CN202432389U - LED automobile lighting reflector and combined type head lighter - Google Patents

Abstract

The utility model provides a LED automobile lighting reflector and a combined type head lighter. The interior surface of the reflector is a free curved surface; a light source solid angle is divided; then a lighting area is performed grid division by employing the energy conservation law and according to illumination distribution characteristics of an automobile head lighter; and finally a free curved surface of the LED automobile lighting reflector can be calculated by employing the fold reflection law. The combined type head lighter comprises a protective mirror , a dipped beam LED light source, a high beam LED light source, a light housing, a radiator, a dipped beam reflector and a high beam reflector; the dipped beam LED light source and the high beam LED light source are respectively located on upper and lower sides of the portion of the radiator extending into the light housing; the light housing is installed outside the dipped beam reflector and the high beam reflector and is in close connection with the reflector; the top surfaces of the two reflectors are both supported by the light housing; a base surface is supported and fixed by the radiator. According to the utility model, the advantages of a small size, a wide view, a high luminous energy utilization rate, good heat dissipation and convenient switching between dipped beam and high beam are obtained.

Description

The LED automotive lighting is with reflector and composite headlight

Technical field

The utility model relates to LED car light field, the composite headlight that is specifically related to be used for the reflector of LED automotive lighting and comprises this reflector.

Background technology

Traditional headlamp light source has incandescent lamp, Halogen lamp LED and high-intensity gas discharge lamp; The volume of incandescent lamp and Halogen lamp LED is big; The efficiency of light energy utilization is low, and service life is short, though HID is longer service life; But volume, energy consumption are bigger, bring very big difficulty for the global design of headlamp and electric power system design.Therefore, seeking little, the durable light source of a kind of novel volume replaces traditional light source performance and the guarantee driving safety that improves headlamp is had positive effect.LED compares it and has long, advantage such as volume is little, response speed is fast, energy-efficient, environmental protection of life-span with conventional light source.At present in brake lamp, steering indicating light, back-up lamp, taillight and instrument with aspect extensive uses such as lamps.Along with the continuous maturation of LED technology, the quick raising of the light efficiency of simple grain LED and luminous flux makes LED become possibility as the car headlamp light source.Because LED car headlamp system exists the light efficiency of system low at present, heat dissipation design imperfection and far and near light switch problems such as inconvenience, make LED be applied to car headlamp and face many difficulties.

In the design of car headlamp, the luminous intensity distribution figure of 4599 pairs of car headlamps of standard GB stipulates that purpose is to prevent that car headlamp from disturbing the opposite to sail vehicle and cause traffic accident.Concerning dipped headlights, require to produce on before the car light 25m illuminated area far away make progress 15 ° "cut-off"line of a horizontal line and horizontal line right side.The lower beam illumination face can be divided into four zones: the ZONE I is to have bigger diffusion, the good substrate luminous intensity distribution of the uniformity, satisfies the marginal illumination demand in the scope of whole road surface; ZONE II, III, IV are to have that light energy is comparatively concentrated, range center luminous intensity distribution far away, satisfy the lighting demand of distant place of this track and road surface, the right (is example with vehicle right lateral standard).In I, II in III and the IV district, should not have the transverse illumination that influences good visibility and changes.Concerning high beam, then require the regulation zone illumination on before the car light 25m illuminated area far away up to standard.

The method for designing of LED headlamp is mainly divided projection-type and reflective two kinds.Projection-type LED headlamp module usually by hemisphere ellipsoid reflector add overhead gage, lens constitutes because the stopping of baffle plate, and the refraction of lens, reflection equal loss, the capacity usage ratio of whole optical system can descend greatly.The reflecting LED headlamp mainly is divided into parabolic shape and free form surface type by the shape of reflection cavity.Parabolic shape reflector light group is made up of lens, reflection cavity and light source.A light shield is arranged near the light source of its dipped headlights, be used on photometric screen, forming "cut-off"line and 15 ° of oblique lines, because of having light shield and lens in this light group, so optical energy loss is also bigger.Free form surface type car light does not then need baffle plate and lens, just can accomplish all luminous intensity distribution tasks with single reflector.Its efficiency of light energy utilization depends primarily on the reflectivity and receipts light rate of reflector, and the bore of reflector is big more generally speaking, and capacity usage ratio is just big more.

