CN209431327U - Radiator, radiator, optical system and LED headlamp - Google Patents

Abstract

The utility model discloses a kind of radiator, radiator, optical system and LED headlamps.The radiator of the utility model can be avoided in the cavity where dust and partial heat directly to be blown back to LED chip, so as to avoid the situation for leading to heat dissipation effect difference due to the refluence because of partial heat, it also avoids the introducing of dust simultaneously and reduces light, and situations such as LED chip is interfered, and then while improving heat dissipation effect, the service life of LED headlamp is also extended；Wherein radiator design so that, when bottom fan is to the vertical radiating fin and lateral heat dissipation fin for blowing radiator, heat is taken away along lateral air duct and vertical air duct, by LED chip control at lower temperature, substantial capability reduces light decay and extends in service life.The optical system of the utility model is cooperated using the reflector and lens of free form surface, so that it is in rectangle, the oval light type of bottom section that light source emergent ray, which forms top area,.

Description

Radiator, radiator, optical system and LED headlamp

Technical field

The utility model relates to technical field of LED illumination, there is the radiator for being related to a kind of LED headlamp, heat dissipation dress It sets, optical system and LED headlamp based on LED chip.

Background technique

Car headlamp generally includes dipped beam and distance light, wherein dipped beam is alternatively referred to as passing beam, and lower beam headlamp provides The distribution of light is designed to provide for enough forward directions and side lighting, and the light of other road user eyes is directed toward in limitation, with control Dazzle processed, referring to Fig. 1, also, international Economic Commission for Europe defines that must have one above passing beam sharp and asymmetric "cut-off"line, in the driver's eye for the automobile for preventing a large amount of light from projecting front truck or coming head-on.Therefore, it is shone before dipped beam Lamp is suitable for the case where there are other vehicles in front.Wherein, distance light is alternatively referred to as main beam, drives light beam or full light beam, distance light Headlamp provides bright center and weights light distribution, without especially controlling the light towards other road user eyes, referring to Fig. 2.Therefore, high beam headlamp is only suitable only for being used alone on road, because the dazzle that they are generated will disperse other driving The attention of member.

Currently, most of automobile headlamps use traditional light source, such as tungsten halogen lamp or xenon lamp, but conventional light source (such as tungsten halogen lamp Or xenon lamp) the automobile headlamp service life it is short, damaged vulnerable to shock and vibration, so that high failure rate, and traditional lamp source Power consumption is higher.In addition, traditional light source is mostly tungsten halogen lamp or xenon lamp, i.e. light source is shone with spherical chart case, therefore, usually also Need the optical device of such as reflector and lens combination come capture and using high percentage light.

And light emitting diode (LED) has the longer service life than conventional light source, and very hard due to its solid-state structure Gu in addition, they are shone with the pattern of near hemispherical, for example, light is in an axis due to the reflecting element at the LED die back side On from about -90 degree to+90 degree transmitting, this make LED become automobile headlamp ideal chose.Therefore, gradually it has been proposed that LED headlamp, and in order to reach desired intensity, the quantity of LED illumination module can be close to 10 modules and be used for low beam mode, 12 modules are used for high beam mode, and each module also needs individual thermal management module.This allows for needing big volume Carry out package illumination module, correspondingly, as the expectation of headlamp requires to be continuously increased, packaging volume requires also to increase.This just leads The additional space requirement in vehicle is caused to increase, this is undesirable.On the other hand, the LED headlamp of automobile is in use Heat can be generated, traditional heat dissipating method is using two kinds of radiating modes of active heat removal and passive heat dissipation.Active heat removal mainly according to It is realized by heat pipe, liquid cooling or fan, wherein the heat dissipation higher cost of heat pipe, heat dissipation area is smaller, and operating environment requirements are high, easily Damage；And the principle of liquid cooling is that coolant liquid takes away heat by liquid circulation under the action of pump, workpiece volume is larger, right Lamp body space requirement is high, and cost is also higher；The effect of simple fan cooling is poor and noise is larger.Passive heat dissipation is by one A biggish aluminum base of surface area realizes the heat transmitting between pedestal and air, and same heat dissipation effect is poor.Currently, relatively mostly using Be mode that fan is combined with radiator, i.e., LED chip is installed on a heat sink by heat-conducting glue, then in radiator Tail portion/rear side be arranged fan.However, due to the effect of fan, dust and partial heat are directly passed through radiator when work The heat dissipation channel in space where upper direction LED chip is blown back in the cavity where LED chip, poor so as to cause heat dissipation effect, The service life for not only influencing LED headlamp, simultaneously because the introducing of dust interferes LED chip, such as shuts out the light So that brightness and light intensity are inadequate, this is just needed using high-power LED chip, if increasing the power of LED chip, naturally also The power consumption of headlamp is increased, the heat generated is also increased by.

