CN114321781A - Lighting module, lighting lamp and lighting method for simulating sunlight irradiation - Google Patents

Abstract

The invention relates to an illumination module, an illumination lamp and an illumination method for simulating sunlight irradiation, wherein the illumination lamp comprises a lamp system module, a backlight module and an illumination module, the illumination module comprises a lamp source, a lamp source radiator, a lamp cup and a lamp cup fixing seat, the lamp cup is arranged on the lamp cup fixing seat, the lamp source is arranged in the lamp cup and is horizontally aligned with the position of the lamp cup, the lamp source radiator is arranged on one side of the lamp source far away from the lamp cup and is horizontally arranged with an LED lamp source, the illumination lamp also comprises a light splitting sheet seat and a light splitting sheet, and the light splitting sheet is arranged on the light splitting sheet seat, so that light reflected by the lamp cup is reflected, and the reflected light is reflected to the indoor ground or wall surface. The light emitted by the lamp source and reflected by the lamp cup is reflected by the light splitting sheet, so that the reflected light appears on the ground or the wall surface, and the clear, bright and uniform illumination light spots are obtained by arranging the multi-component light splitting sheet and the illumination modules which are symmetrical left and right.

Description

Lighting module, lighting lamp and lighting method for simulating sunlight irradiation

Technical Field

The invention relates to an illumination structure technology, in particular to an illumination module, an illumination lamp and an illumination method for simulating sunlight irradiation.

Background

People today work indoors (office, laboratory, operating room, subway, underground mall, submarine, mine, etc. environments) for an increasingly long time. The lamp capable of showing sky scenes and sunlight irradiation beams can be achieved through the technology of the patent, and people who face the scene have visual experience and space extending sense of bathing sunlight.

The key elements for simulating sunlight irradiation are two points: (1) the light beam index has a collimated illumination light beam, and can form light spots with a shape similar to that of a light outlet window of the lamp on a flat ground or wall surface. (2) The viewing angle of no light source, when viewing sky scene pattern, at least including not less than 90 degrees of total viewing angle, no light source image can be viewed.

Patent document 1: chinese patent publication No.: CN 205878058U discloses a novel lighting lamp, which is characterized in that it comprises a light source, a flood lighting part and a directional lighting part, both of which are arranged on the path of the light source to provide flood and directional lighting functions. As shown in fig. 1, the light emitted from the lamp 102 is reflected by the interface 21, and there is a problem of overlapping images of the lamp at the interface. The light source of the light emitting part is visually recognized, and a good visual effect cannot be achieved.

Patent document 2: chinese patent publication No.: CN 111609356 a discloses an illumination device, which is characterized by comprising a rayleigh scattering plate, a light emitting part and a total reflection lens. The light emitting section and the Rayleigh scattering plate are obliquely arranged. The total reflection lens is used for reducing the beam angle, and the light shielding parts arranged in an array are also obliquely arranged between the Rayleigh plate and the light emitting component (the light emitting part and the total reflection lens). As shown in fig. 2a and 2 b. The sheet-shaped light shielding parts and the light emitting parts arranged in the array form a serious sight line shielding problem for sight lines, in addition, the sight angle faces the light emitting direction, the light emitting parts and the total reflection lenses can be clearly seen, and the blue sky board (Rayleigh scattering board) can also have the phenomenon of uneven illumination.

Patent document 3: chinese patent publication No.: CN 110382948A discloses a sunlight-based solar simulation lighting device. Characterized by a sunlight based projection system (3) for providing a direct light beam (5). The projection system (3) comprises a sunlight receiving unit (9) having a collector system (13), a plurality of optical fibers (15) and a plurality of optical fiber output channels (44). A collector system (13) collects the natural outdoor light and couples the collected light into a plurality of optical fibers (15). The projection system (3) further comprises a sunlight forming unit (11) having a plurality of optical collimator units (47) arranged in a two-dimensional array, wherein each optical collimator unit (47) receives a respective fiber output light (45) and comprises at least one optical collimator (49) for reducing an angular distribution width of the received divergent fiber output light (45). The output areas of the plurality of optical collimator units (47) substantially form a continuously extending large luminous surface (53) of the solar light forming unit (11) for emitting substantially collimated light beams (5). The generated direct light beam (5) can be used together with a diffuse light generating surface unit to provide a solar sky simulation lighting system with a sun-like appearance. As shown in fig. 3, the problem that the lamps are large in size and the sheet-shaped shading parts arranged in an array form a serious sight line blocking barrier for sight lines exists.

