixed on the first flat portion 15 of the first connection pin 13 by silver paste or the like.
[0019]
The thin wire 18 is made of, for example, gold or the like, and one end is connected to the surface electrode of the blue light emitting diode 17 and the other end is connected to the second flat portion 16 of the second connection pin 14.
[0020]
The coating portion 19 is made of, for example, silicon resin and is formed so as to cover the blue light emitting diode 17 and the thin wire 18. The board set 3 is constituted by these components.
[0021]
Next, as shown in FIGS. 3 and 5, the lens body 4 is made of a translucent resin such as a polycarbonate resin or an epoxy resin. The lens body 4 includes a diffusing material such as titanium oxide.
[0022]
The lens body 4 includes, for example, a lens part 20, a base part 21, an insertion part 22, and the like. The lens unit 20 is formed in a dome shape, for example.
[0023]
The base portion 21 is connected to the lens portion 20 and formed below the lens portion 20. The outer shape of the base portion 21 is a substantially rectangular parallelepiped shape, and a cavity 23 is formed in the lower portion thereof.
[0024]
Two insertion portions 22 are formed on the left side portion and the right side portion of the base portion 21. The insertion portion 22 is formed in a substantially rectangular shape when viewed from the front, and is formed so as to be connected to the cavity 23 when advanced to the back. In the vicinity of the center of the lens body 4, the upper surface of the insertion portion 23, the upper surface of the cavity 23, and the bottom surface of the lens portion 20 are the same surface.
[0025]
Further, when viewed from the plane, the outer shape of the base portion 21 is formed so as to be located outside the outer shape of the lens portion 20. As shown in FIG. 5, first pins 24 and 25 are formed below the base portion 21. The lens body 4 is constituted by these components.
[0026]
Next, as shown in FIGS. 5 and 6, the phosphor 6 has a sheet shape (substantially rectangular parallelepiped). The phosphor 6 is obtained by, for example, mixing and curing a fluorescent pigment in which red fluorescent pigment and green fluorescent pigment are mixed in equal amounts in a silicon resin.
[0027]
Thus, the insertion part 22 is formed in the base part 21, and the fluorescent substance 6 is inserted in the insertion part 22, and is arrange | positioned in the predetermined position.
[0028]
Next, as shown in FIGS. 4 and 5, the light shielding frame 5 is made of a light shielding material such as ABS resin or PBT resin. The light shielding frame 5 includes, for example, a base portion 26, an opening portion 27, second pins 28, 29, 30, 31, a cavity portion 32, and the like.
[0029]
The outer shape of the base portion 26 is a substantially rectangular parallelepiped shape, and an opening 27 is formed on the upper surface thereof. A cavity portion 32 is formed at the lower portion of the base portion 26, and the upper portion of the cavity portion 32 is connected to the opening portion 27.
[0030]
Below the base portion 26, second pins 28, 29, 30, and 31 are formed. The light shielding frame 5 is configured by these components.
[0031]
Next, the process of assembling the white display 1 will be described mainly with reference to FIGS. First, the manufacturer inserts and arranges the sheet-like phosphor 6 in the insertion portion 22 provided in the lens body.
[0032]
The manufacturer inserts and positions the first pins 24 and 25 provided in the lens body 4 into the first holes 8 and 7 provided in the substrate 2. As a result, the base portion 21 provided in the lens body 4 is disposed on the substrate 2. If necessary, after the first pins 24 and 25 are inserted into the first holes 8 and 7, the tips of the first pins 24 and 25 are welded to fix the lens body 4 to the substrate set 3. .
[0033]
In this way, the coating portion 19 that covers the blue light emitting diode 17 and the like is disposed in the cavity 23 provided in the lens body 4. That is, the base portion 21 provided on the lens body 4 is configured to surround the blue light emitting diode 17. Further, as described above, the phosphor 6 is disposed in the insertion portion 22 of the lens body 4 so as to be positioned above the blue light emitting diode 17.
[0034]
Next, the manufacturer inserts the second pins 28, 29, 30, 31 provided on the light shielding frame 5 into the second holes 11, 12, 9, 10 provided on the substrate 2, and the second pins The tips of 28, 29, 30, and 31 are welded. As a result, the light shielding frame 5 is fixed on the substrate 2.
