Patent Application
20230043186
The application claims the benefits of the Chinese patent application 202010067744.0 submitted on Jan. 20, 2020, and the contents of the application are incorporated herein by reference.
The disclosure relates to a vehicle lamp, in particular to a headlamp optical element. In addition, the disclosure further relates to a vehicle lamp module, a vehicle lamp and a vehicle.
In recent years, a vehicle lamp and a headlamp module assembled in the vehicle lamp are rapidly developing from an earlier halogen lamp to a later xenon lamp and then to an existing LED or laser light source, so that the vehicle lamp becomes more intelligent, and the shape is more differentiated. Among various vehicle lamp light sources, the LED light source is gradually gaining the attention of automobile manufacturers due to the advantages of excellent performance and low cost, and along with the development of the LED light source, the light distribution structure of the LED light source is also gradually developing.
In the prior art, a projection type lighting system of an LED light source commonly used in a vehicle lamp generally includes a light source, a reflecting element or a light converging element, a shading plate and an optical lens. Light emitted by the light source is reflected by the reflecting element and then emitted to the shading plate, and after being intercepted by the shading plate, the light is projected by the optical lens to form an illumination light shape with a bright-dark cut-off line, or the light emitted by the light source is converged by the light converging element and is intercepted by the upper surface or the lower surface of the light converging element and then is projected by the optical lens to form the illumination light shape with the bright-dark cut-off line. However, due to the fact that the light emitting angle of the LED light source is large, the size of the reflecting element needs to have a large coverage range relative to the light emitting angle of the light source, the light converging element needs a long light channel to guarantee a certain system lighting effect, the light channel is of a solid light guide body structure, however, due to the fact that the light converging element is too long, the size of the vehicle lamp module is large, and the structure is not compact enough, and the overlong light converging element uses more materials, so that the manufacturing cost is higher. Along with the large-size reflecting mirror or the overlong light converging element, optical elements such as the shading plate, the lens and the like which are matched with the reflecting mirror or the overlong light converging element for use are correspondingly increased, so that the manufacturing cost is further increased, and there is a prominent contradiction with the trend of more compact automobile shape in the future. Therefore, a compact, light and efficient optical system is needed to meet the strong market requirements.
In view of the defects in the prior art, a headlamp optical element needs to be designed.
The problem to be solved in the first aspect of the disclosure is to provide a headlamp optical element, which is compact in structure, small in volume and high in optical efficiency.
In addition, the problem to be solved in the second aspect of the disclosure is to provide a vehicle lamp module, which is compact in structure, small in volume and high in optical efficiency.
Furthermore, the problem to be solved in the third aspect of the disclosure is to provide a vehicle lamp, which is compact in structure, small in volume and high in optical efficiency.
Furthermore, the problem to be solved in the fourth aspect of the disclosure is to provide a vehicle, which is compact in structure, small in volume and high in optical efficiency.
In order to solve the above technical problems, on one hand, the disclosure provides the headlamp optical element, and the headlamp optical element includes a light collecting portion, a first light emitting portion and a reflecting portion which are sequentially and integrally connected along the light emitting direction; or the headlamp optical element includes the light collecting portion, the first light emitting portion, the reflecting portion and a second light emitting portion which are sequentially and integrally connected along the light emitting direction, the first light emitting portion, the reflecting portion and the second light emitting portion define a first cavity, and the light collecting portion is able to converge incident light and emit the light via the first light emitting portion, with some of the light being able to be directly emitted to the second light emitting portion after passing through the first cavity, and the rest of the light being able to be reflected by the reflecting portion and then emitted to the second light emitting portion; one end of the reflecting portion is connected with the lower portion of the first light emitting portion, and the other end of the reflecting portion is provided with a lower beam cut-off line structure used for forming a lower beam bright-dark cut-off line; or one end of the reflecting portion is connected with the upper portion of the first light emitting portion, and the other end of the reflecting portion is provided with a high beam cut-off line structure used for forming a high beam bright-dark cut-off line; and a light-emitting surface of the first light-emitting portion is formed of multiple step surfaces with segment differences or is a single smooth curved surface with continuous curvature.
