Artificial landscape device

By combining three-dimensional green plant components and floodlights with LED light sources that have adjustable color temperature and illuminance, the problem of poor natural visual experience in windowless spaces has been solved, achieving a realistic simulation of natural lighting and fatigue relief.

CN224465557UActive Publication Date: 2026-07-07CHONGQING UNIV

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
CHONGQING UNIV
Filing Date
2025-06-13
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

Existing technologies cannot effectively simulate changes in natural window views, resulting in poor natural visual experience and ineffective fatigue relief, especially in spaces with few or no windows, which can negatively impact mental and physical health.

Method used

It uses a combination of three-dimensional green plant components, floodlights and spotlights, combined with LED light sources with adjustable color temperature and illuminance, and simulates natural lighting and landscape changes through an intelligent control system. It can also change the background image to achieve dynamic light and shadow effects.

Benefits of technology

It enhances the natural aesthetics and alleviates fatigue, adapts to different spatial functions and user needs, provides realistic dynamic lighting scenes, and reduces maintenance costs.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224465557U_ABST
Patent Text Reader

Abstract

The utility model discloses an artificial scene device, its characterized in that, including the cabinet body, the glass panel is provided with the front side of cabinet body, is provided with lamp assembly and landscape subassembly in the cabinet body, and the lamp assembly includes the floodlight of the top plate lower surface in the cabinet body, and the landscape subassembly includes the greenery component above the bottom plate of cabinet body. The utility model can better simulate natural window scene change, improve natural visual effect, improve the alleviation fatigue effect to the personnel in the house. Can be applied in various underground space such as subway, civil air defense, and windowless clean factory, big depth office building, windowless or less window market, even submarine, underground engineering etc.
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Description

Technical Field

[0001] This utility model relates to the technical field of indoor decoration, specifically to an artificial lighting device. Background Technology

[0002] Indoor lighting can significantly affect the human visual system and circadian rhythm, having a substantial impact on psychological and physiological well-being. Sufficient natural light not only enhances visual function and comfort but also relieves fatigue, regulates mood, and stabilizes the body's circadian rhythm. Natural landscapes can also influence physiological indicators and psychological states through visual perception. Receiving natural light through windows, gazing into the distance, and enjoying the scenery are among the quickest and most common ways to relieve fatigue.

[0003] However, the exponential growth of the global population has led to increasingly dense urban buildings, reducing the area of ​​natural landscapes and limiting building lighting and views. Due to the poor thermal performance of glass, window openings are often limited in building designs to reduce energy consumption in winter and summer. For deep office buildings in city centers, or large windowless or low-window cleanrooms with confidentiality or air cleanliness requirements, the interior spaces cannot meet the lighting requirements.

[0004] Developing and utilizing underground and deep spaces is considered one of the main measures to alleviate urban land resource pressure. Statistics show that my country has become a veritable superpower in the development and utilization of underground space. Some urban residents are shifting their work from above ground to underground spaces. However, the lack of sufficient sunlight and visible views in underground spaces exacerbates the psychological and physiological fatigue of users, leading to reduced safety, lower job satisfaction, negative attitudes towards the workspace, and changes in self-evaluation. Modern research has found that prolonged exposure to windowless spaces, especially for sedentary individuals, can negatively impact health. This can result in poor concentration, lack of positive stimulation, negative emotions, and other forms of mild psychological dissatisfaction, and may even lead to more serious symptoms such as depression, insomnia, and disorientation. In addition to negative psychological effects, prolonged exposure to environments lacking natural light can also affect the physiological health of workers, disrupting their normal circadian rhythms.

[0005] CN201420802649.0 previously disclosed an environmental simulation viewing window, including a window frame with an embedded LED display screen. A fish tank is positioned in front of the LED display screen, and a cover is provided above the fish tank. This environmental simulation viewing window can alleviate user stress and maintain a pleasant mood through environmental simulation. However, its simulated environment relies mainly on the LED display screen, which has drawbacks such as high cost, inconvenient management, and poor natural visual appeal.

