CN107654860B - Lens combination, light source module and lighting device - Google Patents

Lens combination, light source module and lighting device Download PDF

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Publication number
CN107654860B
CN107654860B CN201711042220.0A CN201711042220A CN107654860B CN 107654860 B CN107654860 B CN 107654860B CN 201711042220 A CN201711042220 A CN 201711042220A CN 107654860 B CN107654860 B CN 107654860B
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China
Prior art keywords
light
lens
light source
source module
lenses
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CN201711042220.0A
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Chinese (zh)
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CN107654860A (en
Inventor
卜晨曦
王洪波
刘超博
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Opple Road Lighting Co ltd
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Opple Road Lighting Co ltd
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Priority to CN201711042220.0A priority Critical patent/CN107654860B/en
Publication of CN107654860A publication Critical patent/CN107654860A/en
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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21KNON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
    • F21K9/00Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
    • F21K9/20Light sources comprising attachment means
    • F21K9/23Retrofit light sources for lighting devices with a single fitting for each light source, e.g. for substitution of incandescent lamps with bayonet or threaded fittings
    • F21K9/237Details of housings or cases, i.e. the parts between the light-generating element and the bases; Arrangement of components within housings or cases
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21KNON-ELECTRIC LIGHT SOURCES USING LUMINESCENCE; LIGHT SOURCES USING ELECTROCHEMILUMINESCENCE; LIGHT SOURCES USING CHARGES OF COMBUSTIBLE MATERIAL; LIGHT SOURCES USING SEMICONDUCTOR DEVICES AS LIGHT-GENERATING ELEMENTS; LIGHT SOURCES NOT OTHERWISE PROVIDED FOR
    • F21K9/00Light sources using semiconductor devices as light-generating elements, e.g. using light-emitting diodes [LED] or lasers
    • F21K9/60Optical arrangements integrated in the light source, e.g. for improving the colour rendering index or the light extraction
    • F21K9/69Details of refractors forming part of the light source
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V5/00Refractors for light sources
    • F21V5/008Combination of two or more successive refractors along an optical axis
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21VFUNCTIONAL FEATURES OR DETAILS OF LIGHTING DEVICES OR SYSTEMS THEREOF; STRUCTURAL COMBINATIONS OF LIGHTING DEVICES WITH OTHER ARTICLES, NOT OTHERWISE PROVIDED FOR
    • F21V5/00Refractors for light sources
    • F21V5/04Refractors for light sources of lens shape
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F21LIGHTING
    • F21YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO THE FORM OR THE KIND OF THE LIGHT SOURCES OR OF THE COLOUR OF THE LIGHT EMITTED
    • F21Y2115/00Light-generating elements of semiconductor light sources
    • F21Y2115/10Light-emitting diodes [LED]

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Physics & Mathematics (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Optics & Photonics (AREA)
  • Non-Portable Lighting Devices Or Systems Thereof (AREA)

Abstract

The invention discloses a lens combination, a light source module and a lighting device, wherein the lens combination comprises a plurality of strip-shaped lenses, the lenses form a ring shape and comprise an inner surface, an outer surface and a cavity, the inner surface comprises a first light incident surface and a second light incident surface which are connected to form a tooth angle, the outer surface comprises a first light emergent surface, a second light emergent surface and a first reflecting surface, the second light emergent surface and the first reflecting surface form another tooth angle, the lenses are of an extension type structure, the two tooth angles are positioned on the same side of the central line of the cross section of the lenses, and incident light enters the lenses from the inner surface and exits from the outer surface to one side of the lenses. The lens combination provided by the invention can flexibly adjust the deflection direction of light rays by adopting the strip-shaped lens for combination, and simultaneously forms large-angle polarized light by arranging the reflecting surface, and adopts the light path sectional design, so that the lens has higher light distribution efficiency, and the light source module or the lighting device applying the lens has higher luminous efficiency.

Description

Lens combination, light source module and lighting device
Technical Field
The invention belongs to the technical field of illumination, and particularly relates to a lens combination, a light source module and an illumination device.
Background
The direct type module is one of the existing light source modules, and can perform light distribution by using lenses, so that the optical efficiency is high, but due to the fact that the light distribution is complex, if the direct type module is used in a diffusion mask, it is difficult to uniformly illuminate the diffusion mask, and the upper part of the diffusion mask is usually bright, and the lower part of the diffusion mask is very dark.
