CN213955217U - Anti-dazzle dizzy car light - Google Patents

Abstract

The application relates to an anti-dazzle dizzy car light, including lamp stand, short-distance beam light source and distance light source, be provided with first lens and second lens on the lamp stand, short-distance beam light source passes through first lens refraction and forms short-distance beam light, distance light source passes through second lens refraction and forms distance light, still includes the scattered light source, be provided with the printing opacity piece on the lamp stand, the scattered light source sees through the printing opacity piece and forms scattered light. The printing opacity piece is made by translucent material, when the diffuse light source shines on the printing opacity piece, the diffusion light source reflection in all directions can be faced to the printing opacity piece surface, when the passing light source and diffusion light source are opened simultaneously to the car light, the diffusion light source can compensate the shortcoming that passing light and distance light can only be directly projected, disperse the light to the surrounding of car light and open, when the passerby moves towards the direction of vehicle, can be unlikely to feel very dazzling, also can see the condition on near ground simultaneously, reduce the probability of being stumbled by the barrier, increase passerby's walking security.

Description

Anti-dazzle dizzy car light

Technical Field

The application relates to the field of car lamps, in particular to an anti-dazzle car lamp.

Background

The vehicle lamp is a lamp on the vehicle, is a tool for illuminating the road when the vehicle runs at night, and is also a prompting tool for sending various vehicle running signals.

The invention patent with the publication number of CN109027945A discloses a high beam and low beam integrated vehicle lamp, which comprises a low beam light source, a low beam light reflecting cup, a high beam light source, a high beam light reflecting mirror and a lens, wherein the low beam light reflecting cup is used for reflecting light from the low beam light source and enabling the reflected light to be refracted from the lens to form low beam light, the high beam light reflecting mirror is positioned at one end, close to the lens, of the low beam light reflecting cup, the high beam light reflecting mirror is obliquely arranged above the high beam light source and is used for reflecting the light emitted by the high beam light source and enabling the reflected light to be refracted into high beam light through the lens, and the high beam light source and the low beam light source can be independently controlled in brightness.

The above-mentioned related technical solutions have the following drawbacks: the light that the passing light source is after lens reflection can penetrate ground directly, and the light that the distance light source is after lens reflection can penetrate far away to the direction of being parallel with ground directly, and when passerby was walked towards the direction of vehicle, passerby can be shaken eyes by the light that passing light source or distance light source were penetrated directly, and passerby probably stumbles because of not seeing the barrier on the road in the in-process of walking, increases passerby's danger of walking.

SUMMERY OF THE UTILITY MODEL

In order to increase the walking safety of passers-by, the application provides an anti-dazzle automobile lamp.

The application provides an anti-dazzle dizzy car light adopts following technical scheme:

the utility model provides an anti-dazzle dizzy car light, includes lamp stand, short-distance beam light source and distance light source, be provided with first lens and second lens on the lamp stand, short-distance beam light source passes through first lens refraction and forms short-distance beam light, distance light source passes through second lens refraction and forms distance light, still includes scattered light source, be provided with the printing opacity piece on the lamp stand, scattered light source sees through the printing opacity piece and forms scattered light.

Through adopting above-mentioned technical scheme, the printing opacity piece is made by translucent material, when the diffuse light source shines on the printing opacity piece, the surface of printing opacity piece can be the diffuse reflection of diffuse light source orientation all sides, thereby form diffuse reflection, when the car light opens passing light source and diffuse light source simultaneously, diffuse light source can compensate the shortcoming that passing light and distance light can only penetrate directly, disperse light to the surrounding of car light and open, when the passerby moves towards the direction of vehicle, can be unlikely to feel very dazzling, also can see the condition on near ground simultaneously, reduce the probability of stumbling by the barrier, increase passerby's walking security.

Preferably, the lamp holder is provided with a hollow groove, the dipped beam light source is a first LED lamp, the first lens is arranged on the bottom wall of the hollow groove, the side face of one side of the first lens, facing the bottom wall of the hollow groove, is provided with an arc groove, the first LED lamp is arranged on the bottom wall of the hollow groove, and the first LED lamp is positioned in the arc groove.