Utility model content

For the above technical problems, the utility model provides a kind of radiator of LED headlamp.

In order to solve the above-mentioned technical problem, the technical solution adopted in the utility model are as follows:

A kind of radiator of LED headlamp, including radiator, and it is mounted on the fan of the radiator bottom, Wherein, the bottom of the radiator and rear side are respectively arranged with lateral air duct and vertical air duct, and the fan is located at the transverse direction The lower section in air duct, or the lower section positioned at the lateral air duct and the vertical air duct.

Wherein, the radiator includes heat sink body, and the heat sink body bottom is set side by side with multiple along its length Vertical radiating fin, and lateral air duct is formed between two neighboring vertical radiating fin；And/or the rear side of the heat sink body Multiple lateral heat dissipation fins are set side by side with along the width direction of the heat sink body, and between two neighboring lateral heat dissipation fin Form vertical air duct.

Further, the lateral heat dissipation fin is set in qually spaced in the rear side of the heat sink body；And/or it is described perpendicular The heat sink body bottom is set in qually spaced in radiating fin.

Further, positioned at the heat sink body installation side at least one vertical radiating fin bottom be provided with to Few two fan mounting holes, the bottom for being located at least one lateral heat dissipation fin of the heat sink body two sides is respectively arranged There is at least one fan mounting holes；

Further, correspond on the lateral heat dissipation fin and the vertical radiating fin position of the fan to Upper recess, so that the accommodation space for accommodating the fan is formed, so that the transverse direction air duct is connected with the vertical air duct, And form accommodation space for accommodating the fan；Alternatively, the vertical radiating fin bottom corresponds to the position of the fan It sets and is recessed upwards to form the accommodation space for accommodating the fan.

Further, the thickness on rear side of the heat sink body with two vertical radiating fins of installation side is greater than it The thickness of its vertical radiating fin；And/or be provided with fan mounting holes the lateral heat dissipation fin thickness be greater than other cross To the thickness of radiating fin.

Further, heat sink body upper surface front end is provided with the circuit board for being integrated with single LED chip, and institute It states and is evenly arranged with heat dissipation column between the two sides and rear side and the lateral heat dissipation fin of circuit board.

The utility model additionally provides a kind of radiator of LED headlamp, and bottom and rear side are respectively arranged with transverse direction Air duct (112) and vertical air duct (114), and the lateral air duct (112) is connected with the vertical air duct (114).

The utility model additionally provides a kind of LED headlamp comprising above-mentioned radiator.

The utility model additionally provides a kind of optical system based on free form surface comprising a LED light source, an inner surface For the reflector and a lens of free form surface, wherein the light of the LED light source transmitting after reflector reflection and passes through Forming top after the lens transmission is in rectangle, the oval light type in bottom.

Based on above-mentioned optical system, the utility model additionally provides the LED headlamp of another comprising above-mentioned Radiator, light source module and reflector, lens, the light source module are the circuit board for being integrated with a LED chip, described anti- The inner surface of emitter is free form surface, and the circuit board is fixed on the front end of the radiator, and the reflector is covered on institute Circuit board is stated, and the normal orientation of the light source module light-emitting surface and the reference for installation plane of reflector (3) are in 90 °, make The light of LED chip transmitting to form top after reflector reflection and after lens transmission be in rectangle, The oval light type pattern in bottom.

The utility model has the beneficial effect that

The radiator and radiator of the utility model, have the advantage that

1) its bottom by the way that fan to be arranged in radiator avoids when fan is set up directly on radiator tail portion, Dust and partial heat are directly blown back into LED chip institute by the heat dissipation channel in space where being directed toward LED chip on radiator Cavity in, so as to avoid the situation of heat dissipation effect difference is caused due to the refluence because of partial heat, while also avoiding dust Introducing and reduce light, and to LED chip interfere situations such as, and then improve heat dissipation effect while, also extend LED The service life of headlamp.

