DE202008014294U1 - Glare-free planar LED light source for reading lamp - Google Patents

Abstract

Glare-free, planar LED light source suitable for a reading lamp is suitable, comprising a housing, made of a thermally conductive material and provided with an opening; a light guide plate, the inside of the case is arranged and designed so that they have a first surface and a second surface, the first surface opposite, has, wherein the first surface against an opening of the housing points and the second surface equipped with an optical structure that capture light can; further comprising an LED module, the at least on one side of the Light guide plate in the case is arranged and serves the light in the light guide plate to project; and an optical film stack disposed on the first surface of the Light guide plate is arranged.

Description

Background of the invention

1. Field of the invention

The The present invention relates generally to a non-glare LED light source, the for a reading lamp is suitable.

2. State of the art

After this LEDs unusual Benefits in terms of energy saving and extension have shown the lifespan, they are for the development of future ones Light sources have become dominant. However, an LED is a point light highly concentrated brightness. An excessively high luminosity of a such a spotlight can cause a direct aperture, which in addition leads, that yourself the user does not feel comfortable. In particular, when such a point light as a light source for one Reading lamp is used, it can disturb the user while reading.

Furthermore have both the conventional ones Light sources as well as other conventional LED modules often problems which are related to the indirect blinds. The indirect iris will often by one too big Light emission angle of the reading lamp caused. After it through the illuminated objects was reflected causes the reflected Light of the emitted light often that the reader feels disturbed.

Summary of the invention

A The main object of the present invention is therefore a solution for the Problem that arises when using an LED as a light source for one Reading lamp is used, the brightness of the light source is very is strongly concentrated, so that a Apertures or mirrors are created.

The The present invention is that it has a light guiding technology to the leadership a point beam used by an LED light source in a light guide plate is discharged to create a planar light source in this way. In this way, the point light source or spot light source in transforms a surface light source which is softer and smoother and emit light from its entire surface. Furthermore the present invention combines an optical film with a Light guide plate to thereby utilizing the optical properties of the optical film and effectively reducing the light emission angle. In this way can be a beam of light at a great angle that is indirect Irises caused to be transmitted in a certain direction to thereby prevent the occurrence of glare and the lighting effect to improve the reading lamp.

As a result, the present invention provides a glare-free LED light source, the for a reading lamp is suitable. The glare-free LED light source points a housing with a good thermal conductivity, a light guide plate, at least one LED module and an optical film stack. The light guide plate that at least an LED module and the optical film stack are arranged in the housing. The optical film stack is on a first surface of the Movie guide plate trained against an opening of the housing is directed. On a second surface of the light guide plate is formed an optical structure that can capture light. The second surface the light guide plate is an inner bottom of the case turned. The inner surface of the housing is further provided with a light-reflecting material. The LED module is arranged on the side of the light guide plate in the housing, so that light on the light guide plate is projected. The light is then transmitted to the light guide plate. The optical structure, which makes it suitable for capturing the light, can be a total reflection of the light inside the light guide plate destroy, so that the Light from the light guide plate is recovered. The light-reflecting material facilitates the improvement of the efficiency, and the optical film stack supports the creation of a uniform, soft and glare-free reading lamp.

According to one embodiment According to the present invention, the housing may be part of a heat rejecting device be to a heat dissipation surface of the housing to enlarge and thereby its heat dissipation efficiency to improve.

According to one another embodiment According to the present invention, the optical film stack has a diffusion film as well as a brightness enhancing Film on, so that then, when a light passes through the optical film stack, this Light evened and can be made soft, and the flash light source can be turn into a planar light source.

The optical structure disposed on the light guide plate and capable of capturing light may have many microprojections or many micro-recesses formed on and forming a unitary whole with the second surface of the light guide plate, or a plurality of dot-shaped patterns formed by color printing or Injection molding are formed on the second surface of the light guide plate. The microprojections or micro-recesses or the punctiform ones Patterns can break the light before the light is emitted from the light guide plate, thereby improving the brightness of the light source.

According to one another embodiment the present invention, the glare-free light source of further an optically reflective material on one inner surface of the housing is arranged, that of the second surface of the light guide plate is turned. The optical reflection material is suitable for Reflecting the light that is guided into the light guide plate, and after it reflects through the optical reflection material then the light is refracted by the optical structure, which is thus suitable for light collection.

On In this way, the brightness of the light source is further improved.

Brief description of the drawings

 The The present invention will become apparent to those skilled in the art by reading the following detailed description of a preferred embodiment understand the invention, and with reference to the accompanying drawings, in which are:

1 a schematic view of a planar light source used in a reading lamp according to an embodiment of the present invention;

2 an exploded perspective view illustrating the structural relationship of the elements of the planar light source according to an embodiment of the invention;

3 a cross-sectional view of the planar light source according to an embodiment of the present invention;

4 a partially enlarged view of many micro projections of the optical structure of the light guide plate according to an embodiment of the present invention; and

5 an enlarged partial view of many micro-recesses of the optical structure of the light guide plate according to an embodiment of the present invention.

