Adjustable environmental atmosphere manufacturing device

By using an adjustable ambient atmosphere creation device with a hollow structure and modular design, the device achieves multi-path control of light and smoke, solving the problems of the existing device's simple structure and insufficient visual appeal, and enhancing the visual expressiveness and interactive experience.

CN224331495UActive Publication Date: 2026-06-09GUANGZHOU JIANYU ART CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
GUANGZHOU JIANYU ART CO LTD
Filing Date
2025-05-27
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing aromatherapy atomizing devices and ambient lighting products lack structural flexibility and aesthetic appeal, making it difficult to achieve dynamic changes or directional control, and thus failing to meet the diverse needs of users in different scenarios.

Method used

An adjustable ambient atmosphere creation device, including a generator and a diffuser, is used. Through the combination of frame components and unit components, and by utilizing a hollow structure and adjustable pathway design, it achieves variable path and flow control of light and smoke. Modular assembly is achieved by combining magnetic suction, sliding rail plug-in and other methods.

Benefits of technology

It significantly enhances visual appeal and interactive experience, meets the functional and aesthetic needs of different scenarios, improves product reusability and spatial adaptability, and enhances the flexibility of the device and ease of user operation.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an adjustable environment atmosphere manufacturing device, including generator and diffuser, the generator is at least one in light generator and smoke generator, the diffuser includes frame member and unit component, the frame member is open -worked structure, and it is equipped with at least one inlet, a plurality of outlets and the multiple passageway of intercommunication inlet and outlet, the inlet corresponds the generator, the passageway is used for placing unit component, and the unit component is blocky, through selecting whether the unit component is placed in the frame member or through adjusting the position, angle and quantity of unit component in the frame member, the light and / or smoke of adjustable passageway in the formation walk path, flow and the light and / or smoke reached the outlet. The utility model discloses flexible, path changeable and strong ornamental, realize more flexible diffusion direction, more abundant light and shadow smoke performance form.
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Description

Technical Field

[0001] This utility model relates to the field of stage lighting / smoke effect production technology, specifically to an adjustable environmental atmosphere creation device. Background Technology

[0002] As people's demands for quality of life and spiritual enjoyment continue to rise, aromatherapy, ambient lighting, and artistic smoke devices are increasingly being used in homes, commercial spaces, and leisure venues. Existing aromatherapy misting devices or ambient lighting products typically take the following forms:

[0003] 1. Single-outlet diffuser: such as common aroma diffusers and humidifiers, has a simple structure. The smoke is released vertically through a single mist outlet at the top. The diffusion path is relatively fixed and lacks variation. It does not effectively guide the smoke and has low visual appeal.

[0004] 2. Fixed-structure decorative lighting: such as some atomizers, the generated smoke, combined with a transparent cover and a blowing device, allows for the visual flow of the smoke. Some decorative ambient lights use components such as lampshades, laser-engraved panels, and lenses to refract light, but the structure is usually a fixed shape, lacking variation.

[0005] In recent years, in commercial spaces such as cafes and aesthetic exhibition settings, some users have hoped to use scented mist to create a soothing atmosphere while enhancing the artistic feel of the space with flowing light and shadow. Visual smoke and light interaction are also frequently used in commercial spaces such as cafes and aesthetic exhibition settings to create an immersive experience. However, its diffusion direction still relies on a closed plastic shell, making it difficult to achieve dynamic changes or directional control, and lacking artistic expression and structural playability.

[0006] Therefore, providing a flexible, versatile, and visually appealing light / smoke diffusion device is an important direction for technological improvement in the industry. Utility Model Content

[0007] To address the technical problems existing in the prior art, the purpose of this utility model is to provide an adjustable environmental atmosphere creation device with a flexible structure, varied paths, and high visual appeal, achieving more flexible diffusion directions, richer light and shadow smoke expression forms, and improved user participation.

[0008] The objective of this utility model is achieved through the following technical solution: an adjustable environmental atmosphere manufacturing device, comprising a generator and a diffuser, wherein the generator is at least one of a light generator and a smoke generator; the diffuser comprises a frame component and a unit component, wherein the frame component is a hollow structure, having at least one inlet, multiple outlets, and multiple passages connecting the inlet and outlets, the inlet corresponding to the generator, and the passages for placing the unit component, wherein the unit component is block-shaped; by selecting whether to place the unit component in the frame component, or by adjusting the position, angle, and number of the unit component placed in the frame component, the path and flow rate of the light and / or smoke formed in the passage, as well as the outlet reached by the light and / or smoke, can be adjusted.

