阅读说明：本技术 氛围窗及交通工具 (Atmosphere window and vehicle ) 是由 叶至东 方强 刘贤平 杨黎伟 曹礼敏 于 2020-12-18 设计创作，主要内容包括：一种氛围窗及交通工具,氛围窗包括第一氛围组件、第二氛围组件和发光组件,第一氛围组件包括相互连接的第一出光面和第一侧面,第二氛围组件包括相互连接的第二出光面和第二侧面,第一侧面和第二侧面相对间隔设置形成凹槽,发光组件完全容置于凹槽内部,发光组件包括具有第一发光面和第二发光面的光源,第一发光面和第二发光面分别与第一侧面和第二侧面相对设置,第一发光面出射的光线由第一侧面进入第一氛围组件传导后从第一出光面出射,第二发光面发射的光线由第二侧面进入第二氛围组件传导后从第二出光面出射。通过将发光组件完全容置于第一氛围组件和第二氛围组件之间的凹槽内,能够减薄氛围窗的厚度,使得产品占用空间小。(The utility model provides an atmosphere window and vehicle, the atmosphere window includes first atmosphere subassembly, second atmosphere subassembly and light emitting component, first atmosphere subassembly includes interconnect's first plain noodles and first side, the second atmosphere subassembly includes interconnect's second plain noodles and second side, first side and second side set up the formation recess relatively at an interval, light emitting component holds inside the recess completely, light emitting component is including the light source that has first light emitting face and second light emitting face, first light emitting face and second light emitting face set up with first side and second side respectively relatively, the light of first light emitting face outgoing enters first atmosphere subassembly conduction by first side and goes out from first plain noodles after, the light of second light emitting face transmission gets into second atmosphere subassembly conduction by the second side and then goes out from second plain noodles. Through with the complete holding of light emitting component in the recess between first atmosphere subassembly and the second atmosphere subassembly, the thickness that can attenuate the atmosphere window for product occupation space is little.)

1. An atmosphere window, characterized in that, the atmosphere window includes a first atmosphere subassembly, a second atmosphere subassembly and a light emitting subassembly, the first atmosphere subassembly includes a first light-emitting surface and a first side surface which are connected with each other, the second atmosphere subassembly includes a second light-emitting surface and a second side surface which are connected with each other, the first side surface and the second side surface are oppositely arranged at intervals to form a groove, the light emitting subassembly is arranged between the first side surface and the second side surface and is completely accommodated in the groove, the light emitting subassembly includes a light source, the light source includes a first light-emitting surface and a second light-emitting surface, the first light-emitting surface is oppositely arranged with the first side surface, the second light-emitting surface is oppositely arranged with the second side surface, the light emitted from the first light-emitting surface enters the first atmosphere subassembly to be conducted and is emitted from the first light-emitting surface, and the light emitted from the second light emitting surface enters the second atmosphere component from the second side surface for conduction and is emitted from the second light emitting surface.

2. The ambience window of claim 1, wherein the light source includes a first light source having the first light emitting face and a second light source having the second light emitting face.

3. The ambience window of claim 2, further comprising an outer light transmitting member, the first ambience component and the second ambience component both being disposed on the outer light transmitting member, the outer light transmitting member including an inner surface disposed facing the recess, the first side, the inner surface and the second side collectively enclosing the recess.

4. The atmosphere window of claim 1 or 3, wherein the first atmosphere component comprises a first light transmissive element and a first light extraction structure, the first light transmissive element comprises the first light exit surface and a first upper surface, the first upper surface is opposite to the first light exit surface, and the first light extraction structure is disposed on the first light exit surface and/or the first upper surface.

5. The ambience window of claim 4, wherein the second ambience component includes a second light transmitting member and a second light extraction structure, the second light transmitting member includes the second light emitting surface and a second upper surface, the second upper surface is opposite to the second light emitting surface, the second light extraction structure is disposed at the second light emitting surface and/or the second upper surface, and a shape of the second light extraction structure is different from a shape of the first light extraction structure.

6. The ambience window of claim 3, further comprising a sealing member disposed at an opening of a side of the recess opposite the outer light-transmitting member, the sealing member being attached to the first ambience component and the second ambience component to completely cover the opening.