The utility model content

The subject matter that design faces to the LED headlamp, the utility model provides the LED automotive lighting with reflector and composite headlight, and this car headlamp volume is little, and the visual field is wide, and the efficiency of light energy utilization is high, and heat radiation is good, far and near light easy switching.The utility model adopts following technical scheme:

A kind of reflector that is used for the LED automotive lighting, said reflector smooth interior surfaces, reflective function is good.The inner surface of reflector is a free form surface, constitutes the optical reflection face.

The shape of free-form surface reflector is confirmed by following method:

To the dipped headlights design, be that the origin of coordinates is set up coordinate system with the led light source, and for the high beam design, the distance B of the led light source and the origin of coordinates, instant and near light lamp led light source is parallel placement like this; With plane, LED bottom surface place is the XOZ plane, crosses initial point and is the y axle with the axle of the vertical XOZ in plane.At first the light source solid angle is divided; Then according to car headlamp (dipped headlights, high beam) Illumination Distribution characteristic on illuminated area; The uses energy law of conservation; Carry out grid to the field of illumination on the illuminated area and divide, use the catadioptric law promptly to get free-form surface reflector to the end then through numerical computations.

The calculation procedure of said free form surface is following:

1. confirm primary condition and the light source solid angle is evenly divided.

At first the distance of target illumination face and LED is d, and for dipped headlights, target illumination zone left-half is the long a that is, wide be the rectangular area of b, and right half part is the high a of being, upper base is that b goes to the bottom and is the trapezoid area of c; For high beam, the target illumination zone is the long 2a that is, wide is the rectangular area of b, and the total light flux of led light source is Q, and the average illumination of target area is E _v(E _vFor total light flux divided by the target area area), the LED central light strength is I ₀=Q/ π.θ is light and the plane of Y axle composition and the angle on YOZ plane in the coordinate system, and

is the angle of emergent ray and Y axle negative direction.Solid angle to light source is carried out discretization; Be divided into m part in the θ direction by angle ρ; For each θ; All direction is divided into n part by angle ρ, has so just obtained the array of θ (m) and .M, the size of n value has determined the accuracy of calculating, in theory, and m, bigger last result is accurate more for the value of n.

Energy with each part the angle inner light source in each part θ angle is a research object, and the luminous flux in each aliquot solid angle is:

2. utilizing law of conservation of energy that grid is carried out in the target illumination zone divides

(1) dipped beam target illumination area grid is divided

Division corresponding to the light source solid angle; The rectangular co-ordinate of illuminated area also is divided into m part accordingly on the x direction; For each x; All the y direction is divided into n part; In the illuminated area rectangular coordinate system, obtain with the light source solid angle in θ (m) and

array x (m) and y (m, n) array one to one.

On the left-half of target illumination zone, each part θ angle is pairing be one long for y (m, n+1)-y (m, n), wide is the rectangular area of x (m+1)-x (m), the gross energy of this rectangular area is:

Etotal=[x(m+1)-x(m)]·[y(m,n+1)-y(m,n)]·E _c

In the formula, E _cThe expression brightness value.Owing to ZONE I, II, III, the regional brightness value of IV among the Illumination Distribution figure on the illuminated area of GB GB4599 dipped headlights have nothing in common with each other, so preset illumination E, illumination controlling elements γ has for zones of different

E _c=E·γ(i) i＝1,2,3,4

0≤γ (i)≤1 wherein, the value of i and I, II, III, IV zone are corresponding one by one, and γ (i) value has nothing in common with each other, and need in calculating, repeatedly adjust to reach optimal result.