Through adopting above-mentioned technical scheme, when first LED lamp was lighted, the light of first LED lamp can go out through the angle reflection that arc groove and first lens itself designed, makes the light of first LED lamp reflected subaerially.

Preferably, the high beam light source is a second LED lamp, a gap is formed between one side surface of the second lens facing the bottom wall of the empty groove and the bottom wall of the empty groove, the second LED lamp is arranged on the bottom wall of the empty groove, and the second LED lamp is located in the gap.

Through adopting above-mentioned technical scheme, when the second LED lamp was lighted, the light of second LED lamp can go out through the angle reflection that second lens itself designed, makes the light of second LED lamp be on a parallel with ground and jets out.

Preferably, the first lens has two, and two first lenses are located the both sides of second lens respectively, first LED lamp has two, and two first LED lamps setting are on the dead slot diapire, and two first LED lamps are located two arc inslots respectively, first lens and second lens are located same straight line, the printing opacity piece sets up on the lamp stand, the printing opacity piece sets up towards two first lenses and second lens.

Through adopting above-mentioned technical scheme, no matter the car light is to emit short-distance beam light or distance beam light, and the angle of illumination of short-distance beam light and distance beam light all keeps in same scope, more is favorable to driver's night to be gone.

Preferably, the diffuse light source includes a plurality of third LED lamps, the printing opacity piece sets up on the dead slot lateral wall along dead slot circumference lateral wall, the inclined plane has been seted up on the printing opacity piece, the inclined plane sets up towards first lens and second lens, and a plurality of third LED set gradually on the dead slot diapire along the length direction of printing opacity piece, and a plurality of third LED lamps are just setting up to the printing opacity piece.

Through adopting above-mentioned technical scheme, the printing opacity piece can be more than the light of a plurality of third LED lamps towards the reflection of all sides, simultaneously because the printing opacity piece sets up towards first lens and second lens, and scattered light can be received to first lens and second lens and go out the scattered light reflection to further increase the luminance around the car light.

Preferably, still include the protective housing, printing opacity piece, first lens and second lens all are located the dead slot, the protective housing is installed on the lamp stand, the protective housing is with dead slot and external isolated.

Through adopting above-mentioned technical scheme, at the vehicle in-process of traveling, have wind and act on the car light, wind may drive some subaerial foreign object striking simultaneously on the car light, and the protective housing can block the foreign object striking on printing opacity piece, first lens and second lens, has played the guard action to printing opacity piece, first lens and second lens.

Preferably, a heat dissipation strip is arranged on the side face, away from the first lens, of the lamp holder.

Through adopting above-mentioned technical scheme, when passing light source, distance light source and scattered light source were luminous, light energy can have partly to change into heat energy, and when the emission time is longer, more and more that heat energy can be gathered, the too much working condition that can influence the circuit of heat of gathering, uses the heat conduction that the heat dissipation strip will produce in the air, can reduce the unusual probability of circuit appearance.

Preferably, a mounting frame is arranged on the side face, away from the first lens, of the lamp holder, an inserting hole matched with the external support is formed in the mounting frame, a first bolt is connected to the mounting frame, and one end of the first bolt penetrates through the inserting hole and is in threaded connection with the mounting frame.

Through adopting above-mentioned technical scheme, use first bolt to install the mounting bracket on the vehicle to the position of fixed lamp stand and vehicle.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the scattering light source and the light-transmitting sheet, when the scattering light source irradiates the light-transmitting sheet, the surface of the light-transmitting sheet can reflect the scattering light source towards all directions, so that when a passerby comes towards the direction of a vehicle, the passerby cannot feel dazzling, meanwhile, the situation of the nearby ground can be seen clearly, and the walking safety of the passerby is improved;

2. by arranging the protective shell, in the running process of a vehicle, wind can drive some foreign objects on the ground to collide with the vehicle lamp, and the protective shell can block the collision of the foreign objects and plays a role in protecting the light-transmitting sheet, the first lens and the second lens;

3. through setting up the heat dissipation strip, light energy can have partly to change into heat energy, and when the emission time is longer, the working condition that the circuit can be influenced to the heat of gathering too much, uses the heat conduction that the heat dissipation strip will produce in the air, can reduce the unusual probability of circuit appearance.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an exploded view of the protective case and the lamp socket according to the embodiment of the present application.

