CN211853633U - Lighting lamp - Google Patents

Abstract

The utility model discloses an illuminating lamp, which comprises a bar-shaped lamp bracket, a circuit board, a light source and a bar-shaped lens; the strip-shaped lens comprises a light incidence surface, two first total reflection surfaces, two first light emergent surfaces, two second total reflection surfaces and two second light emergent surfaces, wherein the light incidence surface is arranged facing the light source, the two first total reflection surfaces are positioned on the outer side of the light incidence surface along the light emergent direction of the light source and are respectively arranged on two sides of the main optical axis, the two first light emergent surfaces are respectively arranged on two sides of the main optical axis and are positioned between the light incidence surface and the first total reflection surfaces, the two second total reflection surfaces are positioned on the outer side of the light incidence surface along the light emergent direction of the light source and are respectively arranged on two sides of the main optical axis, and the two second light emergent surfaces are respectively arranged on two sides of the main optical axis and are positioned between; the utility model discloses a light obtains the illuminating effect that the irradiation range is bigger, illumination is more even on shining the face.

Description

Lighting lamp

Technical Field

The utility model relates to the field of lighting technology, especially a light.

Background

With the popularization of LED lamps, more and more occasions begin to use LED lamps, such as home lighting in bedrooms, kitchens, living rooms and the like, and commercial lighting in refrigerators, cold chains, shelves and the like.

The LED chip is a point light source, and the light intensity distribution is fixed, but in actual use, it needs to focus or illuminate uniformly in a large area.

How to improve the light-emitting efficiency of the LED lamp and reduce the glare through the change of the structure and the position of the optical element is a goal pursued by those skilled in the art. Although many structures for enlarging the light-emitting angle of uniform illumination have been proposed in the prior art, there is still a need for improvement.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides an illumination lamp to solve the above technical problems.

An illumination lamp comprising:

a strip-shaped lamp bracket;

the back surface of the circuit board is arranged on the strip-shaped lamp holder, and the front surface of the circuit board is a light source mounting surface;

the light source is arranged on the light source mounting surface and comprises a main optical axis, small-angle light rays and large-angle light rays;

the strip-shaped lens is arranged in the light emitting direction of the light source, and the length extending direction of the strip-shaped lens is consistent with that of the strip-shaped lamp holder;

the stripe lens includes:

a light incident surface disposed facing the light source;

the two first total reflection surfaces are positioned on the outer side of the light incidence surface along the light emergent direction of the light source and are respectively arranged on two sides of the main optical axis, and one ends of the two first total reflection surfaces, which are close to the light source, are close to each other and are used for totally reflecting small-angle light rays towards a large-angle light ray direction;

two first light emergent surfaces which are respectively arranged at two sides of the main optical axis and positioned between the light incident surface and the first total reflection surface and are used for emitting the reflected light rays from the first total reflection surfaces at the same side;

the two second total reflection surfaces are positioned on the outer sides of the light incidence surfaces along the light emergent direction of the light source and are respectively arranged on two sides of the main optical axis, and the two second total reflection surfaces are obliquely arranged outwards and used for totally reflecting the large-angle light rays towards the small-angle light rays;

and the two second light emergent surfaces are respectively arranged at two sides of the main optical axis and positioned between the second total reflection surface and the first light emergent surface at the same side, and are used for emitting the reflected light rays from the second total reflection surfaces at the same side.

Preferably, the light incident surface includes:

a small-angle light incident surface arranged in the middle;

and the two large-angle light incidence surfaces are arranged on two sides of the main optical axis and are respectively opposite to the second total reflection surfaces on the same side.

Preferably, the small-angle light ray incidence surface is a light-gathering arc surface.

Preferably, the large-angle light incident surface is a plane.

Preferably, the first total reflection surface and the first light exit surface intersect to form an acute angle.

Preferably, the second total reflection surface and the second light exit surface intersect to form an acute angle.

Preferably, the first light emitting surface and the second light emitting surface intersect to form an obtuse angle.

