CN117979514A - Sunlight-simulating lamp, sunlight-simulating system and sunlight-simulating method - Google Patents

Abstract

The invention discloses a simulated sunshine lamp, a simulated sunshine system and a simulated sunshine method, wherein the simulated sunshine lamp comprises: a control processing module; the spectrum adjusting module is connected with the control processing module and is used for illuminating and adjusting the spectrum of the illumination; the storage module is connected with the control processing module and is used for storing a plurality of groups of regional time spectrum data and illumination spectrum data of the spectrum adjusting module; the input module is connected with the control processing module and is used for enabling the control processing module to select and read regional time spectrum data so as to control the spectrum adjusting module to illuminate according to the regional time spectrum data. Therefore, different spectrums are selected for illumination, sunlight effects in different areas and different times can be simulated, the requirements of a user for experiencing solar bath in different areas and different times can be met, and the requirements of sunlight in different areas for supplementing light to plants can be simulated.

Description

Sunlight-simulating lamp, sunlight-simulating system and sunlight-simulating method

Technical Field

The invention relates to the field of illumination, in particular to a simulated sunshine lamp, a simulated sunshine system and a simulated sunshine method.

Background

At present, lamps simulating the sun sunshine effect exist on the market so as to enable people to experience sun bath or supplement light to plants, but the sunlight sunshine is influenced by natural environment conditions such as altitude, longitude and latitude, climate and the like at different times and areas, the spectrum of the sunshine is different, the existing lamps simulating the sun sunshine effect only has one illumination spectrum, the requirements of people for experiencing sun bath in different areas cannot be met, and the requirements of sunlight in different areas for supplementing light to plants are simulated.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art. For this purpose, the invention proposes a simulated solar light fixture which is capable of selecting different spectra for illumination.

The invention also provides a sun-shine simulation system and a sun-shine simulation method, which can simulate sun-shine spectrums of different areas to illuminate.

According to an embodiment of the first aspect of the invention, the simulated solar light fixture comprises: a control processing module; the spectrum adjusting module is connected with the control processing module and is used for illuminating and adjusting the spectrum of the illumination; the storage module is connected with the control processing module and is used for storing a plurality of groups of regional time spectrum data and illumination spectrum data of the spectrum adjusting module; the input module is connected with the control processing module and is used for enabling the control processing module to select and read regional time spectrum data so as to control the spectrum adjusting module to illuminate according to the regional time spectrum data.

The simulated solar lamp provided by the embodiment of the invention has at least the following beneficial effects: the user selects the region and time which want to simulate sunshine through the input module, the control processing module reads the corresponding region time spectrum data and the illumination spectrum data of the spectrum adjusting module from the storage module according to the signal of the input module, and the control processing module controls the spectrum adjusting module to illuminate according to the region time spectrum data and the illumination spectrum data, so that the spectrum when the spectrum adjusting module illuminates is close to the sunshine spectrum corresponding to the region and time selected by the user. Therefore, different spectrums are selected for illumination, sunlight effects in different areas and different times can be simulated, the requirements of a user for experiencing solar bath in different areas and different times can be met, and the requirements of sunlight in different areas for supplementing light to plants can be simulated.

According to some embodiments of the invention, the spectrum adjustment module comprises a driving unit, and a white light component, a red light component, a green light component, a blue light component and an infrared component which are all connected with the driving unit, and the control processing module is connected with the driving unit.

According to some embodiments of the invention, the white light assembly comprises a plurality of series connected white light LEDs, the red light assembly comprises a plurality of series connected red light LEDs, the green light assembly comprises a plurality of series connected green light LEDs, the blue light assembly comprises a plurality of series connected blue light LEDs, and the infrared assembly comprises a plurality of series connected infrared LEDs.

According to some embodiments of the invention, the driving unit includes PWM driving circuits in one-to-one correspondence with the white light component, the red light component, the green light component, the blue light component, and the infrared component.

According to some embodiments of the invention, the control processing module is connected to the detection module, and the detection module is used for detecting the illumination state of the spectrum adjustment module.

According to some embodiments of the invention, the detection module comprises a brightness sensor, and the control processing module is connected to the brightness sensor, and the brightness sensor is used for detecting the illumination brightness of the spectrum adjustment module.

According to some embodiments of the invention, the display module is further included, and the control processing module is connected with the display module.

