DE102012213192A1 - Light source module has light emitting element and light guiding element that is provided with light incident surface facing light emitting element, where light emitting surface is connected to light incident surface - Google Patents

Abstract

The light source module (100) has a light emitting element (110) and a light guiding element (120) that is provided with a light incident surface (Si) facing the light emitting element. A light emitting surface (So) is connected to the light incident surface. A surface (S1) is provided unparallel to the light incident surface, and is connected to the light emitting surface opposite to the light incident surface. Another surface (S2) is connected to the former surface and is located opposite the light emitting surface. Two reflective layers (122,124) are arranged on the respective surfaces.

Description

Background of the invention

The present invention relates to a light source module, and more particularly to a light source module including a reflective layer.

Description of the Prior Art

A conventional lighting apparatus uses a cold cathode fluorescent lamp (CCFL) as the light emitting element. The CCFL provides a non-aligned light source so that the light emitted thereby radiates in different directions. Therefore, it is usually necessary to have a reflective cover disposed adjacent to the CCFL to reflect the light emitted by the CCFL to certain areas of irradiation. Nevertheless, the light reflected from the reflective cover can not be used effectively. In addition, the CCFL is a linear light emitting element, so that a flat light source can not be obtained directly by using the CCFL. Therefore, it is necessary to provide the CCFL with a light guide plate which guides the light emitted from the CCFL to emit from a surface of the light guide plate so as to reach a plane light source. However, the uniformity and light utilization efficiency of such planar light sources are often poor.

1 schematically illustrates a light source module, which in the Taiwanese Patent No. 1309703 is disclosed. Regarding 1 In the light source module, the light L coming from the light emitting element 110 is provided by the oblique side 120a of the light guide element 120 reflected so as to emit from the light emitting surface So. However, a portion of the light L 'is emitted from the area outside the light emitting surface So, causing poor light utilization efficiency of the light source module.

Summary of the finding of the earth

The invention provides a light source module having desirable light utilization efficiency and light emission uniformity.

The invention provides another light source module with desirable light utilization efficiency and light emission uniformity.

The invention relates to a light source module including or comprising a light emission element and a light guide element. The light guide element has a light incident surface, a light emission surface, a first surface, a second surface, a first reflective layer and a second reflective layer. The light emitting element is directed towards the light incident surface. The light incident surface is connected to the light emission surface. The first surface is connected to the light emission surface and is located opposite to the light incident surface. The first surface is unparallel or non-parallel to the light incident surface. The second surface is connected to the first surface and is opposite to the light emission surface. The first reflective layer is disposed on the first surface. The first reflective layer is disposed on the first surface.

The invention also relates to a further light source module including a light emission element, a light guide element and a support frame or support frame. The light guide element has a light incident surface, a light emission surface, a first surface and a second surface. The light emitting element is directed to the light incident surface. The light incident surface is connected to the light emission surface. The first surface is connected to the light emission surface and is located opposite to the light incident surface. The first surface is unparallel to the light incident surface. The second surface is connected to the first surface and is opposite to the light emission surface. The light emitting element and the light guiding element are accommodated within the support frame. The support frame includes a first reflective portion, a second reflective portion, and a third reflective portion. The first reflective portion is parallel to the first surface. The second reflective portion is connected to the first reflective portion and parallel to the second surface. The third reflective portion is connected to the second reflective portion and parallel to the light incident surface.

In view of the foregoing, the light source module according to the invention has increased light utilization efficiency by introducing the light provided by the light emitting element to emit from the light emitting surface through the first reflecting layer (or the first reflecting section) opposite to and unparallel to the light incident surface. In addition, the light source module according to the invention includes the second reflective layer (the second reflective portion) opposite to the light emitting surface, so that the light provided from the light emitting element is uniformly emitted from the light emitting surface, which improves the light uniformly emitted from the light source module.

Some exemplary embodiments accompanied by drawings are described in detail below to further describe the invention in detail.

Brief description of the drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification. The drawings illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention.

1 schematically represents a conventional light source module.

