Automobile interior emotional interaction atmosphere lamp
By employing a multi-layered lamp panel structure and a light-transmitting cover design in automotive interior ambient lighting, an interlaced lighting effect is achieved, solving the problems of monotonous lighting atmosphere and visual fatigue in existing technologies, and improving driving safety and visual experience.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO HUAKAI ELECTRONICS TECH CO LTD
- Filing Date
- 2025-06-30
- Publication Date
- 2026-07-07
AI Technical Summary
Existing automotive dashboard ambient lighting structures offer a limited range of lighting effects, making it difficult to achieve a dynamic and immersive experience, and also causing significant visual fatigue for drivers and passengers.
Design an emotional interactive ambient light for automotive interiors, which adopts a multi-layer lamp panel structure. The lamps on each layer have different light directions. The lamp panels are turned on or off by the vehicle control system to achieve an alternating effect of horizontal and vertical illumination. Combined with a light-transmitting cover and splicing structure, the uniformity and aesthetics of the light are improved.
It enhances the three-dimensional visual effect of the in-car ambient lighting, reduces visual fatigue for drivers and passengers, and improves driving safety.
Smart Images

Figure CN224470152U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of automotive interior ambient lighting technology, and in particular to an emotional interactive ambient lighting for automotive interiors. Background Technology
[0002] A Chinese patent with publication number CN213630305U discloses an ambient light structure for an automotive dashboard, including a dashboard body and an ambient light assembly disposed on the dashboard body. The ambient light assembly includes an ambient light housing, an ambient light module, and a light guide strip. The ambient light module and the light guide strip are both disposed inside the ambient light housing. The ambient light housing has a light-leaking gap on the side away from the windshield of the vehicle. The light emitted by the ambient light module can pass through the light guide strip and the light-leaking gap to illuminate the outside of the ambient light housing.
[0003] However, the aforementioned automotive dashboard ambient lighting structure has the following drawbacks: while it can serve as a decorative lighting feature for the car's dashboard, its ambient lighting module only has one layer, its light output method is singular, and the lighting atmosphere is not ideal, making it difficult to achieve a dynamic and immersive experience for drivers and passengers, which urgently needs improvement. Utility Model Content
[0004] The purpose of this invention is to provide an emotionally interactive ambient light for automotive interiors, which enhances the three-dimensional visual effect of ambient lighting, reduces visual fatigue for drivers and passengers, and improves driving safety.
[0005] The above-mentioned technical objective of this utility model is achieved through the following technical solution: an emotional interactive ambient light for automotive interiors, comprising an ambient light body, characterized in that: the ambient light body has a light-transmitting cover, and several layers of light panels are arranged at intervals along the vertical direction inside the ambient light body, several lamp beads are electrically connected to the light panels, and the light emission direction of the lamp beads on at least one layer of light panels is parallel to the light panels and illuminates the light-transmitting cover, and the light emission direction of the lamp beads on at least one layer of light panels is perpendicular to the horizontal extension surface of the light panels.
[0006] By adopting the above technical solution, the vehicle control system controls the lamp panels at corresponding height positions within the ambient light body to light up or turn off, enabling the corresponding lamp panels to provide horizontal or vertical illumination. This improves the uniformity of light transmission across the light-transmitting cover. Specifically, the light emitted by the lamp panels with horizontally illuminating LEDs shines onto the light-transmitting cover, while the light emitted by the lamp panels with vertically illuminating LEDs shines vertically onto the horizontal extension surface of the lamp panel. This achieves a lighting effect of interlaced light and shadow, which not only enhances the three-dimensional visual effect of the ambient lighting inside the vehicle but also reduces visual fatigue for drivers and passengers, thereby improving driving safety.
[0007] A further feature of this invention is that the lamp panel has an elliptical disk structure, and a plurality of lamp beads are spaced apart along the edge of the lamp panel.