Preferably, the LED lamp further comprises a strip-shaped lampshade arranged outside the strip-shaped lens.

Preferably, the light diffusion film is stretched along the length direction of the strip-shaped lens.

Preferably, the light diffusion film is disposed between the strip lens and the strip lamp cover.

Preferably, the strip-shaped lampshade comprises an arched body and fixing edges formed by downwards extending the two sides of the arched body, and the fixing edges are connected with the strip-shaped lamp holder.

Preferably, the strip-shaped lamp holder is provided with a groove for accommodating the fixed edge in a snap fit manner.

Preferably, the inner side and/or the outer side of the fixed edge is/are provided with a sealing strip.

Preferably, the two sides of the inner surface of the arched body are provided with steps which contract inwards at positions close to the fixing edges, the light diffusion film is attached to the inner surface of the arched body to be bent, and the two sides of the light diffusion film abut against the steps.

Preferably, the strip-shaped lens is fixedly connected with the circuit board.

Preferably, the bottom surface of the strip-shaped lens is provided with a positioning column, the circuit board is provided with a positioning hole matched with the positioning column, and the positioning column penetrates through the positioning hole to be fixed on the back surface of the circuit board through hot riveting.

Preferably, the lamp holder further comprises end cover assemblies arranged at two ends of the strip-shaped lamp holder.

Preferably, the light source comprises a plurality of LED chips spaced along the length direction of the strip-shaped lamp holder.

Preferably, the strip-shaped lamp holder is provided with a U-shaped groove for accommodating the circuit board.

Preferably, two inner side walls of the U-shaped groove are provided with opposite clamping grooves, and the clamping grooves are used for inserting and installing the circuit board.

The technical effects of the utility model:

the utility model discloses a light, through bar lens with the low-angle light of light source to both sides total reflection to the far away of illuminating the face, with the middle total reflection of the wide-angle light of both sides to the centre of illuminating the face simultaneously to obtain the illuminating effect that the irradiation range is bigger, illumination is more even on illuminating the face.

Drawings

Embodiments of the present invention are described below with reference to the accompanying drawings, in which:

fig. 1 is a schematic structural diagram of the illumination lamp of the present embodiment.

Fig. 2 is an exploded view of the illumination lamp of the present embodiment.

Fig. 3 is an enlarged schematic view of a portion a in fig. 2.

Fig. 4 is a schematic sectional view of the illumination lamp of the present embodiment on a plane perpendicular to the longitudinal direction.

Fig. 5 is a light path diagram of light distribution of the strip lens of the present embodiment to the light source.

Fig. 6 is a schematic perspective view of the stripe lens of the present embodiment.

Fig. 7 is a schematic perspective view of the stripe lens of the present embodiment at another angle.

Fig. 8 is a schematic sectional view of the stripe lens of the present embodiment on a plane perpendicular to the longitudinal direction.

Detailed Description

The following describes in further detail specific embodiments of the present invention based on the drawings. It should be understood that the description herein of embodiments of the invention is not intended to limit the scope of the invention.

As shown in fig. 1 to 8, the illumination lamp of the present embodiment includes a bar-shaped lamp holder 100, a circuit board 200, a light source 300, a bar-shaped lens 400, a bar-shaped lamp cover 500, a light diffusion film 600, and an end cap assembly 700.

The strip lamp holder 100 is used for bearing the other components, and the shape and structure of the strip lamp holder are changed according to the assembling manner and the assembling position, in this embodiment, the strip lamp holder is a U-shaped groove structure, and is used for installing the circuit board 200, the light source 300, the strip lens 400, the strip lampshade 500, the light diffusion film 600 and the end cover assembly 700 in the groove, of course, the strip lamp holder can be in other shapes, and the U-shaped groove is arranged to facilitate installation of the circuit board 200 and to accommodate and shield the part of the light source 300, which does not need light emission.