7. The ambience window of claim 6, wherein the light emitting assembly further includes a circuit board disposed on any one or more of the first side, the inner surface, the second side, and the sealing member, the first light source and the second light source both being disposed on the circuit board.

8. The ambience window of claim 7, wherein the circuit board includes first and second opposing surfaces, the first surface being disposed opposite the first side, the first light source being disposed on the first surface, the second surface being disposed opposite the second side, the second light source being disposed on the second surface, the circuit board independently controlling the first and second light sources to be turned on or off.

9. The ambience window of claim 7, wherein the circuit board includes opposing control and support surfaces, the first and second light sources being disposed on the control surface, the support surface being fixedly connected to the inner surface of the outer light transmitting member or the sealing member.

10. The ambience window of claim 9, further including a first light blocking member disposed on the control surface, the first light blocking member being positioned between the first light source and the second light source for isolating light from the first light source and light from the second light source.

11. The ambience window of claim 7, wherein the circuit board includes a first circuit board and a second circuit board, the first light source being disposed on the first circuit board and the second light source being disposed on the second circuit board.

12. The ambience window of claim 6, wherein the sealing member is a light transmitting material and the sealing member is adapted to uniformly emit light from the first and second light sources.

13. The ambience window of claim 6, including a controller, the first light source and the second light source being electrically connected to the controller by wires, a second light shield being disposed between the first light source and the second light source, the second light shield being configured to isolate light emitted by the first light source and the second light source.

14. The ambience window of claim 2, further comprising a first light guide disposed between the first side and the first light source and a second light guide disposed between the second light source and the second side, wherein light emitted by the first light source is directed toward the first side after being transmitted by the first light guide and light emitted by the second light source is directed toward the second side after being transmitted by the second light guide.

15. The ambience window of claim 1, including a first outer light transmitting member and a second outer light transmitting member, the first and second outer light transmitting members being spaced apart and the first outer light transmitting member being coupled to the first ambience component and the second outer light transmitting member being coupled to the second ambience component.

16. The ambience window of claim 15, including a cover plate coupled to the first and second outer light transmitting members to completely cover a space between the first and second outer light transmitting members and a sealing member coupled to the first and second ambience components to completely cover the space between the first and second ambience components.

17. A vehicle comprising a housing and an ambience window as claimed in any one of claims 1 to 16, the ambience window being mounted on the housing with the first and second light exit surfaces facing the interior of the housing.

Technical Field

The invention relates to the technical field of atmosphere windows, in particular to an atmosphere window and a vehicle comprising the same.

Background

The atmosphere window is a skylight, a side window, a front window and a rear window integrated with an atmosphere lamp, is mainly applied to an automobile at present, and aims to make a carriage more gorgeous at night, support the atmosphere and create the interior emotion of the automobile. Atmosphere window realizes adjusting the effect of atmosphere through installing the atmosphere lamp, and in present atmosphere window product, the lamp source is all installed on glass surface or side usually, and the installation space that electronic parts that is correlated with the lamp source needs is all bigger to lead to the difficult attenuate of whole atmosphere window thickness, product occupation space is big, is unfavorable for arranging of assembly product.

Disclosure of Invention

The invention aims to provide an atmosphere window and a vehicle, which can reduce the thickness of the atmosphere window and enable the occupied space of a product to be small.

In order to realize the purpose of the invention, the invention provides the following technical scheme:

in a first aspect, the present invention provides an atmosphere window, which includes a first atmosphere component, a second atmosphere component and a light emitting component, wherein the first atmosphere component includes a first light emitting surface and a first side surface that are connected to each other, the second atmosphere component includes a second light emitting surface and a second side surface that are connected to each other, the first side surface and the second side surface are oppositely disposed at an interval to form a groove, the light emitting component is disposed between the first side surface and the second side surface and completely accommodated inside the groove, the light emitting component includes a light source, the light source includes a first light emitting surface and a second light emitting surface, the first light emitting surface is oppositely disposed to the first side surface, the second light emitting surface is oppositely disposed to the second side surface, light emitted from the first light emitting surface enters the first atmosphere component from the first side surface to be transmitted and is emitted from the first light emitting surface, and the light emitted from the second light emitting surface enters the second atmosphere component from the second side surface for conduction and is emitted from the second light emitting surface.

In one embodiment, the light source comprises a first light source having the first light emitting face and a second light source having the second light emitting face.

