CN209587939U - A kind of distance-light consubstantiality formula vehicle front lighting lamp assembly - Google Patents
A kind of distance-light consubstantiality formula vehicle front lighting lamp assembly Download PDFInfo
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Abstract
The utility model discloses a kind of distance-light consubstantiality formula vehicle front lighting lamp assemblies, including mutually independent far lighting device and lower beam illumination device, lower beam illumination device to introduce corresponding dichroic reflection device.The purpose of this utility model is that: for existing for existing high beam and dipped headlight integrated car headlamp product, is carried out by light barrier mode and switched between far lighting and lower beam illumination, the problem for causing the efficiency of light energy utilization not high;And by doing micro-structure processing on projection lens, the problem for causing car light processing and manufacturing difficulty big provides a kind of novel distance-light consubstantiality formula vehicle front lighting lamp assembly.The Vehicle lamp structure uses mutually independent lower beam illumination device and far lighting device, and corresponding dichroic reflection device is introduced in lower beam illumination device, it is not only able to improve the efficiency of light energy utilization of vehicle lamp light source, also add the design freedom of car light, the projection distribution that illuminating ray can neatly be controlled, is conducive to the requirement for meeting lower beam illumination.
Description
Technical field
The utility model belongs to vehicle front lighting lamp assembly technical field.In particular it relates to it is a kind of by far lighting device with
The mutually integrated vehicle front lighting lamp assembly of lower beam illumination device.
Background technique
In technical field of automobile illumination, in order to realize the different illuminations under different running environments, current headlamp
Tool is usually including far lighting and lower beam illumination.For high beam, range of exposures is wide, irradiation distance is remote, can be to drive
The person of sailing improves more wide visible area.Exactly because, may however, the also wide problem remote with irradiation distance of its range of exposures
Totally unfavorable influence can be caused to the normally travel of other vehicles.So introducing irradiation model in the lighting device of vehicle
It encloses and all lesser dipped beam modulated structure of irradiation distance.In this way, being used cooperatively by the switching between long-and-short distant light, guarantee that vehicle exists
It can normally be travelled under the bad environment of lighting condition.
There is the car headlamp product of a kind of high beam and dipped headlight integral type at present, is based on single light source, and in vehicle
One moveable anti-dazzle plate structure is set inside lamp, by the movement of control barn door, to carry out far lighting and lower beam illumination
Between switching.However, some light is blocked, so causing to a certain extent in the light issued due to light source
Optical energy loss, reduces the efficiency of light energy utilization of car light.
Also, when lower beam illumination, the region that above-mentioned light is blocked can be in lower beam illumination by the projection of projection lens
Above the "cut-off"line of field, an absolute dark space is formed, leads to not meet pressure standard.It is bright in order to reach lower beam illumination field
The standard of faint illumination above dark dead line, it will usually some micro-structure processing are done on projection lens, so that realizing makes portion
Light splitter projects the purpose of relevant range, this just proposes very high requirement to the machining accuracy of projection lens, bring compared with
High designs and manufactures cost.
Utility model content
The purpose of this utility model is that: exist for existing high beam and dipped headlight integrated car headlamp product
, it is carried out by light barrier mode and is switched between far lighting and lower beam illumination, the problem for causing the efficiency of light energy utilization not high;With
And by doing micro-structure processing on projection lens, the problem for causing car light processing and manufacturing difficulty big is provided a kind of novel remote
Dipped beam consubstantiality formula vehicle front lighting lamp assembly.The Vehicle lamp structure uses mutually independent lower beam illumination device and far lighting fills
It sets, and introduces corresponding dichroic reflection device in lower beam illumination device, be not only able to improve the efficiency of light energy utilization of vehicle lamp light source,
The design freedom of car light is also added, the projection distribution of illuminating ray can be neatly controlled, be conducive to meet lower beam illumination
It is required that.