As a preferable structural form, the light collecting portions are of a light converging cup structure and are arranged in one-to-one correspondence with the step surfaces.
More preferably, the step surface is a plane or a smooth curved surface with continuous curvature.
As another preferable structural form, the area of the step surface in the middle region is larger than those of the step surfaces on the two sides.
As another preferable structural form, a light-emitting surface of the second light-emitting portion is a smooth concave curved surface with continuous curvature.
As a specific implementation mode, an end surface of one end, far away from the light collecting portion, of the reflecting portion is a smooth concave arc-shaped curved surface with continuous curvature.
As another specific implementation mode, the headlamp optical element further includes side walls, the side walls are arranged on the left side and the right side of the reflecting portion, one end of each side wall is connected with the first light emitting portion, and the other end of each side wall is connected with the second light emitting portion.
More specifically, a 50 L dark region forming structure is formed on a reflecting surface of the reflecting portion with the lower beam cut-off line structure, and the brightness of a lower beam 50 L region is able be reduced after light is reflected and refracted by the 50 L dark region forming structure.
As another specific implementation mode, the lower beam cut-off line structure is arranged on the front edge of the reflecting surface of the reflecting portion, the lower portion of the light collecting portion is provided with a III-region light shape forming structure, and the III-region light shape forming structure is able to form a lower beam III-region light shape.
More specifically, the number of the light collecting portions is two or above.
Further specifically, a reflection increasing layer is arranged on the reflecting surface of the reflecting portion.
The second aspect of the disclosure further provides a vehicle lamp module which includes the headlamp optical element according to any one of the above technical solutions and a lens, the lens is arranged along the light emitting direction of the headlamp optical element, and the headlamp optical element is directly connected with the lens; or the vehicle lamp module further includes a connecting plate, the headlamp optical element and the lens are connected through the connecting plate, and the headlamp optical element, the lens and the connecting plate are integrally formed in an injection molding mode.
As a unique preferable structural form, the lower beam cut-off line structure or the high beam cut-off line structure is located in a region 10 mm above an optical axis of the lens and 10 mm below the optical axis of the lens.
More specifically, the lens is of a convex lens or a Fresnel lens structure.
The third aspect of the disclosure further provides a vehicle lamp which includes the vehicle lamp module according to any one of the above technical solutions.
The fourth aspect of the disclosure further provides a vehicle which includes the vehicle lamp in the above technical solutions.
According to the above technical solutions, the headlamp optical element includes the light collecting portion, the first light emitting portion and the reflecting portion which are sequentially and integrally connected along the light emitting direction; or the headlamp optical element includes the light collecting portion, the first light emitting portion, the reflecting portion and the second light emitting portion which are sequentially and integrally connected along the light emitting direction, the first light emitting portion, the reflecting portion and the second light emitting portion define a first cavity, and the light collecting portion is able to converge incident light and emit the light via the first light emitting portion, with some of the light being able to be directly emitted to the second light emitting portion after passing through the first cavity, and the rest of the light being able to be reflected by the reflecting portion and then emitted to the second light emitting portion; one end of the reflecting portion is connected with the lower portion of the first light emitting portion, and the other end of the reflecting portion is provided with a lower beam cut-off line structure used for forming a lower beam bright-dark cut-off line; or one end of the reflecting portion is connected with the upper portion of the first light emitting portion, and the other end of the reflecting portion is provided with a high beam cut-off line structure used for forming a high beam bright-dark cut-off line; and a light-emitting surface of the first light-emitting portion is formed of multiple step surfaces with segment differences or is a single smooth curved surface with continuous curvature. The occupied space of the headlamp optical element is small, the space utilization rate is greatly improved, the requirements of the market for diversification and miniaturization of the vehicle lamp can be met, and the structure of the vehicle lamp is simplified on the basis of improving the position precision between optical surfaces on a light propagation path, so that the vehicle lamp is lighter.