2 Fig. 10 is a schematic view of a light source module according to the first embodiment of the invention.

3 Fig. 10 is a schematic view of a light source module according to the second embodiment of the invention.

4 Fig. 10 is a schematic view of a light source module according to the third embodiment of the invention.

5 Fig. 10 is a schematic view of a light source module according to the fourth embodiment of the invention.

6 Fig. 10 is a schematic view of a light source module according to the fifth embodiment of the invention.

Detailed description of the disclosed embodiments

2 FIG. 12 is a schematic cross-sectional view of a light source module according to the first embodiment of the invention. FIG. Regarding 2 includes the light source module 100 According to the present embodiment, a light-emitting element 110 , a light guide element 120 , a reflective layer 122 and a reflective layer 124 , In the present embodiment, the light-emitting element 110 For example, be a light emitting diode (LED). However, the invention is not limited thereto. In an alternative embodiment, the CCFL or other light emitting element may use the LED as the light emitting element 110 replace the present embodiment.

The light guide element 120 has a light incident surface Si, a light emission surface So, a first surface S1, and a second surface S2. The light emission element 110 is directed to the light incident surface Si. The light emission surface So is connected to the light incident surface Si. The first surface S1 is connected to the light emission surface So, and is located opposite to the light incident surface Si, while the first surface S1 is unparallel to the light incident surface Si. The second surface S2 is connected to the first surface S1 and is opposite to the light emission surface So. The reflective layer 122 is disposed on the first surface S1. The reflective layer 124 is disposed on the second surface S2. According to the present embodiment, the material of the light guiding element 120 For example, polymethyl methacrylate (PMMA), polycarbonate (PC) or glass, but is not limited in the invention.

It should be noted that in the present embodiment, the first surface S1 is unparallel to the light incident surface Si. Accordingly, the light L becomes that of the light emitting element 110 is emitted and then the light guide element 120 enters, from the reflective layer 122 is reflected on the first surface S1 to move to the light emission surface So and emit from the light emission surface So. In other words, the reflective layer 122 useful to the light L, that of the light emission element 110 is emitted to emit from the light emitting surface So so as to improve the light utilization efficiency.

In addition, the first surface S1 and the light emission surface So are included at an acute angle α. In the present embodiment, the acute angle α is between 30 ° and 60 °. By the reflective layer 122 is disposed on the first surface S1 which converges at an acute angle α with the light emission surface So, the light L which is incident on the reflective layer 120 radiates, to be reflected, to move to the light emission surface So, so that the light L passing through the light emission element 110 is more likely to be able to emit out of the light emitting surface So. According to the present embodiment, the reflective layer 122 to be a white reflective layer. In addition, the second reflective layer 124 on the second surface S2, the light L of different angles of incidence reflect, so that the light L can emit at different angles out of the light emitting surface So, which is useful for improving the light emission uniformity of the light source module 100 is. According to the present embodiment, the reflective layer 124 also be a white reflective layer.

The light source module 100 Further, according to the present embodiment, a reflective layer 128 include, on one side of the Light emitting element 110 is arranged opposite to the light incident surface Si. The reflective layer 128 For example, the light L coming from the light emitting element 110 is emitted to the light incident surface Si, so that most of the light L is the light guide element 120 can enter to the light use efficiency of the light source module 100 to improve. According to the present embodiment, the reflective layer 128 to be a white reflective layer.

3 Fig. 10 is a schematic view of a light source module according to the second embodiment of the invention. Regarding 3 has the light source module 200 a design that is largely similar to that of the light source module 100 is. In the present embodiment, the light guiding element is 120 formed by an extrusion molding or extrusion process. The light guide element 120 is not liable to have a V-shaped light incident structure on the light incident surface S1 in order to improve the light uniformity when the V-shaped light incident structure extends substantially in a direction perpendicular to the pressing direction of the extrusion process. Therefore, the light guide element 120 of the light source module 200 further include a third area S2 connected between the light incident surface Si and the second area S2, and an obtuse angle β is included by the third area S3 and the second area S2. The obtuse angle β can be between 165 ° and 170 °. In other words, the third surface S3 is a slightly inclined surface that is fitted adjacent to the light incident surface Si.