In one embodiment, the atmosphere window further comprises an outer light-transmitting member, the first atmosphere component and the second atmosphere component are both disposed on the outer light-transmitting member, the outer light-transmitting member comprises an inner surface disposed facing the groove, and the first side surface, the inner surface, and the second side surface collectively enclose the groove.

In one embodiment, the first atmosphere component includes a first light-transmitting element and a first light extraction structure, the first light-transmitting element includes the first light-emitting surface and a first upper surface, the first upper surface is opposite to the first light-emitting surface, and the first light extraction structure is disposed on the first light-emitting surface and/or the first upper surface.

In one embodiment, the second atmosphere component includes a second light-transmitting member and a second light extraction structure, the second light-transmitting member includes a second light-emitting surface and a second upper surface, the second upper surface is opposite to the second light-emitting surface, the second light extraction structure is disposed on the second light-emitting surface and/or the second upper surface, and a shape of the second light extraction structure is different from a shape of the first light extraction structure.

In one embodiment, the atmosphere window further comprises a sealing member disposed at an opening of a side of the groove opposite to the outer light-transmitting member, the sealing member being attached to the first atmosphere component and the second atmosphere component to completely cover the opening.

In one embodiment, the light emitting assembly further comprises a circuit board disposed on any one or more of the first side, the inner surface, the second side, and the encapsulant, the first light source and the second light source both being disposed on the circuit board.

In one embodiment, the circuit board includes a first surface and a second surface opposite to each other, the first surface is disposed opposite to the first side surface, the first light source is disposed on the first surface, the second surface is disposed opposite to the second side surface, the second light source is disposed on the second surface, and the circuit board independently controls the first light source and the second light source to be turned on or off.

In one embodiment, the circuit board includes a control surface and a support surface opposite to each other, the first light source and the second light source are disposed on the control surface, and the support surface is fixedly connected to the inner surface of the outer light-transmitting member or the sealing member.

In one embodiment, a first light shielding member is further disposed on the control surface, and the first light shielding member is located between the first light source and the second light source and is used for isolating light rays of the first light source from light rays of the second light source.

In one embodiment, the circuit board includes a first circuit board and a second circuit board, the first light source is disposed on the first circuit board, and the second light source is disposed on the second circuit board.

In one embodiment, the sealing member is made of a light-transmitting material, and the sealing member is used for uniformly emitting the light of the first light source and the light of the second light source.

In one embodiment, the ambience window includes a controller, the first light source and the second light source are electrically connected to the controller through a conducting wire, and a second light shielding member is disposed between the first light source and the second light source and is used for isolating light rays emitted by the first light source and the second light source.

In one embodiment, the ambience window further includes a first light guide disposed between the first side surface and the first light source, and a second light guide disposed between the second light source and the second side surface, wherein the light emitted from the first light source is transmitted through the first light guide and then emitted toward the first side surface, and the light emitted from the second light source is transmitted through the second light guide and then emitted toward the second side surface.

In one embodiment, the atmosphere window includes a first outer light-transmitting member and a second outer light-transmitting member, the first outer light-transmitting member and the second outer light-transmitting member are arranged at an interval, the first outer light-transmitting member and the first atmosphere component are connected, and the second outer light-transmitting member and the second atmosphere component are connected.

In one embodiment, the atmosphere window includes a cover plate coupled to the first outer light transmitting member and the second outer light transmitting member to completely cover a space between the first outer light transmitting member and the second outer light transmitting member, and a sealing member coupled to the first atmosphere component and the second atmosphere component to completely cover a space between the first atmosphere component and the second atmosphere component.

In a second aspect, the present invention provides a vehicle, which includes a housing and the atmosphere window of any embodiment of the first aspect, wherein the atmosphere window is installed on the housing, and the first light emitting surface and the second light emitting surface face the inside of the housing.