In addition, in the conventional lens, the light distribution direction is relatively fixed, and is usually set according to the scene, and the light is lighted only inwards or only outwards, and the lighting direction cannot be adjusted according to the scene.
Therefore, there is a need for a light distribution element suitable for use in conventional direct type modules, which has the property of polarizing light at a large angle and which can flexibly adjust the direction of deflection of light.
Disclosure of Invention
The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a lens assembly capable of flexibly adjusting a light deflection direction.
In order to achieve the above object, the present invention provides a lens assembly comprising a plurality of strip-shaped lenses, a plurality of the lenses forming a ring shape, the cross section of each point of the lenses in the extending direction is the same, the lens assembly comprises an inner surface, an outer surface, a bottom surface and a cavity, the wall surface of the cavity is the inner surface of the lens,
the bottom surface is located on both sides of the cavity,
the inner surface is a light incident surface and comprises a first light incident surface and a second light incident surface which are connected, the first light incident surface and the second light incident surface are connected to form a tooth angle,
the outer surface comprises a light-emitting surface and a reflecting surface, the light-emitting surface comprises a first light-emitting surface and a second light-emitting surface, the reflecting surface comprises a first reflecting surface, the first light-emitting surface and the first reflecting surface respectively extend to the bottom surface, the second light-emitting surface and the first reflecting surface form another tooth angle,
the lens is of an extension type structure, the cross section perpendicular to the extension direction of the lens is the cross section of the lens, the two tooth angles are positioned on the same side of the central line of the cross section of the lens, incident light enters the lens from the inner surface, and exits from the outer surface to one side of the lens.
Furthermore, the light entering the lens from the first light entering surface directly exits from the first light exiting surface, the light entering the lens from the second light entering surface exits from the second light exiting surface after being reflected by the first reflecting surface,
the directions of the light rays emitted by the first light-emitting surface and the second light-emitting surface are approximately the same.
Further, the light-emitting surface further comprises a third light-emitting surface, the reflecting surface further comprises a second reflecting surface, the third light-emitting surface and the second reflecting surface form a further tooth angle, the third light-emitting surface and the first light-emitting surface are adjacent surfaces, the second reflecting surface and the second light-emitting surface are adjacent surfaces,
the light entering the lens from the first light incident surface is partially reflected by the second reflecting surface and then exits from the third light emergent surface,
the direction of the light rays emitted from the third light emitting surface is approximately the same as the direction of the light rays emitted from the first light emitting surface and the second light emitting surface.
Further, the second reflecting surface is opposite to the second light emitting surface to form a V-shaped structure.
Further, the light emitting directions of the lenses forming the ring shape are uniform, and the lenses are all directed to the inner side or the outer side of the ring shape.
Further, the lens combination comprises at least two annular lenses, wherein the light emergent direction of at least one annular lens is towards the inner side of the annular shape, and the light emergent direction of the other annular lens is towards the outer side of the annular shape.
Further, the first light emitting surface and the first reflecting surface are curved surfaces protruding along a direction away from the first accommodating cavity.
Further, the lens unit further includes a pair of posts protruding outward from the bottom surface and located at both sides of the first cavity.
Further, the shape of the lens comprises a straight bar shape or an arc shape, and the ring shape comprises a circular ring, a polygon and a petal shape.
Further, the polarized angle of the light rays emitted from the outer surface is not less than 45 °.
In order to achieve the above object, the present invention further provides a light source module, which includes a light emitting assembly and the lens assembly, wherein the light emitting assembly includes a light source board and a plurality of light emitting units disposed on the light source board, the light emitting units and the lens are all disposed in a ring shape, and the lens covers the light emitting units.
Further, the lens further comprises a pair of upright posts protruding outwards from the bottom surface and located on two sides of the first cavity, the upright posts form a containing area, and the light emitting unit is contained in the containing area.
Further, the lens combination is detachably connected with the light source plate.
Further, the light source module further comprises a first base and a second base, and the first base and the second base are respectively located at two sides of the light emitting component.
Further, the lens is annularly arranged at one side or the outer side of the first base and the second base.
