CN217763279U - Matrix type high beam, headlamp and automobile - Google Patents

Abstract

The utility model relates to a matrix far-reaching headlamp and head-light, car, including far-reaching headlamp reflector, far-reaching headlamp reflector is equipped with reflection of light cambered surface, the far-reaching headlamp light source board of being connected with far-reaching headlamp reflector, and set up the far-reaching headlamp lamp pearl on far-reaching headlamp light source board, far-reaching headlamp lamp pearl sets up reflection of light cambered surface one side at far-reaching headlamp reflector, the light that far-reaching headlamp lamp pearl sent reflects through the reflection of light cambered surface of far-reaching headlamp reflector, still include an at least set of far-reaching headlamp reflector, each group's far-reaching headlamp reflector all corresponds and sets up far-reaching headlamp light source board, all be equipped with far-reaching headlamp lamp pearl on the far-reaching headlamp light source board, form the single high beam of multiunit. The high beam light barrier is arranged on two sides of the high beam light, and the high beam light supports are used for fixing multiple groups of high beam light, and the high beam light barrier separates multiple groups of single high beam light to avoid light crosstalk. Through the difference of multiunit far-reaching headlamp reflector plane of reflection and orientation angle, every group reflector sets up different lamp pearl, realizes the illumination in different regions.

Description

Matrix type high beam, headlamp and automobile

Technical Field

The utility model relates to a light illumination field especially relates to matrix far-reaching headlamp and head-light, car.

Background

The main light sources of the car lamps at present are halogen, HID and LED light sources, the halogen headlamp and the xenon headlamp have the advantage of low cost, and the LED headlamp depends on excellent lighting effect, so that the light sources in the forms are generally used for lighting the car headlamp. Compared with the prior art, the LED headlamp has the advantages of longer service life, longer and wider illumination distance and better visual effect, but most of the LED headlamps can only meet basic illumination and are single in use function.

Chinese patent No. CN213513726U discloses a vehicle lamp device, which is suitable for projecting light forward along a projection direction, and comprises at least one reflection unit, where the at least one reflection unit includes a light emitting module capable of providing light, and a reflection member capable of reflecting the light provided by the light emitting module along the projection direction, and is characterized in that: the reflecting piece comprises a first reflecting surface group and a second reflecting surface group, wherein the first reflecting surface group can reflect to form a plurality of first light shapes, the second reflecting surface group can reflect to form a plurality of second light shapes, the first reflecting surface group and the second reflecting surface group are arranged up and down, and the first light shapes and the second light shapes are matched to form light-shaped units. The light shape unit is formed by innovatively adopting a design different from the existing design trend that reflecting surfaces are arranged in the left and right directions and utilizing the first reflecting surface group and the second reflecting surface group which are arranged up and down to generate the first light shape and the second light shape, so that more different choices of consumers can be provided, and the benign competitive development of the automobile lamp industry is promoted. The light type unit that it constitutes all the same can not realize different illumination area's light filling effect, and multiunit light type unit adopts the horizontal direction setting moreover, has increased car light device's volume.

Disclosure of Invention

The utility model discloses the technical problem that solve lies in that traditional car light can only be opened or extinguish together, can not carry out the light filling to specific area to cause the waste of light. In order to overcome the defects in the prior art, the matrix type high beam, the headlamp and the automobile are provided.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

construct a matrix far-reaching headlamp, including far-reaching headlamp reflector, far-reaching headlamp reflector is equipped with reflection of light cambered surface, is used for reflection of light, with the far-reaching headlamp light source board that far-reaching headlamp reflector connects to and set up the far-reaching headlamp lamp pearl on the far-reaching headlamp light source board, far-reaching headlamp lamp pearl sets up in reflection of light cambered surface one side of far-reaching headlamp reflector, and the light that far-reaching headlamp lamp pearl sent reflects through the reflection of light cambered surface of far-reaching headlamp reflector, thereby realize the illumination, and this matrix far-reaching headlamp includes at least a set of far-reaching headlamp reflector, and each far-reaching headlamp reflector of group all corresponds and sets up the far-reaching headlamp light source board, all be equipped with far-reaching headlamp pearl on the far-reaching headlamp light source board, forms multiunit single far-reaching headlamp, and this matrix far-reaching headlamp still is including setting up the far-reaching headlamp barn door in the far-reaching headlamp both sides to and the far-reaching headlamp support of fixed multiunit far-reaching headlamp, and the far-reaching headlamp barn door separates the multiunit single far-reaching headlamp and avoid appearing the light cluster, thereby realize the illumination facula of multizone.