[0006] CN201310131527.3 previously disclosed a window view luminous device simulating natural lighting, comprising a dynamic light source, a colored landscape painting, and a window frame. The colored landscape painting is mounted on the window frame, and light emitted from the dynamic light source illuminates the colored landscape painting. The illuminance and spectrum of the dynamic light source change over time, and the colored landscape painting exhibits brightness and color that change over time, corresponding to natural lighting. This invention can simulate the changing scenery of the natural environment throughout the day, making the scenery observed by people living indoors and the stimulation of the human physiological rhythm system by the luminous window view similar to natural scenery; moreover, the human eye can directly observe the luminous window view, generating a sense of pleasure. However, this device relies on the colored landscape painting to simulate the natural scenery outside the window and on a fixed-position light source to simulate natural lighting, thus still lacking spatial depth adjustment and having a poor natural visual experience, reducing its fatigue-relieving effect. Utility Model Content

[0007] In view of the shortcomings of the prior art, the technical problem to be solved by this utility model is: how to provide an artificial lighting device that can better simulate changes in natural window views, better enhance the natural visual experience, and improve the fatigue relief effect for people indoors.

[0008] To solve the above-mentioned technical problems, the present invention adopts the following technical solution:

[0009] An artificial lighting device is characterized by comprising a cabinet, a glass panel on the front side of the cabinet, a lighting assembly and a landscape assembly inside the cabinet, the lighting assembly including floodlights located on the lower surface of the top plate inside the cabinet, and the landscape assembly including green plant components located above the bottom plate of the cabinet.

[0010] In this way, the artificial lighting installation uses three-dimensional green plant components in conjunction with floodlights to create a more three-dimensional natural landscape and better relieve fatigue for people indoors.

[0011] Furthermore, the landscape component also includes rocks and landscape features positioned below the greenery.

[0012] This allows for a better simulation of natural landscapes, enriching their layers and diversifying their elements, thus enhancing their visual appeal and alleviating fatigue.

[0013] Furthermore, the green plant component is a simulated green plant.

[0014] In this way, compared to using natural greenery, it can be better to avoid maintenance and reduce costs. However, in practice, real plants can also be used to form greenery components, although the maintenance cost is higher, the realism is stronger.

[0015] Furthermore, the lighting assembly also includes floodlights installed on the left and right sides inside the cabinet.

[0016] This allows for a better simulation of real natural lighting conditions, thus enhancing the realism of the landscape.

[0017] Furthermore, each of the left and right inner walls of the cabinet is equipped with a slide rail adjustment device. The slide rail adjustment device includes a horizontal slide rail set horizontally on the upper and lower sides, a vertical slide rail that can move horizontally on the horizontal slide rail and is equipped with a horizontal movement control device for controlling the horizontal movement of the vertical slide rail, and a fixed base that can move vertically on the vertical slide rail and is equipped with a vertical movement control device for controlling the vertical movement of the fixed base. The floodlight is installed on the fixed base, and the horizontal movement control device and the vertical movement control device are respectively connected to the control center.

[0018] In this way, the floodlights can be moved vertically or horizontally through the control center, and the distance and angle of the floodlights can be adjusted to better simulate the actual lighting conditions of sunrise and sunset, greatly improving the natural and realistic visual experience of the landscape.

[0019] Furthermore, the horizontal and vertical movement control devices are implemented using electric cylinders. This offers advantages such as low cost and ease of control.

[0020] Furthermore, the control center is equipped with a color temperature adjustment module and an illuminance adjustment module, which are connected to the lighting components.

[0021] In this way, the color temperature and illumination of the lamps can be adjusted and controlled through the control center, so as to better simulate the natural landscape where the color temperature and illumination of the light vary at different times of the day, and to better improve the natural simulation effect of the device.

[0022] Furthermore, the floodlight is preferably an LED floodlight. It provides a better simulation of natural light and is less expensive.

[0023] Furthermore, the floodlights are LED light strips, and multiple strips are spaced apart along the front-to-back direction.

[0024] In this way, it can be used in conjunction with floodlights to turn on LED light strips at different positions at different times of the day, better simulating the changes in natural lighting.

[0025] Furthermore, a background panel can be removably installed on the rear side of the cabinet, and a background image is set on the front side of the background panel.

[0026] In this way, the background image can be combined with the landscape components to better simulate the realism of the window view, and it is easy to change and adjust.