In order to achieve the above object, the present invention further provides a lighting device, which includes a top cover, a cover connected to the top cover, and the light source module, wherein the light source module is disposed on the top cover, and light emitted by the light source module is transmitted from the cover.
Further, the lighting device further comprises a base, and the cover body is connected between the top cover and the base.
Further, after the light emitted by the light source module is distributed by the lens, the light emitting light is one or a combination of annular inner polarized light of the lens and outer polarized light of the lens.
The beneficial effects are that: the lens combination provided by the invention can flexibly adjust the deflection direction of light rays by adopting the strip-shaped lens for combination, and simultaneously forms large-angle polarized light by arranging the reflecting surface, and adopts the light path sectional design, so that the lens has higher light distribution efficiency, and the light source module or the lighting device applying the lens has higher luminous efficiency.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and do not constitute a limitation on the invention. In the drawings:
fig. 1 is a perspective view of a lighting device according to embodiment 1 of the present invention.
Fig. 2 is a perspective view of a light source module assembly in the lighting device shown in fig. 1.
Fig. 3 is a cross-sectional view taken along line A-A in fig. 2.
Fig. 4 is an exploded view of a single light source module within the light source module assembly shown in fig. 2.
Fig. 5 is a cross-sectional view of a lens within the light source module shown in fig. 4.
Fig. 6 is another cross-sectional view of a lens applied in the light source module shown in fig. 4.
Fig. 7 is a perspective view of a lighting device according to embodiment 2 of the present invention.
Fig. 8 is an exploded view of the lighting device of fig. 7.
Fig. 9 is an exploded view of the light source module in the lighting device shown in fig. 8.
Fig. 10 is an exploded perspective view of a lighting device according to embodiment 3 of the present invention.
Fig. 11 is a perspective view of a light source module in the lighting device shown in fig. 10.
Fig. 12 is an exploded view of another lens assembly according to embodiment 4 of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to specific embodiments of the present invention and corresponding drawings. It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.
Example 1
Fig. 1 to fig. 6 show a lighting device 100 according to the present invention, which includes a base 110, a cover 120 connected to the base 110, and a light source module assembly 130 disposed on the base 110, wherein the cover 120 and the base 110 are connected to form a receiving space (not shown), and the light source module assembly 130 is received in the receiving space. The lighting device 100 of the embodiment of the invention can be applied to a garden lamp, which mainly shines towards the ground, but can also shine upwards.
The following describes each element and the connection relationship between elements in the lighting device 100 according to embodiment 1 of the present invention.
As shown in FIG. 1, the base 110 is generally conical and may be made of a metallic material. The base 110 has a connection portion (not shown) and a base (not shown), the connection portion is configured to be fixed on a mounting base (not shown), and the base is configured to be electrically connected to the light source module assembly 130. In an embodiment, the power supply line enters from the connection portion of the base 110, a driving power source (not shown) is disposed in the base 110, an input end of the driving power source is connected to the power supply line, and an output end of the driving power source is electrically connected to the base. The connection between the base and the light source module assembly 130 may be a threaded connection or a snap-fit connection.
The cover 120 covers one side of the base 110, and includes a top structure 1201 and a side structure 1202 connected in a split manner, where the side structure 1202 has a certain height, so that the height of the accommodating space meets the requirement of the light source module assembly 130. The side structures 1202 are annular diffusion masks, light transmitting masks, or frosting masks. The connection between the cover 120 and the base 110 may be in a plugging, clamping, screw connection or the like manner.
As shown in fig. 2 to fig. 4, the light source module assembly 130 includes a lamp holder 1301, a plurality of light source modules 1302 mounted on the lamp holder 1301, and a driving power source for supplying power to the light source modules 1302, which may be a constant voltage source (not shown), wherein the plurality of light source modules 1302 are stacked in sequence from bottom to top, and the adjacent light source modules 1302 are detachably connected, for example, may be connected in a plugging manner. The base 1301 may be an E14 screw base, an E27 screw base, or a bayonet base.
The light source module 1302 includes a light emitting assembly 1, a lens 2 disposed on one side of the light emitting assembly 1, and a first base 3 and a second base 4 disposed on both sides of the light emitting assembly 1.
