PORTABLE ELECTRONIC DEVICE

Abstract

A portable electronic device includes a main body, a camera positioned in the main body, a fill-in light emitting unit positioned in the main body adjacent to the camera, and an optical lens positioned between the fill-in light emitting unit and outside of the main body. The optical lens includes an incident surface facing the fill-in light emitting unit, a light emitting surface opposite to the incident surface, and a plurality of elongated V-shaped ridges formed on the incident surface. The elongated V-shaped ridges are substantially parallel to each other and symmetrical about a central portion of the optical lens. Vertex angles between symmetric elongated V-shaped ridges progressively increase along a direction away from the fill-in light emitting unit.

Description

BACKGROUND

1. Technical Field

The present invention relates to portable electronic devices and, particularly, to a camera assembly for use in portable electronic device with a fill-in light emitting unit.

2. Description of the Related Art

Portable electronic devices, such as mobile phones, are now equipped with camera modules for taking photographs. These portable electronic devices usually include a fill-in light emitting unit for providing an extra amount of light in low light conditions.

A typical camera assembly of a mobile telephone includes a lamp cover, a fill-in light emitting unit, a camera and a transparent plate. The fill-in light emitting unit can be a light emitting diode. The fill-in light emitting unit, the camera and the lamp cover are positioned in the mobile telephone. The fill-in light emitting unit is usually adjacent to the camera, and the lamp cover is positioned under the fill-in light emitting unit. The transparent plate is positioned on the fill-in light emitting unit to protect the fill-in light emitting unit from contamination. The lamp cover concentrates the light. The light emitted from the fill-in light emitting unit travels through the transparent plate and lightens the object.

At the time the image is captured, the light emitted from the fill-in light emitting unit travels through the transparent plate and lightens the object. However, the image captured has an uneven luminance distribution in appearance, because the fill-in light emitting unit is a point light source, and a central portion of the object facing the fill-in light emitting unit is brighter than other portions of the object.

BRIEF DESCRIPTION OF THE DRAWINGS

The components in the drawings are not necessarily drawn to scale, the emphasis instead being placed upon clearly illustrating the principles of the present disclosure. Moreover, in the drawings, like reference numerals designate corresponding parts throughout several views, and all the views are schematic.

FIG. 1 is a partial, cross-sectional view of an embodiment of a portable electronic device, the portable electronic device including a main body, a fill-in light emitting unit, a camera, a lamp cover and an optical lens.

FIG. 2 is an isometric view of the optical lens of the portable electronic device of FIG. 1.

FIG. 3 is a cross-sectional view of the optical lens shown in FIG. 2 with a plurality of light travelling through the optical lens.

DETAILED DESCRIPTION OF THE EMBODIMENTS

Referring to FIG. 1, an embodiment of a portable electronic device 200 includes a main body 21, a camera 23, a fill-in light emitting unit 25, a lamp cover 26 and an optical lens 27. In one embodiment, the portable electronic device 200 may be a mobile telephone, and the fill-in light emitting unit 25 is a light emitting diode. The main body 21 defines a first through hole 211 and a second through hole 212 adjacent to the first through hole 211.

The camera 23, the fill-in light emitting unit 25 and the lamp cover 26 are positioned in the main body 21, and the fill-in light emitting unit 25 is adjacent to the camera 23. The camera 23 is inserted into the first through hole 211. The optical lens 27 is positioned in the second through hole 212 and coplanar with the main body 21. The lamp cover 26 is positioned below the fill-in light emitting unit 25 and partially surrounding the fill-in light emitting unit 25. The lamp cover 26 has a reflective inner surface for reflecting light emitted from the fill-in light emitting unit 25.

Referring to FIG. 2, the optical lens 27 includes a first surface 271, a second surface 272 opposite to the first surface 271, and a plurality of elongated V-shaped ridges 2711 formed on the first surface 271. The second surface 272 may be flat. The elongated V-shaped ridges 2711 may be substantially parallel to each other. The first surface 271 is an incident surface, and the second surface 272 is a light emitting surface. The optical lens 27 has a central line 28. The plurality of elongated V-shaped ridges 2711 may be distributed symmetrically relative to the central line 28. In the illustrated embodiment, vertex angles θ between symmetric elongated V-shaped ridges are obtuse angles.