In order to solve the problems, the invention provides an illumination module, an illumination lamp and an illumination method for simulating sunlight irradiation.

Disclosure of Invention

The technical problem to be solved by the invention is to simulate the sunlight illumination indoors without sunlight illumination and simulate the outdoor illumination environment, and can simulate the illumination angle and intensity of sunlight in different time periods. Aiming at the defects in the prior art, the lighting module, the lighting lamp and the lighting method for simulating the irradiation of sunlight are provided.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: the utility model provides a structure a simulation sunlight irradiation's lighting module, wherein, this lighting module includes the lamp source, the lamp source radiator, lamp cup and lamp cup fixing base, the lamp cup sets up on the lamp cup fixing base, the lamp source sets up in the lamp cup, with the horizontal centering in position of lamp cup, the lamp source radiator sets up the one side of keeping away from the lamp cup at the lamp source, and set up with the lamp source level, this lighting module still includes beam splitter seat and beam splitter, the beam splitter sets up on the beam splitter seat, thereby will reflect through the light of lamp cup reflection, make reflected light reflect indoor ground or wall.

Preferably, the plurality of groups of the light splitting sheet seats are horizontally arranged, the light splitting sheets are arranged corresponding to the light splitting sheet seats, and the angles of the plurality of groups of the light splitting sheet seats are fixed or the inclination angles of the light splitting sheet seats are synchronously adjusted, so that the angles of the light splitting sheets are also adjusted.

Preferably, the surfaces of the multiple groups of light splitting sheets are all plated with optical film layers, the optical film layers can play a role in distributing the proportion of reflected light and transmitted light, and the reflectivity of the optical film layers is smaller when the multiple light splitting sheets are closer to the lamp source.

Preferably, the inner wall of the lamp cup is provided with a parabolic reflector, the lamp source is arranged at the focus position of the parabolic reflector, the central area of the parabolic reflector is also provided with a extinction hole, the diameter of the extinction hole is not less than that of the light emitting surface of the lamp source, and the extinction hole area is provided with black materials capable of eliminating light reflection and/or the extinction hole is a through hole.

Preferably, lamp cup fixing base and lamp cup set up to the multiunit along same axial, and the lamp source corresponds the setting with the lamp cup, and multiunit lamp cup fixing base adopts the section bar structure fixed as an organic whole.

A lighting lamp simulating sunlight irradiation comprises a lamp system module, a backlight module and a lighting module, wherein the backlight module and the lighting module are arranged in the lamp system module, and the backlight module is arranged above the lighting module.

Preferably, the lamp system module comprises an outer frame of the illumination lamp, a rear cover of the illumination lamp and a window plate of the illumination lamp, the outer frame of the illumination lamp fixes the backlight module and the illumination module, the frame of the illumination lamp and the rear cover of the illumination lamp form a complete appearance of the illumination lamp, the window plate of the illumination lamp is arranged below the lamp system module, and the window plate of the illumination lamp is transparent optical plastic or glass.

Preferably, the backlight module comprises a backlight source module, a light guide plate and a pattern plate, the backlight source module is installed on the side surface of the light guide plate, the pattern plate is arranged below the light guide plate, a gap is reserved between the pattern plate and the light guide plate, and the light guide plate is made of transparent optical plastic or glass.

An illumination method simulating sunlight irradiation adopts an illumination device simulating sunlight to carry out the following steps:

the method comprises the following steps: adjusting or automatically adjusting the inclination angle of the light splitting sheet seat according to requirements, so as to adjust the inclination angle of the light reflecting sheet and adjust the angle of reflected light rays, thereby realizing the sunlight irradiation angles at different moments;

step two: selecting a pattern required to be set in the backlight module according to the requirement so as to simulate the outdoor environment;

step three: and adjusting the illumination brightness of the lamp source so as to adjust the brightness of the reflected light, obtain the outdoor environment to be simulated and proper brightness, and simulate the irradiation of sunlight.