The light emitting assembly 1 includes a light source board 11 and a plurality of light emitting units 12 disposed on the light source board 11, and an electrical connection interface (not shown) is disposed on the light source board 11. In the present embodiment, the light source plate 11 is a circular plate, and the light emitting units 12 are annularly disposed at the edge of the light source plate 11. The light emitting unit 12 is an LED light source.
The lens 2 is disposed in a ring shape, and is detachably connected with the light source plate 11, for example, by a screw connection or a snap connection. The lens 2 may be integrally formed or may be composed of a plurality of arcuate lens units having the same cross section in the extending direction. In this embodiment, the lens 2 has an axisymmetric structure, i.e. the lens 2 has a circular ring.
As shown in fig. 5, the lens 2 has an inner surface 21, an outer surface 22, a bottom surface 23, and a cavity 20, and the wall surface of the cavity 20 is the inner surface 21 of the lens 2.
The inner surface 21 is a light incident surface, and includes a first light incident surface 211 and a second light incident surface 212 connected to each other, and the first light incident surface 211 and the second light incident surface 212 are disposed opposite to each other. The first light incident surface 211 and the second light incident surface 212 are connected to form a first tooth angle 201. In the embodiment, the first light incident surface 211 is a curved surface, the second light incident surface 212 is a plane, and the first light incident surface 211 and the second light incident surface 212 intersect at a first position 2011, i.e. the top of the first tooth angle 201 is the first position 2011, and the first position 201 is offset from the light source center line X.
The outer surface 22 includes a light-emitting surface including a first light-emitting surface 221, a second light-emitting surface 222, and a third light-emitting surface 223, and a reflective surface including a first reflective surface 224 and a second reflective surface 225. Specifically, the second reflecting surface 225 is opposite to the third light emitting surface 223, and forms a V-shaped structure. The second light-emitting surface 222 and the first reflecting surface 224 form a second tooth angle 226, and the third light-emitting surface 223 and the second reflecting surface 225 form a third tooth angle 227. The second tooth angle 226 and the third tooth angle 227 are opposite and each less than 90 °. In this embodiment, the tops of the second tooth angle 226 and the third tooth angle 227 are at the same height, and in other alternative embodiments, the top of the second tooth angle 226 may be less than or greater than the top of the third tooth angle 227. In this embodiment, the first tooth angle 201 and the second tooth angle 226 are located on one side of the light source center line X, and the third tooth angle 227 is located on the other side of the light source center line X, and in other alternative embodiments, the first tooth angle 201, the second tooth angle 226, and the third tooth angle 227 may be located on the same side of the light source center line X. The third light-emitting surface 223 is an adjacent surface of the first light-emitting surface 221. The first light-emitting surface 221 and the first reflecting surface 224 respectively extend to the bottom surface 23, and the first light-emitting surface 221 and the first reflecting surface 224 are curved surfaces protruding along a direction away from the first accommodating cavity 20. In the present embodiment, the first reflective surface 224 and the second reflective surface 225 are total internal reflection surfaces.
The bottom surface 23 is located on both sides of the cavity 20. In this embodiment, the lens 2 further includes a pair of posts 24, the posts 24 protrude from the bottom surface 23 toward the side where the light source plate 11 is located and are located at two sides of the cavity 20, a receiving area 240 is formed by the height of the posts 24 and the space between adjacent posts 24, the light source plate 11 is attached to the end surface of the posts 24, and the light emitting unit 12 is received in the receiving area 240. In other alternative embodiments, the light emitting unit 12 may also be disposed within the cavity 20.
The light emitted by the light emitting unit 12 is divided into three paths through the light path of the light distribution of the lens 2: 1. enters the lens 2 from the first light incident surface 211 and directly exits from the first light emergent surface 221; 2. the first light incident surface and the second light incident surface 224 and the second light incident surface 225 are disposed such that the directions of the light rays emitted from the first light incident surface 221, the second light incident surface 222 and the third light incident surface 223 are substantially the same, and form a large-angle polarized light, in this embodiment, the polarized light angle of the emitted light ray is not less than 45 °, that is, the polarized light angle of the emitted light ray is not less than 45 ° with respect to the light source center line X. In other alternative embodiments, the maximum polarization angle may also be set to a, which is less than 45 °.
In the present embodiment, the light distribution of the light source module 1302 to which the lens 2 is applied is batwing light distribution.