According to some embodiments of the invention, the input module includes a wireless communication unit, and the control processing module is connected to the wireless communication unit, and the wireless communication unit is configured to receive an external wireless signal.

According to the simulated solar lighting system, the simulated solar lighting system comprises the simulated solar lighting device, a spectrometer and a calculation processing device, wherein the spectrometer is used for detecting the spectrum of solar light and detecting the spectrum of the spectrum adjusting module, and the calculation processing device is used for generating regional time spectrum data according to solar light spectrum data detected by the spectrometer, detection time and detection places and generating illumination spectrum data according to the spectrum data of the spectrum adjusting module detected by the spectrometer.

The sunlight simulating system provided by the embodiment of the invention has at least the following beneficial effects: and detecting the sunlight spectrum of the region needing to simulate the sunlight by a spectrometer to obtain the sunlight spectrum data of the region at the current time, and detecting the sunlight spectrum data at different times to obtain the sunlight spectrum data at different times of the region. And inputting the corresponding sunlight spectrum data, the region and the time into the computing processing equipment for processing, and generating the region time spectrum data by the computing processing equipment. In addition, the spectrum data of the spectrum adjusting module in different working states are detected through the spectrometer, the spectrum data of the spectrum adjusting module are input to the computing and processing equipment for processing, and the computing and processing equipment generates illumination spectrum data. The regional time spectrum data and the illumination spectrum data are stored in a storage module. The user selects the region and time which want to simulate sunshine through the input module, the control processing module reads the corresponding region time spectrum data and the illumination spectrum data of the spectrum adjusting module from the storage module according to the signal of the input module, and the control processing module controls the spectrum adjusting module to illuminate according to the region time spectrum data and the illumination spectrum data, so that the spectrum when the spectrum adjusting module illuminates is close to the sunshine spectrum corresponding to the region and time selected by the user. Therefore, different spectrums are selected for illumination, sunlight effects in different areas and different times can be simulated, the requirements of a user for experiencing solar bath in different areas and different times can be met, and the requirements of sunlight in different areas for supplementing light to plants can be simulated.

According to a third aspect of the present invention, a method for simulating sunlight applied to the above-mentioned system for simulating sunlight includes:

The spectrometer detects the spectrum of the regional sunshine, and records the spectral data, the place and the time for detecting the sunshine;

the computing processing equipment generates regional time spectrum data according to the sunlight spectrum data, the place and the time;

The spectrometer detects the spectrums of different working states of the spectrum adjusting module and records the spectrum data of the spectrum adjusting module;

the computing processing equipment generates illumination spectrum data according to the spectrum data of the spectrum adjusting module;

storing the regional time spectrum data and the illumination spectrum data in a storage module;

The control processing module acquires and selectively reads regional time spectrum data according to the signals of the input module;

And the control processing module controls the spectrum adjusting module to work and illuminate according to the read regional time spectrum data and the illumination spectrum data.

The sunlight simulation method provided by the embodiment of the invention has at least the following beneficial effects: and detecting the sunlight spectrum of the region needing to simulate the sunlight by a spectrometer to obtain the sunlight spectrum data of the region at the current time, and detecting the sunlight spectrum data at different times to obtain the sunlight spectrum data at different times of the region. And inputting the corresponding sunlight spectrum data, the region and the time into the computing processing equipment for processing, and generating the region time spectrum data by the computing processing equipment. In addition, the spectrum data of the spectrum adjusting module in different working states are detected through the spectrometer, the spectrum data of the spectrum adjusting module are input to the computing and processing equipment for processing, and the computing and processing equipment generates illumination spectrum data. The regional time spectrum data and the illumination spectrum data are stored in a storage module. The user selects the region and time which want to simulate sunshine through the input module, the control processing module acquires and reads the corresponding region time spectrum data and the illumination spectrum data of the spectrum adjusting module from the storage module according to the signal of the input module, and the control processing module controls the spectrum adjusting module to illuminate according to the region time spectrum data and the illumination spectrum data, so that the spectrum when the spectrum adjusting module illuminates is close to the sunshine spectrum corresponding to the region and time selected by the user. Therefore, different spectrums are selected for illumination, sunlight effects in different areas and different times can be simulated, the requirements of a user for experiencing solar bath in different areas and different times can be met, and the requirements of sunlight in different areas for supplementing light to plants can be simulated.

Additional aspects and advantages of the invention will be set forth in part in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention.