The invention has the beneficial effects that:

1. the light emitted by the lamp source and reflected by the lamp cup is reflected by the light splitting sheet, so that the reflected light appears on the ground or the wall surface, and the clear, bright and uniform illumination light spots are obtained by arranging the multi-component light splitting sheet and the illumination modules which are symmetrical left and right.

2. The environment preset by the pattern plate of the backlight module realizes the indoor simulation of the outdoor space environment according to the requirement.

3. The whole lighting lamp consisting of the lamp system module, the backlight module and the lighting module has small volume and easy assembly, and is convenient for maintenance and replacement of parts.

4. The adjustment of the brightness and the angle of the reflected light beam is performed through the adjustable inclination angle of the light splitting piece and the brightness of the light source, and then the simulation of the sunlight irradiation in different time periods is realized.

5. When a person looks at the lighting lamp, the person cannot see the images of the lamp source and the radiator, the problem of sight line shielding cannot be caused, and the watching visual effect is better.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only part of the embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive efforts according to the accompanying drawings:

fig. 1 is a schematic structural view of patent document 1 of the present invention;

fig. 2a is a schematic structural view of patent document 2 of the present invention;

fig. 2b is a schematic structural view of patent document 2 of the present invention;

fig. 3 is a schematic structural view of patent document 3 of the present invention;

fig. 4 is an exploded view of a lighting module according to a preferred embodiment of the invention (only one lamp cup exploded);

FIG. 5 is an exploded view of a lighting fixture in accordance with a preferred embodiment of the present invention;

FIG. 6 is a perspective view of a lighting fixture in accordance with a preferred embodiment of the present invention;

FIG. 7 is an overall light path diagram of a lighting fixture according to a preferred embodiment of the present invention;

FIG. 8 is a light path diagram of a single lamp cup according to a preferred embodiment of the present invention;

FIG. 9 is a schematic diagram illustrating an inclination angle of a light splitter according to a preferred embodiment of the present invention;

FIG. 10 is a diagram of a parametric model function for a lamp cup in accordance with a preferred embodiment of the present invention;

FIG. 11 is a diagram showing the effect of the preferred embodiment of the present invention (45 degree for the beam splitter).

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following will clearly and completely describe the technical solutions in the embodiments of the present invention, and it is obvious that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without inventive step, are within the scope of the present invention.

The lighting module 3 of the preferred embodiment of the present invention for simulating sunlight irradiation comprises a light source 33, a light source radiator 34, a light cup 32 and a light cup fixing seat 31; the lamp cup 32 is fixedly arranged on the lamp cup fixing seat 31, the lamp source 33 is arranged in the lamp cup 32, and the positions of the lamp source 33 and the lamp cup 32 are horizontally aligned, so that light rays irradiated by the lamp source 33 firstly irradiate the parabolic reflector 322 of the lamp cup 32, light rays emitted by the parabolic reflector 322 obtain parallel light rays which are approximately collimated from a light diverging state during emergent, and actual measurement shows that the error between the light rays reflected by the parabolic reflector 322 and the horizontal light rays is plus or minus 5 degrees, namely the full divergence angle of light beams of the emergent light rays reflected by the parabolic reflector 322 is less than or equal to 5 degrees. The lamp radiator 34 is disposed on a side of the lamp 33 away from the lamp cup 32 and horizontally disposed with the lamp 33, so as to radiate heat from the lamp 33, thereby improving the lighting efficiency and life of the lamp 33. This lighting module 3 still includes beam splitter 35 and beam splitter seat 36, and beam splitter seat 35 sets up on the reflection ray path of parabolic mirror 322 of lamp cup 32, sets up beam splitter 36 on beam splitter seat 35 to light that will reflect through parabolic mirror 322 reflection comes reflects and refracts, makes perpendicular downwards after the light reflection of beam splitter 36, then obtains the even facula of light projection energy distribution, forms the effect of simulation daylight illumination. The lamp cup fixing seat 31 is fixed integrally to the lamp cup 32 by adopting a profile structure.

