KR20220116771A - LED bulb for car - Google Patents

Abstract

The present invention relates to an LED bulb for a vehicle and, more specifically, to an LED bulb for a vehicle with an improved light diffuse structure and assembly method. The LED bulb for a vehicle of the present invention includes a substrate to which an LED chip is mounted and a lens unit formed to cover the LED chip. A dome-shaped concave part is formed inside the lens unit to diffuse light generated from the LED chip in all directions. The outer surface of the lens unit is made of a plurality of facet surfaces having different inclination angles so that light can be scattered outwards.

Description

LED bulb for car

The present invention relates to an LED bulb for a vehicle, and more particularly, to an LED bulb for a vehicle with improved light diffusion structure and assembly method.

In general, an interior light for illuminating the interior of a vehicle is provided, and a lamp is generally inserted into the interior of the interior lamp.

It is common to use a festoon lamp for an indoor lamp, and this lamp is composed of a metal energizing part on both sides, a light emitting part by an internal filament, and a cylindrical light-emitting tube that protects the light emitting part. When power is applied through the energizing part, the room is illuminated by the light emission of the filament.

However, since conventional indoor lamps adopt a filament structure, there is a problem of low illuminance, and since disconnection of the filament occurs frequently due to physical or electric shock, the lifespan is short and the lamp needs to be replaced frequently. , there is a problem in that the economic loss is also a burden to the user. Due to this problem, as disclosed in Korean Patent Registration No. 10-1287043, an LED lamp has recently been used.

LED lamps can maintain semi-permanent service life by means of LED elements, and due to the characteristics of LED elements with various luminous colors, it is possible to distinguish and express indoor lighting colors according to the user's taste or the characteristics of the car. It has the effect of enabling stable light emission of the LED element.

However, in the conventional LED lamp for indoor lighting, a cylindrical floodlight is fixed between both energizing parts, and a circuit board is inserted into the cylindrical floodlight and fixed with epoxy. . In addition, it is difficult to insert a circuit board inside the cylindrical flood tube and solder the power wires extended from both ends of the circuit board to the inside of both current conducting parts. There was a problem in that assembly productivity was further lowered due to this difficulty.

Moreover, since the size of the lamp used for the interior lamp is different depending on the vehicle, the conventional LED lamp for the interior lamp of an automobile has a problem in that it has to be manufactured in several types having different dimensions in order to be applied to various vehicles.

In addition, the conventional lamp has a problem that the light diffusion effect is low because the surface of the lens is simply formed as a round curved surface.

Republic of Korea Patent Registration No. 10-1287043: Fuse-type automotive lighting

The present invention was created to improve the above problems, and an object of the present invention is to provide an LED bulb for a vehicle in which a light diffusion structure and an assembling method are improved.

The vehicle LED bulb of the present invention for achieving the above object includes: a substrate on which the LED chip is mounted; and a lens unit formed to surround the LED chip, wherein a dome-shaped concave portion is formed inside the lens unit to diffuse the light generated from the LED chip in all directions, and the outer surface of the lens unit scatters light It is composed of a number of facets with different inclination angles so that they can go out.

The lens unit includes a first cover lens disposed on one surface of the substrate, a second cover lens disposed on the other surface of the substrate and facing the first cover lens with the substrate interposed therebetween, and the first and second covers A coupling means for coupling the lens to the substrate so as to be detachably attached is provided.

The coupling means includes a first coupling rib that protrudes from the first cover lens and passes through a first insertion hole formed in the substrate to be coupled to the second cover lens, and a first coupling rib protruding from the second cover lens and formed on the substrate. and a second coupling rib coupled to the first cover lens through the second insertion hole.

A first variable-length portion extending by a predetermined length is formed on both sides of the first cover lens, and a second length-extending portion is formed on both sides of the second cover lens to face the first variable-length portion with the substrate interposed therebetween. Variable length portions are formed, respectively, and a plurality of cutting grooves are formed on the outer surface at regular intervals so that the length can be adjusted by cutting the first and second variable length portions. The first and second variable length portions are inserted so that the first and second variable length portions are fixed to the substrate.

As described above, according to the present invention, light can be efficiently diffused in all directions by forming a dome-shaped concave portion inside the lens unit and forming a plurality of facet surfaces having different inclination angles on the outer surface of the lens unit.