[0008] By adopting the above technical solution, light is evenly irradiated around the light panel, improving the uniformity of light transmission on the same horizontal plane of the light-transmitting cover.
[0009] A further feature of this invention is that the ambient light body includes an upper light body and a lower light body, a splicing area is formed between the upper light body and the lower light body, the splicing area is provided with a splicing structure, and the upper light body and the lower light body are detachably connected through the splicing structure.
[0010] By adopting the above technical solution, the upper and lower lamp bodies can be quickly disassembled and assembled.
[0011] A further feature of this invention is that the lamp bead includes a horizontal light-emitting body and a vertical light-emitting body, the vertical light-emitting body is arranged on the lamp plate on the side of the ambient light body away from the splicing area, and the horizontal light-emitting body is arranged on the lamp plate on the side of the ambient light body close to the splicing area.
[0012] By adopting the above technical solution, the light panels located near and on both sides of the splicing area can project light horizontally onto the light-transmitting cover through the horizontal light-emitting bodies installed on them, while the light panels located near the upper and lower ends of the ambient light can project light through the light-transmitting cover and onto the focusing space on the side of the splicing area through the vertical light-emitting bodies installed on them, making the lighting of this device more layered and more beautiful.
[0013] A further feature of this invention is that the light-transmitting cover includes an upper cover assembly disposed in the upper lamp body, the upper cover assembly includes an upper inner light guide cover and an upper outer light-transmitting cover disposed outside the upper inner light guide cover, and both the upper inner light guide cover and the upper outer light-transmitting cover are made of light-transmitting material.
[0014] By adopting the above technical solution, the upper inner light guide cover can avoid the appearance of light spots on the surface of the upper lamp body, soften the strong light emitted by the lamp beads, prevent interference with the vision of drivers and passengers while driving, and allow more uniform and soft light to be transmitted through the upper outer light guide cover.
[0015] A further feature of this invention is that the light-transmitting cover includes a lower cover assembly disposed in the lower lamp body. The lower cover assembly includes a lower inner light guide cover and a lower outer light-transmitting cover made of light-transmitting material. The outer surface of the lower outer light-transmitting cover is coated with a paint-shielding layer, and the lower outer light-transmitting cover has several light-transmitting holes engraved on the paint-shielding layer by a paint-laser engraving process.
[0016] By adopting the above technical solution, the lower inner light guide can uniformly transmit the light generated by the lamp beads inside the lower lamp body to form soft light, which is then transmitted through the light-transmitting hole after passing through the lower outer light guide, forming a soft light ray effect in dark environments. This not only improves the aesthetics but also avoids light pollution affecting driving safety.
[0017] A further feature of this invention is that the upper lamp body includes an upper cover assembly and a light-shielding top cover, the lower lamp body includes a lower cover assembly and a light-shielding base, and the lower outer light-transmitting cover and the light-shielding base are engaged by a snap-fit structure.
[0018] By adopting the above technical solution, the ease of disassembly and assembly of the light-shielding top cover and light-shielding base of this utility model can be improved.
[0019] A further feature of this invention is that the splicing structure includes a snap-fit buckle and a snap-fit groove, the snap-fit buckle is disposed on the upper lamp body, the snap-fit groove is formed on the lower lamp body, and the snap-fit buckle and the snap-fit groove engage in a snap-fit cooperation.
[0020] By adopting the above technical solution, the upper and lower lamp bodies can be quickly assembled and disassembled through the above-mentioned snap-fit structure, thereby improving the ease of assembly of the ambient light body.
[0021] A further feature of this invention is that the outer diameter of the ambient light body gradually increases from the end closest to the splicing area toward the end furthest from the splicing area, and the outer diameter of the plurality of light panels gradually increases from the end closest to the splicing area toward the end furthest from the splicing area.
