CN218671725U - Directional luminous lens, light-emitting component and atmosphere lamp - Google Patents

Abstract

The utility model discloses a directional luminous lens, light-emitting component, atmosphere lamp, include: the lens comprises a lens body, a light source and a light source, wherein the lens body is provided with a groove suitable for being embedded into the light source and comprises a light emergent surface; further comprising: the light deflection part is arranged on the light emergent surface. The light that the part of polarizing can be to dispersing the outgoing to the part of polarizing reflects, and lens body itself has the spotlight effect, and the part of polarizing further deflects light outgoing direction on the basis of spotlight to play the effect of further spotlight, make the illumination scope of being emitted by the lens little, be applicable to the scene that needs directional illumination.

Description

Directional luminous lens, light-emitting component and atmosphere lamp

Technical Field

The utility model relates to an illumination lamps and lanterns field, in particular to directional luminous lens, light-emitting component, atmosphere lamp.

Background

The function of traditional lamps and lanterns is focused on the illumination, and along with the improvement of standard of living, the user seeks to create the light and shadow atmosphere when satisfying the illumination. When creating an atmosphere, it is often desirable that the light source be capable of directional illumination in a certain area.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a directional luminous lens, light-emitting component, atmosphere lamp, its advantage that has directional illumination.

The above technical object of the present invention can be achieved by the following technical solutions.

A directional lighting lens, comprising:

the lens body is provided with a groove suitable for being embedded into a light source and comprises a light emergent surface.

Further comprising:

the light deflection part is arranged on the light emitting surface.

The light deflecting part is at least arranged at one end of the length direction of the light emergent surface.

The number of the polarized light parts is two, and the other polarized light part is arranged in the middle of the length direction of the light emergent surface.

And a plurality of convex inclined planes are arranged on the light emergent surface.

The distances from the light-emitting surface to the polarized light parts are the same.

A light emitting assembly comprising:

a base;

the directional light-emitting lens in any scheme is arranged on the base;

the light source is arranged on the base, and at least part of the light source is embedded into the groove.

An ambience lamp, comprising:

a housing including a light outlet;

the light emitting plate is arranged on the light emitting port;

the light source is arranged in the shell;

the directional light-emitting lens in any scheme is sleeved on the light source, so that the light-emitting range of the light source is located on the light-emitting plate.

The housing further includes:

a first sidewall, the light source disposed proximate to the first sidewall;

the second side wall is arranged on the opposite side of the first side wall;

the bottom wall is connected with the first side wall and the second side wall, and the bottom wall is arranged on the opposite side of the light outlet.

An inclined side wall is arranged between the first side wall and the bottom wall, and the light source is arranged on the inclined side wall.

This scheme atmosphere lamp still includes:

the base is arranged on the inclined side wall, and the light source is arranged on the base.

To sum up, the utility model discloses following beneficial effect has:

1. the light that the part of polarizing can be to dispersing the outgoing to the part of polarizing reflects, and lens body itself has the spotlight effect, and the part of polarizing further deflects light outgoing direction on the basis of spotlight to play the effect of further spotlight, make the illumination scope of being emitted by the lens little, be applicable to the scene that needs directional illumination.

2. The light rays emitted from the light-emitting surface towards the polarization part are reflected upwards by the polarization part, so that the light rays below the originally divergent image are deflected to the upper part to form a light condensation effect, and the directional illumination effect is achieved.

3. The second side wall is located the light source offside, and the light that is sent by the light source is back on the second side wall, and the second side wall is towards light extraction board reflection light, and when the user observes light extraction board again, not only can see illumination effects such as sky, thereby can also receive the reflection of light of second side wall and see casing inner structure. The illumination effect created by the light-emitting plate is destroyed. Light emitted by the light source is gathered and deflected through the lens and then directionally irradiates the light emitting plate, no light is directly irradiated to the second side wall, so that direct irradiation of light to the second side wall is reduced, and a user can not see the inner structure of the shell when seeing illumination atmospheres such as blue sky, sunset, clear sky and deep sea, and user experience is improved.

Drawings

FIG. 1 is a schematic view of a lens body structure;

FIG. 2 is a schematic structural view of a lens body with a convex inclined surface on a light-emitting surface;

fig. 3 is a schematic diagram showing the internal structure of an atmosphere lamp.