2) it is equipped with the fan in bottom by the way that lateral air duct and vertical air duct is arranged, thus when operating, fan Air is sucked from all quarter, to the vertical radiating fin and lateral heat dissipation fin for blowing radiator, along lateral air duct and vertically Heat is taken away in air duct, so that radiator and the fever of LED are reduced, by LED chip control at lower temperature, so that preceding Illuminator can work normally in the failure of fan-free or fan, and substantial capability reduces light decay and extends In service life.

The optical system and headlamp of the utility model, have the advantage that

1) it is somebody's turn to do the design based on freeform optics system, improves light utilization efficiency, so that only needing using low-power Single LED chip can also reach national distance light design standard, and brightness is high, and refracted light is evenly distributed；

2) due to the unique design of reflector, so that reflector size is far smaller than the size of existing various reflectors, Which provides bigger heat dissipation areas；

3) since reflector size reduces, so that under certain focal length, distance between lens, i.e. lens and LED chip Reduce, further such that the overall dimensions of headlamp reduce, easily facilitates installation, also provide more heat-dissipating spaces；

4) due to the increase of heat dissipation area, so that corresponding radiator can be designed, thus while improving heat dissipation effect, Also the service life of LED headlamp is extended.

Detailed description of the invention

Fig. 1 is to reflect that headlamp outgoing light type forms the light type schematic diagram of dipped beam on road surface；

Fig. 2 is to reflect that headlamp outgoing light type forms the light type schematic diagram of distance light on road surface；

Fig. 3 is a kind of structural upright schematic diagram of an embodiment of the radiator of LED headlamp of the utility model；

Fig. 4 is the right view of radiator in Fig. 3；

Fig. 5 is the bottom view of radiator in Fig. 3；

Fig. 6 is a kind of structural upright schematic diagram of an embodiment of LED headlamp of the utility model；

Fig. 7 is to reflect the optical system exit light in this Fig. 6 in LED headlamp in the distance light light type figure of perpendicular；

Fig. 8 is the perspective view of the explosion for reflecting LED headlamp in Fig. 6；

Fig. 9 is the schematic diagram in high beam mode for reflecting the darkening mechanism of LED headlamp in Fig. 8；

Figure 10 is to reflect that the darkening mechanism of LED headlamp in Fig. 8 is in the schematic diagram of low beam mode；

Figure 11 is dipped beam light type figure of the optical system exit light in reflection figure LED headlamp in perpendicular；

Figure 12 is the structural schematic diagram for reflecting the darkening mechanism of LED headlamp in Fig. 8；

The schematic diagram that Figure 13 matches for push rod in the darkening mechanism in Figure 12 with connector；

Figure 14 is the partial enlarged view of Figure 12.

Specific embodiment

With reference to the accompanying drawing, the utility model is described in detail.

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 used to explain The utility model is not used to limit the utility model.

Herein, " preceding " can be defined as light from the direction that the light of car headlamp issues, and "upper" can be defined For the direction that light emits upwards, " rear " can be defined as the opposite direction that light issues direction from the light of car headlamp；" bottom Portion " can be defined as the direction that light emits downwards." front end " used herein, " top ", " upper surface " and " bottom " are made The corresponding reference for the orientation for being car headlamp on vehicle.Term " upward " and " downward " can be used relative to ground.More Specifically, term " upward " can be used for describing perpendicular to ground and far from the vector on ground；And term " downward " can be used for describing Perpendicular to ground and it is directed toward the vector on ground；Normal is perpendicular to the vector on the surface on such as ground, and specifically, normal can be by Being defined relative to plane is +/- 90 degree.

The utility model avoids fan being set up directly on radiator tail by the way that fan to be arranged in the bottom of radiator When portion, dust and partial heat are directly blown back into LED core by the heat dissipation channel in space where being directed toward LED chip on radiator In space where piece, so as to avoid the situation for leading to heat dissipation effect difference due to the refluence because of partial heat, also avoid simultaneously The introducing of dust and reduce light, and to LED chip interfere situations such as, and then improve heat dissipation effect while, also extend The service life of LED headlamp.