Preferably, the bending degree and/or the orientation angle of the reflecting arc surface of the high beam light reflecting bowl are not completely the same, so that the irradiation light spots at different angles are realized.

Preferably, the areas of the high beam light reflecting bowls are not completely the same, so that different shapes of irradiation spots are realized.

Preferably, the high beam reflector is formed by splicing a plurality of reflecting units.

Preferably, the reflecting unit is a paraboloid, and the parabolic equations of the plurality of paraboloids are not identical.

Preferably, be equipped with 1 at least high beam lamp pearl on the high beam light source board.

The utility model provides a headlamp, contains the lamp body, sets up the lamp decoration in the lamp body, still is equipped with daytime running steering lamp module in the middle of lamp body and the lamp decoration, and the lamp decoration is equipped with the passing light module, and the lamp body top still is equipped with the lamp shade, and the bottom is equipped with waterproof ventilation valve, still be equipped with the matrix far-reaching headlamp in the lamp decoration.

Preferably, the daytime running steering lamp module comprises a daytime running steering lamp plate and a daytime running steering lamp lens arranged above the daytime running steering lamp plate, light emitted by the daytime running steering lamp plate is transmitted through the daytime running steering lamp module, daytime running steering lamp beads and steering lamp beads are distributed on the daytime running steering lamp plate in a staggered mode, and the daytime running steering lamp beads and the steering lamp beads cannot illuminate simultaneously.

Preferably, the passing lamp module includes the passing lamp reflector, and the passing lamp reflector is whole to be "U" shape, and the passing lamp reflector both sides are along outstanding to and set up at the passing lamp pearl of passing lamp reflector plane of reflection, the light that passing lamp pearl shines forms the facula of light and shade cut-off light after the passing lamp reflector reflects.

An automobile comprising a left lamp and a right lamp composed of the head lamp, the automobile further comprising:

the light acquisition module is used for acquiring the light condition of the road surface;

the lighting control module is used for receiving signals sent by the MCU control module to control the lighting of the left car lamp and the right car lamp;

and the MCU control module is used for receiving the information of the light acquisition module, calculating and processing the information and transmitting the calculated information to the light control module for carrying out a control command.

The beneficial effects of the utility model reside in that: through the difference of multiunit far-reaching headlamp reflector plane of reflection and orientation angle, every group reflector sets up the lamp pearl of different quantity, realizes the illumination in different regions. The use of lamp pearl has been optimized, avoids opening unnecessary light in the place that light is brighter. The road surface brightness condition is collected by the collecting system and then fed back to the control system, accurate light control is carried out, and automatic control of light is achieved. The lamp body is integrated with various lamps, so that the size of the lamp body is reduced, and the lighting effect of light is not influenced. The high beam is controlled by 16 lamp beads, namely, the front irradiation area is divided into 16 irradiation areas, each single area can be independently controlled to be opened and closed by a control system, and brightness adjustment can also be carried out. Therefore, the switch of each high beam lamp pearl of accurate control is equivalent to each illumination area of accurate control, can throw light on the specific area according to the signal that the system provided, also can close the specific area equally, and when meeting, normally be responsible for the place ahead light beam and not influenced, can close meeting directive side driver's light beam, can not cause the other side to dazzle and take place the traffic accident.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described below with reference to the accompanying drawings and embodiments, wherein the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work according to the drawings:

fig. 1 is an overall schematic view of a head lamp according to a preferred embodiment of the present invention;