The back surface of the circuit board 200 is arranged on the strip-shaped lamp holder 100, the front surface is a light source mounting surface 201, the light source 300 is arranged on the light source mounting surface 201, the light source 300 is in the form of an electric light source and comprises a main optical axis 301, a small-angle light 302 and a large-angle light 303, due to the shielding of the circuit board 200, the light source 300 emits light on the front surface of the circuit board 200, the main optical axis 301 is perpendicular to the front surface of the circuit board 200, wherein the small-angle light 302 refers to the light of the light source 300 on the main optical axis 301 and near the main optical axis 301, the specific angle can be artificially defined and is generally between 10 and 70 degrees. In this embodiment, the circuit board 200 is installed on the strip lamp holder 100 in an inserting manner, and two inner sidewalls of the U-shaped groove are provided with opposite slots 102.

End cover assembly 700 sets up bar lighting fixture 100 both ends, end cover assembly 700 play dustproof and waterproof's effect, when the light used alone, need the installation, in order to play good sealed effect, can adopt the injecting glue sealed, in this embodiment, end cover assembly 700 includes sealing plug 701, end cover body 702, locking screw 703 and dustproof stopper 704, and above-mentioned structure is not the utility model discloses a different designs can be done as required in key and the prior art, do not give unnecessary detail here.

The strip-shaped lens 400 is arranged in the light emitting direction of the light source 300, and the length extending direction of the strip-shaped lens is consistent with that of the strip-shaped lamp holder 100; the strip lens 400 is disposed in the light emitting direction of the light source 300, and is used for adjusting the light distribution of the light source 300 on a plane perpendicular to the length direction, and the specific structure is as follows:

in a plane perpendicular to the length direction of the strip lamp holder 100, the strip lens 400 includes: a light entrance surface 401, two first total reflection surfaces 402, two first light exit surfaces 403, two second total reflection surfaces 404 and two second light exit surfaces 405.

Wherein the light incident surface 401 is disposed facing the light source 300 for introducing light into the lens, and may be a plane, a curved surface, or other shape disposed above the light source.

The two first total reflection surfaces 402 are located on the outer side of the light incidence surface 401 along the light outgoing direction of the light source 300 and are respectively arranged on two sides of the main optical axis 301, and one ends of the two first total reflection surfaces close to the light source 300 are close to each other and are used for totally reflecting the small-angle light 302 towards the large-angle light 303; first total reflection surface 401 can be plane, arcwall face or a plurality of planes or arcwall face concatenation form, and in this embodiment, in order to make the grading effect better, first total reflection surface 401 is formed by the concatenation of multistage arcwall face.

The mutual approach may be connected or disconnected, a gap is formed between the unconnected conditions, the gap region may allow light to exit or not exit, and the connection condition is that total reflection occurs at both sides of the main optical axis 301, so that all the small-angle light rays 302 are reflected towards the large-angle light rays 303. The two first light emitting surfaces 403 are respectively disposed on two sides of the main optical axis 301 and located between the light incident surface 401 and the first total reflection surface 402, and are configured to emit the reflection light from the first total reflection surface 402 on the same side, in this embodiment, the two first total reflection surfaces 402 are disposed in a connected manner.

The two second total reflection surfaces 404 are located outside the light incidence surface 401 along the light outgoing direction of the light source 300 and are respectively arranged at two sides of the main optical axis 301, and are arranged obliquely outward for totally reflecting the large-angle light ray 303 towards the small-angle light ray 302; the second total reflection surface 404 is disposed on the optical path of the high-angle light ray 303. The second total reflection surface 404 may be a plane, an arc surface, or a plurality of planes or arc surfaces, and in this embodiment, the second total reflection surface 404 is a flat surface.

Two second light exit surfaces 405 are respectively disposed on two sides of the main optical axis 301 and located between the second total reflection surface 404 and the first light exit surface 403 on the same side, and are configured to emit the reflected light from the second total reflection surface 404 on the same side.