Further, the total beam divergence angle of the light reflected from the parabolic mirror 322 is ≦ 5 °, so that the description of the surface shape parameter of the parabolic mirror 322 needs to satisfy the following relationship:

(wherein, C1/R)

Z: the deviation amount of the character surface vertex Z starting from 0 and deviating from the tangent plane along the optical axis direction;

r: radius (bus bar apex out);

h: height from the optical axis;

k: conic coefficient (where the most critical feature data K ═ 1).

The light source 33 is arranged at the focus position of the parabolic reflector 322, wherein the focal length f of the parabolic reflector 322 is R/2; the diameter of the light emitting surface of the light source 33 is D, and when D/2 ≧ R/2 ≧ tan (5 °/2), that is, D/R ≧ 0.04366, where R: radius of curvature of the parabolic mirror 322, D: the diameter of the light emitting surface of the light source. Collimated parallel rays can be obtained at this time.

Furthermore, the central area of the parabolic reflector 322 of the lamp cup 32 is provided with an extinction hole 321, and the relationship between the diameter D of the extinction hole 321 and the diameter D of the light emitting surface of the lamp source 33 needs to satisfy D ≧ D. The light-eliminating hole 321 can be made of black reflective material capable of eliminating light, or the light-eliminating hole 321 can be made of a through hole, so that light in the central area emitted by the light source 33 can be transmitted out to illuminate the outside. The parabolic reflector 322 is provided with the extinction hole 321 to eliminate the image of the lamp 33, so that when the observer views the lighting fixture through the beam splitter 36, only the illumination of the light beam is observed, and the image of the lamp 33 cannot be observed.

Further, the surface of the lamp heat sink 34 has a black extinction property, and preferably, the reflectance of the lamp heat sink 34 with respect to visible light satisfies R_HIs less than or equal to 10% so that an observer looking through the beamsplitter 36 at the lamp will only see the beam but not the image of the lamp heat sink 34. Meanwhile, the lamp source radiator 34 has a conduction and heat dissipation effect on heat generated by the lamp source 33 during operation, in order to achieve a better shielding effect on the lamp source 33, the width W of the lamp source radiator and the diameter d of the extinction hole 321 need to satisfy W ≧ d, so that the lamp source radiator 34 completely shields an image of the lamp source 33, an observer can only see a light beam when watching the lighting lamp, and cannot see the influence of the lamp source 33 and the lamp source radiator 34, and the irradiation effect is better.

Further, the light splitting sheet seat 35 and the light splitting sheet 36 can be set into a plurality of groups and are horizontally distributed, when light reflected by the lamp cup 32 passes through the light splitting sheet 36, the light is partially reflected to the ground or the wall, the light partially passes through the light splitting sheet 36 and then is reflected by the next group of light splitting sheets 36, the light splitting sheet seat 35 and the light splitting sheet 36 are set into 5 groups, and the plurality of groups can be set according to actual conditions. The angle of the light splitting sheet seat 35 is fixed, so that the light rays are vertically downward after being reflected, in practice, the inclination angle of the light splitting sheet seat 35 can be adjusted, the angle adjustment can adopt a common mode that all the light splitting sheet seats 35 are driven to rotate together by a hand dial, such as a connection mode of a lily window, so that the angle is adjusted according to actual requirements, the light splitting sheets 36 with different angles project the light irradiating the light splitting sheets into light spots with uniform energy distribution, and a sunlight irradiation simulation effect is formed, the uniform sunlight irradiation condition can be controlled and simulated at different angles, and when the brightness intensity of the light source 33 is changed, the sunlight irradiation in different time periods can be correspondingly set, and the light irradiates the ground or the wall. The structural design that the lamp cup 32, the lamp source 33, the lamp source radiator 34 and the light splitting sheet 36 are in the same horizontal position is adopted, so that the illumination intensity of the illumination light spots is uniform.