FIG. 2 is an exploded view of a portion of the structure of the head lamp according to the preferred embodiment of the present invention;

FIG. 3 is an exploded view of the head lamp according to the preferred embodiment of the present invention;

fig. 4 is a schematic view of a high beam module according to a preferred embodiment of the present invention;

FIG. 5 is an isometric view of a preferred embodiment of the present invention lamp trim;

FIG. 6 is an isometric view of a low beam of a preferred embodiment of the present invention;

fig. 7 is an axial perspective view of the lamp panel of the daytime running steering lamp according to the preferred embodiment of the present invention;

fig. 8 is a circuit structure diagram of the vehicle control system according to the preferred embodiment of the present invention;

fig. 9 is a bird's-eye view and an effect view on a screen of the preferred embodiment of the present invention when the first high beam lamp bead is turned on;

fig. 10 is a bird's-eye view and an effect image on a screen of the second high beam lamp when the second high beam lamp is turned on according to the preferred embodiment of the present invention;

fig. 11 is a bird's-eye view and an effect image on a screen of the preferred embodiment of the present invention when the third high beam lamp is turned on;

fig. 12 is a bird's-eye view and an effect image on a screen of the preferred embodiment of the present invention when the fourth high beam lamp bead is turned on;

fig. 13 is a bird's-eye view and an effect view on a screen of the fifth high beam lamp bead according to the preferred embodiment of the present invention;

fig. 14 is a bird's-eye view and an effect view on a screen of the sixth high beam lamp bead according to the preferred embodiment of the present invention;

fig. 15 is a bird's-eye view and an effect view on a screen of the seventh high beam lamp bead according to the preferred embodiment of the present invention;

fig. 16 is a bird's-eye view and an effect view on a screen of the eighth high beam lamp bead according to the preferred embodiment of the present invention;

fig. 17 is an effect diagram of looking forward from the driving position when the left lamp is turned on according to the preferred embodiment of the present invention;

fig. 18 is an effect diagram of looking forward from the driving position when the right lamp is turned on according to the preferred embodiment of the present invention;

fig. 19 is an effect diagram of looking forward from the driving position when the left lamp and the right lamp are turned on simultaneously according to the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the following description will be made clearly and completely in conjunction with the technical solutions in the embodiments of the present invention, and obviously, the described embodiments are part of the embodiments of the present invention, rather than all the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

The utility model discloses a head lamp of the preferred embodiment; as shown in fig. 1-3, the headlamp comprises a lamp body 1, an opening above the lamp body 1, and a lampshade 2 arranged above the lamp body 1, wherein a headlamp radiator 16 is arranged at the bottom of the lamp body 1, so as to form the appearance of the whole headlamp, the headlamp radiator 16 is used for radiating heat for the headlamp, and the lampshade 2 is light-permeable, so that an illumination module in the lamp body 1 illuminates through the lampshade 2. The lamp body 1 and the lampshade 2 are solidified after being connected through waterproof glue, so that the components inside the lamp body 1 are well protected in a sealing mode, water vapor and dust impurities can be placed into the lamp body, and the service life of the headlamp is prolonged. The power can be placed and heat conduction is glued in 1 inside of lamp body to for the head-light power supply, use the back shroud to carry out the heat dispersion with fixed power, pour into heat conduction and glue, improve the life of power.