On the right half part of target illumination zone, when dividing, there are rectangular area and a part of delta-shaped region, the division of rectangular area is identical with left-half; For delta-shaped region, its height be y (m, n+1)-y (m; N), the base is x (m+1)-x (m), and this regional gross energy is:

$\mathrm{Etotal}=\frac{1}{2}[x(m+1)-x\left(m\right)]\·[y(m,n+1)-y(m,n)]\·E_c$

(2) distance light target illumination area grid is divided

Distance light target illumination zone is a rectangular area in the utility model, and it is by dipped beam reflector and the acting in conjunction of distance light reflector and form.The effect of distance light reflector mainly be above horizontal line, to form a rectangular area; It is identical with the division of dipped beam target illumination zone left-half that its field of illumination grid is divided; Difference is Illumination Distribution; Regulation zone brightness value size is to be successively decreased to both sides by the centre in the far lighting zone, and controlling elements γ is a sequence of successively decreasing here:

$\mathrm{\γ}\left(m\right)=t\·\frac{m-j}{m}\·E$

0≤t in the formula≤5, j=1,2 ..., m, and the t value needs in calculating, repeatedly to adjust to reach optimal result.

Between net region and light source solid angle by law of conservation of energy:

Energy=Etotal

Thereby can obtain corresponding x (m) and y (m, n) array.

3. obtain the normal vector of putting on the said curved surface by the catadioptric law, utilize this normal vector to try to achieve the section, obtain the coordinate put on the curve through the intersection point of asking section and incident ray, the vector form of catadioptric law can be expressed as:

$\sqrt{1+{\mathrm{\μ}}^2-2\·\mathrm{\μ}\·(\stackrel{\→}{\mathrm{Out}}\·\stackrel{\→}{\mathrm{In}})}\·\stackrel{\→}{N}=\stackrel{\→}{\mathrm{Out}}-\mathrm{\μ}\·\stackrel{\→}{\mathrm{In}}$

Wherein μ is a refractive index; is the incident ray unit vector;

is the emergent ray unit vector, and is unit normal vector.

In calculating, at first need confirm the initial point (0, S, 0) of a free-form surface reflector boundary curve, for the ease of installing, the initial point of far and near light free form surface boundary curve is made as same point, the size of the determining positions entire emission device of this initial point.Calculating a boundary curve by this initial point, is that initial point is calculated whole free form surface by each point on the boundary curve again.Computational methods: the unit vector that can obtain incident ray by determined θ in 1 and

; The unit vector of coordinate through initial point and the reflection ray corresponding with it; Can obtain the normal vector of initial point; Thereby confirm the section of this point, thereby definite second point is intersected with second incident ray in this section.By straight line crossing can draw down a bit of more preceding section, can draw the coordinate of being had a few through computer iterations with the normal vector place of descending any.Confirmed the coordinate of dipped beam, distance light reflector free form surface thus.

4. the point that utilizes machine emulated software to obtain fits to curved surface

The coordinate of the discrete point that obtains imports to mechanical modeling software successively, carries out the setting-out match, can obtain final dipped beam, distance light reflector surface model.

Because instant and near light reflector free form surface when design initial point is identical, and the space between light sources of the two is D, makes the instant and near light reflector when carrying out the composite headlight design, and the two led light source is asymmetrical installation form.In the concrete design; When carrying out the free form surface match, initial point is removed; Make free form surface a circular hole occur near the bottom, the dipped beam led light source be installed in the circular hole dead ahead and with its at a distance of S place, and the distance light led light source be installed in the circular hole dead ahead and with its apart (S-D) locate.

The utility model also provides following technical scheme in addition:

A kind of combined LED automobile headlamp comprises protective glasses, dipped beam led light source, distance light led light source; Lamp housing, radiator, above-mentioned dipped beam reflector, last distance light reflector; The lamp housing front end is equipped with protective glasses, and protective glasses only plays protection reflector and light source, does not influence light distribution effect; Dipped beam led light source and distance light led light source are housed in the lamp housing, the shared radiator of instant and near light light source, and the asymmetrical respectively radiator that is installed in stretches into the interior upper and lower sides partly of lamp housing; Radiator is connected with lamp housing, plays heat radiation and supports dipped beam reflector and distance light reflector, and lamp housing is installed in instant and near light reflector outside; And closely link to each other with reflector, plaing a part to support and the protection reflector, reflector is made up of free form surface; Two reflector end faces are supported by lamp housing, and the bottom surface is supported by radiator and be fixing, and led light source becomes composite headlight with reflector group.