[0022] By adopting the above technical solution, the upper and lower lamp bodies are arranged in a frustum shape with opposite orientations. The lamp panels at different heights are adapted to the inner diameter of the mounting cavity at the corresponding heights, ensuring that the distance between the lamp beads on the lamp panels at different heights and the inner wall of the corresponding upper or lower cover assembly is uniform and consistent, thus preventing the light transmission intensity from being inconsistent at different heights.
[0023] A further feature of this invention is that a sealing ring is provided between the upper lamp body and the lower lamp body in the splicing area, the sealing ring has a positioning protrusion, and a positioning groove is provided at the bottom of the upper lamp body corresponding to the positioning protrusion, the positioning protrusion and the positioning groove being positioned and engaged.
[0024] By adopting the above technical solution, the addition of the sealing ring can improve the dustproof and waterproof performance of the upper and lower lamp bodies in the splicing area. At the same time, the positioning effect of the positioning protrusion and the positioning groove makes the positioning of the sealing ring more secure.
[0025] In summary, this utility model has the following beneficial effects:
[0026] The ambient light body is formed by splicing an upper lamp body and a lower lamp body, with a splicing area between them. The upper lamp body has an upper cover assembly made of light-transmitting material, and the lower lamp body has a lower cover assembly made of light-transmitting material. A recessed light-focusing space is formed between the upper and lower cover assemblies around the splicing area. Multiple lamp panels are vertically spaced within the mounting cavity. Each lamp panel has several LEDs electrically connected to its upper and / or lower surfaces. The light emission direction of the LEDs on at least one lamp panel is parallel to the lamp panel and illuminates the corresponding upper or lower cover assembly. The light emission direction of the LEDs on at least one lamp panel is perpendicular to the horizontal extension surface of the splicing area. The vehicle control system controls the corresponding lamp panels within the upper and lower lamp bodies to illuminate or deactivate, enabling them to provide horizontal or vertical illumination. This improves the uniformity of light emission between the upper and lower lamp housing components. Specifically, lamp panels with horizontally illuminating LEDs direct light onto the corresponding upper or lower lamp housing component, while lamp panels with vertically illuminating LEDs direct light into the focusing space on the side of the splicing area. This creates a light effect of interlacing light and shadow, enhancing the three-dimensional visual effect of the ambient lighting inside the vehicle. It also reduces visual fatigue for drivers and passengers, improving driving safety. Attached Figure Description
[0027] Figure 1 This is an overall structural diagram of the present invention.
[0028] Figure 2 This is a view showing the upper lamp body, sealing ring, and lower lamp body of this utility model separated from each other.
[0029] Figure 3 This is a utility model Figure 2 Another perspective.
[0030] Figure 4 This is a utility model Figure 1 A longitudinal sectional view.
[0031] Figure 5 This is an exploded view of the entire utility model.
[0032] Figure 6 This is a schematic diagram showing the interconnection of the various layers of lamp panels in the upper and lower lamp bodies of this utility model.
[0033] In the diagram: 1. Ambient light body; 11. Mounting cavity; 111. Upper chamber; 112. Lower chamber; 12. Splicing area; 13. Pin-type terminal block structure; 14. Surface mount connector; 2. Upper lamp body; 21. Upper cover assembly; 211. Upper inner light guide cover; 212. Upper outer light-transmitting cover; 213. Snap-fit buckle; 214. Positioning groove; 22. Light-shielding top cover; 3. Lower lamp body; 31. Lower cover assembly; 311. Lower inner light guide cover; 312. Lower outer light-transmitting cover; 3121. Light-transmitting hole; 313. Snap-fit groove; 32. Light-shielding base; 4. Lamp panel; 41. Lamp bead; 411. Horizontal light-emitting lamp body; 412. Vertical light-emitting lamp body; 5. Sealing ring; 51. Positioning protrusion; 6. Positioning post; 7. Positioning hole. Detailed Implementation
[0034] The present invention will be further described below with reference to the accompanying drawings.