Other advantages of the disclosure and the technical effects of the preferable implementation modes are further described in the following specific implementation modes.
The specific implementation modes of the disclosure are described in detail according to the following drawings. It should be understood that the specific implementation modes described herein are only used to illustrate and interpret the present disclosure, but not to limit the present disclosure.
Firstly, it needs to be explained that as shown in
Meanwhile, as shown in
In addition, according to the definition of GB 4599-2007—Motor vehicle headlamps equipped with filament lamps, a bright-dark cut-off line is a boundary line of obvious bright-dark change sensed by visual sense when a light beam is projected to a light distribution screen. The lower beam bright-dark cut-off line 61 refers to the upper boundary of the lower beam light shape of the vehicle lamp, and the high beam bright-dark cut-off line 62 refers to the lower boundary of the high beam light shape of the vehicle lamp. In the actual installation condition, the orientation terms shall be explained according to the actual installation state and in combination with the headlamp optical element 1 itself of the disclosure. The terms are based on the orientation or position relationship shown in the attached drawings, which are only for the convenience of describing the disclosure and simplifying the description, rather than indicating or implying that the device or element must have a specific orientation, be constructed and operated in a specific orientation, Therefore, they cannot be understood as a limitation of the present disclosure.
In the description of the disclosure, it should be noted that the term “installation” and “connection” should be subjected to generalized understanding unless specific regulations and limits are provided, for example, the term “connection” can be fixed connection, detachable connection or integrated connection; the two elements can be directly connected or indirectly connected through an intermediate medium, and the two elements can be internally communicated or interacted with each other. For those of ordinary skill in the field, the specific meanings of the terms in the disclosure can be understood according to specific conditions.
As shown in
Optionally, as shown in
As shown in
Optionally, as shown in
According to the description, the reflecting portion 13 is provided with a reflecting surface, namely the surface close to the first cavity 16 of the reflecting portion 13, and the reflecting surface of the reflecting portion 13 can reflect some of the light emitted by the first light emitting portion 12. The lower beam cut-offline structure 15 or the high beam cut-off line structure 17 is formed at the front end of the reflecting portion 13, and the shape of the lower beam cut-off line structure 15 or the high beam cut-off line structure 17 is made according to different laws and regulations or different requirements of different countries, areas and vehicle manufacturers and is not limited to the shape shown in the attached drawings. After the incident light is converged by the light collecting portion 11, the incident light is emitted through the first light emitting portion 12, and some of the incident light passes through the first cavity 16 and is directly emitted to the second light emitting portion 14 or an optical element arranged at the front end of the headlamp optical element 1, and the rest of the incident light is reflected by the reflecting portion 13 and then is emitted to the second light emitting portion 14 or an optical element arranged at the front end of the headlamp optical element 1. The divergent light can form a light beam with a small angle after being refracted or reflected by the light collecting portion 11, so that the light emitted by the light source 5 can completely or mostly enter the reflecting portion 13 and the second light emitting portion 14 or an optical element arranged at the front end of the headlamp optical element 1. The size of the headlamp optical element 1 can be reduced while the high lighting effect is achieved, so that the headlamp optical element 1 further tends to be miniaturized and lighter, the occupied space of the headlamp optical element 1 is small, and the space utilization efficiency is greatly improved; and the process requirement of integral forming can be met, so that the position precision between optical surfaces on a light propagation path is improved, and the structure is relatively simplified.