In addition, since the present invention is a method in which the lens unit is divided into two parts and coupled to each other by fitting, the assembly property can be improved.

In addition, the present invention is configured to be able to easily change the length of the lens unit according to the length of the substrate, so that only one type of lens unit can be used for substrates having different dimensions.

1 is a perspective view of an LED bulb for a vehicle according to an example of the present invention;
Figure 2 is an exploded perspective view of Figure 1,
Figure 3 is a cross-sectional view of Figure 1,
4 is a perspective view of an LED bulb for a vehicle according to another example of the present invention;
Figure 5 is an exploded perspective view of Figure 4,
Figure 6 is a cross-sectional view of Figure 5,
7 is an exploded perspective view of an LED bulb for a vehicle according to another example of the present invention;
FIG. 8 is a cross-sectional view of FIG. 7 .

Hereinafter, an LED bulb for a vehicle according to an example of the present invention will be described in detail with reference to the drawings.

1 to 3 , a vehicle LED bulb 10 according to an embodiment of the present invention includes a substrate 20 on which an LED chip 25 is mounted, and a lens unit 30 formed to surround the LED chip 25 . ) is provided.

The substrate 20 is made of a conventional printed circuit board (PCB). Various devices and power terminals are provided on the substrate 20 .

One or two or more LED chips 25 may be mounted on the substrate 20 . In the illustrated example, the LED chips 25 are mounted on both sides of the substrate 20, respectively.

The lens unit 30 is coupled to the substrate 20 and serves to diffuse the light generated from the LED chip 25 . In the present invention, the lens unit 30 has a structure capable of efficiently diffusing light in all directions while improving assembly properties.

The lens unit 30 may be formed to cover the entire substrate 20 or a part of the substrate 20 . In the illustrated example, the lens unit 30 is formed to cover a portion of the substrate.

The illustrated lens unit 30 includes a first cover lens 31 disposed on one surface of the substrate 20 and a first cover lens 31 disposed on the other surface of the substrate 20 with the substrate 20 interposed therebetween. The second cover lens 35 facing the , and coupling means for coupling the first and second cover lenses 31 and 35 to the substrate 20 to be detachably attached.

The first cover lens 31 is positioned on one surface of the substrate 20 and is coupled to the second cover lens 35 . The first cover lens 31 and the second cover lens 35 are formed in a hemispherical shape. Therefore, the first cover lens 31 and the second cover lens 35 are combined to form a spherical shape as a whole.

The LED chip 25 mounted on one surface of the substrate 20 is located in the inner center of the first cover lens 31 . A concave portion 33 is formed inside the first cover lens 31 to diffuse the light generated from the LED chip 25 in all directions. A concave portion 33 is provided at a position corresponding to the LED chip 25 . The concave portion 33 is made of a dome-shaped groove.

A plurality of facet surfaces 32 are formed on the outer surface of the first cover lens 31 so that light can be scattered. The facet may have various shapes, such as a square, a triangle, a trapezoid, and an oval. The facet surface 32 may be formed to have different inclination angles and areas depending on the shape.

As described above, a plurality of facet surfaces 32 having different inclination angles are formed on the outer surface of the first cover lens 31 so that the outer surface of the first cover lens 31 is curved. The light passing through the first cover lens 31 can be effectively scattered by the shape of the outer surface of the first cover lens 31 .

The second cover lens 35 is positioned on the other surface of the substrate 20 and is coupled to the first cover lens 31 . The LED chip 25 mounted on the other surface of the substrate 20 is located in the inner center of the second cover lens 35 . The second cover lens 35 forms a symmetrical structure with the first cover lens 31 . Accordingly, the second cover lens 35 also has a dome-shaped concave portion 37 formed therein, and the outer surface of the second cover lens 35 is made of a plurality of facet surfaces 36 having different inclination angles.

The coupling means serves to couple the first and second cover lenses 31 and 35 to the substrate 20 to be detachably attached.

The coupling means includes a first coupling rib 41 that protrudes from the first cover lens 31 and passes through a first insertion hole 21 formed in the substrate 20 to be coupled to the second cover lens 35 , and the second The second coupling rib 42 protrudes from the cover lens 35 and passes through the second insertion hole 22 formed in the substrate 20 to be coupled to the first cover lens 31 .