Further, in order to increase the illumination effect, the lamp cup fixing seat 31 and the lamp cup 32 are arranged in multiple groups along the same axial direction, and the corresponding lamp sources 33 are arranged in multiple groups, so that the illumination effect is better, and the illumination modules 3 are distributed in bilateral symmetry, so that the illumination brightness on two sides is the same. At this time, the adjustment angle of the left spectroscope 36 is between 90 degrees and 180 degrees, and the adjustment angle of the right spectroscope 36 is between 0 degrees and 90 degrees, which are not essential numbers. When the light splitting sheets 36 are bilaterally symmetrical, high-brightness ground or wall light spots can be illuminated, the illumination effect can be enhanced on the backlight module 2, after part of light beams of collimated parallel light beams generated by the illumination module 3 on the left side penetrate through all the light splitting sheets 36 on the left side, the light splitting sheets 36 on the right side can reflect the passed parallel light beams, and the reflected light rays can enhance the illumination effect on the backlight module 2; similarly, the right illumination module 3 can also perform the same function, thereby realizing high-luminance illumination.

Further, the light splitter 36 uses a transparent medium, and for the collimated parallel light beam coming out from the parabolic reflector 322, a part of light can be reflected to the ground, and a part of light can be transmitted to the next light splitter 36, and for the next light splitter 36, the above principle is still used to achieve sufficient reflection of the light beam. The surface reflectance of the spectroscope 36 is R_pThe parameter conditions met by the method are as follows: 2% ≦ R_p≦ 45%. The surface of the light splitting sheet 36 is plated with an optical film layer which plays a role in distributing the proportion of reflected light and transmitted light to the collimated parallel light beams entering the spirit. When N sets of the light-splitting sheets 36 are arranged, in order to realize uniform illumination spots, the parameters of the light-splitting sheets 36 need to be reasonably set, and from left to right, the reflectivity of the light-splitting film layer of the first light-splitting sheet 36 unit is

Reflectivity of the light splitting film layer of the second light splitting sheet 36 unit

And (5) calculating in sequence. When the light splitting sheets 36 are symmetrically distributed left and right, the light splitting sheets are arranged from right to left according to the same parameter setting mode, so that more uniform irradiation spots can be realized. The light splitter 36 can also realize another important characteristic, and the switching of the simulated sunlight irradiation angle can be realized by adjusting the inclination angle of the light splitter 36, so as to simulate the sunlight at different moments. In this case, when the beam splitter 36 is placed at an angle of 45 ° with respect to the collimated parallel light beam, the irradiation light beam of sunlight is directed vertically downward, which may be reflected as simulating the irradiation of sunlight at noon; when the beam splitter 36 is at θ ° to the collimated parallel beam, the reflected beam is rotated at 2 θ °. The included angle between the light splitting sheet 36 and the collimated parallel light beams is adjusted, so that the solar irradiation angles at different moments are realized, and then the irradiation brightness and the temperature of the light source 33 are adjusted, so that the solar irradiation intensity at different moments is also realized, the external sensor can be adopted to receive the irradiation condition of real-time sunlight, the inclination angle of the light splitting sheet 36 and the illumination brightness of the light source 33 are automatically adjusted, and the automatic simulation of sunlight irradiation is realized; and the light source can be manually adjusted to a certain specified angle and brightness for use, so that the application range is wider.

The lighting lamp provided with the lighting module 3 and simulating sunlight irradiation in the preferred embodiment of the invention; the lamp system module 1 is internally provided with the backlight module 2 and the lighting module 3, and the backlight module 2 is arranged above the lighting module 3. The whole lighting lamp is hung in a fixed place by the lamp appearance consisting of the lamp system module 1, the backlight module 2 and the lighting module 3 are arranged inside the lamp system module 1, and the indoor simulation environment such as setting wide patterns of sky, blue sky, white cloud, warm sun and the like is arranged in the backlight module 2, so that the outdoor environment is simulated indoors, and people can see the lighting lamp just like the outdoor space environment. And the light that sends out in the lighting module 3 reflects indoor ground or wall through the lower surface of lamps and lanterns system module 1, shines indoor, produces similar sunshine and shines the effect to realize the illumination lamps and lanterns of simulation sunlight. In order to facilitate the fixation of the backlight module 2 and the lighting module 3 in the lamp system module 1, the invention adopts a fixed arrangement mode, can also adopt a detachable mode for connection and fixation, and can also fix the backlight module 2 and the lighting module 3 in the lamp system module 1 by conventional modes such as screw fixation, buckle fixation and the like.