Further, as shown in fig. 2, fig. 3 and fig. 5, be equipped with lamp decoration 10 in the lamp body 1, thereby carry out regional division to lamp body 1 inside, it holds chamber 102 to be equipped with the far-reaching headlamp on the lamp decoration 10, the passing lamp that holds chamber 102 parallel arrangement with the far-reaching headlamp holds chamber 103, and form the daytime running steering lamp between by lamp decoration 10 and the lamp body 1 and hold platform 17, every holds the intracavity and sets up corresponding light module, thereby cut apart every light module, avoid the light between each light module to shine on other reflector bowls or lens and produce miscellaneous light or cluster. Specifically, the high beam module 12 is disposed in the high beam housing cavity 102, the high beam module 12 includes a high beam 120, and a high beam lamp panel 121 for controlling the high beam 120 to operate; a low beam lamp module 13 is arranged in the low beam lamp accommodating cavity 103, the low beam lamp module 13 comprises a low beam lamp 130 and a low beam lamp panel 131 for controlling the low beam lamp 130 to work; the daytime running steering lamp module 14 is placed in the daytime running steering lamp accommodating table 17, and the daytime running steering lamp module 14 comprises a daytime running steering lamp plate 140 and a daytime running steering lamp lens 141 which enables the daytime running steering lamp plate 140 to be transparent. After the high beam 12 and the dipped headlight 13 are placed on the lamp decoration 10, the whole body is arranged on the light module radiator 11, and the limiting column 19 arranged in the lamp body 1 is correspondingly connected with the heat dissipation hole 111 on the light module radiator 11, so as to ensure that light is on the optical axis, facilitate the installation, and be favorable for improving the stability of the light module. Still be equipped with outlet 110 on the light module radiator 11, pass through outlet 110 with the cable of each light module and be connected with the power, also can conveniently tie up the cable is fixed together, is favorable to avoiding the wearing and tearing of cable and the maintenance of trouble in later stage. A protective wire loop is also provided at the outlet 110 to prevent wear of the cable. The lamp decoration 10 is made of aluminum plating material to form a bright paint layer, so that the brightness of the headlamp is improved, and the headlamp is more attractive. The through hole 18 is left to lamp body 1 bottom, passes through the through hole 18 and sets up waterproof ventilation valve 15 to ventilate 1 inside of lamp body, thereby avoid the higher back atmospheric pressure of heat in the lamp body 1 to rise and make the potential safety hazard appear in the head-light, fix waterproof ventilation valve 15 through waterproof ventilation valve gap 150.

Further, as shown in fig. 6 and 7, the dipped headlight 130 includes a dipped headlight reflector 1301, the dipped headlight reflector 1301 is provided with a reflecting surface, a dipped headlight light source plate 1302 connected with the dipped headlight reflector 1301, a dipped headlight lamp bead 1303 arranged on the dipped headlight light source plate 1301, the dipped headlight lamp bead 1303 arranged on one side of the reflecting surface, so that the irradiated light is reflected by the reflecting surface, and the working state of the dipped headlight 130 is realized. The daytime running light beads 1401 and the turning light beads 1402 which are distributed in a staggered manner with the daytime running light beads 1401 are arranged on the daytime running turning light panel 140, and when the daytime running light beads 1401 are illuminated, the turning light beads 1402 are turned off; conversely, when the turn signal lamp bead 1402 is illuminated, the daytime running lamp bead 1401 is extinguished. The daytime running steering lamp lens 141 is correspondingly connected with the limiting column of the daytime running steering lamp lens 141 through the limiting hole, so that the stability of the daytime running steering lamp lens 141 is ensured. Dipped headlight reflector 1301 sets up great, wholly is "U" shape, and dipped headlight reflector 1301 both sides are comparatively outstanding to form the facula that has light and shade cut-off light, realize driver's near field of vision illumination. The dipped headlight 130 is composed of 4 LED lamp beads, the luminous flux of the dipped headlight is 1200lm, a single MF reflecting bowl is used, the reflecting rate of 85 percent is achieved, the total power is 16W, and the maximum light intensity of the dipped headlight reaches 29000cd. 10 daytime running light beads 1401 are arranged, the luminous flux is 300lm, and the total power reaches 3W; the turn signal lamp beads 1402 are 10, the luminous flux of which is 120lm and emits yellow light.