As shown in fig. 6, in another cross-sectional structure of the lens 2 'provided in this embodiment, the structure of the lens 2' is similar to that of the lens 2, and each of the cross-sectional structures has an inner surface 21', an outer surface 22', a bottom surface 23', and a cavity 20', and the structures of the cavity 20 'and the inner surface 21' of the lens 2 'are the same as those of the cavity 20 and the inner surface 21 of the lens 2, i.e. the inner surface 21' includes a first light incident surface 211 'and a second light incident surface 212' which are connected, and the first light incident surface 211 'and the second light incident surface 212' are connected to form a tooth angle. The difference is that the outer surface 22' of the lens 2' only includes the first light-emitting surface 221', the second light-emitting surface 222' and the first reflecting surface 224' form another tooth angle, and the first light-emitting surface 221' and the second light-emitting surface 222' are adjacent surfaces.
The light emitted from the light emitting unit 12 is split into two paths through the optical path of the light distribution of the lens 2': 1. enters the lens 2' from the first light incident surface 211' and directly exits from the first light emergent surface 221 '; 2. the light enters the lens 2 'from the second light incident surface 212', is reflected by the first reflecting surface 224', and exits from the second light emergent surface 222'. Due to the arrangement of the first reflecting surface 224', the directions of the light rays emitted from the first light emitting surface 221' and the second light emitting surface 222' are approximately the same, and a large-angle polarized light is formed, and the polarized light angle is not less than 45 °. The light distribution of the light source module using the lens 2' is also batwing light distribution.
As shown in fig. 3 and 4, fig. 3 is a schematic view of the light source module assembly 130 in which the lens 2 shines downward, fig. 4 is an exploded view of the light source module 1302, and fig. 4 is a view angle of the light source module 1302 rotated by about 180 ° for clarity. The first base 3 includes a first body 31 and a first connecting portion 32, where the first body 31 is in a shape of a cover, and the opening faces the light source board 11. The first connection portion 32 is detachably connected to the light source board 11, for example, a screw connection, a clamping connection, a plugging connection, or the like may be adopted. The first body 31 includes a first top surface 311 and a first side surface 312 connected to the first top surface 311, wherein the first top surface 311 is a plane, and the first side surface 312 extends to the first connection portion 32.
The second base 4 includes a second body 41 and a second accommodating portion 42, the second body 41 is in a cover shape, and the opening faces the light source board 11, and the light source board 11 is accommodated in the second accommodating portion 42. The second base 4 and the light source plate 11 can be detachably connected, for example, screw connection, clamping connection, plugging connection and the like can be adopted. The second body 41 includes a second top surface 411 and a first side surface 412 connected to the second top surface 411, the second top surface 411 is a plane, and the second side surface 412 extends to the second accommodating portion 42. As shown in fig. 3, in the present embodiment, the lens 2 is disposed on the lower side of the second base 4, and the lens 2 is disposed annularly on the outer side of the first base 3. In other alternative embodiments, the setting position of the lens 2 is not limited thereto.
As shown in fig. 3, when adjacent light source modules 302 are stacked, the opposite first base 3 and second base 4 are sequentially connected, for example, the first base 3 of the light source module 302 located above is plugged onto the second base 4 of the light source module 302 located below, so that the adjacent light source modules 302 are fixedly connected, and the lowest light source module 302 is connected to the lamp cap 301.
In the present embodiment, the light source module assembly 130, which is composed of a lamp cap 301 and a plurality of light source modules 302, has a columnar shape and is installed in the accommodating space of the lighting device 100. The number of combinations of the light source modules 302 can be selected according to the power required by different occasions, so that the flexibility of using the lighting device 100 is improved.
In summary, in the lighting device 100 provided by the embodiment of the invention, the lens 2 therein forms large-angle polarized light by arranging the first reflecting surface 224 and the second reflecting surface 225, and the design of light path segmentation is adopted, so that the lens 2 has higher light distribution efficiency. The power of the light source module combination 130 can be conveniently adjusted according to occasions by using the light source module combination 130 of the lens 2, and the light distribution of the light source module combination 130 is batwing light distribution, so that the luminous efficiency of the lighting device 100 serving as a garden lamp is greatly improved.