The lighting lamp of the embodiment is used for display lighting, realizes large-angle uniform lighting, and during installation, the lighting surface 800 is generally vertically arranged relative to the main optical axis 301, the light source 300 is relative to the lighting surface 800, if the strip lens 400 is not arranged, the lighting at the middle position is strongest and is slowly weakened towards two sides, and by arranging the strip lens 400, small-angle light rays 302 irradiated to the middle position are totally reflected towards two sides through the two first total reflection surfaces 402 and are emitted out through the first light emitting surface 104, so that the light rays are irradiated to the far ends of the two sides of the lighting surface 800; then the large-angle light rays 303 originally irradiated to the two sides are totally reflected to the middle through the second total reflection surface 105 and are emitted through the second light emitting surface 106, the light rays irradiate to the near end in the middle of the irradiation surface 800, the small-angle light rays 302 with high light intensity are totally reflected to the far end, and the large-angle light rays 303 with low light intensity are totally reflected to the near end, so that the purpose of uniform illumination is achieved.

Due to the size change of the strip lens 400, in combination with the distance and area influence of the irradiation surface 800, the angles of the first total reflection surface 402, the first light exit surface 403, the second total reflection surface 404 and the second light exit surface 405 relative to the irradiation surface 800 can be set as required to achieve the purpose of uniform illumination, in order to make illumination uniform and symmetrical, in this embodiment, the first total reflection surface 402, the first light exit surface 403, the second total reflection surface 404 and the second light exit surface 405 on two sides of the main optical axis 301 are symmetrically arranged.

Light incident surface 401 can carry out first regulation to light, is favorable to subsequent two sets of total reflection faces to carry out light distribution more effectively, further makes the illumination even, improves the light efficiency, and is preferred, and light incident surface 401 includes small-angle light incident surface 4011 and two big angle light incident surfaces 4012. The small-angle light incidence surface 4011 is arranged in the middle, and the two large-angle light incidence surfaces 4012 are arranged on two sides of the main optical axis 301 and are respectively arranged opposite to the second total reflection surfaces 404 on the same side.

The small-angle light incidence plane 4011 adjusts the small-angle light 302 in the middle, and in order to make more small-angle light incident on the first total reflection plane 402, the small-angle light incidence plane 4011 is an arc-shaped plane for light condensation. The light condensation effect can concentrate more small-angle light rays; the large-angle light incidence surface 4012 is a plane, and is more convenient to manufacture.

For better distribution of the small-angle light rays 302, it is preferable that the first total reflection surface 402 and the first light exit surface 403 intersect to form an acute angle; the second total reflection surface 404 and the second light exit surface 405 intersect to form an acute angle; the first light exit surface 403 intersects the second light exit surface 405 forming an obtuse angle.

The light source 300 may be provided individually or in multiple, and preferably, the light source 300 includes a plurality of LED chips spaced along the length direction of the strip lamp holder 100. Under the background of energy conservation and environmental protection, the LED lamp is increasingly applied to the fields of household and commercial illumination because of high light emitting efficiency and good light condensing performance.

The light diffusion film 600 stretches the light source 300 along the length direction of the strip-shaped lens 400, the light diffusion film 600 is arranged between the strip-shaped lens 400 and the strip-shaped lampshade 500, the light diffusion film 600 is used for stretching the light source 300, and the point light source is stretched along the length direction to form a line light source.

The strip-shaped lampshade 500 comprises a fixed edge 502 formed by downwards extending two sides of an arched body 501 and an arched body 501, the fixed edge 502 is connected with the strip-shaped lamp holder 100, in the embodiment, two sides of a U-shaped groove of the strip-shaped lamp holder 100 are provided with accommodating grooves 101 matched with the buckles of the fixed edge 502, and in order to achieve the waterproof sealing effect, the inner side of the fixed edge 502 is provided with a sealing strip 503. The sealing strips 503 and the strip-shaped lampshade 500 can be manufactured by adopting a co-extrusion process.