[0035]
At this time, as shown in FIG. 6, the lens portion 20 of the lens body 4 protrudes from the opening 27 of the light shielding frame 5. Further, the base portion 26 of the light shielding frame 5 surrounds the base portion 21 of the lens body 4. That is, the light shielding frame 5 is disposed and fixed on the substrate 2 so as to project the lens portion 20 and surround the base portion 21.
[0036]
As shown in FIG. 5, the left end 6 a of the phosphor 6 is in contact with the left inner surface 26 a of the base portion 26 provided on the light shielding frame 5. Further, the right end 6 b of the phosphor 6 is in contact with the right inner surface 26 b of the base portion 26. That is, both ends 6 a and 6 b of the phosphor 6 are in contact with the inner surfaces 26 a and 26 b of the light shielding frame 5. With the above configuration, the phosphor 6 is disposed at a predetermined position and is provided so as not to move left and right, front and rear, or up and down.
[0037]
As shown in FIG. 6, the light shielding frame 5 is arranged so as to surround the base portion 21 located on the side of the blue light emitting diode 17 and the side portion of the phosphor 6.
[0038]
Further, as described above, the phosphor 6 includes, for example, a red fluorescent pigment and a green fluorescent pigment. As a result, the blue light emitted from the blue light emitting diode 17 is absorbed by the phosphor 6, and at the same time, the wavelength is converted into white and emitted from the lens unit 20.
[0039]
That is, the phosphor 6 absorbs blue light from the blue light emitting diode 17 and emits fluorescence. The lens body 4 includes a diffusing material, and is configured such that white light is emitted from the lens unit 20. As shown in FIG. 6, the white display 1 is composed of the above components.
[0040]
Unlike the above description, a plurality of first connection pins 13 may be provided on the substrate 2, and each blue light emitting diode 17 may be placed and wired on each first connection pin 13.
[0041]
In this case, the number of blue light-emitting diodes 17 that can be mounted per certain cross-sectional area on the substrate 2 can be increased in the present invention, compared to a conventional lead frame type display (described in the prior art). it can.
[0042]
That is, as the substrate set 3, not only a single blue light emitting diode 17 but also a plurality of blue light emitting diodes 17 can be provided. As a result, even if the diameter of the lens unit 20 is increased, a large display with a good degree of dimming can be obtained.
[0043]
In the above description, a light emitting diode lamp is exemplified as the white display 1. However, the present invention is not limited to the lamp described above, and can be used as a flat panel display in which a plurality of blue light emitting diodes 17 are provided on the substrate 2.
[0044]
Unlike the above description, in the present invention, the lens body 4 and the light shielding frame 5 may be integrally formed. In this case, two-color molding may be performed so that at least the lens unit 20 is translucent and at least the light-shielding frame 5 is light-shielding.
[0045]
【The invention's effect】
In this invention of Claim 1, the board | substrate set which has a board | substrate, the 1st connection pin and 2nd connection pin which penetrated and fixed the said board | substrate, and the blue light emitting diode fixed on the said 1st connection pin, and a lens And a base part having a cavity formed thereunder, and the base part surrounds the blue light emitting diode, the lens body disposed on the substrate, and above the blue light emitting diode And a phosphor disposed on the base part, and a light shielding frame disposed on the substrate, projecting the lens part, surrounding the base part. As described above, since the phosphor is disposed on the base portion provided on the substrate, the distance between the blue light emitting diode provided on the substrate and the phosphor can be maintained at a predetermined value. As a result, it is possible to prevent sedimentation of the fluorescent material as in the conventional case, and it is possible to emit white light that is more dimmed. Further, the blue light emitting diode is not molded at the same time as the lens body, but is positioned in a cavity provided in the base portion of the lens body. As a result, the lens portion of the lens body can be manufactured in an arbitrary shape regardless of the presence of the blue light emitting diode. Further, it is possible to prevent the blue light emitting diode from being stressed during the molding.
Furthermore, an insertion portion is provided in the base portion, and the sheet-like phosphor is inserted and arranged in the insertion portion. In this manner, by inserting and arranging the sheet-like phosphor in the insertion portion of the base portion, variation in the distance between the blue light emitting diode and the phosphor is eliminated.
[0046]
In the present invention of claim 2, the phosphor absorbs blue light from the blue light emitting diode and emits fluorescence, the lens body includes a diffusing material, and white light is emitted from the lens portion. And As described above, the blue light emitted from the blue light emitting diode is absorbed by the phosphor (for example, one containing a red fluorescent pigment and a green fluorescent pigment). At the same time, the absorbed light is wavelength-converted to white and emitted. As a result, the color difference of white light emission (bluish, yellowish, etc.) is reduced.