After adopting technique scheme, because the led light source luminous efficiency is high and adopt free-form surface reflector, the light less wastage, thus higher than traditional headlamp capacity usage ratio, simultaneously, and led light source light type, light emission direction can be controlled.When the needs dipped beam, light a top led light source, light can be met the dipped beam light type and the brightness value of standard GB 4599 through outgoing behind reflector and the protective glasses.When the needs distance light, light up and down two led light sources simultaneously, light can be met the distance light light type and the brightness value of standard GB 4599 through outgoing behind reflector and the protective glasses, and distance light, dipped beam switching are very convenient like this.When led light source is lighted; The heat that produces stretches into part in the lamp housing through radiator and transmits heat out finally and distribute, because lamp housing links to each other a part of must also can distributing through lamp housing by heat with radiator; In addition; Led light source adopts asymmetric installation, and the problem that temperature is cumulative too high in the time of can avoiding lighting has simultaneously promoted the efficient of dispelling the heat.

Beneficial effect of the utility model and advantage: the light energy that led light source sends all by the free-form surface reflector reflection, does not need special lens luminous intensity distribution, has avoided the loss of lens to luminous energy, has improved the efficiency of light energy utilization; Adopt free-form surface reflector, can effectively increase angle of visibility, reduce system bulk, can reach the light distribution requirements of GB4599 simultaneously again.Utilize the method for lamp housing and the asymmetric placement of employing LED, improved the radiating efficiency of whole light fixture.Because led light source adopts the integrated encapsulation technology of chip; It is less to take volume; And the instant and near light free-form surface reflector that led light source is carried out luminous intensity distribution divides installation up and down, and required working space greatly reduces than traditional headlamp, for more spaces have been reserved in the lamp system indoor design; Make the appearance and modeling design of whole car light free more flexibly, meet attractive in appearanceization and the fairshaped requirement of modern car light design.

Description of drawings

Figure l is led light source spherical coordinates figure in the embodiment.

Fig. 2 is that grid chart is divided in the target area in the embodiment.

Fig. 3 is the side view of dipped beam reflector in the embodiment.

Fig. 4 is the front view of dipped beam reflector in the embodiment.

Fig. 5 is the side view of distance light reflector in the embodiment.

Fig. 6 is the front view of distance light reflector in the embodiment.

Fig. 7 is the side view of combined LED automobile headlamp in the embodiment.

Fig. 8 is the vertical view of combined LED automobile headlamp in the embodiment.

Fig. 9 is the front view of combined LED automobile headlamp in the embodiment.

Figure 10 is the 3 dimensional drawing of combined LED automobile headlamp in the embodiment.

Figure 11 is the schematic side view of combined LED automobile headlamp in the embodiment.

The specific embodiment

Below in conjunction with accompanying drawing and embodiment the enforcement of the utility model is further described, but below be merely embodiment, the enforcement and the protection domain of the utility model are not limited thereto.

1. confirm primary condition and light source solid angle and target illumination zone are divided grid, like Fig. 1, shown in Figure 2.

At first the distance of target illumination face and LED is 25m, and for dipped headlights, dipped beam target illumination zone left-half is the long 4m that is, wide is the rectangular area of 2m; Right half part is the high 4m that is, upper base is that 2m goes to the bottom and is the trapezoid area of 3.0718m, for high beam; The target illumination zone is the long 8m that is, wide is the rectangular area of 4m, and the total light flux of led light source is 270lm; Then the average illumination of target area is 15.8156lx, and the LED central light strength is 85.94370cd, and instant and near light lamp source spacing is 2cm.θ is emergent ray 101 and the angle of Y axle 102 with the plane YOZ of Z axle 103 compositions in the coordinate system; Span is that is the angle of emergent ray 101 with Y axle 102 negative directions, and span is 0 ~ π.Solid angle to light source is carried out discretization; Be divided into 150 parts in the θ direction by 1 ° of angle; For each θ; All

direction is divided into 180 parts by 1 ° of angle; So just obtained the array of θ (m) and

, as shown in Figure 1.M, the size of n value has determined the accuracy of calculating, in theory, and m, bigger last result is accurate more for the value of n.Energy with each part

the angle inner light source in each part θ angle is a research object, and the luminous flux in each aliquot solid angle is:

2. utilizing law of conservation of energy that grid is carried out in the target illumination zone divides

(1) dipped beam target illumination area grid is divided

As shown in Figure 2; Division corresponding to the light source solid angle; The rectangular co-ordinate of illuminated area also is divided into 180 parts accordingly on the x direction; For each x; All the y direction is divided into 150 parts, in the illuminated area rectangular coordinate system, obtain with the light source solid angle in θ (m) and

array x (m) and y (m, n) array one to one.

