KR101175318B1 - Lens united type led package and method for manufacturing thereof - Google Patents

Abstract

PURPOSE: An LED package integrated with a lens and a manufacturing method thereof are provided to improve adhesion by soldering a frame with an optical source including a substrate. CONSTITUTION: A lens unit(10) has a predetermined cavity and is injected to the upper side of a frame(40). An optical source(20) is bonded to the lower side of the frame by soldering. An LED(30) is mounted on the upper side of the optical source. The LED is located in the cavity when the optical source is bonded to the frame. The frame includes a protrusion unit and a penetration hole.

Description

LENS UNITED TYPE LED PACKAGE AND METHOD FOR MANUFACTURING THEREOF}

The present invention relates to an LED package and a method of manufacturing the same. More specifically, the present invention relates to an LED package and a method of manufacturing the same, which improves adhesion between the lens and the LED light source, improves reflectivity, and improves mass production.

Among the many possibilities of the phone, there is a flash function using LEDs that are used for taking pictures at night, not during the day, for video recording or in emergency lighting. The performance and design of LED packages for flash have undergone many advancements and changes depending on the needs of mobile phone manufacturers and users.

Existing mobile phones apply single LED element or module with metal reflector, and Fresnel Lens is applied to transparent (Plastic: PMMA / PC, etc.) material on the light source. It was a way of matching characteristics. However, according to this method, the position of the LED element is shifted due to the work tolerance during SMT work, or the center off phenomenon occurs due to the mechanism and the assembly tolerance in the upper Fresnel Lens. Therefore, it has been the cause of many variations in the center lux or the brightness uniformity of the surroundings among the optical characteristic elements which are very important in photographing.

Conventional technology for a lens-integrated LED package has been used a technique using a simple adhesion, such as combining a lens having a constant capacity with a light source and silicon. In this case, however, problems of poor adhesiveness due to poor adhesion surfaces of the lens and light source portion, and poor adhesiveness due to defects in the adhesive means have been pointed out. In addition, it has been pointed out that because of the heterogeneity of the lens and the light source unit, even when the adhesive means is used, the adhesive force is not maximized, and the problem of poor adhesion is inherent.

Accordingly, an object of the present invention is to provide a lens-integrated LED package and a method of manufacturing the same, which are superior in adhesion and simple to manufacture, compared to a lens and a light source unit using a simple adhesive.

In order to achieve the above object, the lens-integrated LED package according to an embodiment of the present invention, a frame including a flat portion having an opening formed in the center and a projection which is an inclined surface extending from a portion close to the opening of the flat portion; A lens unit which is formed to be injected to include the protrusion therein while forming a cavity at a position corresponding to the opening; And a light source unit in which an LED is mounted to pass through the opening and positioned in the cavity, and is bonded to a bottom surface of the frame through an adhesive member.

An angle formed by an upper surface of the flat portion and a lower surface of the protrusion is an acute angle among angles formed by the protrusion and the flat portion.

A plurality of through holes may be formed in the protrusion, and may be formed to have different inclinations according to the set irradiation angle of the LED.

The frame comprises a ceramic or copper material. The opening of the frame is rectangular, and the protrusion is formed at each side of the opening.

A plurality of protrusions for scattering light may be formed on an outer surface of the lens portion opposite to the cavity portion.

According to an aspect of the present invention, there is provided a lens integrated LED package manufacturing method comprising: forming a frame including a flat portion having an opening formed in a center thereof and a protrusion which is an inclined surface extending from a portion close to the opening of the flat portion; Injection-forming a lens portion on the upper surface of the frame to include the protrusion therein while forming a cavity at a position corresponding to the opening; And adhering a light source unit in which the LED is mounted so as to be positioned in the cavity through the opening through the adhesive member and the lower surface of the frame.

The frame may be formed such that an upper surface of the flat portion and a lower surface of the protrusion form an acute angle.

The protrusion may include a plurality of through holes, and may be formed to have different inclinations according to the set irradiation angle of the LED.

The frame comprises a ceramic or copper material. The opening of the frame is rectangular, and the protrusion is formed at each side of the opening.

A plurality of protrusions for scattering light may be formed on an outer surface of the lens portion opposite to the cavity portion.

According to the present invention, since the lens part is injection-molded to include the protrusion part, and the light source part including the ceramic or copper frame and the substrate is bonded by soldering or the like, the adhesive force is superior to the combination of the lens and the light source part using a simple adhesive. And the manufacturing is much simplified. In addition, since the inclined surface of the protrusion also functions as a reflecting plate, it can be expected that the reflection is also improved compared to the prior art.