Drawings

The foregoing and/or additional aspects and advantages of the invention will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a block diagram showing the structure of one embodiment of the present invention.

Detailed Description

Embodiments of the present invention are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative only and are not to be construed as limiting the invention.

In the description of the present invention, it should be understood that references to orientation descriptions such as upper, lower, front, rear, left, right, etc. are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description of the present invention and to simplify the description, and do not indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present invention.

In the description of the present invention, the description of the first and second is only for the purpose of distinguishing technical features, and should not be construed as indicating or implying relative importance or implying the number of technical features indicated or the precedence of the technical features indicated.

In the description of the present invention, unless explicitly defined otherwise, terms such as arrangement, installation, connection, etc. should be construed broadly and the specific meaning of the terms in the present invention can be reasonably determined by a person skilled in the art in combination with the specific contents of the technical scheme.

As shown in fig. 1, a simulated solar light fixture according to an embodiment of the present invention includes: a control processing module 100; a spectrum adjustment module 200 connected to the control processing module 100, the spectrum adjustment module 200 being configured to illuminate and adjust a spectrum of the illumination; a storage module 300 connected to the control processing module 100, wherein the storage module 300 stores a plurality of groups of regional time spectrum data and illumination spectrum data of the spectrum adjustment module 200; the input module 400 is connected with the control processing module 100, and the input module 400 is used for enabling the control processing module 100 to select to read regional time spectrum data so as to control the spectrum adjustment module 200 to illuminate according to the regional time spectrum data.

The user selects the region and time for simulating the sunlight through the input module 400, the control processing module 100 reads the corresponding region time spectrum data and the illumination spectrum data of the spectrum adjustment module 200 from the storage module 300 according to the signal of the input module 400, and the control processing module 100 controls the spectrum adjustment module 200 to illuminate according to the region time spectrum data and the illumination spectrum data, so that the spectrum when the spectrum adjustment module 200 illuminates is close to the sunlight spectrum corresponding to the region and time selected by the user. Therefore, different spectrums are selected for illumination, sunlight effects in different areas and different times can be simulated, the requirements of a user for experiencing solar bath in different areas and different times can be met, and the requirements of sunlight in different areas for supplementing light to plants can be simulated.

In some embodiments of the present invention, the control processing module 100 may be an implementation of a device including a single-chip microcomputer, an embedded chip, or an FPGA, so as to implement control and processing functions.

In some embodiments of the invention, the memory module 300 may be an implementation that includes volatile or nonvolatile memory, such as Random Access Memory (RAM), dynamic RAM, or cache.

Referring to fig. 1, in some embodiments of the present invention, the spectrum adjustment module 200 includes a driving unit 210, and a white light component 220, a red light component 230, a green light component 240, a blue light component 250, and an infrared component 260, all connected to the driving unit 210, and the control processing module 100 is connected to the driving unit 210.

The control processing module 100 controls the driving unit 210 to work, so that the driving unit 210 outputs corresponding currents to the white light component 220, the red light component 230, the green light component 240, the blue light component 250 and the infrared component 260, respectively, and further can control the luminous intensities of the white light component 220, the red light component 230, the green light component 240, the blue light component 250 and the infrared component 260, so as to be capable of forming different illumination spectrums in a mixing manner. The white light component 220 provides a substrate for the visible spectrum, the red light component 230, the green light component 240, and the blue light component 250 can be adjusted on the basis of the substrate, and the red, green, and blue light as the three primary colors of light can be conveniently adjusted to approximate the selected regional time spectrum. The infrared component 260 generates infrared rays to supplement the infrared spectrum part and simulate the sunlight temperature, and controls the infrared spectrum part according to the regional time spectrum data, so that the intensity of the infrared rays corresponds to the regional time, the temperature generated by illumination can simulate the sunlight temperature, and the solar bath experience is more similar to real sunlight.

In addition, while the spectrum of actual sunlight includes ultraviolet components, no ultraviolet components are added for health, safety, etc.

In some embodiments of the present invention, the white light assembly 220 comprises a plurality of series connected white light LEDs, the red light assembly 230 comprises a plurality of series connected red light LEDs, the green light assembly 240 comprises a plurality of series connected green light LEDs, the blue light assembly 250 comprises a plurality of series connected blue light LEDs, and the infrared assembly 260 comprises a plurality of series connected infrared LEDs.