In the above structure, the occupied space of the headlamp optical element 1 is small, the space utilization efficiency is greatly improved, and the process requirement of integral forming can be met. The light collecting portions 11, the first light emitting portion 12, the reflecting portion 13 and the second light emitting portion 14 are integrally formed through injection molding, so that the position precision between the individual optical surfaces of the headlamp optical element 1 is improved, and the structure of the headlamp optical element 1 is relatively simplified; due to the arrangement of the first cavity 16, on one hand, materials can be saved, the cost is reduced, and the headlamp optical element 1 is lighter; and on the other hand, compared with a condensation element with a longer solid light guide body in the prior art, the headlamp optical element 1 is additionally provided with two light distribution optical surfaces, namely the light outlet surface of the first light-emitting portion 12 and the light inlet surface of the second light-emitting portion 14, so that the light distribution parameters are increased, and the light distribution is more flexible.
As a preferable implementation mode, the light collecting portions 11 are of a light converging cup structure and are arranged in one-to-one correspondence with the step surfaces 121. The light converging cup structure is a common light converging structure in the field of vehicle lamps. Specifically, as a structural form of the light converging cup, a concave cavity is formed in the end, away from the reflecting portion, of the light collecting portion, the concave cavity includes a front light inlet surface and a side light inlet surface, the front light inlet surface is a curved surface protruding towards the side away from the reflecting portion, and the side light inlet surface is a curved surface of which the perimeter is gradually reduced from one end far away from the reflecting portion to the other end close to the reflecting portion, and the outer contour surface of the light collecting portion is a curved surface of which the perimeter is gradually increased from one end far away from the reflecting portion to the other end close to the reflecting portion.
Preferably, the step surface 121 is a plane or a smooth curved surface with continuous curvature.
More preferably, the area of the step surface 121 in the middle region is larger than the areas of the step surfaces on the two sides.
As shown in
As shown in
As another preferable implementation mode, the light-emitting surface of the second light-emitting portion 14 is a smooth inner concave curved surface with continuous curvature. The inner concave curved surface can enable the emergent light to be clearer in shape, and certainly, the second light emitting portion 14 is not limited to the structure of the inner concave curved surface and can also be a plane or other free-form surface structures.
As another preferable implementation mode, the end surface of one end, far away from the light collecting portion 11, of the reflecting portion 13 is a smooth concave arc-shaped curved surface with continuous curvature, and the lower beam bright-dark cut-off line structure 15 or the high beam bright-dark cut-off line structure 17 is arranged on the lower edge or the upper edge of the concave arc-shaped curved surface, so that the concave arc-shaped curved surface enables the lower beam bright-dark cut-off line 61 or the high beam bright-dark cut-off line 62 of the light shape of the vehicle lamp to be clearer and sharper, and certainly, as shown in the
Optionally, the headlamp optical element 1 further includes side walls 18, the side walls 18 are arranged on the left side and the right side of the reflecting portion 13, one end of each side wall 18 is connected with the first light emitting portion 12, and the other end of each side wall 18 is connected with the second light emitting portion 14.
As shown in
As shown in
The brightness of the 50 L region 64 in a lower beam shape is specifically limited, namely, 50 L is smaller than or equal to 15 lx, the 50 L dark region forming structure 19a is arranged on the reflecting surface, after light emitted to the 50 L dark region forming structure 19a from the first light emitting portion 12 is reflected and refracted by the 50 L dark region forming structure 19a, the propagation direction of the light is changed, the light is emitted to the region outside the 50 L region 64. The brightness of the lower beam 50 L region 64 is reduced so as to meet the requirements of laws and regulations.
As shown in
As shown in
Therefore, it can be seen that when the headlamp optical element 1 adopts a lower beam structure, the light source 5 is arranged at the opening of the concave cavity of the light collecting portion 11, and after the light is converged by the light collecting portion 11, some of the light directly enters the lens 2; some of the light is reflected by the reflecting surface of the reflecting portion 13 and then enters the lens 2; some of the light is emitted to the lens 2 after passing through the lower portion of the reflecting portion 13, after the above three parts of the light is projected through the lens 2, the lower beam light shape shown in the
Specifically, the number of the light collecting portions 11 is two or above. The headlamp optical element 1 of the disclosure includes two light collecting portions 11 or above, each light collecting portion 11 is correspondingly provided with one light source 5, heat dissipation of the light sources 5 is facilitated after the multiple light sources 5 are arranged in a scattered mode, and meanwhile the optical efficiency of the headlamp optical element 1 can be improved by adopting the multiple light collecting portions 11. In general, according to the light emitting requirement, the light collecting portion 11 in the middle region is larger than the light collecting portions 11 in the regions on the two sides, and therefore the light shape with the high illumination requirement in the middle region can be obtained, more light can be converged, and the lighting effect is improved.