[0035] A type of automotive interior ambient lighting with emotional interaction, such as Figures 1-4As shown, the ambient light body 1 includes an ambient light housing 1 with an installation cavity 11. The ambient light housing 1 is connected to the vehicle's infotainment system. The ambient light housing 1 is composed of an upper light body 2 and a lower light body 3, which are joined together to form a splicing area 12. The ambient light housing 1 has a light-transmitting cover 15, which includes an upper cover assembly 21 disposed in the upper light body 2 and a lower cover assembly 31 disposed in the lower light body 3. Both the upper cover assembly 21 and the lower cover assembly 31 are made of light-transmitting material, and the upper cover assembly 21 and the lower cover assembly 31 are connected together. The body components 31 form an inwardly recessed focusing space around the splicing area 12; the mounting cavity 11 is vertically spaced with multiple layers of lamp panels 4, and the upper surface of each lamp panel 4 is electrically connected with a number of lamp beads 41. In other embodiments, the lamp beads 41 can also be electrically connected to the lower surface of the lamp panel 4, or lamp beads 41 can be arranged on both the upper and lower surfaces of the lamp panel 4. The light emission direction of the lamp beads 41 on at least one layer of lamp panel 4 is parallel to the lamp panel 4 and illuminates the corresponding upper cover component 21 or lower cover component 31. The light emitted by the LED beads 41 on the layer light panel 4 is perpendicular to the horizontal extension surface of the splicing area 12. In this embodiment, the upper light body 2 also includes a light-shielding top cover 22, and the lower light body 3 also includes a light-shielding base 32. In this embodiment, the light-shielding base 32 is made of opaque ABS material. The upper cover assembly 21 and the light-shielding top cover 22, and the lower cover assembly 31 and the light-shielding base 32 are connected by a snap-fit structure. The light-shielding top cover 22 has three positioning posts 6 facing downward in the middle, and the light-shielding base 32 has three positioning posts 6 facing upward in the middle. Three positioning posts 6 are arranged in a triangular positioning structure to position the multi-layer lamp panel 4 inside the upper lamp body 2. The light-shielding base 32 is provided with three lower positioning posts 6 facing upwards, and the three lower positioning posts 6 are arranged in a triangular positioning structure. The multi-layer lamp panel 4 away from the splicing area 12 has positioning holes 7 corresponding to the positioning posts 6. By using the positioning effect of the positioning posts 6 and the positioning holes 7, the multi-layer lamp panel 4 is fixedly connected to the corresponding light-shielding top cover 22 and light-shielding base 32 through the positioning posts 6, and is used to position the multi-layer lamp panel 4 inside the lower lamp body 3.
[0036] like Figures 4-6As shown, the LED 41 includes a horizontal light-emitting body 411 and a vertical light-emitting body 412. The vertical light-emitting body 412 is arranged on the lamp plate 4 on the side of the ambient light body 1 away from the splicing area 12, and the horizontal light-emitting body 411 is arranged on the lamp plate 4 on the side of the ambient light body 1 closer to the splicing area 12. This allows the lamp plates 4 located near and on both sides of the splicing area 12 to project light horizontally onto the upper cover assembly 21 or the lower cover assembly 31 through the horizontal light-emitting body 411, and the light is then transmitted through them. The light panels 4 at the top and bottom of the ambient light allow light to pass through the upper cover assembly 21 and the lower cover assembly 31 and then illuminate the focusing space on the side of the splicing area 12 via the vertically mounted light-emitting lamps 412. This makes the lighting of the device more layered and aesthetically pleasing. The light panels 4 have an elliptical disk structure, with several LEDs 41 spaced along the edge of the light panel 4, ensuring that light is evenly emitted around the light panel 4 and improving the uniformity of light transmission between the upper and lower light bodies 2 and 3 on the same horizontal plane. The ambient light body... The outer diameter of the upper lamp body 2 gradually increases from the end near the splicing area 12 to the end away from the splicing area 12. Similarly, the outer diameter of several lamp panels 4 within the mounting cavity 11 gradually increases from the end near the splicing area 12 to the end away from the splicing area 12, making the upper lamp body 2 and lower lamp body 3 form a frustum shape with opposite orientations. The lamp panels 4 at different heights are fitted to the inner diameter of the mounting cavity 11 at corresponding heights, ensuring that the distance between the lamp beads 41 on the lamp panels 4 at different heights and the inner wall of the corresponding upper cover assembly 21 or lower cover assembly 31 is... To ensure uniformity and consistency, and to prevent inconsistent light transmission intensity at different heights, in this embodiment, the lower lamp body 3 has six layers of lamp panels 4 from bottom to top, and the upper lamp body 2 has five layers of lamp panels 4 from bottom to top, for a total of eleven layers of lamp panels 4. Counting from bottom to top, the first and second layers of lamp panels 4 are equipped with vertically upward-illuminating lamp bodies 412, the eleventh layer of lamp panels 4 is equipped with vertically downward-illuminating lamp bodies 412, and the remaining lamp panels 4 are equipped with horizontally illuminating lamp bodies 411 that illuminate outwards from the side.