[0047]
According to a third aspect of the present invention, the substrate set is provided with one or a plurality of the blue light emitting diodes. In this way, not only a single blue light emitting diode but also a plurality of blue light emitting diodes can be provided as a substrate set. In addition, the number of blue light-emitting diodes that can be placed per fixed cross-sectional area on the substrate can be increased in the present invention as compared with a conventional lead frame type display. Therefore, even if the diameter of the lens part is increased, a large display with a good degree of dimming can be obtained.
[0049]
According to a fourth aspect of the present invention, the phosphor is arranged at a predetermined position by bringing both ends of the phosphor into contact with the inner surface of the light shielding frame. In this way, by bringing both ends of the phosphor into contact with the inner surface of the light shielding frame, the phosphor can be continuously arranged at a predetermined position so as not to move left and right, front and rear, and up and down. As a result, the distance between the blue light emitting diode and the phosphor is maintained at a predetermined value.
[0050]
In this invention of Claim 5 , the said light shielding frame is set as the structure arrange | positioned so that the said base part located in the side of the said blue light emitting diode and the side part of the said fluorescent substance may be enclosed. In this manner, the light shielding frame is arranged so as to surround the base portion located on the side of the blue light emitting diode and the side portion of the phosphor. As a result, blue light emitted from the side of the blue light emitting diode is shielded by the light shielding frame. Therefore, as in the prior art, the disadvantage of strong blue light can be eliminated on the surface of the mold member located on the side of the blue light emitting diode.
[0051]
According to the sixth aspect of the present invention, the lens body and the light shielding frame are integrally formed, at least the lens portion is light-transmitting, and at least the light-shielding frame is light-shielding. Thus, by making the lens part translucent, the light extraction efficiency is increased, and by making the light shielding frame light shielding, it is difficult to make blue light visible to the side of the blue light emitting diode. Further, the material cost can be reduced by integrally forming the lens body and the light shielding frame and making the two parts into one part. Furthermore, since two parts are made into one part, an assembly cost also becomes cheap.
[Brief description of the drawings]
FIG. 1 is a perspective view of a substrate 2 and the like used in a white display 1 according to an embodiment of the present invention.
FIG. 2 is a perspective view of a substrate set 3 used in the white display 1;
FIG. 3 is a perspective view of a lens body 4 used in the white display 1;
4 is a perspective view of a light shielding frame 5 used in the white display 1. FIG.
5 is a perspective view of a substrate set 3, a lens body 4, a light shielding frame 5, and a phosphor 6 used in the white display 1. FIG.
6 is a cross-sectional view of the white display 1. FIG.
[Explanation of symbols]
2 Substrate 3 Substrate set 4 Lens body 5 Shading frame 6 Phosphor 13 First connection pin 14 Second connection pin 17 Blue light emitting diode 20 Lens portion 21 Base portion 23 Cavity

Claims (6)

A white display comprising a substrate set, a lens body, a phosphor, and a light shielding frame, wherein the substrate set includes a substrate, and a first connection pin and a second connection pin fixed through the substrate. A blue light emitting diode fixed on the first connection pin, and the lens body has a lens portion and a base portion having a cavity formed thereunder, the base portion being the The phosphor is disposed on the substrate so as to surround the blue light emitting diode, the phosphor is located above the blue light emitting diode and disposed on the base portion, and the light shielding frame projects the lens portion, In the white display device that surrounds the base portion and is disposed on the substrate , an insertion portion is provided in the base portion, and the sheet-like phosphor is inserted and disposed in the insertion portion. A white display.   2. The phosphor of claim 1, wherein the phosphor absorbs blue light from the blue light emitting diode and emits fluorescence, the lens body includes a diffusing material, and white light is emitted from the lens unit. White display.   The white display according to claim 1, wherein the substrate set is provided with one or a plurality of the blue light emitting diodes.   2. The white display according to claim 1, wherein both ends of the phosphor are in contact with an inner surface of the light shielding frame, so that the phosphor is disposed at a predetermined position.   2. The white display according to claim 1, wherein the light shielding frame is arranged so as to surround the base portion located on a side of the blue light emitting diode and a side portion of the phosphor.   The white display according to claim 1, wherein the lens body and the light shielding frame are integrally formed, at least the lens portion is light-transmitting, and at least the light shielding frame is light-shielding.

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