More specifically, a reflection increasing layer is arranged on the reflecting surface of the reflecting portion 13. The reflecting surface of the reflecting portion 13 is an optical surface used for receiving some of the light emitted by the first light emitting portion 12, the reflection increasing layer can be additionally arranged on the reflecting surface of the reflecting portion 13 so as to improve the reflectivity of the light, the reflection increasing layer can be a reflection increasing film or a reflection increasing coating arranged on the reflecting surface, and generally, the reflecting surface of the reflecting portion 13 is subjected to aluminum plating treatment.
As shown in
Optionally, as shown in
The vehicle lamp modules of the two above structural forms are integrally formed in an injection molding mode, the number of parts can be reduced, the assembled vehicle lamp structure is more compact, meanwhile, the assembling error between the optical elements in the assembling process can be avoided, the assembling precision is improved, the optical precision can be improved, and the size of the vehicle lamp module can be reduced. Therefore, production efficiency is improved and production cost is reduced.
It needs to be explained that when the vehicle lamp module is of the integrated structure, only one optical element formed by integrated injection molding of the headlamp optical element 1 and the lens 2 is needed, the illumination light shape can be achieved, other optical elements do not need to be arranged, and the structure is simple. Certainly, in order to meet the requirements of vehicle lamp modeling and the like, at least one inner lens can be arranged between the optical element and the outer lens which are integrally formed through injection molding, and the inner lens can be a common plastic part with the equal wall thickness, only presents the required modeling, and can also be a light distribution plastic part with the back surface having a light distribution function.
Certainly, as shown in
Specifically, the lower beam cut-off line structure 15 or the high beam cut-off line structure 17 is located in a region 10 mm above an optical axis 21 of the lens 2 and 10 mm below the optical axis 21 of the lens 2.
In order to form a clear light shape, the relative positions of the reflecting portion 13 and the lens 2 need to be adjusted, so that the lower beam bright-dark cut-off line structure 15 or the high beam bright-dark cut-off line structure 17 is located in a region 10 mm above and 10 mm below the optical axis 21 of the lens 2, and preferably, the lower beam bright-dark cut-off line structure 15 or the high beam bright-dark cut-off line structure 17 is located in a region 2 mm above and 2 mm below the optical axis 21 of the lens 2, and more preferably, the lower beam bright-dark cut-off line structure 15 or the high beam bright-dark cut-off line structure 17 is located at the optical axis 21 of the lens 2, that is, the focal point of the lens 2 is located on the lower beam bright-dark cut-off line structure 15 or the high beam bright-dark cut-off line structure 17, and the formed light shape is clearer.
More specifically, the lens 2 is of a convex lens or Fresnel lens structure, diversification of the vehicle lamp module can be achieved through the lenses 2 of different structural forms, and meanwhile when the lens 2 is of the Fresnel lens structure, the size of the vehicle lamp module can be smaller and the weight can be lighter.
The third aspect of the disclosure provides a vehicle lamp which includes the vehicle lamp module according to any one of the technical solutions.
The fourth aspect of the disclosure further provides a vehicle which includes the vehicle lamp in the technical solutions.