Through setting up and forming the recess between first atmosphere subassembly and the second atmosphere subassembly to hold light-emitting component in the inside mounting structure of recess completely, attenuate the thickness of atmosphere window, make product occupation space little.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic view of an embodiment of an atmosphere window configuration;

FIG. 2 is a schematic view of an atmosphere window structure according to another embodiment;

FIG. 3 is a schematic diagram of a display pattern according to an embodiment;

FIG. 4 is a schematic view of a display pattern according to another embodiment;

FIG. 5 is a schematic view of an atmosphere window structure according to another embodiment;

FIG. 6 is a schematic view of an atmosphere window structure according to another embodiment;

FIG. 7 is a schematic view of an atmosphere window structure according to another embodiment;

FIG. 8 is a schematic view of an atmosphere window structure according to another embodiment;

FIG. 9 is a schematic view of an atmosphere window structure according to another embodiment.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Referring to fig. 1, the present invention provides an atmosphere window, which is mainly applied to a sunroof or a rear side window of a vehicle to adjust the atmosphere in the vehicle or to be used as a decoration, and can also be applied to other vehicles, such as a ship and a yacht, and can also be used in a building to adjust the indoor atmosphere.

The atmosphere window comprises a first atmosphere component 10, a second atmosphere component 20 and a light emitting component 30, wherein the first atmosphere component 10 comprises a first light emitting surface 11 and a first side surface 12 which are connected with each other, the second atmosphere component 20 comprises a second light emitting surface 21 and a second side surface 22 which are connected with each other, the first side surface 12 and the second side surface 22 are oppositely arranged at intervals to form a groove 40, the light emitting component 30 is arranged between the first side surface 12 and the second side surface 22, and the height of the light emitting component 30 is smaller than or equal to the depth of the groove 40, so that the light emitting component 30 is completely accommodated in the groove 40 and does not protrude out of the first light emitting surface 11 and the second light emitting surface 21.

The light emitting assembly 30 includes a light source including a first light emitting surface 311 and a second light emitting surface 321, and the first light emitting surface 311 and the second light emitting surface 321 may be located on different surfaces of the same light source or located on different light sources. In this embodiment, the light emitting assembly includes a first light source 31 and a second light source 32, the first light source 31 has a first light emitting surface 311, the second light source 32 has a second light emitting surface 322, the first light emitting surface 311 is disposed opposite to the first side surface 12, and the second light emitting surface 321 is disposed opposite to the second side surface 22. The light emitted by the first light source 31 is emitted from the first light emitting surface 311 to the first side surface 12, enters the first atmosphere component 10 from the first side surface 12, is reflected and transmitted for a plurality of times in the first atmosphere component 10, and then is emitted from the first light emitting surface 11, the light emitted by the second light source 32 is emitted from the second light emitting surface 321 to the second side surface 22, enters the second atmosphere component 20 from the second side surface 22, and is reflected and transmitted for a plurality of times in the second atmosphere component 20, and then is emitted from the second light emitting surface 21.

Through setting up and forming recess 40 between first atmosphere subassembly 10 and the second atmosphere subassembly 20, and hold the mounting structure in recess 40 inside with light-emitting component 30 completely, the thickness of atmosphere window has been attenuate for the product occupation space is little.

In an embodiment, referring to fig. 1, the atmosphere window further includes an outer light-transmitting member 50, where the outer light-transmitting member 50 is usually a transparent material with high strength, such as tempered glass, or a sheet made of one or more transparent materials such as polymethyl methacrylate (PMMA), Polystyrene (PS), Polycarbonate (PC), Polyethylene (PE), and the like, and may be a single-sheet structure or a double-sheet composite sheet structure to improve safety performance. Both the first atmosphere assembly 10 and the second atmosphere assembly 20 are arranged on the outer light transmissive element 50. Specifically, the outer transparent member 50 includes an inner surface 51 disposed facing the groove 40, and a glass interlayer is disposed between the first atmosphere component 10 and the second atmosphere component 20 and the inner surface 51 to bond the outer transparent member 50 and the first atmosphere component 10 and the second atmosphere component 20, and the glass interlayer may be made of any material that can achieve bonding purpose and is colorless and transparent, such as Polyvinyl butyral (PVB), Thermoplastic polyurethane elastomer rubber (TPU), and the like, and the first side surface 12, the inner surface 51, and the second side surface 22 collectively enclose the groove 40 for accommodating the light emitting component 30. By disposing the outer light-transmitting member 50 with high structural strength on the surfaces of the first atmosphere component 10 and the second atmosphere component 20, the first atmosphere component 10 and the second atmosphere component 20 can be protected from being damaged by impact, corrosion and the like, and the outer light-transmitting member 50, the first atmosphere component 10 and the second atmosphere component 20 are enclosed to form the groove 40, so that an installation space is provided for the light-emitting component 30, and the light-emitting component 30 is isolated from the outside of the vehicle.