Detailed description the preferred embodiment

The attached Drawings serve to further understand the invention and are attached to the description, where they form part of. The drawings show embodiments of the Invention and together with the description serve to explain the basics of the invention.

1 Fig. 12 is a schematic view showing a planar LED light source used in a reading lamp according to an embodiment of the invention.

2 Fig. 13 is an exploded perspective view showing the structural relationship of the elements of the planar light source according to an embodiment of the present invention, and Figs 3 FIG. 10 is a cross-sectional view of the planar light source according to an embodiment of the present invention. FIG. Like from the 1 to 3 According to a preferred embodiment of the present invention, the planar LED light source comprises a housing 1 , a light guide plate 2 , an LED module 3 and at least one optical film stack 5 on. The housing 1 consists of a material with a good thermal conductivity, such as aluminum or the like. The housing 1 is with an opening 11 Mistake. The housing 1 Preferably, but not necessarily forms a one-piece building with a heat-consuming structure and an outer housing surface. For example, the heat-consuming structure may be a plurality of plates extending from the outer surface of the housing 1 extend outward to increase its heat dissipation or destruction surface.

The light guide plate 2 is a flat plate made of an optical material having a good light conductivity. The light guide plate 2 is the interior of the case 1 customized. The light guide plate 2 is provided with a first surface and a second surface. The first surface faces the second surface. The second surface has an optical structure 21 on, which serves to catch the light. The first surface is arranged to be the opening 11 of the housing 1 is turned. The optical structure 21 , which is suitable for light capture, can be made of a variety micro-protrusions 211 (as in 4 shown) or a plurality of microwells 212 (as in 5 shown) attached to the second surface of the light guide plate 2 form a unitary whole, or a plurality of dot-shaped patterns (not shown in the drawing), by color printing or injection molding on the second surface of the light guide plate 2 be formed. Before the light guide plate 2 in the case 1 is incorporated, can be a reflection material 4 on an inner bottom of the case 1 be formed so that after the light guide plate 2 in the case 1 has been installed, the second surface of the light guide plate 2 in the direction of the reflection material 4 has.

The LED module 3 is on a side wall of the light guide plate in the housing 1 arranged or on another side wall opposite the latter. The LED module 3 has a printed circuit board, at least one LED, which is electrically connected to the circuit board and a wire electrically connected to a power source. As soon as a current flows, the LED emits light and throws the light onto the light guide plate 2 ,

The optical film stack 5 is on the first surface of the light guide plate 2 provided against the opening 11 of the housing 1 is directed. The optical film stack 5 has at least one diffusion film or at least one brightness enhancement film.

When assembling the optical film stack 5 and the LED module 3 with the light guide plate 2 assembled and then the three parts as a whole in the housing 1 built-in.

During operation, the LED module generates 3 the light and throw it on the light guide plate 2 , The light is then guided to within the light guide plate 2 to be transferred. Meanwhile, the light is reflected by the reflection material 4 reflected and through the microprojections 211 , Microwells 212 or colored dot-shaped pattern, so that improved brightness is achieved. After reflection and refraction, the light passes through the light guide plate 2 and the optical film stack 5 in order to create a uniform, soft and glare-free reading lamp in this way.

Although the invention with reference to its preferred embodiments it is understood by those skilled in the art, that one Variety of modifications and modifications can, without to deviate from the scope of the present invention, which the attached Claims defined shall be.

Claims (7)

Glare-free, planar LED light source suitable for a reading lamp suitable, comprising a housing, made of a thermally conductive material and provided with an opening; a light guide plate, the inside of the case is arranged and designed so that they have a first surface and a second surface, the first surface opposite, has, wherein the first surface against an opening of the housing points and the second surface equipped with an optical structure that capture light can; further comprising an LED module, at least on one side the light guide plate in the case is arranged and serves the light in the light guide plate to project; and an optical film stack on the first surface the light guide plate arranged is. Glare-free, planar LED light source according to claim 1, characterized in that the optical structure that can capture light, has multiple microprojections, the on the second surface the light guide plate are trained and form a unified whole with it. Glare-free, planar LED light source according to claim 1, characterized in that the optical structure that can capture light, multiple microwells having on the second surface of the light guide plate are arranged and form a unified whole with it. Glare-free, planar LED light source according to claim 1, characterized in that the optical structure that can capture light, multiple punctiform patterns having on the second surface of the light guide plate are formed. Glare-free, planar LED light source according to claim 1, characterized in that the optical film stacks at least a diffusion film and a brightness enhancement film having. Glare-free, planar LED light source according to claim 1, characterized in that the casing further with an optical reflection material on a housing inside is provided, which is directed against the second surface. Glare-free, planar LED light source according to claim 1, characterized in that the casing on a housing outside integral with its associated heat annealer is provided.