Further, as shown in fig. 4, the high beam 120 includes a high beam reflector 1203 for reflecting light, the concave surface of the high beam reflector 1203 is a reflective arc surface, a high beam light source board 1205 corresponding to the high beam reflector 1203 is disposed, and a high beam bead 1204 disposed on the high beam light source board 1205. High beam reflector 1203 sets up on light module radiator 11, and high beam lamp pearl 1204 sets up reflection of light cambered surface one side at high beam reflector 1203 to realize the illumination work of high beam. High beam light source board 1205 is fixed through the limit point, and vertical direction high beam reflector 1203 is fixed through four points all around, makes high beam light source board 1205 tight to guarantee that high beam lamp pearl 1204 is in focus department, realize better illumination effect, the light that sends more can be close the design value.

Further, as shown in fig. 4, high beam 120 comprises multiunit high beam reflector 1203, high beam light source board 1205 and high beam lamp pearl 1204 and the setting of high beam reflector 1203 one-to-one, thereby form the matrix high beam that comprises multiunit high beam 120, the matrix high beam adopts high beam support 1201 to fix, and separate multiunit high beam 120 adoption high beam baffle 1201, the both sides of each group high beam 120 set up the high beam baffle 1201 and avoid the cluster light appearing, thereby produce the miscellaneous light in every high beam reflector 1203, also can play pleasing to the eye effect simultaneously.

Further, as shown in fig. 4, in the present case, 5 groups of high beam lamps 120 are arranged to form a matrix type high beam lamp, the area of the high beam reflector 1203 of each group of high beam lamps 120, the inclination degree of the reflective arc surface and the orientation angle of the high beam reflector 1203 are different, and in addition, the positions of each group of high beam reflectors 1203 are different, so that each group of high beam lamps 120 can realize different illumination functions and illumination areas. Specifically, the first high beam reflector 1203a has an orientation angle of 0 °, and is set to have a larger area so as to reflect more light during optical reflection, and the center point thereof is brightest and corresponds to a main spot, in order to realize a larger spot. The orientation angle of the second high beam light reflecting bowl 1203b is 10 degrees, the formed light spots are rectangular light spots, and other light spots can be covered to form a uniform and longer light spot. The third high beam reflector orientation angle is 0.5, the fourth high beam reflector orientation angle is 3.5, the fifth high beam reflector orientation angle is 4.2, thereby realize the difference of the different high beam 120 during operation illumination area, it should explain, high beam reflector 1203 in the present case is only reference value towards the angle, as the numerical value listed when describing different orientation angles, set up high beam reflector 1203 into the orientation of other angles, and then illuminate different regions and also should belong to the protection scope of this scheme. When the high beam 120 works, the light irradiated by the high beam 120 can illuminate a place except 25 meters, and in a limited space inside the headlamp, the vertical positions of the high beam 120 are different and the irradiated light is not greatly changed in the vertical positions, so that the angles of the reflected light in the vertical direction are consistent, and the horizontal positions of the reflected light can be adjusted by adjusting the difference of the design of the reflecting arc surface of the high beam reflecting bowl 1203. However, only the change of the arc surface of the high beam reflector 1203 to the horizontal position of the reflected light is not great, so that the great angle difference of the horizontal position of the reflected light can be realized by the difference of the orientation angle of the high beam reflector 1203. In this technical scheme, set up fifth reflector 1203e in the below, also because of above-mentioned reason, simultaneously, adopt this kind of design, also can reduce the volume of head-light, make it more pleasing to the eye. The orientation angle of the high beam reflector 1203 may be interpreted as an included angle between a plane formed by the edges of the high beam reflector 1203 and a horizontal plane or a vertical plane or an included angle related thereto, so as to change the reflection angle of the reflected light.