The light L coming from the light emitting element 110 is largely emitted along the light axis A. However, a part of the light L 'emits in a direction diverging from the light axis A. The part of the light L 'emitting at a larger angle θ radiates onto the third surface S3. The third surface S3 is a slightly inclined surface, the part of the light L 'could be reflected on the third surface S3 by the total reflection effect, and therefore of the light guide member 120 be emitted out at a location that is farther away from the light incident surface Si.

Accordingly, in the light source module 200 According to the present embodiment, the third surface serves to introduce the part of the light L 'to get out of the light guide member 120 where it is further away from the light incident surface Si, which is the light emitting uniformity of the light source module 200 improved. It should be noted that a reflective layer 126 can be optionally arranged on the third surface S3. According to the present embodiment, the reflective layer 128 to be a white reflective layer.

4 Fig. 10 is a schematic view of a light source module according to the third embodiment of the invention. Regarding 4 has the light source module 300 a design that is largely similar to that of the light source module 200 is. Nevertheless, in the light source module 300 In the present embodiment, the light incident surface Si may optionally have a first recess H1 suitable for the light emitting element 110 take. The light emission element 110 is received in the first cavity H1 of the light incident surface Si, so that the light L emitted from the light emitting element 110 is emitted, effectively from the light incident surface Si in the light guide element 120 is initiated.

5 Fig. 10 is a schematic view of a light source module according to the fourth embodiment of the invention. Regarding 5 has the light source module 500 a design that is largely similar to that of the light source module 100 the first embodiment. However, the light source module includes 400 the present embodiment further a support frame 130 wherein the light emitting element 110 and the light guide element 120 in the support frame 130 are included and the support frame 130 an opening O having the light emitting surface So of the light guide member 120 exposed or disclosed. In the present embodiment, the reflective layer is 122 and the reflective layer 124 between the support frame 130 and the light guide element 120 arranged. In particular, the support frame 130 a first section 132 , a second section 134 and a third section 136 include. The inner surface 132a of the first section 132 is parallel to the first surface S1 of the light guide element 120 and the reflective layer 122 is between the first surface S1 and the inner surface 132a of the first section 132 arranged. The second section 134 is with the first section 132 connected. The inner surface 134a of the second section 134 may be parallel to the second surface S2 of the light guide element 120 his and the reflective layer 124 is between the second surface S2 and the inner surface 134a of the second section 134 arranged. The third section 136 is with the second section 134 connected. An inner surface 136a of the third section 136 which is adjacent to the light guide element 120 is, is with a cavity 136b configured, wherein the light emitting element 110 and the reflective layer 128 in the cavity 136b are included.

In addition, the support frame 130 continue a first upper section 132b include that with the first section 132 is connected and the first upper section 132b covers a part of the light emission surface So of the light guide member 120 , The support frame 130 can continue a second upper section 136c include that with the third section 136 connected and the second upper section 136c covers another part of the light emission surface So of the light guide member 120 , The first upper section 132b and the second upper section 136c can the light guide element 120 in the opening O of the support frame 130 firmly fasten.

6 Fig. 10 is a schematic view of a light source module according to the fifth embodiment of the invention. Regarding 6 includes the light source module 500 According to the present embodiment, a light-emitting element 110 , a light guide element 120 and a support frame. The light guide element 120 has a light incident surface Si, a light emission surface So, a first surface S1, and a second surface S2. The light emission element 110 is directed to the light incident surface Si. The light emission surface So is connected to the light incident surface Si. The first surface S1 is connected to the light emission surface So, and is located opposite to the light incident surface Si. The first surface S1 is unparallel to the light incident surface Si. The second surface S2 is connected to the first surface S1 and faces the light emission surface So. The light emission element 110 and the light guide element 120 are through the support frame 130 included, with the support frame 130 an opening O having the light emitting surface So of the light guide member 120 reveals.