The first coupling rib 41 is formed to protrude a predetermined length in the direction of the substrate 20 from the lower portion of the first cover lens 31 . The first coupling rib 41 is fitted into the second coupling hole 45 formed in the second cover lens 35 .

The second coupling rib 42 is formed to protrude a predetermined length from the upper portion of the second cover lens 35 in the direction of the substrate 20 . The second coupling rib 42 is fitted into the first coupling hole 47 formed in the first cover lens 31 .

Meanwhile, in order to increase the coupling force, the coupling means may further include a first auxiliary rib 43 formed on the first cover lens 31 and a second auxiliary rib 44 formed on the second cover lens 35 .

The first auxiliary rib 43 passes through the first support groove 23 formed on one side of the substrate 20 and is coupled to the second cover lens 35 . A second auxiliary hole 46 into which the first auxiliary rib 43 is fitted is formed in the second cover lens 35 . And the second auxiliary rib 44 passes through the second support groove 24 formed on one side of the substrate 20 and is coupled to the first cover lens 31 . A first auxiliary hole 48 into which the second auxiliary rib 44 is fitted is formed in the first cover lens 31 .

As described above, since the present invention divides the lens unit into two parts and combines them with each other by means of a coupling means, assembly is very simple.

A vehicle LED bulb according to another example of the present invention is shown in FIGS. 4 to 6 .

4 to 6 , a vehicle LED bulb 50 according to an embodiment of the present invention includes a substrate 60 on which an LED chip 65 is mounted, and a lens unit 70 formed to surround the LED chip 65 . ) is provided.

The substrate 60 is made of a conventional printed circuit board (PCB). Various devices and power terminals are provided on the substrate 60 .

One or two or more LED chips 65 may be mounted on a substrate. In the illustrated example, two LED chips 65 are mounted on one surface of the substrate. Unlike this, of course, one or three or more LED chips may be mounted.

The lens unit 70 is formed to surround the entire substrate 60 . The illustrated lens unit 70 includes a first cover lens 71 disposed on one surface of the substrate 60 and a first cover lens 71 disposed on the other surface of the substrate 60 with the substrate 60 interposed therebetween. and a second cover lens 75 facing the , and coupling means for coupling the first and second cover lenses 71 and 75 to the substrate 60 to be detachably attached.

The first cover lens 71 is positioned on one surface of the substrate 60 and is coupled to the second cover lens 75 . The first cover lens 71 and the second cover lens 75 are formed in a semi-cylindrical shape. Accordingly, the first cover lens 71 and the second cover lens 75 are combined to form a spherical shape as a whole.

The LED chip 65 mounted on one surface of the substrate 60 is located inside the first cover lens 71 . A concave portion 73 is formed inside the first cover lens 71 to diffuse the light generated from the LED chip 65 in all directions. The concave portion 73 is provided at a position corresponding to the LED chip 65 . Since there are two LED chips 65 , two concave portions 73 are also formed in parallel to the first cover lens 71 . The concave portion 73 is formed of a dome-shaped groove.

A plurality of facet surfaces 72 are formed on the outer surface of the first cover lens 71 so that light can be scattered. The facet may have various shapes, such as a square, a triangle, a trapezoid, and an oval. The facet surface 72 may be formed to have a different inclination angle and area depending on the shape.

As described above, a plurality of facet surfaces 72 having different inclination angles are formed on the outer surface of the first cover lens 71 so that the outer surface of the first cover lens 71 is curved. The light passing through the first cover lens 71 can be effectively scattered by the shape of the outer surface of the first cover lens 71 .

The second cover lens 75 is positioned on the other surface of the substrate 60 and is coupled to the first cover lens 71 . A plurality of facet surfaces 76 are formed on the outer surface of the second cover lens 75 so that the outer shape of the second cover lens 75 is the same as that of the first cover lens 71 .

The coupling means serves to couple the first and second cover lenses 71 and 75 to the substrate 60 to be detachably attached.

The coupling means includes a first coupling rib 81 that protrudes from the first cover lens 71 and passes through a first insertion hole 67 formed in the substrate 60 to be coupled to the second cover lens 75, and the second A second coupling rib 85 protrudes from the cover lens 75 and passes through a second insertion hole 68 formed in the substrate 60 to be coupled to the first cover lens 71 .