On illuminated area irradiation area left-half, each part θ angle is pairing be one long for y (m, n+1)-y (m, n), wide is the rectangular area of x (m+1)-x (m), the gross energy of this rectangular area is:

Etotal=[x(m+1)-x(m)]·[y(m,n+1)-y(m,n)]·E _c

In the formula, E _cThe expression brightness value.Owing to ZONE I, II, III, the regional brightness value of IV among the Illumination Distribution figure on the illuminated area of GB GB4599 dipped headlights have nothing in common with each other, so preset illumination 15.8156lx, illumination controlling elements γ has for zones of different

E _c=E·γ(i) i＝1,2,3,4

0≤γ (i)≤1, and the value of i and I, II, III, IV zone are corresponding one by one.

On the illuminated area right half part, when dividing, have rectangular area and a part of delta-shaped region, the division of rectangular area is identical with left-half, for delta-shaped region, its height be y (m, n+1)-y (m, n), wide is x (m+1)-x (m), this regional gross energy is:

$\mathrm{Etotal}=\frac{1}{2}[x(m+1)-x\left(m\right)]\·[y(m,n+1)-y(m,n)]\·E_c$

(2) distance light target illumination area grid is divided

Distance light target illumination zone is a rectangular area in the utility model, and it is by dipped beam reflector and the acting in conjunction of distance light reflector and form.The effect of distance light reflector mainly be above horizontal line, to form a rectangular area; It is identical with the division of dipped beam target illumination zone left-half that its field of illumination grid is divided; Difference is Illumination Distribution; Regulation zone brightness value size is to be successively decreased to both sides by the centre in the far lighting zone, and controlling elements γ is a sequence of successively decreasing here:

$\mathrm{\γ}\left(m\right)=t\·\frac{m-j}{m}\·E$

0≤t in the formula≤5, j=1,2 ..., m, and the t value needs in calculating, repeatedly to adjust to reach optimal result.

Between net region and light source solid angle by law of conservation of energy:

Energy=Etotal

Rectangular area to the dipped beam left-half; By the conservation of energy, calculate abscissa array on the regional reference axis of target illumination:

Corresponding and each x (m), calculate target illumination zone y (m, n) array:

Above two steps are set up equality, set up double cycle calculations through computer and can obtain corresponding x (m) and y (m, n) array.

In like manner, the utilization said method carries out the coordinate array that correspondence was divided and obtained to grid to the Delta Region of dipped beam right half part, the target illumination zone of distance light.

3. obtain the normal vector of putting on the said curved surface by the catadioptric law, utilize this normal vector to try to achieve the section, obtain curve coordinate more up and down through the intersection point of asking section and incident ray, the vector form of catadioptric law can be expressed as:

$\sqrt{1+{\mathrm{\μ}}^2-2\·\mathrm{\μ}\·(\stackrel{\→}{\mathrm{Out}}\·\stackrel{\→}{\mathrm{In}})}\·\stackrel{\→}{N}=\stackrel{\→}{\mathrm{Out}}-\mathrm{\μ}\·\stackrel{\→}{\mathrm{In}}$

Wherein μ is a refractive index; Here the value of μ is taken as 1;

is the incident ray unit vector;

is the emergent ray unit vector, and

is unit normal vector.

In calculating, at first need confirm the initial point of a free-form surface reflector boundary curve, for the ease of installing, the initial point of far and near light free form surface boundary curve is made as same point, (0,0.04,0), the size of the determining positions entire emission device of this initial point.Calculating a boundary curve by this initial point, is that initial point is calculated whole free form surface by each point on the boundary curve again.Computational methods: the unit vector that can obtain incident ray by determined θ in 1 and

; The unit vector of coordinate through initial point and the reflection ray corresponding with it; Can obtain the normal vector of initial point; Thereby confirm the section of this point, thereby definite second point is intersected with second incident ray in this section.By straight line crossing can draw down a bit of more preceding section, can draw the coordinate of being had a few through computer iterations with the normal vector place of descending any.Confirmed the coordinate of dipped beam, distance light free-form surface reflector thus.