In one embodiment, referring to fig. 1, the first ambient assembly 10 includes a first light-transmitting member 13 and a first light extraction structure 61, and the material of the first light-transmitting member 13 can be referred to the outer light-transmitting member 50. The first light-transmitting member 13 includes a first light-emitting surface 11 and a first upper surface 14, the first upper surface 14 is opposite to the first light-emitting surface 11, the first light extraction structure 61 is made of a light extraction material, and may be a structure having functions of scattering, refracting, and the like, or a photoluminescent structure, and the photoluminescent structure can re-radiate photons (or electromagnetic waves) after absorbing the photons (or electromagnetic waves). When the first light extraction structure 61 is a structure having functions of scattering, refracting, etc., it is used to reflect or refract the light entering the first atmosphere component 10 to form a pattern; when the first light extraction structure 61 is a photoluminescent structure, the first light extraction structure 61 absorbs energy and generates excitation to emit light after being irradiated by a light source. The first light extraction structures 61 can be disposed on the first light emitting surface 11 and the first upper surface 14 by using ink printing, silk screen printing, chemical etching, laser etching, surface sand blasting, and other techniques, and the patterns of the first light emitting surface 11 and the first upper surface 14 cooperate to form the final desired pattern effect. The first light extraction structure 61 has the characteristic of reflecting light, and by designing the first light extraction structure 61 into patterns such as flowers, birds, cartoons, characters or characters, when the light reaches the first light extraction structure 61 on the first upper surface 14, part of the light is reflected, the other part of the light enters the first light transmission member 13 and emits to the first light extraction structure 61 on the first light emitting surface 11, and after the light is reflected twice, the corresponding patterns such as flowers, birds, cartoons, characters or characters are finally formed on the light emitting surface 11, so that the effect of adjusting the atmosphere is achieved.

Optionally, the first light extraction structure 61 is disposed on the first light emitting surface 11, and the light enters the first light transmissive member 13 and is reflected on the first light extraction structure 61 of the first light emitting surface 11 to form a final pattern. Optionally, a first light extraction structure 61 is provided on the first upper surface 14.

In another embodiment, as shown in fig. 2, by providing the reflective teeth structure on the first upper surface 14 of the first light-transmitting member 13, different roughness can be obtained by changing the height or depth of the reflective teeth, when the reflective teeth have a larger roughness, the light reflection mode will be closer to diffuse reflection so as to obtain a wider angular distribution when the light exits from the first light-emitting surface 11; when the reflective teeth have a small roughness, the light reflection mode will be closer to the mirror reflection so that the light will obtain an angular distribution with a small width when exiting from the first light-emitting surface 11. When the inclination angles of the reflecting teeth are different, the incident angles of the light rays are changed, and the emergent paths of the reflected light rays are also different. By adjusting the inclination angle, the roughness and the like of the reflecting teeth, the emergent direction of the light path from the first light emitting surface 11 can be accurately controlled, so that a better pattern light emitting effect is obtained.

In an embodiment, referring to fig. 1 and 3, the second atmosphere component 20 includes a second light transmissive element 23 and a second light extraction structure 62, the second light transmissive element 23 includes a second light emitting surface 21 and a second upper surface 24, the second upper surface 24 is opposite to the second light emitting surface 21, and the second light extraction structure 62 is disposed on the second light emitting surface 21 and/or the second upper surface 24, it is understood that the second light transmissive element 23 and the first light transmissive element 13 have the same structure, and the second light extraction structure 62 is disposed in the same manner as the first light extraction structure 61. As shown in fig. 3, the shape of the second light extraction structure 62 is different from the shape of the first light extraction structure 61, wherein the shape of the first light extraction structure 61 is the english letter "O" and the shape of the second light extraction structure 62 is the english letter "K". In other embodiments, the first light extraction structure 61 and the second light extraction structure 62 may be shaped as a combination of any of various shapes, such as geometric figures, cartoons, characters, etc. Alternatively, as shown in fig. 4, the shape of the first light extraction structure 61 is the same as that of the second light extraction structure 62 to form an axisymmetric pattern, a centrosymmetric pattern, or the like. By setting the shapes of the first light extraction structure 61 and the second light extraction structure 62, respectively, the atmosphere lamp pattern style can be diversified, having an effect of better adjusting the atmosphere.