1 is a side cross-sectional view of a lens-integrated LED package according to an embodiment of the present invention.
2 is a perspective view of the lens unit in the present invention.
3 is a perspective view of a frame in the present invention.
4 is a flowchart illustrating a method of manufacturing a lens-integrated LED package according to an embodiment of the present invention.

In the following description, a lens integrated LED package and a method of manufacturing the same according to an embodiment of the present invention will be described with reference to the accompanying drawings. In the following description, the same reference numerals mean the same configurations. The following description is not intended to limit the invention to the specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention.

1 is a side cross-sectional view of a lens-integrated LED package according to an embodiment of the present invention.

Referring to FIG. 1, the lens-integrated LED package according to the embodiment of the present invention includes a frame 40, a lens unit 10, and a light source unit 20 on which the LED 30 is mounted.

The frame 40 is formed using a Cu-Ni-Ag / Au plated material. In this plating lead frame, materials such as injection silicone, engineering plastics (PPA, LCP, etc.) or epoxy resins are used by insert injection. The frame 40 includes a flat portion, a protrusion, and an opening. The opening means a portion drilled in the center of the frame 40. The opening is perforated so that the light of the LED 30 mounted on the light source unit 20 coupled from the lower surface of the frame 40 is incident on the lens unit 10. That is, the LED 30 is positioned to pass through the opening.

The shape of the flat portion is the same as that of the lower surface of the lens portion 10. That is, it may be formed by injection molding or punching a metal or ceramic plate to have the same shape as the bottom view of the lens unit 10.

The protruding portion means a surface inclinedly extending from a portion of the plane portion where the opening is located. When the lens unit 10 is ejected to the planar portion, the protrusion is included in the lens unit 10. As the protrusions are formed to be positioned inside the lens unit 10, the adhesion is improved due to the friction between the lens unit and the protrusions.

The protrusion is formed in the form of an inclined surface, the through hole may be further formed on the surface of the protrusion. The through hole is filled with the material of the lens unit 10. In this case, in addition to the friction force between the protrusion and the lens unit 10, the adhesion between the lens unit 10 and the frame 40 is further improved due to the lens unit 10 filled in the through hole.

The protrusion may be at an acute angle with the planar portion to be positioned inside the lens unit 10. This is as shown in FIG. Since the protrusion having the shape of FIG. 1 is made of ceramic or copper, it has a predetermined reflectivity. Thus, light generated by the LED 30 is reflected through the protrusions. That is, the protruding portion not only increases the adhesion between the frame 40 and the lens portion 10 but also includes a function as a reflecting surface that reflects light of the LED 30.

The lens unit 10 has a predetermined cavity and is injected onto the frame 40. Alternatively, the lens unit 10 which is already injected and soft may be fitted to the upper portion of the frame 40. The lens unit 10 may be a silicon lens.

The cavity formed in the lens unit 10 means an empty space in which the LED 30 is located. The cross section of the cavity may be formed to match the cross section of the opening. The planar shape of the lens unit 10 is rectangular in this embodiment, and the cross section of the cavity is also rectangular. Accordingly, the shape of the opening is also rectangular. However, it will be apparent that various shapes of the lens unit 10, the cavity, and the opening may be adopted.

The light source unit 20 is bonded to the lower surface of the frame 40 by soldering. The LED 30 is mounted on an upper surface of the light source unit 20, and the LED 30 is positioned in the cavity of the lens unit 10 while passing through the opening when the light source unit 20 and the frame 40 are coupled to each other.

In addition to the LED 30, a circuit for driving the LED 30 may be printed on the light source unit 20. That is, the light source unit 20 may include a substrate. A ceramic substrate may be adopted as the light source unit 20.

The lens unit 10 is shaped to be coupled to the light source unit 20 through the frame 40. Therefore, the frame 40 is a material that can be soldered to the light source unit 20, and has excellent adhesion compared to general silicon bonding.

2 is a perspective view of the lens unit 10 of FIG. 1. In the following description, a description of overlapping parts with the description of FIG. 1 will be omitted.

Referring to FIG. 2, it can be seen that the lens unit 10 has the shape of a square pillar having a square cross section. The lens unit 10 regularly serves to scatter and emit light generated from the LED 30.

A plurality of protrusions 11 may be formed on the uppermost surface of the lens portion 10, that is, on the surface opposite to the portion where the cavity is formed, to scatter light generated from the LED 30. In addition to the shape of FIG. 2, the protrusion 11 may have a different shape depending on the shape to be scattered.