[0037] like Figures 1-6As shown, the upper cover assembly 21 includes an upper inner light guide cover 211 and an upper outer light-transmitting cover 212, which is integrally injection molded in two colors outside the upper inner light guide cover 211. Both the upper inner light guide cover 211 and the upper outer light-transmitting cover 212 are made of light-transmitting materials. In this embodiment, the upper inner light guide cover 211 is made of milky white light-transmitting PC material, and the upper outer light-transmitting cover 212 is made of transparent PC material. The upper inner light guide cover 211 can prevent light spots from appearing on the surface of the upper lamp body 2, soften the strong light emitted by the lamp beads 41, and prevent light from affecting the driver's vision when driving. The visual interference of the driver and passengers allows for more uniform and softer light to pass through the upper outer light-transmitting cover 212. The upper inner light guide cover 211 and the upper outer light-transmitting cover 212, which are integrally injection molded in two colors, can improve the structural strength of the connection between the two. The lower cover assembly 31 includes a lower inner light guide cover 311 and a lower outer light-transmitting cover 312, which are integrally molded in two colors using light-transmitting material. In this embodiment, both the lower inner light guide cover 311 and the lower outer light-transmitting cover 312 are made of transparent PC material. The lower outer light-transmitting cover 312... The outer surface is coated with a light-shielding layer, and the lower outer light-transmitting cover 312 has several light-transmitting holes 3121 engraved on the light-shielding layer using a laser engraving process. The dual-color integrated lower cover assembly 31 has higher overall structural strength, and the lower inner light guide cover 311 can evenly conduct the light generated by the LED beads 41 inside the lower lamp body 3 to form soft light. After passing through the lower outer light-transmitting cover 312, the light is transmitted through the light-transmitting holes 3121, forming a soft light ray effect in dark environments. This not only improves the aesthetics but also avoids light pollution. The light transmittance 3121 is arranged around the lower lamp body 3 from top to bottom, and the density of the light transmittance 3121 on the lower lamp body 3 gradually decreases from the side closer to the splicing area 12 to the side farther away from the splicing area 12. This makes the light transmitted through the light transmittance 3121 on the lower lamp body 3 form a gradient light effect, that is, the light closer to the splicing area 12 is stronger, while the light farther away from the splicing area 12 is softer, thus improving the light layering produced by the lower lamp body 3.