[0009] Furthermore, the frame component is constructed from multiple cubes. The gaps formed between the cubes at the bottom of the frame component serve as the entrance of the frame component. The gaps formed between the cubes on the outer surface of the frame component serve as the exit of the frame component. The gaps formed between the cubes inside the frame component that connect the entrance and the exit serve as the passageway of the frame component. The unit component is a cube that can be accommodated within the passageway.

[0010] Furthermore, the frame component is a hollow sphere with crisscrossing passages inside, and both ends of the passages are connected to the surface of the sphere to form the entrance and exit of the frame component; the unit component is a sphere that can be accommodated within the passages.

[0011] Specifically, the unit component is fixed in the passage by its own gravity, magnetic attraction, sliding rail insertion or snap-fit.

[0012] Furthermore, the frame component is a cylindrical container with openings at both the top and bottom. The bottom opening is the inlet of the frame component, and the side wall of the cylindrical container has multiple through holes. The inner cavity of the cylindrical container and the inner wall of the through holes are the passageways of the frame component. The opening formed by the through holes on the outer surface of the cylindrical container is the outlet of the frame component. The top opening is equipped with a cover with an adjustable opening degree. The unit component is an adjusting plug that matches the through holes.

[0013] Specifically, the regulating plug includes two semi-circular arc plates with groove structures. The two semi-circular arc plates are staggered and connected end to end. The grooves of the two semi-circular arc plates form a through path after being spliced ​​together, which is used to guide the diffusion of light or smoke. The regulating plug is roughly conical in shape.

[0014] Furthermore, the adjusting plug includes an insertion end and a suspended end. The end face of the insertion end is provided with a sealing plate, which partially blocks the through hole. The through hole of the cylindrical container is provided with a baffle that partially blocks the through hole. When the adjusting plug is inserted into the through hole, the degree of overlap between the sealing plate and the baffle can be adjusted by axially rotating the adjusting plug, thereby controlling the open area and opening angle of the outlet to achieve adjustment of the light and / or smoke flow rate and angle.

[0015] Furthermore, the two semicircular arc plates can slide relative to each other along the axial direction, thereby adjusting the cross-sectional area of ​​the inner channel formed by their splicing to control the flow rate of light or smoke.

[0016] Specifically, the frame components are made of stainless steel, ceramic, glass, resin, or plastic.

[0017] Furthermore, it also includes a base, which has a placement cavity and an opening communicating with the placement cavity. The generator is placed inside the placement cavity, and the diffuser is placed on the base, with the opening of the base corresponding to the inlet of the diffuser. The base is provided with a rotating component that drives the diffuser to rotate. The base is provided with an air supply component that communicates with the placement cavity to adjust the flow rate of the smoke.

[0018] Specifically, the light generator is an LED light-emitting module, and the smoke generator is an ultrasonic atomizer or a burning incense.

[0019] Compared with the prior art, the present invention has at least the following beneficial effects:

[0020] 1. This utility model utilizes the special structure of the diffuser to achieve adjustable smoke or light effects with aesthetic flow. By adjusting the path of light and / or smoke and the exit point reached by the light and / or smoke, the visual appeal and interactive experience are significantly enhanced. This utility model not only meets users' multiple needs for functionality, aesthetics, and interactivity in different scenarios, but also significantly reduces the number of types of the overall device through a highly detachable and reconfigurable modular approach. It eliminates the need for multiple single-function diffuser devices; by replacing the generator and adjusting the splicing structure, various effects can be flexibly combined, greatly improving product reusability and spatial adaptability.

[0021] 2. The diffuser of this utility model has highly modular, adjustable and personalized combination characteristics. Through the movable connection methods such as magnetic attraction, buckle, tenon and mortise insertion or slide rail, the unit components can be flexibly spliced. Users can freely rotate the number and placement of unit components according to actual needs, which significantly improves the flexibility of the diffuser and the convenience of user operation.