The utility model is by the way that in 110 bottom of heat sink body of radiator, (i.e. X-direction in Fig. 3) simultaneously along its length Column are provided with multiple vertical radiating fins 111, so that lateral air duct 112 is formed between two neighboring vertical radiating fin 111, And be located at the heat sink body on rear side of (i.e. the side of the mounting base far from LED chip) along the heat sink body 110 width direction (i.e. Y direction in Fig. 3), multiple lateral heat dissipation fins 113 are set side by side with, thus between two neighboring lateral heat dissipation fin 113 Vertical air duct 114 is formed, by being located at least one vertical radiating fin 111 of the heat sink body 110 installation side respectively Bottom, vertically 111 width direction of radiating fin is provided at least two fan mounting holes, and two on rear side of the heat sink body or so The bottom of at least one vertical radiating fin 113 at end is also each provided at least one fan mounting holes, so that fan can lead to It crosses the fixation members such as screw and is fixed on radiator bottom, therefore, when opening the fan, which sucks sky from all quarter Gas takes away heat along lateral air duct and vertical air duct to the vertical radiating fin and lateral heat dissipation fin for blowing radiator, thus Reduce radiator and the fever of LED, by LED chip control at lower temperature, substantial capability reduce light decay and It extends in service life.

The utility model improves light utilization efficiency by the cooperation between the unique reflector of design structure and lens, Brightness height is obtained, the novel light type pattern that refracted light is evenly distributed, so that can using the single LED chip of low-power It is up to state standards, and since single LED chip can be used, and reflector size is small, so that heat sink body bottom is without increasing If reflector, the distance between the reflector of upper surface and radiating fin also increase, so that the radiating surface of headlamp entirety Product increases, and then vertical air duct can be arranged in heat sink body bottom, while can be uniformly arranged heat dissipation in the upper surface of heat sink body Column further improves heat dissipation effect.

Below with reference to specific embodiment and attached drawing to the radiator of the utility model, optical system and headlamp etc. into Row detailed description.

Embodiment one

Referring to Fig. 3, the structural upright for an a kind of embodiment of the radiator of LED headlamp of the utility model is shown It is intended to, specifically, the radiator of the present embodiment, including radiator 11 and fan 12, and the fan 12 is located at the radiator 11 bottom.

Referring to Fig. 3, in the present embodiment, which includes heat sink body 110, and the rear side of the heat sink body 110 is (i.e. Side far from installation pedestal 6) (i.e. Y direction in Fig. 3) is equidistant etc. in the width direction is set side by side with multiple lateral heat dissipations Fin 113, and vertical air duct 114 is formed between two neighboring lateral heat dissipation fin 113.Specifically, 110 bottom of heat sink body The left and right ends in portion, and support leg is respectively arranged with close to rear side (i.e. the side of the installation pedestal 6 far from LED headlamp) position 118；And 110 upper surface of heat sink body, and the position of rear side is provided with support plate 115, the width of the support plate 115 is small In or equal to the heat sink body width, and equally spacedly set side by side in the support plate 115 along the width direction of heat sink body 110 Be equipped with multiple lateral heat dissipation fins 113 (i.e. the lateral heat dissipation fin 113 in the height direction 115 top of self-supporting slab to downward Stretch, and its bottom is concordant with the bottom of vertical radiating fin 111), and formed between two neighboring lateral heat dissipation fin 113 vertical Air duct 114.

Referring to fig. 4, in the present embodiment, 110 bottom of heat sink body of the radiator 11 (i.e. X in Fig. 4 along its length Axis direction) equally spacedly it is set side by side with multiple vertical radiating fins 111, and shape between two neighboring vertical radiating fin 111 At lateral air duct 112.

Referring to Fig. 5, in the present embodiment, it is located at the heat sink body 110 and side (one i.e. far from lateral heat dissipation fin 113 is installed End, be usually connected with the installation pedestal 6 of LED headlamp) first vertical radiating fin 111 bottom, along its width side To setting, there are two fan mounting holes (mounting hole can also be arranged on other vertical radiating fins or heat sink body certainly), And the left and right sides of the vertical radiating fin 111 of 110 rear side (i.e. close to one end of lateral heat dissipation fin 113) of heat sink body, The bottom of penultimate lateral heat dissipation fin 113, being also each provided with a fan mounting holes (can also be by the fan mounting holes Be arranged on heat sink body), and the mounting hole on this two vertical radiating fins 111 of the left and right sides respectively with vertical radiating fin Two mounting holes of on piece are corresponding one by one respectively.