To achieve the goals above, the technical solution adopted in the utility model are as follows:
A kind of distance-light consubstantiality formula vehicle front lighting lamp assembly, including mutually independent far lighting device and lower beam illumination fill
It sets, the lower beam illumination device includes low beam light source, the dipped beam reflector and dipped beam projection lens that match with low beam light source;Institute
Stating lower beam illumination device further includes dichroic reflection device, and A, B, C three classes optical surface, A class optics are provided on the dichroic reflection device
Face is the light refraction plane of incidence, and B class optical surface is light combinations face made of being closed as echo area and refraction outgoing district's groups, C class light
Face is light refraction exit facet;The dichroic reflection device is between low beam light source and dipped beam projection lens, dichroic reflection device
A class optical surface be located at nearly low beam light source side, C class optical surface is located at dipped beam projection lens side, and B class optical surface is located at upper
Side;
The light that low beam light source is issued includes X, Y, Z three classes according to the difference in path:
X lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is projected through dipped beam projection lens, is finally projected
The lower section of "cut-off"line in lower beam illumination field;
Y lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is refracted into dichroic reflection device by A class optical surface,
Echo area reflection in dichroic reflection device through B class optical surface, reflects dichroic reflection device by C class optical surface, projects through dipped beam
Lens project, and finally project in lower beam illumination field;
Z lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is refracted into dichroic reflection device by A class optical surface,
Dichroic reflection device is reflected by the refraction outgoing area of B class optical surface, is projected through dipped beam projection lens, finally projects lower beam illumination
The top of "cut-off"line in.
This programme utilizes dichroic reflection device design one using mutually independent far lighting device and lower beam illumination device
Kind lower beam illumination device, mainly utilizes its three kinds of opticpaths.One is directly projected through projection lens by reflector reflection
Primary illumination zone below "cut-off"line.Other two kinds are, using dichroic reflection device, by light project primary illumination zone and
Additional illumination or secondary illumination region above "cut-off"line.Compared to tradition by stopping light to shine to control illumination region
The mode of distribution is spent, this programme does not shut out the light, and all light can be utilized effectively, to improve the efficiency of light energy utilization.
Specifically, this programme guides opticpath by dichroic reflection device, so that light is projected bright in lower beam illumination field
Illumination region below dark dead line, carries out primary illumination.Also, light can also be guided and be projected bright in lower beam illumination field
Illumination region above dark dead line carries out additional illumination, thus eliminate do micro-structure processing on projection lens must
It wants, reduces the manufacture production difficulty of car light.Generally, this programme is adjusted opticpath by dichroic reflection device,
Corresponding problem brought by light barrier component and projection lens micro-structure can be saved, to be conducive to meet distance light and close
Optical illumination requirement.
As the preferred embodiment of dichroic reflection device, the echo area of the B class optical surface is that optical total-reflection face or plated film are anti-
Face is penetrated, the light being incident on B class optical surface echo area is made, reflects through the class optical surface echo area B, is reflected by C class optical surface
Dichroic reflection device.
In echo area, light is all reflected, and there is no the light of spilling, so that the path of light be made to be refined control.
Echo area can be such that the light for being incident on reflecting surface is totally reflected by the relationship of refractive index and incident angle.In addition, may be used also
Make light that all reflections occur by way of plating reflectance coating.
As the preferred embodiment of dichroic reflection device, the refraction of B class optical surface outgoing area be face shape region of variation or
Atomization surface region makes the light being incident in B class optical surface refraction outgoing area, directly penetrates area from B class optical surface and reflect
Overflow dichroic reflection device.
It is emitted area in refraction, light refraction goes out dichroic reflection device, for the additional illumination region above "cut-off"line.Folding
Penetrating area can be the face shape region of variation relative to echo area by the relational design of refractive index and incident angle, alternatively, setting
It is calculated as atomization surface region, light refraction is made to go out dichroic reflection device.
As the preferred embodiment of dichroic reflection device, part reflective semitransparent film is set in plating on the B class optical surface;Make to be incident on B class light
Some light on face, dichroic reflection device is overflowed in refraction directly from B class optical surface;Another part light is through B class optical surface
Reflection, reflects dichroic reflection device by C class optical surface.