Example: to dipped headlights, the distance on LED car headlamp reflector distance objective plane is 25m, establishes that initial point is (0 ,-0.04,0) on the free-form surface reflector boundary line, and promptly LED is 0.04m apart from the distance in reflector sideline.Solid angle to light source is carried out discretization; Be divided into 150 parts to θ; For each θ; All

is divided into 180 parts; Obtain the array of θ (m) and

; Corresponding division with the light source solid angle is divided into x (m) and y (m, n) array with objective plane.Initial angle θ (1) is 0 °; What the value of

from

to

was supposed the boundary curve correspondence here is the center line of objective plane; X is 0; The value of y is from y (1; 1) to y (1,180).For starting point; By the catadioptric law by the normal vector that can obtain starting point

normal vector and starting point coordinate can obtain tangent line be z+0.015=0 this be 1 formula; The linear equation of angle for

is: this is 2 formulas for

; By 1; Two straight lines of 2 formula gained intersect; Obtain x(2 by step 3), z(2).By that analogy: the pairing linear equation of k point for

pairing tangential equation does

N _x[k-1](x-x(k-1))+N _z[k-1](z-z(k-1))=0。

Can obtain the k point coordinates through two straight lines are crossing, when k=180, promptly obtain the coordinate array of all data points on the boundary line.

Respectively with on the boundary line each the point as starting point, for each starting point, its normal vector is known, so N can be passed through in the section _x(x-x ₀)+N _y(y-y ₀)+N _z(z-z ₀)=0 is confirmed, through descending any linear equation (θ, one

One correspondence is got up)

Can confirm the coordinate of any down by above-mentioned two equations.Set up two with this and recirculate, can obtain the coordinate array of whole free form surface.

4. the point that utilizes machine emulated software to obtain fits to curved surface

The coordinate array of the discrete free form surface that obtains imports to mechanical modeling software successively, carries out the setting-out match, can obtain final dipped beam, distance light reflector surface model.

Because instant and near light reflector free form surface when design initial point is identical, and the space between light sources of the two is 0.02m, makes the instant and near light reflector when carrying out the composite headlight design, and the two led light source is asymmetrical installation form.In the concrete design; When carrying out the free form surface match, initial point is removed; Make free form surface a circular hole occur near the bottom, the dipped beam led light source be installed in the circular hole dead ahead and with its at a distance of 0.04m place, and the distance light led light source be installed in the circular hole dead ahead and with its 0.02m place apart.

As shown in Figure 7, the utility model also provides following technical scheme in addition:

A kind of combined LED automobile headlamp comprises protective glasses 307, dipped beam led light source 301, distance light led light source 302; Lamp housing 305, radiator 306, said dipped beam reflector 303, distance light reflector 304; Lamp housing 305 front ends are equipped with protective glasses 307, and 307 of protective glasses play protection reflector and light source, do not influence light distribution effect; Dipped beam led light source 301 and distance light led light source 302 are housed in the lamp housing 307, the shared radiator 306 of instant and near light light source, and the asymmetrical respectively radiator 306 that is installed in stretches into lamp housing 305 interior upper and lower sides partly; Radiator 306 is connected with lamp housing 305, plays heat radiation and supports dipped beam reflector 303 and distance light reflector 304, and lamp housing 305 is installed in instant and near light reflector outside; And closely link to each other with reflector, plaing a part to support and the protection reflector, reflector is made up of free form surface; Two reflector end faces are supported by lamp housing 305, and the bottom surface is supported by radiator 306 and be fixing, and led light source and reflector are formed reflective optics.

Figure l is led light source spherical coordinates figure in the embodiment, according to the spherical coordinates diagram led light source solid angle is evenly divided.Fig. 2 is that dipped beam target area grid is divided figure in the embodiment, wherein 201,203 is respectively the rectangular area, and 202 is delta-shaped region; The distance light target area is 201,203 these two rectangular areas, and it is above horizontal line, and two kinds common constitutes a big rectangular area.