In the figure:

1. a lens body; 2. a groove; 3. a light-emitting surface; 4. a polarizing portion; 5. a light source; 6. a housing; 61. a first side wall; 62. a second side wall; 63. a bottom wall; 64. an inclined side wall; 7. a light emitting plate; 8. a base.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The present embodiment provides a directional light-emitting lens, as shown in fig. 1, including: the lens comprises a lens body 1, wherein a groove 2 suitable for being embedded with a light source 5 is formed in the lens body 1, and the lens body 1 comprises a light emitting surface 3; further comprising: and the polarized light part 4 is arranged on the light-emitting surface 3. The polarizing part 4 can reflect the light emitted to the polarizing part 4 in a divergent mode, the lens body 1 has a light condensation effect, and the polarizing part 4 further deflects the light ray emitting direction on the basis of light condensation, so that the effect of further light condensation is achieved, the illumination range emitted by the lens is small, and the lens is suitable for scenes needing directional illumination.

The position of the polarizer 4 is not particularly limited, and in the embodiment, as shown in fig. 1, the polarizer 4 is at least disposed at one end of the light emitting surface 3 in the length direction. In the view angle of fig. 1, only the lower polarizer 4 is retained, and the light emitted from the light emitting surface 3 toward the polarizer 4 is reflected upward by the polarizer 4, so that the light originally emitted from the divergent image is deflected upward to form a light condensing effect, thereby achieving the effect of directional illumination. As an alternative embodiment, in the viewing angle of fig. 1, only the polarizing portion 4 located in the middle of the light emitting surface 3 is remained, that is, the light emitted from the upper and lower portions of the lens to the polarizing portion 4 is reflected to the upper and lower directions, respectively, so that the light emitted from the same light source 5 is divided into two directional lights emitted to the upper and lower directions, respectively, after passing through the lens. The position of the polarizing part 4 is adjusted to adjust the area of the upper and lower parts. As another alternative, the polarizing portion 4 is located on top of the light exit surface 3 in the viewing angle of fig. 1.

The number of the light deflecting portions 4 is not particularly limited, and in the present embodiment, as shown in fig. 1 and fig. 2, there are two light deflecting portions 4, and the other light deflecting portion 4 is disposed in the middle of the light emitting surface 3 in the length direction. The two polarizers 4 arranged at intervals can further shrink the range of the emergent ray on the basis of only one polarizer 4, and can be directionally irradiated to a required position.

On the basis of the above embodiments, as a further limited embodiment, as shown in fig. 2, a plurality of convex slopes are provided on the light exit surface 3. The convex inclined plane can further contract and deflect the emergent range of the light rays, so that the light condensing effect is further realized, and the illumination range emitted by the lens is small.

As a more limited embodiment, as shown in fig. 1 and 2, the plurality of polarizers 4 extend out of the light emitting surface 3 by the same distance.

The present embodiment also provides a light emitting device, including: a base 8; the directional light-emitting lens of any one of the above embodiments is arranged on the base 8; and the light source 5 is arranged on the base 8, and the light source 5 is at least partially embedded in the groove 2. The light-emitting component can be used as an accessory for electric appliance illumination, and can realize the effect of directional illumination of relatively gathered light rays in a small range.

The present embodiment also provides an atmosphere lamp, as shown in fig. 3, including: a housing 6 including a light outlet; the light emitting plate 7 is arranged on the light emitting port; the light source 5 is arranged in the shell 6; the directional light-emitting lens in any of the above schemes is sleeved on the light source 5, so that the light-emitting range of the light source 5 falls on the light-emitting plate 7. In the atmosphere lamp of the embodiment, the light-emitting plate 7 is a rayleigh scattering plate, and light emitted by the light source 5 in the housing 6 is scattered by light with relatively short wavelength after passing through the rayleigh scattering plate, so that the light-emitting plate 7 presents different illumination scenes such as blue sky, seawater, clear sky, sunset and the like. Another part of the light with longer wavelength passes through the light emitting plate 7 and strikes a wall or other entity to form a light shadow. The two visual effects are superposed, so that the user can feel that the user opens a skylight to see the external natural scene.