Example 2
Fig. 7 to fig. 9 show a lighting device 100a according to the present invention, which includes a base 110a, a top cover 140a, a cover 120a connected between the base 110a and the top cover 140a, a light source module 130a disposed on the top cover 140a, and a routing rod 150a, wherein the base 110a, the cover 120a and the top cover 140a are connected to form a containing space (not labeled), and the light source module 130a and the routing rod 150a are contained in the containing space. The lighting device 100a of the embodiment of the invention can be applied to a garden lamp, which mainly shines towards the ground, but can also shine upwards.
The following describes the connection relationship between each element in the lighting device 100a according to embodiment 2 of the present invention.
As shown in fig. 7, the base 110a is generally conical and may be made of a metallic material. The base 110a has a connection portion (not shown) for fixing to a mounting base (not shown). A driving power supply (not shown) is provided in the base 111 a.
The cover 120a has a ring structure with a certain height, so that the height of the accommodating space meets the light emitting requirement of the light source module 130 a. The cover 120a is a diffusion mask, a lens mask, or a frosted mask.
The top cover 140a has a substantially conical shape, and a mounting portion 141a for mounting the light source module 130a is provided on the inner side of the top cover 140 a. The light source module 130a is detachably connected to the mounting portion 141a, for example, by a screw connection or a snap connection.
The routing rod 150a is connected between the base 110a and the top cover 140a, and is a hollow tubular structure for routing wires connected from the output end of the driving power source, so as to supply power to the light source module 30a located on the top cover 40 a.
As shown in fig. 8 and 9, the light source module 130a includes a light emitting module 1a and a lens assembly 200a disposed on one side of the light emitting module 1a.
The light emitting assembly 1a includes a light source plate 11a and a plurality of light emitting units 12a disposed on the light source plate 11a, the plurality of light emitting units 12a forming a ring shape. In this embodiment, the light source plate 11a is a circular plate, the plurality of light emitting units 12a form two concentric annular structures of an inner ring and an outer ring, the inner ring structure 121a is circular, and the outer ring structure 122a is petal-shaped. The light emitting unit 12a is an LED light source.
The lens assembly 200a is provided in a ring shape, detachably connected to the light source plate 11a, and entirely covers the light emitting unit 12a. The lens assembly 200a includes a first annular lens 201a and a second annular lens 202a, the first annular lens 201a overlying the inner annular structure 121a and the second annular structure 202a overlying the outer annular structure 122a. The first annular lens 201a and the second annular lens 202a may be integrally formed, or may be composed of a plurality of arcuate lenses 2a, which have the same cross section in the extending direction.
The cross-sectional structure of the lens 2a may employ any of the cross-sectional structures of the lenses 2 provided in embodiment 1. The light distribution of the lens 2a is batwing light distribution. The lens 2a forms large-angle polarized light by arranging the reflecting surface, and the lens 2a distributes light in two paths or three paths, and the directions of the two paths or the three paths are approximately the same, so that the lens 2a has higher light distribution efficiency. In this embodiment, the first annular lens 201a and the second annular lens 202a both adopt the light distribution direction of the internal polarized light, that is, the annular internal polarized light of the first annular lens 201a and the second annular lens 202a, in this way, the distance from the light to the cover 120a can be longer, the irradiation range is larger, the cover 120a can be more uniform for the diffusion mask, and the light distribution of the batwing of the lens 2a is not affected by the irradiation mode for the transparent mask or the frosted mask. In other alternative embodiments, the first annular lens 201a and the second annular lens 202a may also employ the light distribution direction of the external polarized light, that is, the annular external polarized light to the first annular lens 201a and the second annular lens 202 a.
In summary, in the lighting device 100a provided by the embodiment of the present invention, the lens assembly 200a therein adopts a segmented annular assembly structure, so that the assembly mode of the lens 2a can be adjusted according to the power required by the application scene. The lens 2a in the lens combination 200a forms a large angle polarization and has a high light distribution efficiency. The light source module 30a using the lens assembly 200a has higher luminous efficiency.