In order to facilitate the installation of the light diffusion film 600, in this embodiment, steps 504 which are inwardly contracted are provided at positions close to the fixing edges 502 on both sides of the inner surface of the arched body 501, and the light diffusion film 600 is curved to be attached to the inner surface of the arched body 501 and both sides of the light diffusion film are abutted against the steps 504. Because the light diffusion film 600 has certain elasticity, the light diffusion film can be bent, and after the light diffusion film is bent along the width direction, the light diffusion film 600 is arranged in the arched body 501, two sides of the light diffusion film abut against the step 504 to realize fixation, so that the light diffusion film 600 and the strip-shaped lampshade 500 can be installed and are far away from the light source 300 as far as possible, and the stretching effect is better.

The light diffusion film 600 is an optical film provided with a positive cylindrical lens microarray, the array is arranged in the length direction, in this embodiment, specifically, the light diffusion film 600 is an elliptical light diffusion film, which can be obtained by procurement, and the brand is teddy, and the model is E-6010, of course, other models can be selected, as long as the point light source 300 is stretched in the arrangement direction (x direction) of the point light source 300, such as E-1560, E-0160/6001, and E-0190, and in order to achieve a better stretching diffusion effect, when the diffusion film is selected, the stretching ratio of the two directions is greater than 4. This embodiment light diffusion film 600 is positive cylindrical surface microlens array, has small, the installation of being convenient for, and can carry out the crooked setting, adapts to different lamps and lanterns structure demands.

The strip lens 400 can be fixed on the strip lamp holder 100, and can also be directly fixed on the circuit board 200, because the utility model discloses a positional relationship between strip lens 400 and the light source 300 needs pinpoint, consequently, in this embodiment, strip lens 400 and circuit board 200 fixed connection. The light source 300 is disposed on the circuit board 200, and the strip lens 400 is fixedly connected to the circuit board 200, so that the mounting accuracy can be improved.

The fixed connection can be fixed connection by glue or by a fastener, in order to reduce components and ensure the accuracy of installation, in this embodiment, the bottom surface of the strip-shaped lens 400 is provided with a positioning column 406, the circuit board 200 is provided with a positioning hole 202 matched with the positioning column 406, the positioning column 406 passes through the positioning hole 202 and is fixed on the back surface of the circuit board 200 by hot riveting, and the positioning column 406 is provided with a positioning step 4061.

The number and arrangement mode of the positioning columns 406 can be set as required, generally for stability, each strip-shaped lens 400 needs at least three positioning columns 406, the positioning columns are arranged along the length direction and staggered in the width direction, in order to further improve the reliability of fixing, each positioning column 406 is provided with a matched supporting column 407, the supporting columns 407 are also arranged on the strip-shaped lens 400, and the matched positioning columns 406 and the matched supporting columns 407 are distributed on two sides of the strip-shaped lens 400 along the width direction.

The strip-shaped lens 400 of the embodiment is manufactured by adopting an injection molding process, the length is not suitable for the process, when the illuminating lamp is long, the strip-shaped lens 400 can be manufactured in a segmented mode, and in the embodiment, the strip-shaped lens 400 is manufactured in five segments.

The above description is only for the preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention, and any modification, equivalent replacement or improvement within the spirit of the present invention is encompassed by the claims of the present invention.

Claims (20)

1. An illumination lamp comprising:

a strip-shaped lamp holder (100);

the back surface of the circuit board (200) is arranged on the strip-shaped lamp holder (100), and the front surface of the circuit board is a light source mounting surface (201);

the light source (300) is arranged on the light source mounting surface (201) and comprises a main optical axis (301), a small-angle light ray (302) and a large-angle light ray (303);

the strip-shaped lens (400) is arranged in the light emitting direction of the light source (300), and the length extending direction of the strip-shaped lens is consistent with that of the strip-shaped lamp holder (100);

characterized in that the strip lens (400) comprises:

a light incident surface (401) disposed facing the light source (300);

the two first total reflection surfaces (402) are positioned on the outer side of the light incidence surface (401) along the light outgoing direction of the light source (300) and are respectively arranged on two sides of the main optical axis (301), and one ends of the two first total reflection surfaces, which are close to the light source (300), are close to each other and are used for totally reflecting the small-angle light rays (302) towards the large-angle light rays (303);