[0022] 3. This utility model integrates both rotational and sliding adjustment methods within a single structure, such as sliding and rotating unit components, and a multi-layered flow regulation mechanism to achieve high-precision control. Specifically, by adjusting the angle of the unit components and the gap or position between two unit components, light can be guided to refract or reflect multiple times within the structure, achieving different levels of visual effects presented through a single path; or the diffusion path and speed of smoke or fog can be flexibly adjusted, enhancing the flexibility and interactivity of the device in multi-functional situations.

[0023] 4. This utility model employs a multi-sized, adjustable number of unit components. The combination of unit components of different volumes constitutes a porous medium structure with hierarchical variations. By increasing or decreasing the number of unit components and adjusting their positions, the specific surface area of ​​the overall diffusion structure can be effectively increased. The increased specific surface area significantly enhances the contact path of the smoke during diffusion, causing the smoke to form a softer and more varied flow pattern as it passes through the gaps and surface bends in the diffuser's path, thereby improving the guiding effect and visual expressiveness. At the same time, the scattering, reflection, and refraction of light by the path and the unit components placed within it are enhanced due to the increased surface area, resulting in richer light and shadow transitions and visual layering variations, creating a more immersive and artistically expressive dynamic diffusion effect. Through this structural optimization, this utility model effectively improves the decorative and adjustable aspects of the coordinated diffusion of light and smoke while maintaining a compact overall volume, making it suitable for visual interactive experiences in various settings such as homes, exhibitions, and stages.

[0024] 5. This utility model is adaptable to different spatial needs and diffusion effect settings, giving the product a high degree of customization capability, satisfying the personalized aesthetics and functional preferences of different users, and is widely applicable to home decorations, immersive displays, art installations and other scenarios, as well as aroma diffusion, cold fog humidification, visual smoke demonstration, light guiding devices and other fields. Attached Figure Description

[0025] Figure 1 This is a schematic diagram of the structure of Example 1.

[0026] Figure 2 This is a structural schematic diagram of the frame component of Example 1.

[0027] Figure 3 for Figure 2 AA sectional view.

[0028] Figure 4 This is a schematic diagram of the diffuser in Example 1.

[0029] Figure 5 This is a schematic diagram of the structure of Example 2.

[0030] Figure 6 This is a schematic diagram of the diffuser structure in Example 2.

[0031] Figure 7 for Figure 6 BB cross-sectional view.

[0032] Figure 8 This is an overall cross-sectional view of Example 2.

[0033] Figure 9 This is an overall sectional view of the modified embodiment 2.

[0034] Figure 10 This is a schematic diagram of the structure of Example 3.

[0035] Figure 11 for Figure 10 CC section view.

[0036] Figure 12 This is a schematic diagram of the diffuser in Example 3.

[0037] In the picture:

[0038] 11-LED light-emitting module; 12-ultrasonic atomizer; 13-combustion-type fragrance;

[0039] 20-Diffuser; 21-Frame component; 211-Inlet; 213-Outlet; 215-Passage; 216-Inner cavity; 217-Through hole; 218-Baffle; 219-Sealing plate; 23-Unit component; 25-Cover; 251-Body; 253-Adjusting plate;

[0040] 30 - Base; 31 - Placement cavity. Detailed Implementation

[0041] To facilitate understanding of this utility model, the technical solutions and advantages of the utility model will be further described in detail below with reference to the accompanying drawings and embodiments. Any mechanisms or methods not elaborated in this utility model can be referred to in the prior art. The specific structure and features of this utility model are illustrated below by way of example and should not constitute any limitation on this utility model. Furthermore, any technical feature mentioned below (including implicit or disclosed features), as well as any technical feature directly shown or implied in the figures, can be arbitrarily combined or deleted among these technical features to form more other embodiments that may not be directly or indirectly mentioned in this utility model. The accompanying drawings show preferred embodiments of this utility model. However, this utility model can be implemented in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of the disclosure of this utility model.

[0042] This utility model discloses an adjustable ambient atmosphere manufacturing device, comprising a generator and a diffuser. The generator is at least one of a light generator and a smoke generator. The diffuser includes a frame component and unit components. The frame component has a hollow structure and is provided with at least one inlet, multiple outlets, and multiple passages connecting the inlet and outlets. The inlet corresponds to the generator, and the passages are used to place the unit components, which are block-shaped. By selecting whether to place the unit components in the frame component, or by adjusting the position, angle, and number of the unit components placed in the frame component, the path and flow rate of the light and / or smoke formed in the passages, as well as the outlets reached by the light and / or smoke, can be adjusted.