In the present embodiment, for the ease of installing fan, positioned at the last one vertical radiating fin of 110 rear side of heat sink body Piece 111 and positioned at heat sink body 110 install side first vertical radiating fin 111 (be provided with the vertical of fan mounting holes Radiating fin) thickness be greater than other vertical radiating fins thickness；And it is provided with two of the left and right sides of fan mounting holes The thickness of lateral heat dissipation fin 113 is then greater than the thickness of other lateral heat dissipation fins.Certainly, which can also be according to practical need It asks, is mounted on other vertical radiating fins 111 and lateral heat dissipation fin 113.

In the present embodiment, in order to further increase heat dissipation performance, the electricity of 110 upper surface of heat sink body (i.e. top surface) Also uniformly distributed thermal column 116 around road plate 22, referring to fig. 4.

In order to further improve heat dissipation performance, in the present embodiment, each vertical radiating fin 111 and each lateral heat dissipation Position part on fin 113 corresponding to fan 12 is recessed upwards, to be dissipated by multiple vertical radiating fins 111 and multiple transverse directions Recess on hot fin 113 forms the accommodation space for accommodating fan, and since multiple vertical radiating fins 111 are recessed, so that Lateral air duct is connected with the accommodation space with vertical air duct, correspondingly, but also the transverse direction air duct passes through with vertical air duct The accommodation space is connected, and the transverse direction when fan 12 to be mounted in the accommodation space, in addition to being located at its 12 top of fan Outside air duct 112, lateral air duct 112 is still around in the left and right sides of the fan 12, after vertical air duct 114 is centered around the fan 12 Side (side i.e. far from LED headlamp mounting base) referring to figs. 2 and 3 so that when fan 12 work when, the air of sucking It is directly entered lateral air duct 112 and vertical air duct 114 around the accommodation space.

In one embodiment, the middle part of vertical radiating fin is recessed upwards, so that each vertical radiating fin is in The concave set, then the two side walls of the concave are then respectively placed in the left and right sides (the i.e. lateral air duct not only position of fan The two sides of fan are also located at the top of fan), correspondingly, lateral heat dissipation fin is close to the front end portion of vertical radiating fin Recess upwards, then the rear end part of the lateral heat dissipation fin is then located at the rear side of fan (i.e. vertical air duct is not only located at even more Top is also located at the rear side of fan), so that the accommodation space that can accommodate fan is formed with vertical radiating fin, referring to Fig. 5. In certain the present embodiment, lateral air duct can also be centered around the front side of the fan, specifically, the fan in Fig. 5 is mobile toward rear end Certain distance is not recessed upwards in the middle part of the part radiating fin of 110 front end of heat sink body then, then makes parts transversely air duct Positioned at the front end of fan, and through-hole further can be set on the part radiating fin for being located at fan front, so that being located at The lateral air duct of fan front is connected with the lateral air duct being located at the top of fan；Certainly, which can also be centered around this The right side or left side of fan, specifically, will have on the left of the vertical radiating fin in Fig. 5 right side recess walls remove, make its with Concave bottom is concordant, and the recess walls of the other side then remain unchanged-it is concordant with the bottom of lateral heat dissipation fin so that laterally Air duct is not only located at the top of fan, may be alternatively located at the left or right side of fan；Certainly, the fan can be also arranged vertical scattered at this The lower section of hot fin, and it is not arranged in the lower section of lateral heat dissipation fin.

Embodiment two

The utility model additionally provides a kind of radiator of LED headlamp comprising the heat dissipation in above-described embodiment one The all parts of device, the i.e. bottom of the radiator of the present embodiment and rear side are respectively arranged with lateral air duct 112 and vertical air duct 114, and the transverse direction air duct 112 is connected with vertical air duct 114.