In one embodiment, referring to fig. 1, the atmosphere window further comprises a sealing member 70, the sealing member 70 is disposed at the opening of the groove 40 at the side opposite to the outer transparent member 50, and the sealing member 70 is attached to the first atmosphere component 10 and the second atmosphere component 20 to completely cover the opening. The sealing member 70 may be made of a material having a certain structural strength, such as a composite material, tempered glass, or the like, and may play a role in supporting or protecting while achieving a sealing function, or may be a thin film having only a sealing function, thereby reducing the thickness. As shown in FIG. 1, the sealing member 70 can be fixed to the first atmosphere assembly 10 and the second atmosphere assembly 20 by providing a snap-fit structure. Alternatively, the sealing member 70 may also be adhesively connected to the first atmosphere component 10 and the second atmosphere component 20, as shown in fig. 2, and when the sealing member 70 is fully arranged in the recess 40, the sealing member 70 is adhesively connected to the first side 12 and the second side 22, respectively, by which means the overall thickness of the atmosphere window may be reduced. Optionally, the sealing member 70 may also be disposed outside the groove 40 and fixed to the first light emitting surface 11 and the second light emitting surface 21 by adhesion. By providing the sealing member 70 at the opening of the recess 40, the recess 40 is sealed, and the light emitting member 30 inside the recess 40 is protected.

In one embodiment, referring to fig. 1, the light emitting assembly 30 further includes a circuit board 33, and when the number of the circuit boards 33 is one, the circuit board 33 is disposed on any one of the first side surface 11, the inner surface 51, the second side surface 21 and the sealing member 70. When the number of the circuit boards 33 is plural, the wiring board 33 is provided on plural faces of the first side face 11, the inner face 51, the second side face 21, and the sealing member 70. The first light source 31 and the second light source 32 are both disposed on the circuit board 33.

Specifically, referring to fig. 1, fig. 5 and fig. 6, the embodiment is shown when the number of the circuit boards 33 is one. As shown in fig. 1, when the circuit board 33 is disposed on the sealing member 70, the first light source 31 and the second light source 32 are disposed on two opposite surfaces of the circuit board 33, which are opposite to the first side surface 12 and the second side surface 22, respectively. It is understood that, with this configuration of the light emitting assembly 30, the circuit board 30 may also be disposed on the inner surface 51 (not shown); as shown in fig. 5, the first light source 31 and the second light source 32 are both disposed on the same surface of the circuit board 33, and the circuit board 33 is disposed on the inner surface 51. It is understood that for the same configuration of light emitting assembly 30, circuit board 33 may also be disposed on encapsulant 70 (not shown); as shown in fig. 6, the first light source 31 and the second light source 32 are respectively disposed on two adjacent surfaces of the circuit board 33, and the circuit board 33 is fixed to the first side 12. It will be appreciated that, for the same configuration of light emitting assembly 30, circuit board 33 may also be secured to second side 22 (not shown). It is understood that, as shown in fig. 7, when the number of the circuit boards 33 is two, the circuit boards 33 are respectively disposed on the first side surface 12 and the second side surface 22, and it is understood that other embodiments may also be disposed on other surfaces, which are not described herein again. By disposing the circuit board 33 on any one or more of the first side surface 11, the inner surface 51, the second side surface 21 and the sealing member 70, the number and the installation position of the circuit boards 33 can be adjusted in real time as required, so as to better achieve the purpose of completely accommodating the light emitting assembly 30 in the recess 40.

In one embodiment, referring to fig. 1, the circuit board 33 includes a first surface 331 and a second surface 332 opposite to each other, the first surface 331 is disposed opposite to the first side 12, the first light source 31 is disposed on the first surface 331, the second surface 332 is disposed opposite to the second side 22, and the second light source 32 is disposed on the second surface 332. The circuit board 33 independently controls the first light source 31 and the second light source 32 to be turned on or off. Specifically, when the circuit board 33 controls the first light source 31 to be turned on and the second light source 32 to be turned off, a pattern is displayed on the first atmosphere component 10, and no pattern is displayed on the second atmosphere component 20. Similarly, when the circuit board 33 controls the first light source 31 to be turned off and the second light source 32 to be turned on, a pattern is displayed on the first atmosphere component 10, and no pattern is displayed on the second atmosphere component 20. It is understood that the circuit board 33 can also control the first light source 31 and the second light source 32 to be alternately turned on or off, thereby forming a dynamic pattern. By making the circuit board 33 independently control the first light source 31 and the second light source 32 to be turned on or off, more pattern display effects can be obtained, and the atmosphere adjusting function is enriched.

