KR200475156Y1 - Zoom lens with multi-layers for illumination - Google Patents

Abstract

The present invention provides a zoom multi-layer lens for illumination that can reduce manufacturing costs. The zoom multilayer lens for illumination is provided with a lens body 2 and at least one free curved surface 21 on one side surface of the lens body 2. Several zoom curved surfaces 22 are formed on the free curved surface 21, And the other side surface of the zoom curved surface 22 is formed as an arcuate curved surface 221. The zoom curved surface 22 is formed with a curved surface 220, And the lens body 2 can divide the curved surface into the focus of the multi-block by the combination design of the complicated free curved surfaces 21 and various changes in the curved surface and focus of each zoom curved surface 22 It is possible to combine the various changes to control the light projection of the light source 3 to the necessary illumination brightness and the irradiation angle, thereby achieving the required illumination function and effect.

Description

[0001] Zoom lens with multi-layers for illumination [0002]

The present invention relates to a zoom multilayer lens for illumination, and in particular, it is possible to control the brightness and angle of a light source projection and significantly reduce the thickness and volume of the lens main body by several zoom curved surfaces provided on the lens main body, The present invention relates to a zoom multilayer lens for illumination which can reduce manufacturing cost, light source projection goes farther, brighter, has a larger area, and is capable of achieving functions and effects such as controlling a light projection angle .

In many cases, when a lamp that provides lighting such as a car light, a streetlight, a flashlight, or a searchlight is intended to have environmental protection functions and effects, the light bulb of the light source is often replaced with an LED.

However, the area projected by the light source of the LED is relatively small.

1, a large number of conventional illumination lamps are provided by adding a hemispherical lens 11 in front of the LED 10, covering the outer periphery of the LED 10 with the light guide cover 12, The luminance and the range are enlarged, or the luminance and the range thereof are enlarged by installing a plurality of LEDs in the illumination lamp.

However, all the methods of enlarging the projection light of the light source described above are relatively complicated in manufacturing and assembling, are relatively expensive, and can not change only the perspective or area of the projected light.

Therefore, the ray of light is also used as the projection reference, and the route of the ray projection can not be changed.

Therefore, the lighting effect to be formed is relatively bright in the center portion and relatively dark in the outer peripheral portion, so that the projection distance and range of the light source thereof are limited.

For this reason, in the semicircular lens, if the required light projection range is to be achieved, the thickness thereof must be increased, the volume of the lens becomes large, and the cost becomes relatively high.

Further, since the center of the general lens is relatively bright and the periphery thereof is relatively dark, the light uniformity function and effect can not be achieved.

Furthermore, since the route of the light beam projection can not be changed according to the necessity of use, the brightness and angle of the light beam can not be controlled.

The present invention has been made in view of the above-described drawbacks of the conventional lamp for illumination.

TW, I390151B1 TW, I383906B1 TW, M451276B1

A problem to be solved by the present invention is to greatly reduce the thickness and volume of the lens body, thereby lowering the cost, further increasing the projection distance of the light source, optimizing the luminance, enlarging the illumination area , And a function of controlling the angle of projection of light, and the like, and to provide a zoom multi-layer lens for illumination.

In order to solve the above problems, the present invention provides a zoom multi-layer lens for illumination as described below.

The zoom multi-layer lens for illumination has a lens body,

At least one free-form surface is provided on one side surface of the lens body,

A plurality of zoom curved surfaces are provided on the free curved surface to form a multi-layer zoom curved surface,

Wherein one side surface of the zoom curved surface is formed as an oblique surface and the other side surface of the zoom curved surface is formed as an arc curved surface,

The lens main body can divide the curved surface into the focus of the multi-block by the combination design of the complex complicated free-form surfaces, combine the different changes by the change of the focus different from the curved surface of each zoom curved surface, It is possible to control the projection with the necessary illumination luminance and the irradiation angle to achieve the required illumination function and effect,

The lens body of the zoom multi-layer lens for illumination of the present invention forms a flat surface relative to the other side surface of the free curved surface,

The quantity and size of the zoom curved surface on the free curved surface of the lens body of the zoom multi-layer lens for illumination of the present invention indicate the installation of up-down symmetry and left-

The quantity and size of the zoom curved surface on the free curved surface of the lens main body of the zoom multi-layer lens for illumination of the present invention indicate the installation of symmetrical up and down symmetry and symmetrical,

The quantity and size of the zoom curved surface on the free curved surface of the lens main body of the zoom multilayer lens for illumination of the present invention indicate the installation of vertical symmetry and right and left sub-

A combination of two or more free-form surfaces is provided on the lens main body of the zoom multilayer lens for illumination of the present invention, and several zoom curved surfaces are respectively provided on the two or more free-form surfaces.

The zoom multilayer lens for illumination of the present invention has a narrow projection range of light existing in a lens for illumination, a poor brightness, a short projection distance, and can not control the angle of projection of light, The thickness and the volume of the lens body can be largely reduced and the cost can be reduced, the projection distance of the light source can be made longer, the brightness can be optimized, the illumination area can be increased , And the ability to control the light projection angle can be achieved.