In one embodiment, which includes heat sink body 110, and the rear side of the heat sink body 110 is (i.e. separate Installation side) in the width direction (i.e. Y direction in Fig. 3) be set side by side with multiple lateral heat dissipation fins 113, and two neighboring transverse direction Vertical air duct 114 is formed between radiating fin 113；The left and right ends of 110 bottom of heat sink body, and it is (i.e. separate close to rear side The installation side of LED headlamp) position is respectively arranged with support leg 118；And 110 upper surface 110-a of the heat sink body, and after The position of side is provided with support plate 115, and the width of the support plate 115 is less than or equal to the width of the heat sink body 110, and is somebody's turn to do Width direction in support plate 115 along heat sink body 110 is set side by side with multiple lateral heat dissipation fins 113 and (is embodied one In example, which extends downwardly at the top of self-supporting slab 115 in the height direction), and two neighboring lateral heat dissipation Vertical air duct 114 is formed between fin 113, wherein the size of the lateral heat dissipation fin 113 is greater than the vertical radiating fin 111, And the bottom of the lateral heat dissipation fin is lower than the bottom with vertical radiating fin 111 in the Z-axis direction, so that each vertical The air stream in air duct 114 can under the outer active force such as fan can with pour into lateral 112 bottom of air duct, and then spatially shape It is connected at the vertical air duct with lateral air duct；Certainly, further can also be in the two sidewalls in the transverse direction air duct, i.e., vertical heat dissipation (position for preferably, corresponding to vertical air duct in vertical radiating fin) setting through-hole on fin 111, so that two adjacent cross Also it is connected between air duct 112, further increases the air flow property between lateral air duct and vertical air duct.

Referring to fig. 4 and Fig. 5, in one embodiment, multiple vertical radiating fin 111 is equally spacedly disposed in parallel in 110 bottom of heat sink body of the radiator 11, and multiple lateral heat dissipation fins 113 are also equally spacedly disposed in parallel in the heat dissipation In the support plate 115 of 110 rear side of heat sink body of device 11.

Referring to Fig. 5, in the present embodiment, be located at the heat sink body 110 installation side (i.e. far from lateral heat dissipation fin 113 before End, be usually connected with the installation pedestal 6 of LED headlamp) first vertical radiating fin 111 bottom, along its width side To setting, there are two fan mounting holes, and 110 rear side (i.e. close to one end of lateral heat dissipation fin 113) of heat sink body is vertical The left and right sides of radiating fin 111, penultimate lateral heat dissipation fin 113 bottom, be also each provided with a fan peace Hole is filled, and the mounting hole on this two vertical radiating fins 111 of the left and right sides is pacified with two on vertical radiating fin respectively It is corresponding one by one respectively to fill hole.

In the present embodiment, for the ease of installing fan, positioned at the last one vertical radiating fin of 110 rear side of heat sink body Piece 111 and positioned at heat sink body 110 install side first vertical radiating fin 111 (be provided with the vertical of fan mounting holes Radiating fin) thickness be greater than other vertical radiating fins thickness；And it is provided with two of the left and right sides of fan mounting holes The thickness of lateral heat dissipation fin 113 is then greater than the thickness of other lateral heat dissipation fins.Certainly, which can also be according to practical need It asks, is mounted on other vertical radiating fins 111 and lateral heat dissipation fin 113.

In the present embodiment, in order to further increase heat dissipation performance, 110 upper surface 110-a of the heat sink body (i.e. top table Face) mounting circuit boards 22 region around also uniformly distributed thermal column 116, referring to fig. 4.

Embodiment three

Based on above-mentioned radiator, the utility model additionally provides a kind of LED headlamp comprising installation pedestal 6, collection Circuit board 22, heat-conducting glue and the cooling mechanism being mounted in installation pedestal 6 of Cheng Youyi LED chip, wherein in the present embodiment The cooling mechanism uses the radiator of above-described embodiment one, the work of working principle and the radiator of above-described embodiment one Principle is identical, and therefore, which is not described herein again.Specifically, in the present embodiment, which is fixed on the heat dissipation by heat-conducting glue The 110 upper surface 110a of heat sink body of mechanism is close to the front end of the installation pedestal 6, referring to Fig. 3 and Fig. 4, and other all parts Mounting means be this field general equipment arrangement, which is not described herein again.

Example IV

The utility model additionally provides a kind of optical system based on free form surface comprising a LED light source, an inner surface For the reflector and a lens of free form surface, wherein the light of LED light source transmitting is after the reflector 3 reflection and through institute It states and forms top after lens 4 transmits in rectangle, the oval light type in bottom.