The dipped beam reflector side view of Fig. 3 for obtaining through such scheme, Fig. 4 is its front view, and Fig. 5 is a distance light reflector side view, and Fig. 6 is a distance light reflector front view.

The combined LED automobile headlamp side view of Fig. 7 for obtaining through such scheme.

The combined LED automobile headlamp vertical view of Fig. 8 for obtaining through such scheme, Fig. 9 is a front view, Figure 10 is a side isometric view, the combined LED automobile headlamp two-dimensional representation of Figure 11 for obtaining through such scheme; Figure 11 includes: protective glasses 1, dipped beam led light source 7, distance light led light source 4; Lamp housing 3, radiator 5, dipped beam reflector 2; Distance light reflector 6, the asymmetric respectively radiator 5 that is placed on of led light source 7,4 stretches into lamp housing 3 interior upper and lower sides partly.

The LED lighting effect that is installed in behind the composite headlight inside of mode as described above is, the dipped beam light type on the objective plane distributes, and light type and brightness value satisfy the requirement of standard GB 4599-2007; Distance light light type on the objective plane distributes, and light type and brightness value satisfy the requirement of standard GB 4599-2007.

After adopting technique scheme, because the led light source luminous efficiency is high and adopt free-form surface reflector, the light less wastage, thus higher than traditional headlamp capacity usage ratio, simultaneously, and led light source light type, light emission direction can be controlled.When the needs dipped beam, light a top led light source, light can be met the dipped beam light type and the brightness value of standard GB 4599 through outgoing behind reflector and the protective glasses.When the needs distance light, light up and down two led light sources simultaneously, light can be met the distance light light type and the brightness value of standard GB 4599 through outgoing behind reflector and the protective glasses, and distance light, dipped beam switching are very convenient like this.When led light source is lighted; The heat that produces stretches into part in the lamp housing through radiator and transmits heat out finally and distribute, because lamp housing links to each other a part of must also can distributing through lamp housing by heat with radiator; In addition; Led light source adopts asymmetric installation, and the problem that temperature is cumulative too high in the time of can avoiding lighting has simultaneously promoted the efficient of dispelling the heat.

Claims (3)

1.LED automotive lighting is used reflector, it is characterized in that said reflector smooth interior surfaces, the inner surface of reflector is a free form surface, constitutes the optical reflection face; The shape of reflector free form surface is limiting as follows:

To dipped headlights, be that the origin of coordinates is set up coordinate system with the led light source, and for high beam, the distance B of the led light source and the origin of coordinates, instant and near light lamp led light source is parallel placement; With plane, LED bottom surface place is the XOZ plane, cross initial point and be the y axle with the axle of the vertical XOZ in plane,

(1) distance of target illumination face and LED is d, and for dipped headlights, target illumination zone left-half is the long a that is, wide be the rectangular area of b, and right half part is the high a of being, upper base is that b goes to the bottom and is the trapezoid area of c; For high beam, the target illumination zone is the long 2a that is, wide is the rectangular area of b, and the total light flux of led light source is Q, and the average illumination of target area is E _v, E _vFor total light flux divided by the target area area, the LED central light strength is I ₀=Q/ π; θ is light and the plane of Y axle composition and the angle on YOZ plane in the coordinate system,

Angle for emergent ray and Y axle negative direction; Solid angle to light source is carried out discretization, is divided into m part in the θ direction by angle ρ, for each θ, all incites somebody to action

Direction is divided into n part by angle ρ, obtained θ (m) and

Array, m, the size of n value is confirmed according to required precision;

Energy with each part

the angle inner light source in each part θ angle is a research object, and the luminous flux in each aliquot solid angle is:

(2) grid is divided

(2.1) dipped beam target illumination area grid is divided

Division corresponding to the light source solid angle; The rectangular co-ordinate of illuminated area also is divided into m part accordingly on the x direction; For each x; All the y direction is divided into n part; In the illuminated area rectangular coordinate system, obtain with the light source solid angle in θ (m) and

array x (m) and y (m, n) array one to one;