[0043] Example 1

[0044] like Figure 1-4 As shown, the adjustable ambient atmosphere manufacturing apparatus of this embodiment 1 includes a generator and a diffuser 20.

[0045] Specifically, the generator is an LED light-emitting module 11, which generates a light source.

[0046] The diffuser 20 includes a frame member 21 and a unit member 23, with the frame member 21 mounting the unit member 23.

[0047] The frame component 21 has a hollow structure, with at least one entrance 211, multiple exits 213, and multiple passages 215. The entrance 211 corresponds to the generator, and the exits 213 are located on the outer surface of the frame component 21. Light leaves from the exits 213 and shines outward, creating an atmospheric light and shadow effect.

[0048] In this preferred embodiment, the frame member 21 is constructed from multiple cubes, with numerous irregular gaps between them. The gap formed at the bottom of the frame member 21 serves as the entrance 211, corresponding to the generator. This embodiment may have one or multiple entrances 211, depending on the gaps at the bottom of the frame, but all entrances 211 are located at the bottom of the frame member 21. The gaps formed on the outer surfaces of the frame member 21 other than the bottom serve as the exits 213, and the gap formed inside the frame member 21 connecting the entrances 211 and the exits 213 serves as the passageway 215. Without the unit member 23, the passageway 215 is the path for light, and through reflection and refraction on the inner wall of the passageway 215, specific light and shadow effects are created.

[0049] The unit component 23 is block-shaped. In this embodiment, preferably, the unit component 23 is a cube that can be accommodated within the passage 215. The cubes, which are unit components 23, are stacked within the passage 215, changing the shape of the passage 215, thereby changing the reflection and refraction of light, redistributing the light emission and proportion, and changing the light emission outlet 213, thus adjusting the light diffusion effect and producing different light effects.

[0050] In this preferred embodiment, the unit components 23 are stacked within the passage 215 of the frame component 21 by their own gravity. In other embodiments, the unit components 23 can also be fixed within the passage 215 of the frame component 21 by magnetic attraction, sliding rail insertion, or tenon and mortise snap-fit, forming a more complex and varied shape of the passage 215.

[0051] In this preferred embodiment, the frame component 21 is formed by integrally molding multiple stainless steel blocks.

[0052] Setup and adjustment steps for Example 1:

[0053] Setup and adjustment steps for Example 1:

[0054] a. Determine the light diffusion intention and select its orientation based on the expected main diffusion path, such as upward or forward, paying particular attention to the orientation of the main opening of the irregular gaps in its outer shell;

[0055] b. According to the design requirements of the overall diffusion direction, place the unit components 23 in the passage 215 in sequence; if necessary, adjust the direction (rotate the unit components) and position (such as move left or right) of the unit components 23 to optimize the flow rate of one outlet;

[0056] c. Power on or turn on the light source and observe the actual light flow direction; based on the observation results, add, subtract or replace some unit components 23, or fine-tune the direction and position of the unit components.

[0057] Example 2

[0058] like Figure 5-8 As shown, the adjustable ambient atmosphere manufacturing device of this embodiment 2 includes a generator, a base 30 and a diffuser 20.

[0059] Specifically, the generator consists of an LED light-emitting module 11 and an ultrasonic atomizer 12, which produce a light source and mist.

[0060] The base 30 is disc-shaped, with a placement cavity 31 inside and an upper opening communicating with the placement cavity 31. The generator is placed inside the placement cavity 31, and the light source and mist generated by the generator flow out through the upper opening of the base 30. The diffuser 20 is placed on the base 30. In this preferred embodiment, to avoid the mist affecting the LED light-emitting module 11, a waterproof and heat-insulating transparent cover is provided outside the LED light-emitting module 11.

[0061] The diffuser 20 includes a frame member 21 and a unit member 23, with the frame member 21 mounting the unit member 23.