Further, the luminaire system module 1 comprises a luminaire outer frame 12, a luminaire back cover 11 and a luminaire window plate 13, the luminaire outer frame 12 fixes the backlight module 2 and the lighting module 3 to form the whole luminaire shape, and the luminaire back cover 11 together with the luminaire frame 12 form the whole luminaire shape. The lighting fixture window plate 13 is disposed below the lighting fixture system module 1, and the lighting fixture window plate 13 is made of a transparent material, such as transparent optical plastic or glass, which allows light to pass through, so that the light in the lighting module 3 passes through the lighting fixture window plate 13 to illuminate the room. The lighting fixture window plate 13 can adopt a light blue transparent plate, a white transparent plate or a cyan hollow plate as required, thereby forming a light mixing effect and enabling the light emitting effect to be uniform. The outer frame 12 of the illumination lamp is formed by assembling and disassembling four plates, namely, a front plate, a rear plate, a left plate and a right plate, and can be used for conveniently assembling and maintaining the illumination module 3 in the outer frame 12 of the illumination lamp.

Further, the backlight module 2 includes a backlight source module 22, a light guide plate 21 and a pattern plate 23, the backlight source module 22 is installed on a side surface of the light guide plate 21, and the pattern plate 23 is disposed below the light guide plate 21 and has a gap with the light guide plate 21. The light guide plate 21 can diffuse the light beams emitted from the backlight source module 22, and the reflected light is diffused at various angles in the light guide plate 21 and then diffusely reflected to the surface of the light guide plate 21, so that the light guide plate 21 can emit light uniformly, thereby providing light for the pattern plate 23. By adopting the laser engraving process on the base material of the light guide plate 21, a better reflection effect can be realized. The pattern plate 23 is provided with patterns, so that the indoor simulation of the outdoor environment is realized, and the pattern plate 23 is provided with patterns such as wide sky, blue sky, white cloud, warm sun and the like according to requirements, so that the indoor simulation of the outdoor environment is realized. In order to achieve good visual effect, the light guide plate is selected to be a light-permeable material, such as transparent optical plastic or glass, and the illumination uniformity of the light guide plate is greater than or equal to 70%, and the illumination value is greater than or equal to 300 lux, so that the light guide plate 21 provides uniform illumination light to the pattern plate 23, and illuminates the pattern of the pattern plate 23, thereby better presenting the set environment.

Further, the backlight source module 22 and the light source 33 are LED lamps, or may include white light spectrum with high color temperature and low color temperature, and may further include an infrared band and an appropriate ultraviolet component which is safe and beneficial to human body.

When the light splitting device is assembled and disassembled, each part can be split due to the adoption of a screw connection mode, so that the maintenance and the replacement of the parts are facilitated, and the irradiation light spots can appear on the wall surface or the ground by adjusting the angle of the light splitting sheet seat 35 and further adjusting the angle of the light splitting sheet 36. And an illumination light splitting structure is adopted, so that bright and uniform illumination light spots with clear boundaries are obtained.

In the illumination method for simulating sunlight irradiation according to the preferred embodiment of the present invention, after the light source 33 emits light, due to the shielding of the light source heat sink 34, the light beam emitted from the light source 33 is reflected by the parabolic reflector 322 in the lamp cup 32 to become a horizontal light beam, and then the reflected light beam reflects a part of the light beam under the action of the light splitting sheet 36, so that the light beam vertically faces downward, and a part of the light beam passes through the light splitting sheet 36, and under the action of the next light splitting sheet 36, the action of the previous light splitting sheet 36 is repeated, thereby realizing the purpose of simulating sunlight irradiation of the light beam on the ground or the wall surface. When the light beam of different angles of needs shines, adjust the inclination of beam splitter seat 35 as required to the inclination of adjustment reflector 36 carries out the regulation of reflection ray angle, thereby realizes the sunshine irradiation of different angles, like morning, noon and afternoon the shining angle homogeneous difference of sunlight. The required pattern can be set on the backlight module 2 according to the requirement, so as to simulate the outdoor environment. The brightness of the reflected light can be adjusted by adjusting the illumination brightness of the light source 33, so as to obtain the outdoor environment to be simulated and the proper brightness, and simulate the sunlight irradiation. The manual mode of adoption is adjusted in the present case, also can carry out automatic regulation control as required, for example gather the sunlight irradiation condition of outdoor environment, then automatic control adjusts the angle of beam splitter seat 35 in order to adjust the inclination of beam splitter 36 and control the luminous luminance of lamp source 33, realizes real-time simulation sunlight and shines.