The beneficial effects of the disclosure are as follows: firstly, the second light emitting portion 14 of the headlamp optical element 1 of the vehicle and the lens 2 are integrally formed, the reflecting portion 13 is arranged on the upper portion of the first light emitting portion 12, the light source 5 is arranged at the opening of the concave cavity of the light collecting portion 11, and after the light is converged through the light collecting portion 11, some of the light directly penetrates through the first cavity 16 to enter the lens 2; the rest of the light is reflected on the reflecting surface of the reflecting portion 13 and then directly enters the lens 2, and after the above two parts of the light is overlapped, a high beam light shape with a high beam bright-dark cut-off line 62 is formed, and the specific light shape is shown in
Secondly, the second light emitting portion 14 of the headlamp optical element 1 and the lens 2 are integrally formed, the reflecting portion 13 is arranged on the lower portion of the first light emitting portion 12, the light source 5 is arranged at the opening of the concave cavity of the light collecting portion 11, after light is converged through the light collecting portion 11, some of the light directly penetrates through the first cavity 16 to enter the lens 2, and the rest of the light directly enters the lens 2 after being reflected by the reflecting surface of the reflecting portion 13. After the above two parts of the light is overlapped, the lower beam lamp module can form a lower beam light shape which is shown in
Certainly, for both the lower beam lamp module and the high beam lamp module, at least one inner lens can be arranged between the optical element and the outer lens which are integrally formed in order to meet the requirements of vehicle lamp modeling and the like, and the inner lens can be a common plastic part with the equal wall thickness, only presents the required modeling, and can also be a light distribution plastic part with the back surface having a light distribution function.
According to the description, the headlamp optical element 1 of the disclosure includes the light collecting portions 11, the first light emitting portion 12 and the reflecting portion 13 which are sequentially and integrally connected along the light emitting direction; or the headlamp optical element 1 includes the light collecting portions 11, the first light emitting portion 12, the reflecting portion 13 and the second light emitting portion 14 which are sequentially and integrally connected along the light emitting direction, the first light emitting portions 12, the reflecting portion 13 and the second light emitting portion 14 define the first cavity 16, and the light collecting portion 11 can converge incident light and enable the light to be emitted out through the first light emitting portion 12; some of the light can penetrate through the first cavity 16 and is directly emitted to the second light emitting portion 14, and the rest of the light can be reflected by the reflecting portion 13 and then is emitted to the second light emitting portion 14. One end of the reflecting portion 13 is connected with the lower portion of the first light emitting portion 12, and the other end of the reflecting portion 13 is provided with a lower beam cut-off line structure 15 used for forming a lower beam bright-dark cut-off line 61; or one end of the reflecting portion 13 is connected with the upper portion of the first light emitting portion 12, and the other end of the reflecting portion 13 is provided with a high beam cut-off line structure 17 for forming a high beam bright-dark cut-off line 62; and the light-emitting surface of the first light-emitting portion 12 is formed of multiple step surfaces 121 with segment differences or is a single smooth curved surface with continuous curvature. The occupied space of the headlamp optical element 1 is small, the space utilization rate is greatly improved, the requirements of the market for diversification and miniaturization of the vehicle lamp can be met, and the structure of the vehicle lamp is simplified on the basis that the position precision between optical surfaces on a light propagation path is improved, so that the vehicle lamp is lighter.
The preferable implementation modes of the disclosure are described in detail in combination with the attached drawings, however, the disclosure is not limited to the specific details in the implementation modes, in the technical concept range of the disclosure, the technical solutions of the disclosure can be subjected to various simple variations, and the simple variations all belong to the protection range of the disclosure.
In addition, it needs to be explained that all the specific technical characteristics described in the specific implementation modes can be combined in any appropriate mode without conflicts, and in order to avoid unnecessary repetition, all possible combination modes are not explained any more.
In addition, various different implementation modes of the disclosure can also be combined at will, and as long as the implementation modes do not violate the idea of the disclosure, the implementation modes also should be regarded as the content disclosed by the disclosure.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202010067744.0 | Jan 2020 | CN | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/CN2021/071508 | 1/13/2021 | WO |