[0062] The frame component 21 has a hollow structure, with at least one inlet 211, multiple outlets 213, and multiple passages 215. The inlet 211 corresponds to the generator. In this preferred embodiment, the opening of the base 30 corresponds to the inlet 211 of the diffuser 20, and light and mist enter from the inlet 211. The passages 215 connect the inlet 211 and the outlets 213. The outlets 213 are located on the outer surface of the frame component 21, and light and mist leave from the outlets 213, diffusing outwards to create atmospheric light and shadow and mist effects.

[0063] In this preferred embodiment, the frame member 21 is a hollow sphere with crisscrossing passages 215 of varying sizes inside. Both ends of each passage 215 connect to the surface of the sphere, forming an inlet 211 and an outlet 213 of the frame member 21. In this embodiment, the frame member 21 has only one inlet 211 and multiple outlets 213. The inlet 211 is located at the bottom of the sphere, corresponding to the upper opening of the base 30, i.e., the generator. The outlets 213 are located on the outer surfaces other than the bottom. Without the unit member 23, the passages 215 serve as the paths for light and mist. Guided by the passages 215, light and mist are emitted and overflow with specific effects.

[0064] The unit component 23 is block-shaped. In this embodiment, preferably, the unit component 23 is a sphere of different sizes that can be accommodated within the passage 215. The spheres, which are unit components 23, are stacked within the passage 215, changing the shape of the passage 215, redistributing light and fog, adjusting the diffusion of light and fog, and producing different light and fog effects.

[0065] In this embodiment 2, the unit component 23 is stacked within the passage 215 of the frame component 21 by its own gravity. In other embodiments, the unit component 23 can also be fixed within the passage 215 of the frame component 21 by magnetic attraction or snap-fit, forming a more complex and varied shape of the passage 215.

[0066] In this embodiment 2, the generator is a light and fog generator. In other embodiments, the generator is a light and smoke generator, consisting of an LED light-emitting module 11 and a combustible incense stick 13, such as... Figure 9As shown. Correspondingly, the placement cavity 31 of the base 30 is divided into an upper transparent cavity and a lower heat-insulating cavity. The upper transparent cavity holds the LED light-emitting module 11, and the inner wall of the lower heat-insulating cavity is provided with a heat-insulating coating for holding combustible incense 13, such as sandalwood sticks or mugwort blocks, and is equipped with a heating wire or piezoelectric ignition assembly to control the release of smoke. In other embodiments, the generator is a smoke and mist generator, consisting of combustible incense 13 and an ultrasonic atomizer 12.

[0067] In this embodiment 2, the frame member 21 is a ceramic sphere. In other embodiments, the frame member 21 is a glass sphere.

[0068] In this embodiment 2, the unit component 23 is a ceramic sphere. In other embodiments, the unit component 23 is a glass sphere.

[0069] The setup and adjustment steps for this embodiment 2 are as follows:

[0070] a. Prioritize placing the spheres of the large-diameter unit component 23 at the main channel position of the passage 215, which can effectively guide the main diffusion flow (such as upward direct flow); place the spheres of the small-diameter unit component 23 at the periphery or slit position of the passage 215 to fine-tune the airflow direction and increase the flow around the sphere.

[0071] b. Observe the current diffusion state, such as whether the fog is concentrated, whether it is biased to one side, or whether it is unevenly dispersed;

[0072] c. Adjust the number of spheres of unit component 23 according to the diffusion state: reduce the number of unit components 23 in the target diffusion direction, or increase the number of unit components 23 on the periphery of the target diffusion direction. In an outlet space that can accommodate more than two unit components 23, the outlet flow rate can be changed by adjusting the unit position and height of more than two unit components 23.

[0073] d. After adjustment, power on or turn on the fog generator and observe the actual fog flow direction; if necessary, rotate or fine-tune the position of unit component 23.

[0074] Example 3

[0075] like Figure 10-12 As shown, the adjustable ambient atmosphere manufacturing device of this embodiment 3 includes a generator, a base 30 and a diffuser 20.

[0076] Specifically, the generator is an ultrasonic atomizer 12, which produces mist.

[0077] The base 30 is disc-shaped, with a placement cavity 31 inside and an upper opening communicating with the placement cavity 31. The generator is placed inside the placement cavity 31, and the mist generated by the generator overflows through the upper opening of the base 30. The diffuser 20 is placed on the base 30.

[0078] The diffuser 20 includes a frame member 21 and a unit member 23, with the frame member 21 mounting the unit member 23.