It is to be understood that the present invention has been described with reference to certain embodiments, and that various changes in the features and embodiments, or equivalent substitutions may be made therein by those skilled in the art without departing from the spirit and scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. The utility model provides a simulation sunlight irradiation's lighting module, this lighting module includes lamp source, lamp source radiator, lamp cup and lamp cup fixing base, the lamp cup sets up on lamp cup fixing base, the lamp source sets up in the lamp cup, with the position level centering of lamp cup, the lamp source radiator sets up the one side of keeping away from the lamp cup at the lamp source to set up its characterized in that with lamp source level: this lighting module still includes beam splitter seat and beam splitter, the beam splitter sets up on the beam splitter seat to reflect the light of reflection through the lamp cup, make reflected light reflect indoor ground or wall.

2. The lighting module of claim 1, wherein: the light splitting sheet seats are horizontally provided with a plurality of groups, and the light splitting sheets are arranged corresponding to the light splitting sheet seats;

the multi-group light splitting sheet seat is fixed in angle or the inclination angle is synchronously adjusted, so that the angle of the light splitting sheet is also adjusted.

3. The lighting module of claim 2, wherein: the surfaces of the multiple groups of light splitting sheets are all plated with optical film layers, the optical film layers can play a role in distributing the proportion of reflected light and transmitted light, and the reflectivity of the optical film layers is smaller when the multiple groups of light splitting sheets are closer to the lamp source.

4. A lighting module as recited in any one of claims 1-3, wherein: the inner wall of the lamp cup is provided with a parabolic reflector, the lamp source is arranged at the focus position of the parabolic reflector, the central area of the parabolic reflector is also provided with a light extinction hole, and the diameter of the light extinction hole is not less than the diameter of the light emitting surface of the lamp source.

5. The lighting module of claim 4, wherein: the extinction hole area is made of black materials capable of eliminating light reflection and/or the extinction hole is a through hole.

6. The lighting module of any one of claims 1-3, 5, wherein: the lamp cup fixing seats and the lamp cups are arranged into a plurality of groups along the same axial direction, the lamp sources are arranged corresponding to the lamp cups, and the plurality of groups of lamp cup fixing seats are fixed into a whole by adopting a profile structure.

7. A lighting fixture simulating sunlight exposure having a fixture system module, a backlight module and a lighting module as claimed in any one of claims 1 to 6, characterized in that: the lamp system module is internally provided with a backlight module and an illumination module, and the backlight module is arranged above the illumination module.

8. The lighting fixture of claim 7, wherein: the lamp system module comprises an outer frame of the lighting lamp, a rear cover of the lighting lamp and a window plate of the lighting lamp, the outer frame of the lighting lamp fixes the backlight module and the lighting module, the frame of the lighting lamp and the rear cover of the lighting lamp form a complete appearance of the lighting lamp, the window plate of the lighting lamp is arranged below the lamp system module, and the window plate of the lighting lamp is transparent optical plastic or glass.

9. The lighting fixture of claim 7, wherein: the backlight module comprises a backlight source module, a light guide plate and a pattern plate, wherein the backlight source module is arranged on the side face of the light guide plate, the pattern plate is arranged below the light guide plate, a gap is reserved between the pattern plate and the light guide plate, and the light guide plate is made of transparent optical plastic or glass.

10. An illumination method simulating irradiation of sunlight, using the apparatus according to claims 7-9 for performing the steps of:

the method comprises the following steps: when the illuminating lamp is used, the inclination angle of the light splitting sheet seat is adjusted according to the requirement, so that the inclination angle of the light reflecting sheet is adjusted, the angle of reflected light is adjusted, and the sunlight irradiation angles at different moments are realized;

step two: selecting a pattern required to be set in the backlight module according to the requirement so as to simulate the outdoor environment;

step three: and adjusting the illumination brightness of the lamp source so as to adjust the brightness of the reflected light, obtain the outdoor environment to be simulated and proper brightness, and simulate the irradiation of sunlight.

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