This programme reflects some light, another part by way of part reflective semitransparent film is arranged on B class optical surface
Light is refracted out dichroic reflection device.And the light ray energy ratio for reflecting or being emitted, it is required according to lower beam illumination, using corresponding energy
Than the part reflective semitransparent film of specification.
As the preferred embodiment of dichroic reflection device, A class optical surface intersects with B class optical surface, and intersection forms a contour line;Institute
The shape that contour line is incident upon in lower beam illumination field through dipped beam projection lens is stated, is ended with the light and shade in the requirement of car light lower beam illumination
Line matches.
For traditional Vehicle lamp structure, "cut-off"line is formed by the profile of radical occlusion device, influences optical energy utilization efficiency.
This programme is not provided with radical occlusion device, and "cut-off"line is formed by profile for the intersection of plane of light incidence and light reflecting surface
Line.This programme is not provided with additional mechanical device, has the advantages that properties of product are stable, durable.
As the preferred embodiment of dichroic reflection device, A class optical surface intersects with B class optical surface, and intersection forms a contour line, and
Shade is provided at A class optical surface;The combination contour line that the contour line and shade contour line are collectively formed, through close
"cut-off"line in shape of the light projection lens projects in lower beam illumination field, with the requirement of car light lower beam illumination matches.
Shade used by this programme is different from the used light barrier component of traditional car light.Traditional light resistance
Stopper part, the light above contour line are all blocked.The shade of this programme exists only at contour line, is used to form
"cut-off"line does not prolong Shen upwards and shuts out the light.
As the preferred embodiment of lower beam illumination device, the contour line of the dichroic reflection device is located at apart from dipped beam projection lens
The focal plane region ± 5mm in.
As the preferred embodiment of lower beam illumination device, the dipped beam projection lens is non-axial symmetrical lens.
As the preferred embodiment of lower beam illumination device, the low beam light source is that unilateral illuminating source, the dipped beam are anti-upwards
Cover is penetrated to be located above low beam light source.
It further include the lighting device installation for being mounted on genuine fixed frame as the preferred embodiment of headlamp assembly
Frame is provided with far lighting device mounting rack and lower beam illumination device mounting rack, far lighting on the lighting device mounting rack
Device and lower beam illumination device are separately positioned on its mounting rack.
As the preferred embodiment of headlamp assembly, it is arranged between far lighting device and lower beam illumination device and its mounting rack
There is radiator.
In conclusion by adopting the above-described technical solution, compared with the prior art, the beneficial effects of the utility model
It is: uses mutually independent far lighting device and lower beam illumination device, and design a kind of dipped beam photograph using dichroic reflection device
Bright device, having vehicle front lighting lamp assembly, the efficiency of light energy utilization is high, and manufactures the low advantage of difficulty.Specifically, compared to
Tradition is stopping light come by way of controlling illumination region Illumination Distribution, this programme does not shut out the light, and all light can obtain
To effective use, to improve the efficiency of light energy utilization.This programme guides opticpath by dichroic reflection device, makes light
The illumination region in lower beam illumination field below "cut-off"line can be projected, primary illumination is carried out.In addition, light can also be drawn
The illumination region in lower beam illumination field above "cut-off"line is led and projected, additional illumination is carried out, is projected to eliminate
Necessity that micro-structure processing is done on lens, reduces the manufacture production difficulty of car light.Generally, this programme is anti-by light splitting
Emitter is adjusted opticpath, can save and accordingly ask brought by light barrier component and projection lens micro-structure
Topic, to be conducive to meet distance light and lower beam illumination requirement.
Detailed description of the invention
Fig. 1 is genuine fixed frame, lighting device mounting rack, far lighting device, lower beam illumination device and distance-light decoration
The structural schematic diagram of fixing piece.
Fig. 2 is the structural schematic diagram one of lighting device mounting rack, far lighting device and lower beam illumination device.