Example 3
Fig. 10 and 11 show a lighting device 100b according to the present invention, which includes a base 110b, a top cover 140b, a cover 120b connected between the base 110b and the top cover 140b, a light source module 130b disposed on the top cover 140b, and a decoration column 150b, wherein the base 110b, the cover 120b and the top cover 140b are connected to form a containing space (not labeled) in which the light source module 130b and the decoration column 150b are contained. The lighting device 100b of the embodiment of the invention can be applied to a garden lamp, which mainly shines towards the ground, but can also shine upwards.
The structures of the base 110b, the cover 120b and the top cover 140b may be the same as or similar to those of the base 110a, the cover 120b and the top cover 140a provided in embodiment 2, and may be other structures.
The decoration column 150b is connected between the base 110b and the top cover 140b, and a pipe through which a wire passes is provided inside the decoration column 150b for supplying power to the light source module 130b positioned on the top cover 140 b.
As shown in fig. 11, the light source module 130b includes a light emitting module 1b and a lens assembly 200b disposed on one side of the light emitting module 1 b. The light emitting assembly 1b includes a light source board 11b and a plurality of light emitting units (not shown) disposed on the light source board 11 b. In this embodiment, the light source plate 11b is a circular plate, and the plurality of light emitting units form two concentric annular structures of an inner ring and an outer ring, and the inner ring structure and the outer ring structure are both equilateral polygons.
The lens assembly 200b is provided in a ring shape, detachably connected to the light source plate 11b, and entirely covers the light emitting unit. Specifically, the lens assembly 200b includes a first annular lens 201b and a second annular lens 202b, where the first annular lens 201b and the second annular lens 202b are equilateral polygons, and the first annular lens 201b covers the inner annular structure and the second annular lens 202b covers the outer annular structure. The first annular lens 201b and the second annular lens 202b are each composed of a plurality of straight strip-shaped lenses 2 b. Also, the cross section of the lens 2b in the extending direction is the same, and the cross-sectional structure thereof may be any of the cross-sectional structures of the lenses 2 provided in embodiment 1.
The light distribution of the lens 2b is batwing light distribution. The lens 2b forms large-angle polarized light by arranging the reflecting surface, and the lens 2b distributes light in two paths or three paths, and the directions of the two paths or the three paths are approximately the same, so that the lens 2b has higher light distribution efficiency. In the present embodiment, the first annular lens 201b is internally polarized, i.e. polarized to the annular inner side of the lens 2b, for illuminating the decorative columns 150b in the lighting device 100 b; the second annular lens 202b is an external polarized light, i.e., polarized light toward the annular outer side of the lens 2b, for brightening the ground.
In summary, in the lighting device 100b provided by the embodiment of the present invention, the lens assembly 200b therein adopts a segmented annular assembly structure, so that the assembly mode of the lens 2b can be adjusted according to the power required by the application scene, and the deflection direction of the outgoing light ray can be flexibly adjusted. The lens 2b in the lens assembly 200b is provided with a reflecting surface to form large-angle polarized light, and has higher light distribution efficiency, and the light source module 30b applying the lens assembly 200b has higher luminous efficiency.
Example 4
Fig. 12 shows a lens assembly 200c of the present invention comprising three curved lenses 20c, configured like an equilateral triangle.
The cross section of the lens 20c in the extending direction is the same, and the cross-sectional structure thereof may be any of the cross-sectional structures of the lenses 2 provided in embodiment 1. The lens 2c is provided with a reflecting surface, so that the light emitted by the lens 2c forms large-angle polarized light, the specific light type is batwing light distribution, and the incident light is distributed in two paths or three paths, and the directions of the two paths or the three paths are approximately the same. In the present embodiment, the lens assembly 200c is an external polarized light set.
The lens combination 200c provided in this embodiment 4 can be applied to any one of the lighting devices of embodiments 1 to 3.
While the foregoing is directed to embodiments of the present invention, other and further details of the invention may be had by the present invention, it should be understood that the foregoing description is merely illustrative of the present invention and that no limitations are intended to the scope of the invention, except insofar as modifications, equivalents, improvements or modifications may be made within the spirit and principles of the invention.