In addition to the above-described embodiments, as a further limited embodiment, as shown in fig. 3, the housing 6 further includes: a first side wall 61, said light source 5 being disposed adjacent to said first side wall 61; a second side wall 62 provided on the opposite side of the first side wall 61; and a bottom wall 63 connecting the first side wall 61 and the second side wall 62, wherein the bottom wall 63 is disposed on the opposite side of the light outlet. The second side wall 62 is located the opposite side of the light source 5, and after the light emitted by the light source 5 is irradiated on the second side wall 62, the second side wall 62 reflects the light towards the light emitting plate 7, so that when the user observes the light emitting plate 7 again, the user can see not only the illumination effects such as blue sky, but also the light reflected by the second side wall 62, so as to see the internal structure of the housing 6. The lighting effect created by the light emitting plate 7 is destroyed. Light emitted by the light source 5 is gathered and deflected through the lens and then directionally irradiates the light-emitting plate 7, no light directly irradiates the second side wall 62, so that direct irradiation of light on the second side wall 62 is reduced, and a user can not see the internal structure of the shell 6 when seeing illumination atmospheres such as blue sky, sunset afterglow, clear sky and deep sea, so that the user experience is improved.

An inclined side wall 64 is arranged between the first side wall 61 and the bottom wall 63, and the light source 5 is arranged on the inclined side wall 64. For example, in the atmosphere creation of a blue sky, a clear sky, and the like, it is necessary that the light passes through the light emitting plate 7 and then strikes a wall or other entity with a shadow of sunlight, so that the main light emitting direction of the light source 5 needs to be obliquely irradiated, and in this embodiment, the oblique side wall 64 provides an installation basis for the inclination of the light source 5.

In addition to the above embodiments, as a further limited embodiment, the atmosphere lamp of the present embodiment further includes: and the base 8 is arranged on the inclined side wall 64, and the light source 5 is arranged on the base 8. The base 8 provides an installation foundation for the light source 5, and provides convenience for power connection, wire arrangement and the like.

The above-mentioned embodiments are merely illustrative of the present invention, and are not intended to limit the present invention, and those skilled in the art can make modifications of the present embodiments without inventive contribution as required after reading the present specification, but all the embodiments are protected by patent law within the scope of the present invention.

Claims (10)

1. A directional light emitting lens, comprising:

the light source lens comprises a lens body (1), wherein a groove (2) suitable for being embedded with a light source is formed in the lens body (1), and the lens body (1) comprises a light emergent surface (3);

the method is characterized in that: further comprising:

and the light deflection part (4) is arranged on the light emergent surface (3).

2. The directional lighting lens of claim 1, wherein: the light deflecting part (4) is at least arranged at one end of the light emergent surface (3) in the length direction.

3. The directional lighting lens of claim 2, wherein: the number of the polarizing parts (4) is two, and the other polarizing part is arranged in the middle of the length direction of the light emergent surface.

4. The directional lighting lens of claim 3, wherein: and a plurality of convex inclined planes are arranged on the light emergent surface (3).

5. The directional lighting lens of any one of claims 1 to 4, wherein: the distances from the light-emitting surface to the polarized light parts are the same.

6. A light emitting assembly, comprising: the method comprises the following steps:

a base (8);

the directional light emitting lens of any one of claims 1 to 5, disposed on the base (8);

the light source (5) is arranged on the base (8), and at least part of the light source (5) is embedded into the groove (2).

7. An ambience lamp, characterized by comprising:

a housing (6) including a light outlet;

the light emitting plate (7) is arranged on the light emitting port;

the light source (5) is arranged in the shell (6);

the directional light emitting lens as set forth in any one of claims 1 to 5, which is sleeved on the light source (5) to make the light emitting range of the light source (5) fall on the light emitting plate (7).

8. The atmosphere lamp according to claim 7, wherein: the housing further includes:

a first side wall (61), the light source (5) being disposed proximate to the first side wall (61);

a second side wall (62) provided on the opposite side of the first side wall (61);

and the bottom wall (63) is connected with the first side wall (61) and the second side wall (62), and is arranged on the opposite side of the light outlet.

9. The atmosphere lamp according to claim 8, wherein: an inclined side wall (64) is arranged between the first side wall (61) and the bottom wall (63), and the light source (5) is arranged on the inclined side wall (64).

10. The ambience lamp of claim 9, wherein: further comprising:

the base (8) is arranged on the inclined side wall (64), and the light source (5) is arranged on the base (8).

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