Fig. 3 is the structural schematic diagram two of lighting device mounting rack, far lighting device and lower beam illumination device.
Fig. 4 is the structural schematic diagram of genuine fixed frame.
Fig. 5 is the structural schematic diagram one of distance-light decoration fixing piece.
Fig. 6 is the structural schematic diagram two of distance-light decoration fixing piece.
Fig. 7 is the structural schematic diagram one of lighting device mounting rack.
Fig. 8 is the structural schematic diagram two of lighting device mounting rack.
Fig. 9 is the structural schematic diagram one of far lighting device.
Figure 10 is the structural schematic diagram two of far lighting device.
Figure 11 is the overlooking structure diagram of far lighting device.
Figure 12 is the A-A the schematic diagram of the section structure of far lighting device.
Figure 13 is the structural schematic diagram of distance light condenser.
Figure 14 is the light path schematic diagram of far lighting device.
Figure 15 is the structural schematic diagram one of lower beam illumination device.
Figure 16 is the structural schematic diagram two of lower beam illumination device.
Figure 17 is the overlooking structure diagram of lower beam illumination device.
Figure 18 is the B-B the schematic diagram of the section structure of lower beam illumination device.
Figure 19 is a kind of structural schematic diagram one of embodiment of dichroic reflection device.
Figure 20 is a kind of structural schematic diagram two of embodiment of dichroic reflection device.
Figure 21 is the structural schematic diagram of dichroic reflection device another embodiment.
Figure 22 is the structural schematic diagram of dichroic reflection device yet another embodiment.
Figure 23 is the light path schematic diagram of lower beam illumination device.
Label corresponding to component in attached drawing: 1- genuine fixed frame, 11- fixed frame screw hole, 2- lighting device mounting rack,
21- mounting rack screw hole, 22- far lighting device mounting rack, 23- lower beam illumination device mounting rack, 3- far lighting device, 31-
Distance light radiator, 32- distance light bracket, 33- distance light condenser, 34- high-beam light source, 35- distance light support fixture block, 4- lower beam illumination dress
It sets, 41- dipped beam radiator, 42- dipped beam reflector, 43- dipped beam bracket, 44- dipped beam projection lens, 45- low beam light source, 46- light
Learn reflector, 461-A class optical surface, 462-B class optical surface, the echo area 4621-, 4622- refraction outgoing area, 4623- half anti-half
Permeable membrane, 463-C class optical surface, 464- contour line, 465- radical occlusion device, 5- distance-light decoration fixing piece, 51- decoration fixing piece are remote
Light condenser mounting hole, 52- decoration fixing piece dipped beam projection lens mounting hole, 53- distance light bracket buckle.
Specific embodiment
In order to make the purpose of the utility model, technical solutions and advantages more clearly understood, below in conjunction with attached drawing and implementation
Example, the present invention will be further described in detail.It should be appreciated that specific embodiment described herein is only to explain this
Utility model is not used to limit the utility model.
Embodiment 1
Present embodiment discloses a kind of distance-light consubstantiality formula vehicle front lighting lamp assemblies, as shown in Figure 1-3, include mutually indepedent
Far lighting device and lower beam illumination device.As shown in figures 15-18, the lower beam illumination device include low beam light source, with it is close
The dipped beam reflector and dipped beam projection lens that radiant matches.As shown in figure 18, the lower beam illumination device further includes light splitting
Reflector, the dichroic reflection device are visible transparent material.As shown in Figure 19-20, be provided on the dichroic reflection device A,
B, C three classes optical surface, A class optical surface be the light refraction plane of incidence, B class optical surface be by echo area and refraction outgoing district's groups close and
At light combinations face, C class optical surface be light refraction exit facet.As shown in figure 18, the dichroic reflection device is located at dipped beam light
Between source and dipped beam projection lens, the A class optical surface of dichroic reflection device is located at nearly low beam light source side, and C class optical surface is located at close
Dipped beam projection lens side, B class optical surface are located at upside.