In one embodiment, referring to fig. 5, the circuit board 33 includes a control surface 333 and a supporting surface 334 opposite to each other, and the first light source 31 and the second light source 32 are disposed on the control surface 333. Alternatively, a control line is provided on the control surface 333, and the first light source 31 and the second light source 32 can be controlled to be turned on or off by changing the control line to be turned on or off. Optionally, the control surface 333 is not provided with a control trace, the first power source 31 and the second power source 32 are controlled by an external wire, and the control surface 333 plays a role in fixing the first light source 31 and the second light source 32. The supporting surface 334 is used to be fixedly connected to the inner surface 51 of the outer light-transmitting member 50 to fixedly support the circuit board 33 and the first and second light sources 31 and 32. Optionally, the bearing surface 334 may also be fixedly attached to the seal 70. The support surface 334 and the inner surface 51 or the sealing element 70 may be connected by gluing, or may be fixed by providing a snap structure. By respectively arranging the control surface 333 and the support surface 334 on the two opposite surfaces of the circuit board 33, the first light source 31 and the second light source 32 can be fixed on the circuit board 33, even the control surface 333 controls the on/off of the first light source 31 and the second light source 32, and the purpose of mounting the light emitting assembly 30 inside the recess 40 is achieved through the support surface 334.

In an embodiment, referring to fig. 5, the control surface 334 is further provided with a first light shielding member 80, and the first light shielding member 80 is located between the first light source 31 and the second light source 32 and is used for isolating the light of the first light source 31 from the light of the second light source 32. Specifically, when the first light source 31 emits light and the second light source 32 does not emit light, in order to prevent the light of the second light source 31 from entering the second atmosphere component 20 through diffuse reflection, thereby preventing the first atmosphere component 10 from independently displaying patterns, the first light shielding member 80 is disposed between the first light source 31 and the second light source 32, so that the light diffusely reflected by the first light source 31 can be reflected back to the first atmosphere component 10, and the influence of the light of the first light source 31 on the second atmosphere component is eliminated. It is understood that the first light blocking member 80 can play the same role when the first light source 31 does not emit light, the second light source 32 emits light, or the first light source 31 and the second light source 32 emit light at the same time.

In one embodiment, referring to fig. 7 and 8, the circuit board 33 includes a first circuit board 335 and a second circuit board 336, the first light source 31 is disposed on the first circuit board 335, and the second light source 32 is disposed on the second circuit board 336.

In an embodiment, referring to fig. 5, the sealing member 70 is made of a transparent material, such as glass, PMMA transparent material, PC (Polycarbonate) transparent material, and the like, and the sealing member 70 is used for uniformly emitting light of the first light source 31 and the second light source 32, so that when the first light source 31 and the second light source 32 emit light simultaneously, patterns displayed on the first atmosphere component 10 and the second atmosphere component 20 are still in the same picture visually, and visual feeling is improved.

In one embodiment, referring to fig. 1 and 8, the ambience window includes a controller 90, the first light source 31 and the second light source 32 are electrically connected to the controller 90 through wires, and the controller 90 is disposed between the first side 12 and the second side 22. Optionally, the controller 90 is disposed outside the ambience window, such as at the connection position of the ambience window and the vehicle body, and extends between the first ambience component 10 and the second ambience component 20 through a wire to be connected with the first light source 31 and the second light source 32 so as to control the on/off of the first light source 31 and the second light source 32. A second light shielding member 81 is disposed between the first light source 31 and the second light source 32, and the second light shielding member 81 is used to isolate the light emitted from the first light source 31 and the second light source 32, similar to the first light shielding member 80. By the structure in which the first light source 31 and the second light source 32 are connected to the controller 90 by wires, the circuit board 33 can be omitted, increasing the possibility of reducing the thickness of the atmosphere window. In particular, when the controller 90 is disposed outside the atmosphere window, the light emitting assembly 30 does not need to be provided with a circuit board, thereby simplifying the structure of the light emitting assembly 30 and facilitating reduction in volume of the atmosphere window.