[0038] like Figures 1-4As shown, the mounting cavity 11 includes an upper cavity 111 and a lower cavity 112. Adjacent lamp panels 4 in the upper cavity 111 and lower cavity 112 are electrically connected via a pin-type terminal block structure 13. Adjacent lamp panels 4 between the upper cavity 111 and lower cavity 112 are electrically connected via a surface mount connector 14. Unlike the method of using multiple wire harnesses to electrically connect the lamp panels 4 separately, the lamp panel 4 connection method of the pin-type terminal block structure 13 is more compact and the electrical connection is more secure. In addition, adjacent lamp panels 4 between the upper lamp body 2 and the lower lamp body 3 near the splicing area 12 are connected to the upper lamp body 2 and the lower lamp body 3 via surface mount connectors 14, making it easier to switch the power on and off between the upper lamp body 2 and the lower lamp body 3. The bottom of the upper lamp body 2 is provided with several snap-fit buckles 213, and the top of the lower lamp body 3 is provided with corresponding snap-fit buckles. The buckle 213 has a snap-fit groove 313, and the snap-fit buckle 213 engages with the snap-fit groove 313, so that the upper lamp body 2 and the lower lamp body 3 can be quickly assembled and disassembled through the snap-fit structure, improving the assembly convenience of the ambient light body 1. In this embodiment, there are four sets of snap-fit buckles 213 and snap-fit grooves 313. A sealing ring 5 is provided between the upper lamp body 2 and the lower lamp body 3 in the splicing area 12. The sealing ring 5 has a positioning protrusion 51. The bottom of the upper lamp body 2 has a positioning groove 214 corresponding to the positioning protrusion 51. The positioning protrusion 51 and the positioning groove 214 are positioned and engaged. The addition of the sealing ring 5 can improve the dustproof and waterproof performance of the upper lamp body 2 and the lower lamp body 3 in the splicing area 12. At the same time, the positioning effect of the positioning protrusion 51 and the positioning groove 214 makes the positioning of the sealing ring 5 more secure.
[0039] The basic working principle of this utility model is as follows: The upper lamp body 2 and the lower lamp body 3 are spliced together to form the ambient light body 1, and a splicing area 12 is formed between the upper lamp body 2 and the lower lamp body 3. The upper lamp body 2 has an upper cover assembly 21 made of light-transmitting material, and the lower lamp body 3 has a lower cover assembly 31 made of light-transmitting material. A recessed light-gathering space is formed between the upper cover assembly 21 and the lower cover assembly 31 around the splicing area 12. Multiple lamp panels 4 are arranged vertically in the mounting cavity 11. A number of lamp beads 41 are electrically connected to the upper surface and / or lower surface of each lamp panel 4. The light emission direction of the lamp beads 41 on at least one lamp panel 4 is parallel to the lamp panel 4 and shines on the corresponding upper cover assembly 21 or lower cover assembly 31. The light emission direction of the lamp beads 41 on at least one lamp panel 4 shines perpendicularly on the splicing area 1. The horizontal extension surface of 2 allows the vehicle control system to control the corresponding lamp panels 4 inside the upper lamp body 2 and lower lamp body 3 to light up or turn off, so that the corresponding lamp panels 4 can provide horizontal or vertical illumination, improving the light emission uniformity of the upper cover assembly 21 and lower cover assembly 31. Specifically, the light emitted by the lamp panel 4 with the horizontally illuminating lamp beads 41 shines on the corresponding upper cover assembly 21 or lower cover assembly 31, while the light emitted by the lamp panel 4 with the vertically illuminating lamp beads 41 shines vertically on the focusing space on the side of the splicing area 12, thereby achieving a light effect of interlaced light and shadow. This not only enhances the three-dimensional visual effect of the ambient lighting in the car, but also reduces visual fatigue of the driver and passengers, and improves driving safety. It has the effects of enhancing the three-dimensional visual effect of ambient lighting, reducing visual fatigue of the driver and passengers, and improving driving safety.
[0040] The above description is only a preferred embodiment of the present utility model. Therefore, all equivalent changes or modifications made to the structure, features and principles described in the claims of the present utility model patent application are included in the scope of the present utility model patent application.