Claims (17)

1. A lens combination is characterized by comprising a plurality of strip-shaped lenses, wherein the lenses form a ring shape, the cross section of each point of the lenses in the extending direction is the same, the lens combination comprises an inner surface, an outer surface, a bottom surface and a cavity, the wall surface of the cavity is the inner surface of the lens,
the bottom surface is located on both sides of the cavity,
the inner surface is a light incident surface and comprises a first light incident surface and a second light incident surface which are connected, the first light incident surface and the second light incident surface are connected to form a first tooth angle,
the outer surface comprises a light-emitting surface and a reflecting surface, the light-emitting surface comprises a first light-emitting surface and a second light-emitting surface, the reflecting surface comprises a first reflecting surface, the first light-emitting surface and the first reflecting surface respectively extend to the bottom surface, the second light-emitting surface and the first reflecting surface form a second tooth angle,
the lens is of an extension type structure, a cross section perpendicular to the extension direction of the lens is a cross section of the lens, the first tooth angle and the second tooth angle are positioned on the same side of the central line of the cross section of the lens, and incident light enters the lens from the inner surface and exits from the outer surface to one side of the lens;
the directions of the light rays emitted by the outer surfaces are approximately the same, and the deflection angle relative to the central line of the light source is not less than 45 degrees;
the first light-emitting surface and the first reflecting surface are curved surfaces protruding along the direction away from the cavity.
2. The lens assembly of claim 1, wherein light entering said lens from said first light entrance surface is directed out of said first light exit surface, light entering said lens from said second light entrance surface is reflected by said first reflective surface and is directed out of said second light exit surface,
the directions of the light rays emitted by the first light-emitting surface and the second light-emitting surface are approximately the same.
3. The lens assembly of claim 1, wherein the light exit surface further comprises a third light exit surface, the reflective surface further comprises a second reflective surface, the third light exit surface and the second reflective surface form a third tooth angle, the third light exit surface is adjacent to the first light exit surface, the second reflective surface is adjacent to the second light exit surface,
the light entering the lens from the first light incident surface is partially reflected by the second reflecting surface and then exits from the third light emergent surface,
the direction of the light rays emitted from the third light emitting surface is approximately the same as the direction of the light rays emitted from the first light emitting surface and the second light emitting surface.
4. A lens assembly as claimed in claim 3, wherein the third tooth angle and the second tooth angle are located on different sides of the centre line of the light source.
5. A lens assembly according to claim 3, wherein the second reflecting surface is opposite to the second light emitting surface and forms a V-shaped structure.
6. The lens assembly of claim 1, wherein the annular lenses are oriented in the same direction of light exiting the annular lenses, and are oriented either inward or outward of the annular lenses.
7. The lens combination of claim 1, wherein the lens combination comprises at least two annular lenses, wherein the light exiting direction of at least one annular lens is toward the inside of the annular shape and the light exiting direction of the other annular lens is toward the outside of the annular shape.
8. The lens assembly of claim 1, wherein the lens further comprises a pair of posts projecting outwardly from the bottom surface and located on either side of the cavity.
9. The lens combination of claim 1, wherein the shape of the lens comprises a straight bar shape or an arc shape, and the ring shape comprises a circular ring, a polygonal shape, a petal shape.
10. The light source module is characterized by comprising a light emitting component and the lens combination of any one of claims 1-9, wherein the light emitting component comprises a light source plate and a plurality of light emitting units arranged on the light source plate, the light emitting units and the lenses are all arranged in a ring shape, and the lenses cover the light emitting units.
11. The light source module of claim 10, wherein the lens further comprises a pair of posts protruding outward from the bottom surface and located on two sides of the cavity, the posts forming a receiving area, the light emitting unit being received in the receiving area.
12. The light source module of claim 10, wherein the lens assembly is removably coupled to the light source board.
13. The light source module of claim 10, further comprising a first base and a second base, wherein the first base and the second base are located on two sides of the light emitting assembly, respectively.
14. The light source module of claim 13, wherein the lens is annularly disposed on one side or the outside of the first base and the second base.
15. A lighting device comprising a top cover, a cover connected to the top cover, and the light source module of any one of claims 10-14, wherein the light source module is disposed on the top cover, and light emitted from the light source module is transmitted through the cover.
16. A lighting device as recited in claim 15, further comprising a base, said cover being connected between said top cover and said base.
17. A lighting device as recited in claim 16, wherein said light emitted by said light source module is distributed by said lens and said outgoing light is one or a combination of polarized light toward an inside of said lens in a ring shape or polarized light toward an outside of said lens.
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