On the left-half of target illumination zone, each part θ angle is pairing be one long for y (m, n+1)-y (m, n), wide is the rectangular area of x (m+1)-x (m), the gross energy of this rectangular area is:

Etotal=[x(m+1)-x(m)]·[y(m,n+1)-y(m,n)]·E _c

In the formula, E _cThe expression brightness value; Owing to ZONE I, II, III, the regional brightness value of IV among the Illumination Distribution figure on the illuminated area of GB GB4599 dipped headlights have nothing in common with each other, so preset illumination E, illumination controlling elements γ has for zones of different

E _c=E·γ(i) i＝1,2,3,4，

0≤γ (i)≤1 wherein, the value of i and I, II, III, IV zone are corresponding one by one, and γ (i) value has nothing in common with each other;

On the right half part of target illumination zone, when dividing, there are rectangular area and a part of delta-shaped region, the division of rectangular area is identical with left-half; For delta-shaped region, its height be y (m, n+1)-y (m; N), the base is x (m+1)-x (m), and this regional gross energy is:

(2.2) distance light target illumination area grid is divided

Distance light target illumination zone is a rectangular area, and it is by dipped beam reflector and the acting in conjunction of distance light reflector and form; The effect of distance light reflector mainly be above horizontal line, to form a rectangular area; It is identical with the division of dipped beam target illumination zone left-half that its field of illumination grid is divided; Difference is Illumination Distribution; Regulation zone brightness value size is to be successively decreased to both sides by the centre in the far lighting zone, and controlling elements γ is a sequence of successively decreasing here:

0≤t in the formula≤5, j=1,2 ..., m, between net region and light source solid angle by law of conservation of energy:

Energy=Etotal

Thereby obtain corresponding x (m) and y (m, n) array;

(3) limit the normal vector of putting on the said curved surface the catadioptric law, utilize this normal vector to draw the section, the coordinate of putting on the intersection point qualification curve through section and incident ray, the vector form of catadioptric law is:

Wherein μ is a refractive index;

is the incident ray unit vector;

is the emergent ray unit vector, and

is unit normal vector;

Limit the initial point (0, S, 0) of a free-form surface reflector boundary curve, the initial point of far and near light free form surface boundary curve is made as same point, the size of the determining positions entire emission device of this initial point; Draw a boundary curve by this initial point; By each point on the boundary curve is that initial point draws whole free form surface; Obtain the unit vector of incident ray the θ that is limited in (1) and

; The unit vector of coordinate through initial point and the reflection ray corresponding with it; Obtain the normal vector of initial point; Thereby limit the section of this point; Thereby this section and second 's incident ray intersects and limits second point; By straight line crossing draw down a bit of more preceding section, draw the coordinate of being had a few through computer iterations with the normal vector place of descending any; Define the coordinate of dipped beam, distance light reflector free form surface thus;

The coordinate of the discrete point that (4) obtains imports to mechanical modeling software successively, carries out the setting-out match, obtains final dipped beam, distance light reflector curve form.

2. LED automotive lighting according to claim 1 is used reflector; It is characterized in that free form surface has a circular hole near the bottom; The dipped beam led light source be installed in the circular hole dead ahead and with its at a distance of S place, and the distance light led light source be installed in the circular hole dead ahead and with its apart (S-D) locate.

3. the composite headlight that comprises the said reflector of claim 1; It is characterized in that comprising protective glasses, dipped beam led light source, distance light led light source, lamp housing, radiator, said dipped beam reflector and distance light reflector, the lamp housing front end is equipped with protective glasses, and dipped beam led light source and distance light led light source are housed in the lamp housing; The shared radiator of instant and near light light source; Dipped beam led light source and distance light led light source are installed in the upper and lower sides that radiator stretches into part in the lamp housing respectively, and radiator is connected with lamp housing, and lamp housing is installed in said distance light reflector, dipped beam reflector outside; And closely link to each other with reflector; Said dipped beam reflector and distance light reflector are supported by lamp housing, and the bottom surface is supported by radiator and be fixing, and led light source becomes composite headlight with the dipped beam reflector with the distance light reflector group.

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