The structure of a plurality of white light LEDs connected in series, a plurality of red light LEDs connected in series, a plurality of green light LEDs connected in series, a plurality of blue light LEDs connected in series and a plurality of infrared LEDs connected in series is adopted, so that the effect of generating white light, red light, green light, blue light and infrared light is realized, and the LED light source has the advantages of high light efficiency, energy conservation and the like.

Referring to fig. 1, in some embodiments of the present invention, the driving unit 210 includes PWM driving circuits 211 in one-to-one correspondence with the white light component 220, the red light component 230, the green light component 240, the blue light component 250, and the infrared component 260.

The white light component 220, the red light component 230, the green light component 240, the blue light component 250 and the infrared component 260 are driven to work by different PWM driving circuits 211 respectively, and the control processing module 100 can control the average size of driving current by controlling the duty ratio of the PWM driving circuits 211, so that the luminous intensity of the white light component 220, the red light component 230, the green light component 240, the blue light component 250 and the infrared component 260 can be conveniently controlled, and the control and adjustment are simpler and the adjustment to synthesize different spectrums are convenient.

Referring to fig. 1, in some embodiments of the present invention, a detection module 500 is further included, and the control processing module 100 is connected to the detection module 500, and the detection module 500 is used to detect the illumination state of the spectrum adjustment module 200.

The control processing module 100 can obtain the illumination state of the spectrum adjusting module 200 through the detection module 500, and further control the processing module 100 to adjust according to the illumination state of the spectrum adjusting module 200, so that the illumination spectrum of the spectrum adjusting module 200 is more similar to the sunlight spectrum to be simulated.

Referring to fig. 1, in some embodiments of the present invention, the detection module 500 includes a brightness sensor 510, and the control processing module 100 is connected to the brightness sensor 510, and the brightness sensor 510 is used to detect the illumination brightness of the spectrum adjustment module 200.

After long-term use, due to the reasons of device aging, light attenuation and the like, the actual illumination of the spectrum adjusting module 200 deviates from the illumination spectrum data of the spectrum adjusting module 200, so that the illumination brightness of the spectrum adjusting module 200 can be detected by the brightness sensor 510, and the control processing module 100 adjusts the spectrum adjusting module 200 according to the illumination brightness detected by the brightness sensor 510, so that the actual illumination spectrum is close to the sunlight spectrum required to be simulated, and the influence of aging and light attenuation is reduced.

In some embodiments of the present invention, the detection module 500 may further include a temperature sensor, where the temperature sensor is connected to the control processing module 100, and the control processing module can detect the temperature of the infrared component for simulating sunlight through the temperature sensor, so as to adjust the working state of the infrared component 260, and further simulate the sunlight temperature more accurately.

Referring to fig. 1, in some embodiments of the present invention, a display module 600 is further included, and the control processing module 100 is connected to the display module 600.

The control processing module 100 controls the display module 600 to display, so that the information such as the region and the time simulating the sunshine can be displayed, and the current simulated spectrum information and the like can be displayed according to the region time spectrum data, thereby being beneficial to more convenient use.

The display module 600 may be an embodiment including a liquid crystal display, a nixie tube, etc. The display module 600 may also be an embodiment including a touch screen, where the input module 400 and the display module 600 are the same object.

In some embodiments of the present invention, the input module 400 includes a wireless communication unit, and the control processing module 100 is connected to the wireless communication unit, and the wireless communication unit is configured to receive an external wireless signal.

The wireless communication unit receives external wireless signals and transmits the external wireless signals to the control processing module 100, and the control processing module 100 selects and reads regional time spectrum data according to the wireless signals, so that the spectrum adjusting module 200 is controlled to work, the effect of wireless control can be achieved, and the use is more convenient.

In some embodiments of the present invention, the input module 400 may be an implementation of a device including a key set, a knob set, a touch screen, and the like.

In the case of commercial sharing, the input module 400 may include both a wireless communication unit and an implementation of a key set, a knob set, or a touch screen. The user scans the two-dimension code through the mobile phone and other devices to communicate with the server, and the wireless communication unit can receive signals from the server, so that the control processing module 100 receives instruction signals generated by the operation of the key set, the knob set or the touch screen, and further controls the spectrum adjusting module 200 to work, thereby realizing the effect of commercial sharing use.