As shown in figure 23, the light that low beam light source is issued includes X, Y, Z three classes according to the difference in path:
X lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is projected through dipped beam projection lens, is finally projected
The lower section of "cut-off"line in lower beam illumination field;
Y lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is refracted into dichroic reflection device by A class optical surface,
Echo area reflection in dichroic reflection device through B class optical surface, reflects dichroic reflection device by C class optical surface, projects through dipped beam
Lens project, and finally project in lower beam illumination field;
Z lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is refracted into dichroic reflection device by A class optical surface,
Dichroic reflection device is reflected by the refraction outgoing area of B class optical surface, is projected through dipped beam projection lens, finally projects lower beam illumination
The top of "cut-off"line in.
The present embodiment uses a kind of preferred embodiment, to realize light combinations face.Specifically, as shown in Figure 19-20, this implementation
The echo area of B class optical surface and refraction outgoing area are carried out subregion design by example.
As shown in Figure 19-20, the echo area of the B class optical surface is optical total-reflection face or coated reflection face, makes incidence
Light onto B class optical surface echo area reflects through the class optical surface echo area B, reflects dichroic reflection device by C class optical surface,
Lower beam illumination field is projected finally by projection lens.For how realizing optical total-reflection face, the present embodiment is specifically based on point
The refractive index of reflective optical system, and realized by adjusting the angle of reflecting surface and light.
As shown in Figure 19-20, the B class optical surface refraction outgoing area be relative to echo area face shape region of variation or
Person's atomization surface region keeps the angle of light incidence different, and then makes into injecting some light of dichroic reflection device in B class optics
It is unsatisfactory for optical total-reflection condition on face, and then makes the light being incident in B class optical surface refraction outgoing area, directly from B class light
Face penetrates area's refraction and overflows dichroic reflection device, projects lower beam illumination field finally by projection lens.
The lower beam illumination device of the present embodiment can be adjusted opticpath only by the dichroic reflection device introduced.
The distribution that the dichroic reflection device controls light by the combination of light refraction and optical reflection, is wanted with forming lower beam illumination
Ask the primary illumination zone below "cut-off"line and the secondary illumination region above "cut-off"line or additional illumination region.
The scheme of lower beam illumination is formed by light barrier mode instead of tradition, while avoiding the light-use that traditional approach has
The problem that rate is low and manufacture difficulty is big.Certainly, light can also be reflected without reflector, and directly be entered by light source incidence
Dichroic reflection device, but some light less effective, the embodiment of the present application are not set forth in detail.
Embodiment 2
Compared in embodiment 1, the echo area of B class optical surface and refraction outgoing area are carried out to the mode of subregion design,
The present embodiment realizes that light is with reflection and refraction outgoing function in such a way that part reflective semitransparent film is set in plating on B class optical surface
The combinatorial surface of energy.
As shown in figure 21, part reflective semitransparent film is set in plating on the B class optical surface;Make the part light being incident on B class optical surface
Line, dichroic reflection device is overflowed in refraction directly from B class optical surface;Another part light is reflected through B class optical surface, by C class optics
Face reflects dichroic reflection device.
The light ray energy ratio of the refraction and outgoing of the present embodiment part reflective semitransparent film, requires according to lower beam illumination, using corresponding
The part reflective semitransparent film of energy ratio specification.
Embodiment 3
On the basis of embodiment 1 or embodiment 2, the present embodiment provides bright in a kind of formation car light lower beam illumination requirement
The embodiment of dark dead line.
As shown in Figure 19-20, A class optical surface intersects with B class optical surface, and intersection forms a contour line;It is adopted in the present embodiment
Contour line both ends are parallel, and centre is 45 ° of transition connecting lines.The contour line is incident upon lower beam illumination through dipped beam projection lens
Shape in can match with the "cut-off"line in the requirement of car light lower beam illumination.