[0027] Furthermore, the cabinet is equipped with casters at the bottom for easy movement.

[0028] Therefore, this invention utilizes a novel light and scene linkage method to alleviate fatigue in locations lacking natural light. Simultaneously, it employs a near-full-spectrum or high color rendering LED light source with adjustable color temperature and illuminance. Through an intelligent control system, it can simulate the visual effects of natural light projected onto natural scenery at specific latitudes, seasons, and times of day, creating vivid light and shadow variations. Furthermore, this invention features a pull-out, replaceable back panel. By removing the back panel, the background image and the actual landscape within the cabinet can be easily changed. This allows for selection of the most suitable landscape and background image based on different space functions, user physiological and psychological rhythms, and varying fatigue levels, resulting in greater adaptability and more precise control. Superimposed with dynamic artificial light, it creates a more realistic dynamic light and scene, simulating effects such as natural courtyards and natural window views.

[0029] Therefore, this utility model has the following characteristics: 1. It can provide more effective rhythmic illuminance values ​​with lower energy consumption, which is conducive to the stability of human rhythm and the rapid elimination of fatigue; 2. This utility model changes from simply blocking fatigue with "light" to blocking fatigue with "light + scenery", and can create a realistic "simulated window, real scenery" visual effect in windowless spaces; it has a wide range of applicable scenarios.

[0030] In summary, this invention can better simulate natural window views, improve the natural visual experience, and enhance fatigue relief for people indoors. It can be applied to various underground spaces such as subways, civil defense facilities, windowless cleanrooms, deep office buildings, windowless or low-window shopping malls, and even submarines and underground engineering projects. The device's size and shape are adjustable to meet diverse spatial needs. Attached Figure Description

[0031] Figure 1 This is a front view of the present invention. The background is not shown in the figure, and the arrows in the figure indicate the direction of light.

[0032] Figure 2 for Figure 1 The left view.

[0033] Figure 3 for Figure 1 A schematic diagram of the three-dimensional structure in a disassembled state. Implementation

[0034] The present invention will now be described in further detail with reference to specific embodiments.

[0035] In specific implementation: an artificial lighting device, characterized in that it includes a cabinet 1, a glass panel 2 on the front side of the cabinet 1, a lighting assembly and a landscape assembly 3 inside the cabinet 1, the lighting assembly including a floodlight 4 located on the lower surface of the top plate inside the cabinet, and the landscape assembly 3 including a green plant component located above the bottom plate of the cabinet.

[0036] In this way, the artificial lighting installation uses three-dimensional green plant components in conjunction with floodlights to create a more three-dimensional natural landscape and better relieve fatigue for people indoors.

[0037] The landscape component 3 also includes rocks and landscape features placed below the green plant components.

[0038] This allows for a better simulation of natural landscapes, enriching their layers and diversifying their elements, thus enhancing their visual appeal and alleviating fatigue.

[0039] The green plant component is a simulated green plant.

[0040] In this way, compared to using natural greenery, it can be better to avoid maintenance and reduce costs. However, in practice, real plants can also be used to form greenery components, although the maintenance cost is higher, the realism is stronger.

[0041] The lighting assembly also includes floodlights 5 installed on the left and right sides inside the cabinet.

[0042] This allows for a better simulation of real natural lighting conditions, thus enhancing the realism of the landscape.

[0043] The cabinet is equipped with slide rail adjustment devices on its left and right inner walls. Each slide rail adjustment device includes a horizontal slide rail 6 horizontally arranged on the upper and lower sides. A vertical slide rail 7 is movably mounted on the horizontal slide rail 6 and is equipped with a horizontal movement control device (not shown in the figure) for controlling the horizontal movement of the vertical slide rail. A fixed seat 8 is movably mounted on the vertical slide rail 7 and is equipped with a vertical movement control device (not shown in the figure) for controlling the vertical movement of the fixed seat. The floodlight 5 is mounted on the fixed seat 8. The horizontal movement control device and the vertical movement control device are respectively connected to the control center 9.