Referring to fig. 1, a simulated solar lighting system according to an embodiment of the second aspect of the present invention includes the simulated solar lighting apparatus described above, and further includes a spectrometer 700 and a computing device 800, where the spectrometer 700 is configured to detect a spectrum of solar radiation and detect a spectrum of the spectrum adjustment module 200, and the computing device 800 is configured to generate regional time spectrum data according to solar radiation spectrum data detected by the spectrometer 700, detection time, and detection location, and generate illumination spectrum data according to spectrum data of the spectrum adjustment module 200 detected by the spectrometer 700.

In the area needing to simulate sunlight, the spectrum of the sunlight is detected by the spectrometer 700 to obtain the sunlight spectrum data of the area at the current time, and the sunlight spectrum data of the area at different times is obtained by detecting at different times. The corresponding solar spectrum data, region and time are input to the computing processing device 800 for processing, and the computing processing device 800 generates region time spectrum data. In addition, the spectrometer 700 detects the spectrum data of the spectrum adjusting module 200 in different working states, the spectrum data of the spectrum adjusting module 200 is input to the computing and processing equipment 800 for processing, and the computing and processing equipment 800 generates illumination spectrum data. The regional time spectrum data and the illumination spectrum data are stored in the memory module 300. The user selects the region and time for simulating the sunlight through the input module 400, the control processing module 100 reads the corresponding region time spectrum data and the illumination spectrum data of the spectrum adjustment module 200 from the storage module 300 according to the signal of the input module 400, and the control processing module 100 controls the spectrum adjustment module 200 to illuminate according to the region time spectrum data and the illumination spectrum data, so that the spectrum when the spectrum adjustment module 200 illuminates is close to the sunlight spectrum corresponding to the region and time selected by the user. Therefore, different spectrums are selected for illumination, sunlight effects in different areas and different times can be simulated, the requirements of a user for experiencing solar bath in different areas and different times can be met, and the requirements of sunlight in different areas for supplementing light to plants can be simulated.

In the embodiment in which the spectrum adjustment module 200 includes the driving unit 210 and the white light component 220, the red light component 230, the green light component 240, the blue light component 250, and the infrared component 260, the spectrometer 700 separately detects the spectrum data of the white light component 220, the red light component 230, the green light component 240, the blue light component 250, and the infrared component 260, respectively, and the computing device 800 can perform the computing process on the separate spectrum data to obtain the spectrum data of the white light component 220, the red light component 230, the green light component 240, the blue light component 250, and the infrared component 260 when they work together.

In some embodiments of the invention, computing processing device 800 may be an implementation of a device including a computer, server, or the like.

An embodiment of the invention provides a method for simulating sun exposure, comprising:

the spectrometer 700 detects the spectrum of the regional insolation, records the spectral data, the place and the time for detecting the insolation;

the computing processing device 800 generates regional time spectrum data from the solar spectrum data, the location and the time;

The spectrometer 700 detects the spectrums of different working states of the spectrum adjusting module 200 and records the spectrum data of the spectrum adjusting module 200;

The computing processing device 800 generates illumination spectral data from the spectral data of the spectral adjustment module 200;

storing the regional time spectrum data and the illumination spectrum data in the memory module 300;

The control processing module 100 acquires and selects to read regional time spectrum data according to the signal of the input module 400;

the control processing module 100 controls the spectrum adjustment module 200 to operate the illumination according to the read regional time spectrum data and the illumination spectrum data.

In the area needing to simulate sunlight, the spectrum of the sunlight is detected by the spectrometer 700 to obtain the sunlight spectrum data of the area at the current time, and the sunlight spectrum data of the area at different times is obtained by detecting at different times. The corresponding solar spectrum data, region and time are input to the computing processing device 800 for processing, and the computing processing device 800 generates region time spectrum data. In addition, the spectrometer 700 detects the spectrum data of the spectrum adjusting module 200 in different working states, the spectrum data of the spectrum adjusting module 200 is input to the computing and processing equipment 800 for processing, and the computing and processing equipment 800 generates illumination spectrum data. The regional time spectrum data and the illumination spectrum data are stored in the memory module 300. The user selects the region and time which want to simulate the sunshine through the input module 400, the control processing module 100 acquires and reads the corresponding region time spectrum data and the illumination spectrum data of the spectrum adjustment module 200 from the storage module 300 according to the signal of the input module 400, and the control processing module 100 controls the spectrum adjustment module 200 to illuminate according to the region time spectrum data and the illumination spectrum data, so that the spectrum when the spectrum adjustment module 200 illuminates is close to the sunshine spectrum corresponding to the region and time selected by the user. Therefore, different spectrums are selected for illumination, sunlight effects in different areas and different times can be simulated, the requirements of a user for experiencing solar bath in different areas and different times can be met, and the requirements of sunlight in different areas for supplementing light to plants can be simulated.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The present application is, of course, not limited to the above-described embodiments, and one skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the application, and these equivalent modifications or substitutions are intended to be included in the scope of the present application as defined in the appended claims.