[0079] The frame component 21 has a hollow structure, with at least one inlet 211, multiple outlets 213, and multiple passages 215. The inlet 211 corresponds to the generator. In this preferred embodiment, the opening of the base 30 corresponds to the inlet 211 of the diffuser 20, and the mist enters from the inlet 211. The passages 215 connect the inlet 211 and the outlets 213. The outlets 213 are located on the outer surface of the frame component 21, and the mist leaves from the outlets 213 and overflows to the outside, forming an atmospheric atomization effect.

[0080] In this preferred embodiment, the frame member 21 is a cylindrical container with openings at both the top and bottom. The bottom opening is the inlet 211 of the frame member 21, corresponding to the top opening of the base 30. The cylindrical container has a frustum-shaped inner cavity 216, and the side wall of the cylindrical container is provided with multiple through holes 217, which connect the inner cavity 216 to the outside. A baffle 218 is provided inside the through holes 217 of the cylindrical container to partially block the through holes 217. The inner walls of the inner cavity 216 and the through holes 217 of the cylindrical container serve as passageways 215 for the frame member 21, and the opening formed by the through holes 217 on the outer surface of the cylindrical container serves as the outlet 213 of the frame member 21.

[0081] The cylindrical container has an adjustable lid 25 at its top opening. The lid 25 includes a body 251 and an adjusting plate 253. The body 251 has multiple vents, and the adjusting plate 253 has multiple adjusting holes. The adjusting plate 253 is coaxially covered on the body 251. When the adjusting plate 253 is rotated, a channel is formed when the adjusting hole on the adjusting plate 253 coincides with the vent; otherwise, the vent is closed.

[0082] The unit component 23 is block-shaped. In this embodiment, preferably, the unit component 23 is an adjusting plug that matches the through hole 217. The adjusting plug includes two semi-circular arc pieces with groove structures. The two semi-circular arc pieces are staggered and connected end to end. The grooves of the two semi-circular arc pieces form a through internal channel after splicing. The adjusting plug is roughly conical in shape. The adjusting plug includes an insertion end and a suspended end. Each end face of the insertion end and the suspended end is provided with a sealing plate 219. The sealing plate 219 of the insertion end corresponds to partially blocking the through hole 217 of the cylindrical container. When the adjusting plug is inserted into the through hole 217, the degree of overlap between the sealing plate 219 and the baffle 218 can be adjusted by axially rotating the adjusting plug, thereby controlling the opening area and opening angle of the opening 213 to achieve adjustment of the light and / or smoke flow and angle.

[0083] Without the unit component 23, the passage 215 is the path for the fog to travel, and the fog produces a specific effect through the induction of the inner wall of the passage 215.

[0084] When the adjusting plug, which is a unit component 23, is placed at the through hole 217, and the angle of the mist overflow is adjusted by rotating the adjusting plug, the shape of the passage 215 is changed, thereby changing the situation of mist overflow, realizing the adjustment of the mist diffusion effect, and producing different effects.

[0085] In other embodiments, the two semicircular plates can slide relative to each other along the axial direction, thereby adjusting the cross-sectional area of ​​the inner channel formed by their splicing to control the flow rate of light or smoke.

[0086] Example 4

[0087] The adjustable ambient atmosphere generating device of Example 4 is basically the same as that of Example 3. The difference is that the base of Example 4 is also provided with an air supply component, which is a fan. The air supply component is connected to the placement cavity to adjust the flow speed of the mist.

[0088] Example 5

[0089] The adjustable ambient atmosphere generating device of Example 5 is basically the same as that of Example 3, except that the base of Example 5 is still provided with a rotating component, which drives the diffuser to rotate.

[0090] Compared with existing technologies, this invention achieves the adjustment of smoke or light effects with aesthetic flow through the special structure of the diffuser. By adjusting the path of light and / or smoke and the exit point reached by the light and / or smoke, the visual appeal and interactive experience are significantly enhanced. This invention not only meets users' multiple needs for functionality, aesthetics, and interactivity in different scenarios, but also significantly reduces the number of types of the overall device through a highly detachable and reconfigurable modular approach. It eliminates the need for multiple single-function diffuser devices; by changing the generator and adjusting the splicing structure, various effects can be flexibly combined, greatly improving product reusability and spatial adaptability.