Embodiment 4
On the basis of embodiment 1 or embodiment 2, the present embodiment provides another kinds to be formed in the requirement of car light lower beam illumination
The embodiment of "cut-off"line.
As shown in figure 22, A class optical surface intersects with B class optical surface, and intersection forms a contour line, which is always
Line.And shade is provided at A class optical surface, shade lower sideline is straight line and 45 ° of transition connecting lines.The contour line
The combination contour line being collectively formed with shade contour line is incident upon the shape in lower beam illumination field through dipped beam projection lens,
Match with the "cut-off"line in the requirement of car light lower beam illumination.
Also, the shade upper sideline of the present embodiment is flushed with the side of above-mentioned intersection contour line, makes radical occlusion device not
Prolong Shen upwards, is directed to above "cut-off"line so as to avoid blocking in embodiment 1 or 2, plays additional illumination
Part light.
Embodiment 5
On the basis of embodiment 5, the present embodiment is optimized, and as shown in figures 15-18, is specifically included such as lower section
Face.The contour line of the dichroic reflection device is located in the focal plane region ± 5mm apart from dipped beam projection lens.The dipped beam projection
Lens are non-axial symmetrical lens.The low beam light source is that unilateral illuminating source, the dipped beam reflector are located at low beam light source upwards
Top.The light emitting region of light source is located inside or below reflector.
Embodiment 6
On the basis of embodiment 1, as shown in Figure 1-3, shining far lighting device and dipped beam the present embodiment provides a kind of
The mutually integrated structure of bright device.
Specifically, as shown in figure 4, there are four fixed frame screw holes for arrangement on genuine fixed frame.The present embodiment includes for pacifying
Lighting device mounting rack on genuine fixed frame, as Figure 7-8, lighting device installation are provided with four and fix
The mounting rack screw hole that frame screw hole is mutually matched, and be connected with each other using bolt.As Figure 7-8, the lighting device mounting rack
On be provided with far lighting device mounting rack and lower beam illumination device mounting rack, far lighting device and lower beam illumination device difference
It is arranged on its mounting rack.Specifically, as shown in Fig. 9-10,15-16, far lighting device and lower beam illumination device are installed with it
It is provided with radiator between frame, screw hole is provided on distance light radiator and dipped beam radiator, cooperates far lighting device mounting rack
And the screw hole on lower beam illumination device mounting rack is connected with each other using bolt.
As shown in figs9-12, the far lighting device of the present embodiment further includes distance light bracket, distance light condenser and distance light light
Source.High-beam light source is mounted on distance light radiator, and distance light bracket is mounted on distance light radiator, and high-beam light source is located at distance light branch
Inside frame, distance light condenser is mounted on distance light bracket front end.As illustrated in figs. 13-14, the distance light condenser of the present embodiment is using special
Lens arrangement in sharp open source literature CN106838824A or CN105737100A.
As shown in figures 15-18, the lower beam illumination device of the present embodiment further includes dipped beam bracket, and dipped beam reflector is mounted on closely
On light radiator, low beam light source is mounted on dipped beam radiator, and is located at low beam light source inside dipped beam reflector, dipped beam bracket
It is mounted on dipped beam radiator, dichroic reflection device is mounted on dipped beam internal stent, before dipped beam projection lens is mounted on dipped beam bracket
End.
As seen in figs. 5-6, the present embodiment further includes distance-light decoration fixing piece, is provided on distance-light decoration fixing piece remote
Light condenser mounting hole and dipped beam projection lens mounting hole.It is additionally provided with distance light bracket buckle on distance-light decoration fixing piece, such as
Shown in Fig. 9-10, distance light support fixture block is provided on distance light bracket, the two cooperates and installs.
The above is only the preferred embodiment of the utility model only, is not intended to limit the utility model, all at this
Made any modifications, equivalent replacements, and improvements etc., should be included in the utility model within the spirit and principle of utility model
Protection scope within.