Claims (10)

1. The simulation sunshine lamps and lanterns, its characterized in that includes:

A control processing module (100);

A spectrum adjustment module (200) connected to the control processing module (100), the spectrum adjustment module (200) being configured to illuminate and adjust a spectrum of the illumination;

the storage module (300) is connected with the control processing module (100), and the storage module (300) stores a plurality of groups of regional time spectrum data and illumination spectrum data of the spectrum adjusting module (200);

And the input module (400) is connected with the control processing module (100), and the input module (400) is used for enabling the control processing module (100) to selectively read regional time spectrum data so as to control the illumination of the spectrum adjusting module (200) according to the regional time spectrum data.

2. The simulated solar light fixture of claim 1 wherein: the spectrum adjusting module (200) comprises a driving unit (210), and a white light component (220), a red light component (230), a green light component (240), a blue light component (250) and an infrared component (260) which are all connected with the driving unit (210), and the control processing module (100) is connected with the driving unit (210).

3. The simulated solar light fixture of claim 2 wherein: the white light assembly (220) includes a plurality of white light LEDs in series, the red light assembly (230) includes a plurality of red light LEDs in series, the green light assembly (240) includes a plurality of green light LEDs in series, the blue light assembly (250) includes a plurality of blue light LEDs in series, and the infrared assembly (260) includes a plurality of infrared LEDs in series.

4. The simulated solar light fixture of claim 2 wherein: the driving unit (210) comprises PWM driving circuits (211) which are in one-to-one correspondence with the white light component (220), the red light component (230), the green light component (240), the blue light component (250) and the infrared component (260).

5. The simulated solar light fixture of claim 1 wherein: the device further comprises a detection module (500), wherein the control processing module (100) is connected with the detection module (500), and the detection module (500) is used for detecting the illumination state of the spectrum adjustment module (200).

6. The simulated solar light fixture of claim 5 wherein: the detection module (500) comprises a brightness sensor (510), the control processing module (100) is connected with the brightness sensor (510), and the brightness sensor (510) is used for detecting the illumination brightness of the spectrum adjustment module (200).

7. The simulated solar light fixture of claim 1 wherein: the control processing module (100) is connected with the display module (600).

8. The simulated solar light fixture of claim 1 wherein: the input module (400) comprises a wireless communication unit, and the control processing module (100) is connected with the wireless communication unit, and the wireless communication unit is used for receiving external wireless signals.

9. The sunlight simulation system is characterized in that: a simulated solar light fixture comprising the device of any of claims 1 to 8, further comprising a spectrometer (700) for detecting a spectrum of solar radiation and for detecting a spectrum of the spectrum adjustment module (200), and a computing device (800) for generating regional time spectrum data from solar radiation spectrum data detected by the spectrometer (700), detection time and detection place and for generating illumination spectrum data from spectrum data of the spectrum adjustment module (200) detected by the spectrometer (700).

10. A simulated solar radiation method applied to the simulated solar radiation system as claimed in claim 9, comprising:

a spectrometer (700) detects the spectrum of the regional sunshine, and records the spectrum data, the place and the time of the detected sunshine;

a computing processing device (800) generates regional time spectrum data according to the sunlight spectrum data, the place and the time;

the spectrometer (700) detects the spectrums of different working states of the spectrum adjusting module (200), and records the spectrum data of the spectrum adjusting module (200);

the computing device (800) generates illumination spectrum data according to the spectrum data of the spectrum adjustment module (200);

Storing the regional time spectrum data and the illumination spectrum data in a storage module (300);

The control processing module (100) acquires and selectively reads regional time spectrum data according to the signal of the input module (400);

The control processing module (100) controls the spectrum adjusting module (200) to work for illumination according to the read regional time spectrum data and the illumination spectrum data.