[0091] The above embodiments are merely preferred embodiments of the present utility model and should not be construed as limiting the scope of protection of the present utility model. For those skilled in the art, it will be understood that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of the present utility model. The scope of the present utility model is defined by the appended claims and their equivalents.

Claims

1. An adjustable ambient atmosphere creation device, characterized in that, The device includes a generator and a diffuser. The generator is at least one of a light generator and a smoke generator. The diffuser includes a frame component and unit components. The frame component has a hollow structure and is provided with at least one inlet, multiple outlets, and multiple passages connecting the inlet and outlets. The inlet corresponds to the generator, and the passages are used to place the unit components. The unit components are block-shaped. By selecting whether to place the unit components in the frame component, or by adjusting the position, angle, and number of the unit components placed in the frame component, the path, flow rate, and outlet reached by the light and / or smoke formed in the passages can be adjusted.

2. The adjustable ambient atmosphere manufacturing apparatus as described in claim 1, characterized in that, The frame component is constructed from multiple cubes. The gaps formed between the cubes at the bottom of the frame component are the entrances of the frame component. The gaps formed between the cubes on the outer surface of the frame component are the exits of the frame component. The gaps formed between the cubes inside the frame component and connecting the entrances and exits are the passages of the frame component. The unit component is a cube that can be accommodated within the passages.

3. The adjustable ambient atmosphere manufacturing apparatus as described in claim 1, characterized in that, The frame component is a hollow sphere with crisscrossing passages inside. Both ends of the passages are connected to the surface of the sphere, forming the entrance and exit of the frame component. The unit component is a sphere that can be accommodated within the passages.

4. The adjustable ambient atmosphere manufacturing apparatus as described in claim 2 or 3, characterized in that, The unit components are fixed in the passage by their own gravity, magnetic attraction, sliding rail insertion, or snap-fit.

5. The adjustable ambient atmosphere manufacturing apparatus as described in claim 1, characterized in that, The frame component is a cylindrical container with openings at both the top and bottom. The bottom opening is the inlet of the frame component. The side wall of the cylindrical container has multiple through holes. The inner cavity of the cylindrical container and the inner wall of the through holes are the passageways of the frame component. The opening formed by the through holes on the outer surface of the cylindrical container is the outlet of the frame component. The top opening is equipped with a cover with an adjustable opening degree. The unit component is an adjusting plug that matches the through holes.

6. The adjustable ambient atmosphere manufacturing apparatus as described in claim 5, characterized in that, The regulating plug includes two semi-circular arc plates with groove structures. The two semi-circular arc plates are staggered and connected end to end. The grooves of the two semi-circular arc plates form a through internal channel after being spliced ​​together, which is used to guide the diffusion of light or smoke.

7. The adjustable ambient atmosphere manufacturing apparatus as described in claim 6, characterized in that, The regulating plug includes an insertion end and a suspended end. The end face of the insertion end is provided with a sealing plate, which partially blocks the through hole. The through hole of the cylindrical container is provided with a baffle that partially blocks the through hole. When the regulating plug is inserted into the through hole, the degree of overlap between the sealing plate and the baffle can be adjusted by axially rotating the regulating plug, thereby controlling the open area and opening angle of the outlet to achieve adjustment of the light and / or smoke flow rate and angle.

8. The adjustable ambient atmosphere manufacturing apparatus as described in claim 6, characterized in that, The two semicircular plates can slide relative to each other along the axial direction, thereby adjusting the cross-sectional area of ​​the inner channel formed by their splicing to control the flow rate of light or smoke.

9. The adjustable ambient atmosphere manufacturing apparatus as described in claim 1, characterized in that, It also includes a base, which has a placement cavity and an opening communicating with the placement cavity. The generator is placed in the placement cavity, and the diffuser is placed on the base, with the opening of the base corresponding to the inlet of the diffuser. The base has a rotating component that drives the diffuser to rotate. The base has an air supply component that communicates with the placement cavity to adjust the flow rate of the smoke.

10. The adjustable ambient atmosphere manufacturing apparatus as described in claim 1, characterized in that, The light generator is an LED light-emitting module, and the smoke generator is an ultrasonic atomizer or a burning fragrance; the frame component is made of stainless steel, ceramic, glass, resin or plastic.