Further, as shown in fig. 4, the first high beam reflector 1203a is provided with a first high beam bead 1204a, and the second high beam reflector 1203b is provided with a second high beam bead 1204b, so as to realize illumination in a single area; third high beam reflector 1203c sets up third high beam lamp pearl 1204c and fourth high beam lamp pearl 1204d, fourth high beam reflector 1203d sets up fifth high beam lamp pearl 1204e and sixth high beam lamp pearl 1204f, fifth high beam reflector 1203e sets up seventh high beam lamp pearl 1204h and eighth high beam lamp pearl 1204i thereby realize the illumination in two blocks of regions, realize dividing into 1+2+ 8 regional illumination with the head-light, reflect on the wall or form the matrix illumination region that 8 faculas are constituteed on the bottom surface. The number of high beam lamp beads 1204 can be adjusted according to actual needs, but the high beam lamp beads are set by adopting the principle. It can be known through experiments that the orientation angle of the high beam light reflecting bowl 1203, the angles of the illumination spots formed after the high beam light beads 1204 are independently turned on in the horizontal direction (H direction) and the vertical direction (V direction) and the spot effects are as follows:

further, as shown in fig. 4, the high beam light reflecting bowl 1203 is formed by splicing a plurality of light reflecting units 1206, and the arc surface of each light reflecting unit 1206 is in a parabolic form, which satisfies the difference of the curvature of the parabola passing through the light reflecting units 1206, so that the light reflecting arc surface of the high beam light reflecting bowl 1203 is different, and the illumination light spots in the different areas are realized. As a preferred example, the high-beam light source 1204 is located at the focus of the high-beam reflector 1203, so that the irradiation effect is optimal. Through the technical scheme, the high beam lamp beads 1204 adopt 8 LED lamp beads in total, the luminous flux of the high beam lamp beads is 3200lm, the number of the reflecting bowls is 5, the reflectivity of the reflecting bowls reaches 85%, the light spots are combined in 8 pieces of travel, the total power of the high beam lamp 120 is 16W, and the long irradiation distance is realized. It should be noted that the above parameters for the high beam 120, the low beam 130, the daytime running light bead 1401 and the turn light bead 1402 are only for reference, and the present invention shall fall within the protection scope without creative changes to the technical parameters.

As shown in fig. 8 and fig. 17 to 19, an automobile includes 2 headlights as described above, and is disposed at the positions of the left light 321 and the right light 322, respectively, such that the left light 321 contributes to left illumination and the right light 322 contributes to right illumination. Thereby realizing an illumination spot of 2 × 8=16 block areas for the high beam 120. The automobile also comprises a light collecting module 31 for collecting the light condition of the road surface and a lamp control module 32 for controlling the working state of the lamp beads. The vehicle lamp control system further comprises an MCU control module 30 connected with the lamp light acquisition module 31, and the signal of the vehicle lamp control module 32 is transmitted. Light collection module 31 can select to receive the road surface light condition for the camera in real time, then pass to MCU control module 30, the illumination intensity on road surface is gathered to light collection module 31, carry out the image analysis in the aspect of the software through MCU control module 30, to which area of its of received image analysis needs reinforcing illumination, then control light control module 32 correspondence carries out regional bright work, thereby realize the intelligent control car light, need not to operate the car light at whole driving process, can realize the optimal car light lighting environment, the security of driving has been improved. The headlamp can be applied to other places needing illumination, and an intelligent illumination system can be realized. The LED light control module is used for controlling the light of the electric vehicle and other vehicles needing illumination.

It is understood that the present invention has been described with reference to certain embodiments, and those skilled in the art will understand that various changes or equivalent substitutions can be made on the features and embodiments without departing from the spirit and scope of the present invention, and the connection relationship between the components of the present invention is mostly fixed by screws and filled with heat-conducting glue for heat dissipation, and can be replaced with other common connection methods and heat dissipation methods. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of the present application are intended to be covered by the present invention.