[0044] In this way, the floodlights can be moved vertically or horizontally through the control center, and the distance and angle of the floodlights can be adjusted to better simulate the actual lighting conditions of sunrise and sunset, greatly improving the natural and realistic visual experience of the landscape.

[0045] The horizontal and vertical movement control devices are implemented using electric cylinders. This method offers advantages such as low cost and ease of control.

[0046] The control center 9 is equipped with a color temperature adjustment module and an illuminance adjustment module, which are connected to the lighting components.

[0047] In this way, the color temperature and illumination of the lamps can be adjusted and controlled through the control center, so as to better simulate the natural landscape where the color temperature and illumination of the light vary at different times of the day, and to better improve the natural simulation effect of the device.

[0048] The floodlight 5 is preferably an LED floodlight. It provides a better simulation of natural light and is less expensive.

[0049] The floodlight 4 is an LED light strip, and multiple strips are arranged at intervals along the front-to-back direction.

[0050] In this way, it can be used in conjunction with floodlights to turn on LED light strips at different positions at different times of the day, better simulating the changes in natural lighting.

[0051] The cabinet has a removable background panel 10 installed on the back side, and the front side of the background panel 10 has a background image.

[0052] In this way, the background image can be combined with the landscape components to better simulate the realism of the window view, and it is easy to change and adjust.

[0053] The bottom of cabinet 1 is equipped with casters 11 for easy movement.

[0054] Therefore, this invention utilizes a novel light and scene linkage method to alleviate fatigue in locations lacking natural light. Simultaneously, it employs a near-full-spectrum or high color rendering LED light source with adjustable color temperature and illuminance. Through an intelligent control system, it can simulate the visual effects of natural light projected onto natural scenery at specific latitudes, seasons, and times of day, creating vivid light and shadow variations. Furthermore, this invention features a pull-out, replaceable back panel. By removing the back panel, the background image and the actual landscape within the cabinet can be easily changed. This allows for selection of the most suitable landscape and background image based on different space functions, user physiological and psychological rhythms, and varying fatigue levels, resulting in greater adaptability and more precise control. Superimposed with dynamic artificial light, it creates a more realistic dynamic light and scene, simulating effects such as natural courtyards and natural window views.

Claims

1. An artificial lighting device, characterized in that, It includes a cabinet with a glass panel on the front. Inside the cabinet are lighting components and landscaping components. The lighting components include floodlights located on the lower surface of the top panel inside the cabinet, and the landscaping components include three-dimensional green plant components located on the upper surface of the bottom panel of the cabinet.

2. The artificial lighting device as described in claim 1, characterized in that, The landscape components also include rocks and landscape features placed below the greenery components.

3. The artificial lighting device as described in claim 2, characterized in that, The green plant component is a simulated green plant.

4. The artificial lighting device as described in claim 1, characterized in that, The lighting assembly also includes floodlights installed on the left and right sides inside the cabinet.

5. The artificial lighting device as described in claim 4, characterized in that, Each of the left and right inner walls of the cabinet is equipped with a slide rail adjustment device. The slide rail adjustment device includes a horizontal slide rail set horizontally on the upper and lower sides. A vertical slide rail is movably fitted on the horizontal slide rail and is equipped with a horizontal movement control device for controlling the horizontal movement of the vertical slide rail. A fixed seat is movably fitted on the vertical slide rail and is equipped with a vertical movement control device for controlling the vertical movement of the fixed seat. The floodlight is installed on the fixed seat. The horizontal movement control device and the vertical movement control device are respectively connected to the control center.

6. The artificial lighting device as described in claim 5, characterized in that, The horizontal and vertical movement control devices are implemented using electric cylinders.

7. The artificial lighting device as described in claim 5, characterized in that, The control center is equipped with a color temperature adjustment module and an illuminance adjustment module, which are connected to the lighting fixtures.

8. The artificial lighting device as described in claim 5, characterized in that, The floodlight is preferably an LED floodlight.

9. The artificial lighting device as described in claim 5, characterized in that, The floodlights are LED light strips, and multiple strips are spaced apart along the front-to-back direction.

10. The artificial lighting device as described in claim 1, characterized in that, A background panel is removably installed on the back of the cabinet, and a background image is set on the front side of the background panel; The cabinet is equipped with casters at the bottom.