Certainly, the optical system in the headlamp in the present embodiment is equally applicable to street lamp or other illuminations.

In the present embodiment, by the optical system, so that LED light source emergent ray is in objective plane formation top area Rectangle, the oval light type of bottom section realize mushroom hot spot or wad compared to existing by the way of light compensating lamp Or pie, the illumination zone of the distance light light type of pagoda shape, top area and bottom section is wider, and emergent ray distribution is equal Even, top area and bottom section are very bright, avoid in existing hot spot and intermediate bright peripheral blur occur and cause The problem of dazzling/dizziness；On the other hand, light utilization efficiency is improved, so that only needing the single LED chip using low-power National distance light design standard can be reached, and due to the unique design of optical system, so that reflector size is far smaller than existing The size for the various reflectors having, which provides having bigger heat dissipation area on radiator, meanwhile, but also lens with The distance between light source reduces, so that the whole fitted position of headlamp reduces, easily facilitates installation, is similarly installing Under the premise of space, more heat-dissipating spaces are provided.

Embodiment five

Optical system based on the above embodiment, the utility model additionally provide another preceding photograph based on LED chip Lamp is combined with specific embodiments below described in detail it with attached drawing.

It is a kind of structural upright signal of an embodiment of headlamp based on LED chip of the utility model referring to Fig. 6 Figure, specifically, the headlamp of the present embodiment includes radiator 1, light source module and reflector 3, lens 4, wherein the light Source module is the circuit board 22 for being integrated with a LED chip, which is fixed on radiator 1, and reflector 3 is covered on this 22 top of circuit board, so that the light of LED chip transmitting forms top after the reflector 3 reflection and after the transmission of lens 4 In rectangle, the oval light type pattern in bottom, referring to Fig. 7.

Referring to Fig. 8, in the present embodiment, the inner surface of the reflector is free form surface, and LED chip is in the reflector In focal position.In one embodiment, the design of the reflector inner surface can be realized by a variety of optical design softwares, Such as the light etc. of extra large drawing, by being inputted in optical design software at the top of corresponding parameter, such as institute's light type to be formed in square The length and width in shape region, (specific value can be according to country about distance light standard for the long axis and short axle in the oval region in bottom Illumination region range and brightness are chosen) free form surface can be directly obtained.

In the present embodiment, which is condenser lens, and the radiator 1 is the heat dissipation dress in above-described embodiment one It sets, specifically, circuit board 22 is mounted on the front end of the 110 upper surface 110-a of heat sink body of radiator 11.

Embodiment six

The utility model additionally provides another headlamp comprising all parts in above-described embodiment four, it is different , the headlamp in the present embodiment further includes the darkening mechanism 7 for switching dipped beam and distance light, should referring to Fig. 8 and Fig. 9 Darkening mechanism 7 is fixed on the front of radiator 1, and the darkening mechanism is not in the light of LED chip emergent ray when high beam mode In thread path, when switching to low beam mode, which is located in the opticpath of LED chip emergent ray, to block Some light forms dead line, referring to Figure 11 and Figure 12.

Referring to Fig. 9 and Figure 13, in the present embodiment, which includes mounting base 71 and darkening component, the mounting base 71 It is fixed on 110 front end of heat sink body, darkening component includes solenoid valve 72, distance-light switching barn door 73 and push rod 74, wherein should One end of the output shaft of solenoid valve 72 is provided with a return springs 75, and the other end is connect with one end of push rod 74, push rod 74 The other end is connected with distance-light switching barn door 73, and distance-light switching barn door 73 and mounting base 71 are rotatablely connected；Specifically, Referring to Figure 13 and Figure 14, it includes connected connector 731 and shading piece 732 which, which switches barn door 73, wherein connector 731 are provided with a positioning hole close to one end of shading piece 732, and connector 731 is by the shaft 77 and mounting base through location hole 70 rotation connections.