In one embodiment, referring to fig. 1, the ambience window further includes a first light guide D1 and a second light guide D2, the first light guide D1 is disposed between the first side 12 and the first light source 31, and the second light guide D2 is disposed between the second light source 32 and the second side 22. The first light guide D1 uses an optical-grade acrylic plate, and then uses a material having a very high refractive index and no light absorption, and prints a light guide point on the bottom surface of the optical-grade acrylic plate by using laser engraving, V-shaped cross grid engraving, and UV screen printing techniques. The light emitted from the light source 31 is absorbed by the optical grade acrylic sheet material and stays on the surface of the sheet material, when the light rays irradiate each light guide point, the reflected light can be diffused towards each angle, then the reflection condition is destroyed, and the light is emitted from the front of the light guide body D1 and irradiates to the first side surface 12. The first light guide body D1 can emit light uniformly through various light guide points with different densities and sizes. Similarly, when the light emitted from the second light source 32 is incident on each light guide point in the light guide body D2, the reflected light is diffused at each angle, and then exits from the front surface of the second light guide body D2 to be emitted toward the second side surface 22 while breaking the reflection condition. The light emitted by the first light source 31 and the second light source 32 is conducted by arranging the first light guide body D1 and the second light guide body D2, so that the light of the first light source 31 and the second light source 32 can be more uniformly emitted into the first atmosphere component 10 and the second atmosphere component 20, the number of light sources can be reduced, and the cost is saved.

In one embodiment, referring to fig. 1 and 9, the atmosphere window includes a first outer transparent member 501 and a second outer transparent member 502, and the first transparent member 501 and the second transparent member 502 are made of a transparent material with a certain structural strength, and the material is selected to be referred to as the outer transparent member 50. The first outer light-transmitting member 501 and the second outer light-transmitting member 502 are arranged at intervals, the first outer light-transmitting member 501 and the first atmosphere component 10 are connected in an adhesive manner, and the second outer light-transmitting member 502 and the second atmosphere component 20 are also connected in an adhesive manner. Similar to the outer light-transmitting member 50, the first light-transmitting member 501 and the second light-transmitting member 502 may also be of a single sheet structure or a composite sheet structure. Through setting up the structure that first printing opacity piece 501 and second printing opacity piece 502 are connected with first atmosphere subassembly 10 and second atmosphere subassembly 20 respectively, divide into two parts with the atmosphere window on the whole to assemble more easily, reduce the degree of difficulty that the product assembly arranged.

In one embodiment, referring to fig. 1 and 9, the atmosphere window comprises a cover plate G and a sealing member 70, wherein the cover plate G is connected to the first outer light-transmitting member 501 and the second outer light-transmitting member 502 to completely cover the space between the first outer light-transmitting member 501 and the second outer light-transmitting member 502. Specifically, the cover plate G is made of a transparent material, such as tempered glass, plastic, or the like. The cover plate G may be configured to be at least partially received between the first and second outer light-transmitting members 501 and 502, and also configured to be coupled to outer surfaces of the first and second outer light-transmitting members 501 and 502. The seal 70 is connected to the first atmosphere assembly 10 and the second atmosphere assembly 20 to completely cover the space between the first atmosphere assembly 10 and the second atmosphere assembly 20. Through setting up apron G and sealing member 70, and make apron G and sealing member 70 make by transparent material, can play the effect of keeping apart light-emitting component 30 with the external world, can not influence the effect that the atmosphere adjusted again.

In a second aspect, referring to fig. 1, the present invention provides a vehicle, which includes a housing and the atmosphere window of any embodiment of the first aspect, wherein the atmosphere window is installed on the housing, and the first light emitting surface 11 and the second light emitting surface 21 face the inside of the housing. The vehicle can be a passenger car or a car, or a ship or a yacht, and the atmosphere window can be used as a skylight arranged at the top of the vehicle, or can be used as a side window arranged at the rear side or the left side and the right side. By using the atmosphere window provided by the invention in a vehicle, the vehicle is more attractive as a whole and is easy to mount due to the fact that the atmosphere window is lighter and thinner.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.