The support frame 130 includes a first reflective portion 132 ' , a second reflective portion 134 ' and a third reflective portion 136 ' , The first reflective section 132 ' is parallel to the first surface S1. the second reflective section 134 ' is with the first reflective section 132 ' connected and parallel to the second surface S2. The third reflective section 136 ' is with the second reflective section 134 ' connected and parallel to the light incident surface Si. In addition to receiving the light emitting element 110 and the light guide element 120 , the support frame has the reflective function to the light L, that of the light emitting element 110 is emitted to reflect. The first reflective section 132 ' In the present embodiment, the reflection function is similar to that of the reflective layer 122 the first embodiment. The second reflective section 134 ' In the present embodiment, the reflection function is similar to that of the reflective layer 124 the first embodiment. The third reflective section 136 ' In the present embodiment, the reflection function is similar to that of the reflective layer 128 the first embodiment. In other words, the support frame 130 In the present embodiment, the function of that of the reflective layers 122 . 124 and 128 of the first embodiment, so that the structure of the light source module 500 is very simplified and the light source module 500 can have a desirable light utilization efficiency and light emission uniformity.

In summary, the light source module according to the invention has increased light utilization efficiency by introducing the light provided from the light emitting element through the reflective components that are opposite and unparallel to the light incident surface to emit from the light emission surface. In addition, the light emitting module according to the invention includes the reflective component that is opposite to the light emitting surface, so that the light provided from the light emitting element is uniformly emitted from the light emitting surface, which improves the light emitting uniformity of the light source module.

The light emitting module according to the invention may be configured with a slightly inclined surface adjacent to the light incident surface (ie the third surface as mentioned above), which promotes the splitting of the light to emit out where it is farther from the light incident surface and improves the light emission uniformity of the light source module.

It will be apparent to those skilled in the art that various modifications and variations can be made in the structure of the disclosed embodiments without departing from the scope or spirit of the invention. In view of the foregoing, it is intended that the invention cover modifications and variations of this invention if they come within the scope of the following claims and their equivalents.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• TW 1309703 [0003]

Claims (12)

Light source module comprising: a light emitting element; and a light guide element with: a light incident surface, the light emitting element facing the light incident surface; a light emission surface connected to the light incident surface; a first surface connected to the light emitting surface and facing the light incident surface, the first surface being unparallel to the light incident surface; a second surface connected to the first surface and facing the light emission surface; a first reflective layer disposed on the first surface; and a second reflective layer disposed on the second surface. The light source module of claim 1, wherein the light emitting surface and the first surface include an acute angle. The light source module according to claim 1, further comprising a third reflective layer disposed on a third surface of the light guide member, the third surface being connected between the light incident surface and the second surface, and the third surface and the second surface forming an acute angle. The light source module according to claim 1, further comprising a fourth reflective layer disposed on a side of the light emitting element opposite to the light incident surface. The light source module of claim 1, wherein the first reflective layer and the second reflective layer are each a white reflective layer. The light source module of claim 3, wherein the first reflective layer, the second reflective layer and the third reflective layer are each a white reflective layer. The light source module of claim 4, wherein the first reflective layer, the second reflective layer, and the fourth reflective layer are each a white reflective layer. The light source module according to claim 1, wherein the light incident surface has a first cavity to receive the light emitting element. The light source module according to claim 1, further comprising a support frame, wherein the light emitting element and the light guide member are accommodated in the support frame, and the support frame has an opening exposing the light emission surface of the light guide member. The light source module of claim 9, wherein the support frame further comprises: a first upper portion covering a portion of the light emitting surface of the light guide member; and a second upper portion opposite to the first upper portion and covering another portion of the light emitting surface of the light guide member, the first upper portion and the second upper portion fixing the light guide member in the opening of the support frame. Light source module comprising: a light emitting element; a light guide element with: a light incident surface, the light emitting element facing the light incident surface; a light emission surface connected to the light incident surface; a first surface connected to the light emitting surface and facing the light incident surface, the first surface being unparallel to the light incident surface; and a second surface connected to the first surface and facing the light emission surface; and a support frame receiving the light emitting element and the light guide member therein, and wherein the support frame comprises: a first reflective portion that is parallel to the first surface; a second reflective portion connected to the first reflective portion and parallel to the second surface; a third reflective portion connected to the second reflective portion and parallel to the light incident surface. The light source module of claim 11, wherein the support frame further comprises: a first upper portion covering a portion of the light emitting surface of the light guide member; and a second upper portion opposite to the first upper portion and covering another portion of the light emitting surface of the light guide member, the first upper portion and the second upper portion fixing the light guide member in the opening of the support frame.

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