In the present embodiment, when solenoid valve 72 is powered, the output shaft of solenoid valve 72 compresses to the right return springs 75, together When, output shaft is by the promotion to the right of push rod 74, then push rod 74 pushes distance-light switching barn door 73 relative to 70 inverse time of mounting base Needle rotation, so that the shading piece 732 of distance-light switching barn door 73 deviates in the opticpath of LED chip emergent ray, thus High-beam condition is switched to, referring to Fig. 9；When solenoid valve 72 powers off, under the action of return springs 75, the output of solenoid valve 72 It axially moves left, and push rod 74 is driven to be moved to the left, then push rod 74 drives distance-light switching barn door 73 relative to mounting base 70 It rotates clockwise, so that the shading piece 732 of distance-light switching barn door 73 is located in the opticpath of LED chip emergent ray, With shield portions light, so that dipped beam state is switched to, referring to Figure 10 and Figure 12.

Further, referring to Figure 12 and 14, to prevent dazzle, the distance-light of the darkening mechanism in the present embodiment, which switches, to be hidden A miniature boss 732b is provided on boss 732a on tabula rasa 73.

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 radiator of LED headlamp, which is characterized in that including radiator (11) and fan (12), wherein described The bottom of radiator (11) and rear side are respectively arranged with lateral air duct (112) and vertical air duct (114), and the fan (12) is located at The lower section of the transverse direction air duct (112), or it is located at the lower section of lateral air duct (112) and the vertical air duct (114).

2. radiator as described in claim 1, which is characterized in that the radiator (11) includes heat sink body (110), institute It states heat sink body (110) bottom and is set side by side with multiple vertical radiating fins (111) along its length, and is two neighboring vertical scattered Lateral air duct (112) is formed between hot fin；And/or the rear side of the heat sink body (110) is along the heat sink body (110) Width direction be set side by side with multiple lateral heat dissipation fins (113), and formed between two neighboring lateral heat dissipation fin (113) Vertical air duct (114).

3. radiator as claimed in claim 2, which is characterized in that the lateral heat dissipation fin (113) is set in qually spaced in The rear side of the heat sink body (110)；And/or the vertical radiating fin (111) is set in qually spaced in the heat sink body (110) bottom.

4. radiator as claimed in claim 3, which is characterized in that lateral heat dissipation fin (113) bottom and described perpendicular The position for corresponding to the fan (12) to radiating fin (111) bottom is recessed upwards, so that the transverse direction air duct (112) and institute It states vertical air duct (114) to be connected, and forms the accommodation space for accommodating the fan (12)；Alternatively, the vertical heat dissipation The position that fin (111) bottom corresponds to the fan is recessed upwards to form the accommodation space for accommodating the fan.

5. the radiator as described in any one of claim 2 to 4, which is characterized in that the heat sink body (110) it is upper The front end surface (110a) is provided with the circuit board (22) for being integrated with single LED chip, and the two sides of the circuit board (22) and Heat dissipation column (116) is evenly arranged between rear side and the lateral heat dissipation fin (113).

6. a kind of radiator of LED headlamp, which is characterized in that the bottom of the radiator (11) and rear side are respectively arranged with Lateral air duct (112) and vertical air duct (114), and the lateral air duct (112) is connected with the vertical air duct (114).

7. a kind of LED headlamp, which is characterized in that including the radiator as described in any one of claim 1 to 5.

8. a kind of optical system based on free form surface, which is characterized in that including a LED light source, an inner surface is free form surface Reflector and a lens, wherein the light of LED light source transmitting is matched after the reflector (3) reflection and described in passing through It is in rectangle, the oval light type in bottom that top is formed after light microscopic (4) transmission.

9. a kind of headlamp based on LED chip, including as described in any one of claim 1 to 5 radiator (1), Light source module and reflector (3), lens (4), which is characterized in that the light source module is the circuit for being integrated with a LED chip The inner surface of plate (22), the reflector (3) is free form surface, and the circuit board (22) is fixed on the radiator (1) Front end, the reflector (3) are covered on above the circuit board (22), and the normal orientation of the light source module light-emitting surface and anti- The reference for installation plane of emitter (3) is in 90 °, so that the light of LED chip transmitting is reflected through the reflector (3) and through institute Top is formed in rectangle, the oval light type pattern in bottom after stating lens (4) transmission.

10. headlamp as claimed in claim 9 further includes the darkening mechanism (7) for switching dipped beam and distance light, feature exists In the darkening mechanism (7) is fixed on the front of the radiator (1), and when being in low beam mode, the darkening mechanism (7) in the opticpath of the LED chip emergent ray, dead line is formed with shield portions light.