Sockets 89 are mounted on both sides of the substrate 60, respectively. The end of the substrate 60 is exposed to the outside of the socket 89 through the exposed hole formed in the socket 89 . Although not shown, of course, the substrate 60 and the socket 89 are electrically connected by soldering.

Both sides of the first and second cover lenses 71 and 75 are inserted into the socket 89 . Accordingly, both ends of the first and second cover lenses 71 and 75 are fixed to the substrate 60 by the socket 89 .

7 and 8 show an LED bulb for a vehicle according to another embodiment of the present invention.

7 and 8, in the illustrated vehicle LED bulb of the present invention, first variable length portions 91 are formed on both sides of the first cover lens 71, respectively, and both sides of the second cover lens 75 It is different from FIG. 4 in that the second variable length portions 95 are respectively formed therein.

The first variable length portion 91 is formed to extend a predetermined length on both sides of the first cover lens 71 . The second variable length portion 95 is also formed to extend a predetermined length on both sides of the second cover lens 75 . The second variable-length portion 95 is positioned to face the first variable-length portion 91 with the substrate 60 interposed therebetween.

The first and second variable length portions 91 and 95 are inserted into the sockets 89 mounted on both sides of the substrate 60, respectively, so that the first and second variable length portions 91 and 95 are connected to the substrate. (60) is fixed.

The first and second variable length portions 91 and 95 are respectively formed with a plurality of cutting grooves 93 and 97 at regular intervals on the outer surface so that the length can be adjusted by cutting.

The cutting grooves 93 and 97 are formed of V-shaped grooves inserted to a predetermined depth from the outer surfaces of the first and second variable length portions 91 and 95 . The cutting grooves 93 and 97 are formed along the circumferences of the first and second variable length portions 91 and 95 .

As described above, a plurality of cutting grooves 93 and 97 are formed in the first and second variable length portions 91 and 95 so that the first and second variable length portions 91 and 95 can be easily adjusted to an appropriate length. can be cut Cutting can be broken by cutting or bending using a cutting tool. Therefore, since the lengths of the first and second variable length portions 91 and 95 can be used according to the length of the substrate 60, one type of lens unit can be applied to substrates having different dimensions.

As mentioned above, although the present invention has been described with reference to an embodiment, it will be understood that this is only an example, and that various modifications and equivalent embodiments are possible therefrom by those of ordinary skill in the art. Therefore, the true scope of protection of the present invention should be determined only by the appended claims.

10: vehicle LED bulb 20: substrate
25: LED chip 30: lens unit
31: first cover lens 35: second cover lens

Claims (4)

a substrate on which the LED chip is mounted;
and a lens unit formed to surround the LED chip;
A dome-shaped concave portion is formed inside the lens unit to diffuse the light generated from the LED chip in all directions, and the outer surface of the lens unit is made up of a plurality of facet surfaces having different inclination angles to scatter light. LED bulbs for vehicles, characterized in that. The method according to claim 1, wherein the lens unit comprises: a first cover lens disposed on one surface of the substrate; a second cover lens disposed on the other surface of the substrate and facing the first cover lens with the substrate interposed therebetween; The LED bulb for a vehicle, characterized in that it comprises a coupling means for coupling the first and second cover lenses to the substrate so as to be detachably attached. 3. The method of claim 2, wherein the coupling means includes a first coupling rib that protrudes from the first cover lens and passes through a first insertion hole formed in the substrate to be coupled to the second cover lens, and protrudes from the second cover lens. and a second coupling rib coupled to the first cover lens through a second insertion hole formed in the substrate. According to claim 2, wherein the first variable length is formed on both sides of the first cover lens, each extending a predetermined length, both sides of the second cover lens is extended by a predetermined length, the first variable length with the substrate interposed therebetween. A second variable-length portion facing the portion is formed, respectively,
A plurality of cutting grooves are formed at regular intervals on the outer surface to adjust the length by cutting the first and second variable length portions,
The first and second variable length portions are inserted into sockets respectively mounted on both sides of the substrate, and the first and second variable length portions are fixed to the substrate.

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