Claims
1. An emotionally interactive ambient light for automotive interiors, comprising an ambient light body (1), characterized in that: The ambient light body (1) has a light-transmitting cover (15). Several layers of light panels (4) are arranged vertically inside the ambient light body (1). Several lamp beads (41) are electrically connected to the light panels (4). The light emission direction of the lamp beads (41) on at least one layer of light panels (4) is parallel to the light panel (4) and shines on the light-transmitting cover (15). The light emission direction of the lamp beads (41) on at least one layer of light panels (4) is perpendicular to the horizontal extension surface of the light panel (4).
2. The automotive interior emotional interactive ambient light according to claim 1, characterized in that: The lamp panel (4) has an elliptical disk structure, and a number of lamp beads (41) are spaced apart along the edge of the lamp panel (4).
3. The automotive interior emotional interactive ambient light according to claim 1, characterized in that: The ambient light body (1) includes an upper light body (2) and a lower light body (3), and a splicing area (12) is formed between the upper light body (2) and the lower light body (3). The splicing area (12) is provided with a splicing structure, and the upper light body (2) and the lower light body (3) are detachably connected through the splicing structure.
4. The automotive interior emotional interactive ambient light according to claim 3, characterized in that: The lamp bead (41) includes a horizontal light-emitting body (411) and a vertical light-emitting body (412). The vertical light-emitting body (412) is arranged on the lamp panel (4) on the side of the ambient light body (1) away from the splicing area (12), and the horizontal light-emitting body (411) is arranged on the lamp panel (4) on the side of the ambient light body (1) close to the splicing area (12).
5. The automotive interior emotional interactive ambient light according to claim 3, characterized in that: The light-transmitting cover (15) includes an upper cover assembly (21) disposed in the upper lamp body (2). The upper cover assembly (21) includes an upper inner light guide cover (211) and an upper outer light-transmitting cover (212) disposed outside the upper inner light guide cover (211). Both the upper inner light guide cover (211) and the upper outer light-transmitting cover (212) are made of light-transmitting material.
6. The automotive interior emotional interactive ambient light according to claim 3, characterized in that: The light-transmitting cover (15) includes a lower cover assembly (31) disposed in the lower lamp body (3). The lower cover assembly (31) includes a lower inner light guide cover (311) and a lower outer light guide cover (312) made of light-transmitting material. The outer surface of the lower outer light guide cover (312) is coated with a paint-shielding layer, and the lower outer light guide cover (312) has several light-transmitting holes (3121) engraved on the paint-shielding layer by a paint-laser engraving process.
7. The automotive interior emotional interactive ambient light according to claim 6, characterized in that: The upper lamp body (2) includes an upper cover assembly (21) and a light-shielding top cover (22), and the lower lamp body (3) includes a lower cover assembly (31) and a light-shielding base (32), and the lower outer light-transmitting cover (312) and the light-shielding base (32) are engaged by a snap-fit structure.
8. The automotive interior emotional interactive ambient light according to claim 6, characterized in that: The splicing structure includes a snap fastener (213) and a snap fastener groove (313). The snap fastener (213) is provided on the upper lamp body (2), and the snap fastener groove (313) is opened on the lower lamp body (3). The snap fastener (213) and the snap fastener groove (313) are engaged.
9. The automotive interior emotional interactive ambient light according to claim 3, characterized in that: The outer diameter of the ambient light body (1) gradually increases from the end near the splicing area (12) toward the end away from the splicing area (12), and the outer diameter of the plurality of light panels (4) gradually increases from the end near the splicing area (12) toward the end away from the splicing area (12).
10. The automotive interior emotional interactive ambient light according to claim 3, characterized in that: A sealing ring (5) is provided between the upper lamp body (2) and the lower lamp body (3) in the splicing area (12). The sealing ring (5) is provided with a positioning protrusion (51). A positioning groove (214) is provided at the bottom of the upper lamp body (2) corresponding to the positioning protrusion (51). The positioning protrusion (51) and the positioning groove (214) are positioned and engaged.