1 is a schematic view of a conventional lamp and a lens.
2 is a stereoscopic view of the present embodiment.
Figure 3 is a front view of the embodiment of the present invention.
Figure 4 is a side view of the present embodiment.
5 is a side view of the embodiment of the present invention.
6 is a side view cross-sectional schematic diagram showing the light projection of the lens body in the present embodiment.
Fig. 7 is a schematic bottom view showing the light projection of the lens body in the present embodiment. Fig.
8 is a luminance distribution diagram of light beam projection in the present embodiment.
Fig. 9 is a front view of a lens main body of the present invention formed by two free-form curved surfaces. Fig.
10 is a front view showing a shape in which the zoom curved surface on the present invention lens body is vertically symmetrical and horizontally symmetrical.
11 is a front view showing a shape in which the zoom curved surface on the present invention lens body is formed in a vertically symmetric shape and a left and right symmetrical shape.

Forms for devising

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, a best mode for carrying out the present invention will be described in detail with reference to the drawings.

Example

As shown in Figs. 2 to 5, the lens body 2 is provided with at least one free-form surface 21 on one side surface of the lens body 2. [

A plurality of zoom curved surfaces 22 are formed on the free curved surface 21 and a plurality of zoom curved surfaces 22 are formed on the free curved surface 21. One side surface of the zoom curved surface 22 is formed as a truncated surface 220, And the other side surface is formed by an arc-shaped curved surface 221.

The lens body 2 forms a flat surface 23 with respect to the other side surface of the free curved surface 21 and forms a zoom multilayer lens for illumination in this manner.

6 to 8, the lens body 2 of the present invention is provided in front of the light source 3 (LED or the like), and several lenses (not shown) provided on the lens body 2 By means of the zoom curved surface 22, the traveling route of the light ray 30 projected by the light source 3 can be changed.

In this way, by installing several zoom curved surfaces 22 of the lens body 2, the projection distance of the light source 3 is extended, the illumination brightness thereof is increased, the illumination area is enlarged, and the luminance is uniformly And the projection angle of the light beam can be controlled, and the thickness and volume of the lens main body 2 can be greatly reduced, thereby reducing the cost.

The free curved surface on the lens body of the present invention can design the number of free curved surfaces thereof in correspondence with the required illumination brightness and can form two or more free curved surfaces 41 on the lens body 4, And a plurality of zoom curved surfaces 42 may be provided on each of the free-form curved surfaces 41.

The mounting position and quantity of the zoom curved surface 42 provided on the lens main body 4 can correspond to various demands of different illumination luminous intensities and as shown in Figure 9, The amount of the zoom curved surface 42 of the curved surface 42 is comparatively large and both sides are relatively small, so that the central portion is relatively bright and the both side portions are relatively dark.

The quantity and the size of the zoom curved surface 22 on the free curved surface 21 of the present invention lens body 2 can be arranged vertically symmetrically and horizontally symmetrically so that a uniform illumination light can be formed.

The zoom curved surface 21 on the inventive lens body 2 can also be irregularly arranged such as vertically symmetric, horizontally symmetrical (see FIG. 10), vertically symmetric, and left and right symmetrical (see FIG. 11) You can change the projection angle of the ray.

A portion where the number of zoom curved surfaces 22 on the lens body 2 is large forms a relatively bright light and a portion where the number of zoom curved surfaces 22 is relatively small forms a relatively dark light ray.

In the present invention, since the light rays entering the different materials utilize the characteristics of the optical trace refraction to cause different refractive indexes, the lens body is designed to have a curved surface as the focal point of the multi-block By varying the curved surface and the focus of each zoom curved surface in various ways, it is possible to combine various changes to control the light projection of the light source to the required illumination luminance and illumination angle, and to achieve the required illumination function and effect have.

The lens body of the present invention can be installed in front of a light source (such as an LED or a light bulb) of various lamps (automobile light, street light, flashlight, searchlight, etc.) .

The designation and contents of the present invention are intended to be used only for explaining the contents of the present invention, and the present invention is not limited thereto. The conversion, replacement and increase / decrease of the equivalent application or parts (structure) based on the spirit of the present invention are all included in the scope of protection of the present invention.

Industrial availability

The present invention has novelty, which is a requirement of the utility model registration, has sufficient advancement, practicality, and conformity with the needs of the society, compared with conventional related products, and the industrial use value is very high.

Furthermore, the present invention can surely achieve the purpose, functions and effects as described above, and is ideal and practical compared to the conventional structure.

10: LED 11: lens 12: light-guiding cover
2: lens body 21: free curved surface 22: zoom curved surface
220: a missionary surface 221: an elevation surface 23: a flat surface
3: light source 30: ray 4: lens body
41: free curved surface 42: zoom curved surface

Claims (6)

A lens body is provided,
At least one free-form surface is provided on one side surface of the lens body,
A plurality of zoom curved surfaces are provided on the free curved surface to form a multi-layer zoom curved surface,
One of the side surfaces of the zoom curved surface is formed as a truncated surface, and the other side surface of the zoom curved surface is formed as an arc-
Wherein the lens body has a flat surface opposite to the other side surface of the free-form surface,
Wherein a quantity and a size of the zoom curved surface on the free curved surface of the lens body indicate the installation of the up-and-down symmetry and the left and right side symmetry. delete delete delete delete The zoom multi-layer lens for illumination according to claim 1, wherein a combination of two or more free-form surfaces is provided on the lens body, and a plurality of zoom curved surfaces are respectively provided on the two or more free-form surfaces.

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