Referring to FIG. 3, a cross-section plane of the elongated V-shaped ridges 2711 taken along a direction perpendicular to an extending direction of the elongated V-shaped ridges 2711 is shown. Vertex angles θ progressively increase along a direction away from the fill-in light emitting unit 25. The elongated V-shaped ridges 2711 near the central line 28 have strong refraction ability, and the elongated V-shaped ridges 2711 away from the central line 28 with larger vertex angles θ have weaker refraction abilities as the vertex angle gets larger.

When using the portable electronic device 200 (shown in FIG. 1) in low light conditions, the fill-in light emitting unit 25 can be turned on, such that the light emitted from the fill-in light emitting unit 25 travels though the optical lens 27 and lightens the object. The camera 23 will capture image of the object. The light emitted from the fill-in light emitting unit 25 enters the optical lens 27 and scatters to the two sides of the optical lens 27, such that the emitting luminance of a central portion of the optical lens 27 would be weakened and the emitting luminance of a side portion would be enhanced. Thus, the image of the object captured by the portable electronic device 200 would have a nice appearance. Since the vertex angles θ are obtuse angles, the elongated V-shaped ridges 2711 have a high strength and are easy to fabricate.

Finally, while the embodiments have been described and illustrated, the present disclosure is not to be construed as being limited thereto. Various modifications can be made to the embodiments by those of ordinary skilled in the art without departing from the true spirit and scope of the embodiments as defined by the appended claims.

Claims

1. A portable electronic device, comprising: a main body,a camera positioned in the main body;a fill-in light emitting unit positioned in the main body adjacent to the camera; andan optical lens positioned between the fill-in light emitting unit and outside of the main body, wherein the optical lens comprises an incident surface facing the fill-in light emitting unit, a light emitting surface opposite to the incident surface, and a plurality of elongated V-shaped ridges formed on the incident surface; the elongated V-shaped ridges are substantially parallel to each other and symmetrical about a central portion of the optical lens; vertex angles between symmetric elongated V-shaped ridges progressively increase along a direction away from the fill-in light emitting unit.

2. The portable electronic device of claim 1, wherein vertex angles between symmetric elongated V-shaped ridges are obtuse angles.

3. The portable electronic device of claim 1, wherein the light emitting surface of the optical lens is flat.

4. The portable electronic device of claim 1, wherein the main body defines a first through hole and a second through hole adjacent to the first through hole; the camera receives light from the first through hole and the fill-in light emitting unit emits light via the second through hole.

5. The portable electronic device of claim 4, wherein the optical lens is positioned in the second through hole.

6. The portable electronic device of claim 1, further comprising a lamp cover positioned in the main body, and partially surrounding the fill-in light emitting unit.

7. The portable electronic device of claim 6, wherein the lamp cover has a highly reflective inner surface.

8. The portable electronic device of claim 1, wherein the fill-in light emitting unit is a light emitting diode.

9. A portable electronic device, comprising: a main body,a camera positioned in the main body;a fill-in light emitting unit positioned in the main body adjacent to the camera; andan optical lens positioned between the fill-in light emitting unit and outside of the main body, wherein the optical lens comprises an incident surface facing the fill-in light emitting unit, a light emitting surface opposite to the incident surface, and a plurality of elongated V-shaped ridges formed on the incident surface; the light emitting surface is flat; the elongated V-shaped ridges are substantially parallel to each other and symmetrical about a central portion of the optical lens; vertex angles between symmetric elongated V-shaped ridges are obtuse angles, and the vertex angles progressively increase along a direction away from the fill-in light emitting unit.

10. The portable electronic device of claim 9, wherein the main body defines a first through hole and a second through hole adjacent to the first through hole; the camera receives light from the first through hole and the fill-in light emitting unit emits light via the second through hole.

11. The portable electronic device of claim 10, wherein the optical lens is positioned in the second through hole.

12. The portable electronic device of claim 10, further comprising a lamp cover positioned in the main body, and partially surrounding the fill-in light emitting unit.

13. The portable electronic device of claim 12, wherein the lamp cover has a highly reflective inner surface.