Claims (10)
1. a kind of distance-light consubstantiality formula vehicle front lighting lamp assembly, it is characterised in that: including mutually independent far lighting device with
Lower beam illumination device, the lower beam illumination device include low beam light source, the dipped beam reflector and dipped beam that match with low beam light source
Projection lens;The lower beam illumination device further includes dichroic reflection device, and A, B, C three classes optics are provided on the dichroic reflection device
Face, A class optical surface are the light refraction plane of incidence, and B class optical surface is light group made of being closed as echo area and refraction outgoing district's groups
Conjunction face, C class optical surface are light refraction exit facet;The dichroic reflection device between low beam light source and dipped beam projection lens,
The A class optical surface of dichroic reflection device is located at nearly low beam light source side, and C class optical surface is located at dipped beam projection lens side, B class light
Face is located at upside;
The light that low beam light source is issued includes X, Y, Z three classes according to the difference in path:
X lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is projected through dipped beam projection lens, is finally projected dipped beam
The lower section of "cut-off"line in illuminated field;
Y lightlike line is projected by low beam light source, is reflected through dipped beam reflector, is refracted into dichroic reflection device by A class optical surface, is being divided
Echo area reflection in reflective optical system through B class optical surface, reflects dichroic reflection device by C class optical surface, through dipped beam projection lens
It projects, finally projects in lower beam illumination field;
Z lightlike line is projected by low beam light source, is reflected through dipped beam reflector, dichroic reflection device is refracted by A class optical surface, by B
The refraction outgoing area of class optical surface reflects dichroic reflection device, projects through dipped beam projection lens, finally projects lower beam illumination field
The top of middle "cut-off"line.
2. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: the B class optical surface
Echo area be optical total-reflection face or coated reflection face, make the light being incident on B class optical surface echo area, through B class optics
The reflection of face echo area, reflects dichroic reflection device by C class optical surface;The refraction outgoing area of the B class optical surface is face deformation
Region or atomization surface region make the light being incident in B class optical surface refraction outgoing area, directly project from B class optical surface
It penetrates area's refraction and overflows dichroic reflection device.
3. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: the B class optical surface
Part reflective semitransparent film is set in upper plating;Make some light being incident on B class optical surface, light splitting is overflowed in refraction directly from B class optical surface
Reflector;Another part light is reflected through B class optical surface, reflects dichroic reflection device by C class optical surface.
4. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: A class optical surface and B class
Optical surface intersection, intersection form a contour line;The contour line is incident upon the shape in lower beam illumination field through dipped beam projection lens,
Match with the "cut-off"line in the requirement of car light lower beam illumination.
5. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: A class optical surface and B class
Optical surface intersection, intersection forms a contour line, and is provided with shade at A class optical surface;The contour line and shade
The combination contour line that contour line is collectively formed is incident upon the shape in lower beam illumination field through dipped beam projection lens, with car light dipped beam
"cut-off"line in lighting requirement matches.
6. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: the dichroic reflection device
Contour line be located in the focal plane region ± 5mm apart from dipped beam projection lens.
7. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: the dipped beam projection is saturating
Mirror is non-axial symmetrical lens.
8. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: the low beam light source is
Unilateral side illuminating source upwards, the dipped beam reflector are located above low beam light source.
9. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 1, it is characterised in that: further include for installing
Lighting device mounting rack on genuine fixed frame, be provided on the lighting device mounting rack far lighting device mounting rack and
Lower beam illumination device mounting rack, far lighting device and lower beam illumination device are separately positioned on its mounting rack.
10. distance-light consubstantiality formula vehicle front lighting lamp assembly according to claim 9, it is characterised in that: far lighting device
And radiator is provided between lower beam illumination device and its mounting rack.
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109990246A (en) * | 2019-05-08 | 2019-07-09 | 成都恒坤光电科技有限公司 | A kind of distance-light consubstantiality formula vehicle front lighting lamp assembly |
CN109990246B (en) * | 2019-05-08 | 2024-03-12 | 成都恒坤光电科技有限公司 | Far-near light integrated automobile headlamp assembly |
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