3 is a perspective view of the frame 40 of FIG. 1. In the following description, portions overlapping with the contents of FIGS. 1 and 2 will be omitted.

Referring to FIG. 3, the frame 40 includes a protrusion 42 and a through hole 43, and an opening is formed in the center thereof. The opening may be formed to have the same shape as the cavity.

In the present embodiment, the opening is formed in a rectangular shape. As a result, the protruding portion 42 is formed on each side of the opening portion toward the opposite side of the opening portion. The through hole 43 fills the material of the lens unit 10 and performs a function of engaging the lens unit 10 and the frame 40.

Since the protruding portion 42 has an inclined surface and the through hole 43 can be formed, when the lens portion 10 is ejected onto the frame 40, the frictional force with the protruding portion 42 and the through hole 43 ), The separation of the lens unit 10 and the frame 40 is prevented.

4 is a flowchart illustrating a method of manufacturing a lens-integrated LED package according to an embodiment of the present invention. In the following description, portions overlapping with the description of FIGS. 1 to 3 will be omitted.

Referring to FIG. 4, a method of manufacturing a lens-integrated LED package according to an exemplary embodiment of the present invention includes a frame including a flat part having an opening formed in the center thereof and a protrusion which is an inclined surface extending from a boundary portion of the flat part. 40 to prepare (S1).

When the frame 40 is prepared, a solder paste operation is performed on the frame 40 (S2). To be precise, solder paste work is performed on the lower surface of the frame 40 to couple the frame 40 and the light source unit 20 to each other.

Subsequently, the lens unit 10 is injection-molded to include the protrusions therein while forming a cavity at a position corresponding to the opening on the upper surface of the frame with respect to the frame (S3). Steps S2 and S3 may be performed in a different order or simultaneously.

When the lens unit 10 is formed, the step S4 of bonding the light source unit having the LED mounted on the lower surface of the frame 40 to be positioned in the cavity while passing through the opening is performed through an adhesive member (for example, solder). do. After the reflow operation for the firing can be carried out (S5), because it is common to manufacture a plurality of packages at the same time cutting the individual packages (S6) can also be performed.

Claims (14)

A frame including a planar portion having an opening formed in the center thereof, and a protrusion which is an inclined surface extending from a boundary portion of the planar portion with the opening;
A lens unit which is formed to be injected to include the protrusion therein while forming a cavity at a position corresponding to the opening; And
The LED integrated lens package, characterized in that the LED is mounted so as to be located in the cavity through the opening, the light source unit is bonded to the lower surface of the frame through an adhesive member. The method according to claim 1,
The angle formed by the upper surface of the planar portion and the lower surface of the projecting portion of the angle formed by the projecting portion and the planar portion is an acute angle. The method according to claim 2,
Lens protrusions LED package, characterized in that a plurality of through holes formed in the protrusion. The method according to claim 2,
The protrusion,
Lens integrated LED package, characterized in that formed to have a different inclination in accordance with the set irradiation angle of the LED. The method according to claim 1,
The frame-integrated LED package, characterized in that the frame comprises a ceramic or copper material. The method according to claim 1,
A lens-integrated LED package, wherein the opening is rectangular, and the protrusion is formed at each side of the opening. The method according to claim 1,
The lens integrated LED package, characterized in that a plurality of protrusions for scattering light is formed on the outer surface of the lens portion opposite to the cavity. Forming a frame including a planar portion having an opening perforated in the center and a protrusion which is an inclined surface extending from a boundary portion of the planar portion with the opening;
Injection-forming a lens portion on the upper surface of the frame to include the protrusion therein while forming a cavity at a position corresponding to the opening; And
And bonding a light source unit in which the LED is mounted so as to be positioned in the cavity through the opening through a bonding member and a lower surface of the frame. The method according to claim 8,
The method of claim 1, wherein the frame is formed such that an upper surface of the flat portion and a lower surface of the protrusion form an acute angle. The method according to claim 9,
The projection unit lens integrated LED package manufacturing method characterized in that it comprises a plurality of through holes. The method according to claim 9,
Lens protrusion LED package manufacturing method characterized in that the protrusion is formed to have a different inclination according to the irradiation angle of the set LED. The method according to claim 8,
The frame is a lens-integrated LED package manufacturing method comprising a ceramic or copper material. The method according to claim 8,
The opening is formed in a rectangular shape, and the projection integral lens lens package manufacturing method characterized in that it is formed for each side of the opening. The method according to claim 8,
The lens integrated LED package manufacturing method, characterized in that for forming a plurality of protrusions for the scattering of light on the outer surface of the lens portion opposite the cavity is formed.

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