two first light emitting surfaces (403) respectively arranged on two sides of the main optical axis (301) and between the light incident surface (401) and the first total reflection surface (402) for emitting reflected light rays from the first total reflection surface (402) on the same side;

two second total reflection surfaces (404) which are located outside the light incidence surface (401) along the light outgoing direction of the light source (300) and are respectively arranged on two sides of the main optical axis (301), and are obliquely arranged outwards to be used for totally reflecting the large-angle light rays (303) towards the small-angle light rays (302);

two second light emitting surfaces (405) respectively arranged on two sides of the main optical axis (301) and located between the second total reflection surface (404) and the first light emitting surface (403) on the same side, and used for emitting the reflected light from the second total reflection surface (404) on the same side.

2. The illumination lamp according to claim 1, wherein said light incident surface (401) comprises: a small-angle light incidence plane (4011) disposed in the middle;

and the two large-angle light incidence surfaces (4012) are arranged on two sides of the main optical axis (301) and are respectively opposite to the second total reflection surfaces (404) on the same side.

3. The floodlight according to claim 2, characterized in that said low angle ray incidence plane (4011) is a light converging arc.

4. The floodlight according to claim 2, characterized in that said high-angle light incidence plane (4012) is a plane.

5. The illumination lamp according to claim 1, wherein the first total reflection surface (402) and the first light exit surface (403) intersect to form an acute angle.

6. The illumination lamp according to claim 1, wherein the second total reflection surface (404) and the second light exit surface (405) intersect to form an acute angle.

7. The illumination lamp according to claim 1, wherein the first light exit surface (403) and the second light exit surface (405) intersect to form an obtuse angle.

8. The illumination lamp according to any one of claims 1 to 7, further comprising a strip-shaped lamp cover (500) disposed outside the strip-shaped lens (400).

9. The illumination lamp according to claim 8, further comprising a light diffusion film (600) stretching the light source (300) along a length direction of the strip lens (400).

10. The illumination lamp according to claim 9, wherein the light diffusion film (600) is disposed between the strip lens (400) and the strip lamp cover (500).

11. The illumination lamp according to claim 10, wherein the strip-shaped lampshade (500) comprises an arched body (501) and fixing edges (502) formed by extending downwards from two sides of the arched body (501), and the fixing edges (502) are connected with the strip-shaped lamp holder (100).

12. The lamp according to claim 11, characterized in that said strip-shaped lamp holder (100) is provided with a groove (101) for receiving said fixing edge (502) in snap-fit.

13. The lighting lamp according to claim 12, characterized in that the inner side and/or the outer side of the fixing edge (502) is provided with a sealing strip (503).

14. The floodlight according to claim 11, wherein both sides of the inner surface of said arched body (501) are provided with steps (504) which are inwardly contracted at positions close to said fixing edge (502), said light diffusing film (600) is curved to conform to the inner surface of said arched body (501) and both sides abut on the steps (504).

15. The floodlight according to any of claims 1 to 7, characterized in that said strip lens (400) is fixedly connected to the circuit board (200).

16. The illuminating lamp according to claim 15, wherein a positioning post (406) is disposed on a bottom surface of the strip lens (400), the circuit board (200) is disposed with a positioning hole (202) matching with the positioning post (406), and the positioning post (406) is fixed to a back surface of the circuit board (200) by hot riveting through the positioning hole (202).

17. The floodlight according to any one of claims 1 to 7, further comprising end cap assemblies (700) disposed at both ends of said strip lamp holder (100).

18. The illumination lamp according to any one of claims 1 to 7, wherein said light source (300) comprises a plurality of LED chips spaced along the length of said strip lamp holder (100).

19. The lighting lamp according to any one of claims 1 to 7, wherein a U-shaped groove for accommodating the circuit board (200) is formed on the strip lamp holder (100).

20. The lighting lamp according to claim 19, wherein two inner side walls of the U-shaped groove are provided with opposite clamping grooves (102), and the clamping grooves (102) are used for mounting the circuit board (200) in an inserted manner.

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