Claims (10)

1. Matrix high beam, including high beam reflector (1203, 1203a-1203 e), high beam reflector (1203, 1203a-1203 e) is equipped with the reflection of light cambered surface, is used for light reflection, with high beam light source board (1205) that high beam reflector (1203, 1203a-1203 e) is connected, and set up high beam lamp pearl (1204, 1204a-1204 i) on high beam light source board (1205), high beam lamp pearl (1204, 1204a-1204 i) set up reflection of light cambered surface one side at high beam reflector (1203, 1203a-1203 e), light that high beam lamp pearl (1204, 1204a-1204 i) sent reflects through the reflection of light cambered surface of high beam reflector (1203, 1203a-1203 e), thereby realize the illumination, its characterized in that: this matrix high beam lamp includes at least a set of high beam reflector (1203 a-1203 e), and every group high beam reflector (1203 a-1203 e) all corresponds and sets up high beam light source board (1205), all be equipped with high beam lamp pearl (1204 a-1204 i) on high beam light source board (1205), form the single high beam of multiunit, this matrix high beam lamp is still including setting up high beam barn door (1202) in the high beam both sides to and the high beam support (1201) of fixed multiunit high beam lamp, high beam barn door (1202) are separated the single high beam of multiunit and are avoided appearing the cluster light, thereby realize the illumination facula of multizone.

2. The matrix-type high beam lamp of claim 1, wherein: the bending degree and/or the orientation angle of the reflecting cambered surfaces of the high beam reflecting bowls (1203 a-1203 e) are not completely the same, so that the irradiation spots at different angles are realized.

3. The matrix-type high beam lamp of claim 1, wherein: the areas of the high beam light reflecting bowls (1203 a-1203 e) are not completely the same, so that different shapes of irradiation spots are realized.

4. A matrix-type high beam lamp according to any one of claims 1 to 3, further comprising: the high beam light reflecting bowls (1203 a-1203 e) are formed by splicing a plurality of light reflecting units (1206).

5. The matrix-type high beam lamp according to claim 4, wherein: the reflecting unit (1206) is a paraboloid, and the parabolic equations of the plurality of paraboloids are not identical.

6. A matrix-type high beam lamp according to any one of claims 1 to 3 and 5, further comprising: and at least 1 high-beam lamp bead (1204 a-1204 i) is arranged on the high-beam light source plate (1205).

7. The utility model provides a headlamp, contains lamp body (1), sets up lamp decoration (10) in lamp body (1), still is equipped with day in the middle of lamp body (1) and lamp decoration (10) and goes to turn to lamp module (14), and lamp decoration (10) in-connection has dipped headlight module (13), and lamp body (1) top is connected with lamp shade (2), and the bottom is equipped with waterproof ventilative valve (15), its characterized in that: a matrix high beam according to any one of claims 1 to 6 further connected within said trim piece (10).

8. The headlamp of claim 7, wherein: the daytime running steering lamp module (14) comprises a daytime running steering lamp panel (140) and a daytime running steering lamp lens (141) arranged above the daytime running steering lamp panel (140) to enable light emitted by the daytime running steering lamp panel (140) to penetrate through, the daytime running lamp bead (1401) and the turn lamp bead (1402) are distributed on the daytime running turn lamp panel (140) in an interlaced mode, and the daytime running lamp bead (1401) and the turn lamp bead (1402) cannot illuminate at the same time.

9. The headlamp of claim 7, wherein: the dipped headlight module (13) comprises a dipped headlight reflector (1301), the whole dipped headlight reflector (1301) is in a U shape, two sides of the dipped headlight reflector (1301) are protruded, and dipped headlight lamp beads (1303) arranged on the reflecting surface of the dipped headlight reflector (1301) are arranged, and light irradiated by the dipped headlight lamp beads (1303) is reflected by the dipped headlight reflector (1301) to form light and shade light spots of cut-off light.

10. A vehicle comprising a left lamp (321) and a right lamp (322) comprising the headlamp according to any one of claims 7 to 9, the vehicle further comprising:

the light acquisition module (31) is used for acquiring the light condition of the road surface;

the light control module (32) is used for receiving the signal sent by the MCU control module (30) to control the light of the left vehicle lamp (321) and the right vehicle lamp (322);

and the MCU control module (30) receives the information of the light acquisition module (31) for calculation processing, and transmits the calculated information to the light control module (32) for control command.

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