Fig. 3 is an exploded view of the front seat and the rear seat of the embodiment of the present application.

Fig. 4 is a schematic structural diagram of a heat dissipation plate according to an embodiment of the present application.

Description of reference numerals: 1. a protective shell; 2. a front seat; 21. a partition plate; 22. a light transmitting sheet; 221. a third LED lamp; 23. a second lens; 231. a second LED lamp; 24. a first lens; 241. a first LED lamp; 242. an arc groove; 243. a first bolt; 244. a side wing; 25. a clamping block; 26. a ring frame; 3. a rear seat; 31. a card slot; 4. a power line; 41. a heat dissipating strip; 42. a mounting frame; 43. an insertion hole; 44. and a second bolt.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses an anti-dazzle automobile lamp.

Referring to fig. 1 and 2, the anti-glare car lamp of the embodiment comprises a lamp holder, wherein the lamp holder comprises a front seat 2 and a rear seat 3, the front seat 2 and the rear seat 3 are detachably connected, and the cross sections of the front seat 2 and the rear seat 3 are both in circular arrangement. The front seat 2 is fixed with a plurality of fixture blocks 25 towards on one side of rear seat 3, and a plurality of fixture blocks 25 along the circumference direction evenly distributed of front seat 2, seted up on the rear seat 3 with a plurality of fixture block 25 joint complex a plurality of draw-in grooves 31, a plurality of draw-in grooves 31 and a plurality of fixture block 25 one-to-one, when fixture block 25 joint was on corresponding draw-in groove 31, the lateral wall of front seat 2 and the inside wall laminating of rear seat 3 were in the same place.

Referring to fig. 2 and 3, a side surface of the front seat 2 away from the rear seat 3 is provided with a hollow groove, and the hollow groove extends into the rear seat 3. Fixedly connected with baffle 21 on front seat 2, the circumference lateral wall of baffle 21 is in the same place with the lateral wall laminating of dead slot, and baffle 21 divides the dead slot into two parts. The partition plate 21 is provided with a through groove, the through groove is fixedly connected with two ring frames 26, the ring frames 26 are arranged in a semicircular ring shape, two ends of the ring frames 26 are respectively and fixedly connected to the side walls of two sides of the through groove in the width direction, and the ring frames 26 are perpendicular to the length direction of the through groove. The two ring frames 26 divide the through slot into two first passages and one second passage, the two first passages being located on both sides of the second passage, respectively.

Referring to fig. 2 and 3, two first lenses 24 are detachably connected to the bottom wall of the hollow groove, side wings 244 are respectively fixed to the side walls of the first lenses 24 close to the bottom wall of the hollow groove, first bolts 243 are connected to the two side wings 244, and the first bolts 243 penetrate through the side wings 244 and are connected to the inner bottom wall of the rear seat 3 in a threaded manner. Arc groove 242 has been seted up towards one side of dead slot diapire to first lens 24, installs the passing light source on the lamp stand, and the passing light source is two first LED lamps 241, and two first LED lamps 241 are fixed on the dead slot diapire, two first LED lamps 241 and two first lens 24 one-to-one, and first LED lamp 241 is located the position that corresponds arc groove 242 just to the dead slot diapire. Two first lens 24 keep away from the one end terminal surface of dead slot diapire and seted up first arcwall face, when front seat 2 was installed on back seat 3, two first lens 24 kept away from the one end of dead slot diapire and are located two first passageways respectively.

When the first LED lamp 241 is turned on, the light of the first LED lamp 241 is reflected by the arc groove 242 and the first arc surface, the light irradiated by the first LED lamp 241 is refracted by the first lens 24 to form a near light, and the irradiation angle of the near light is acute to the bottom wall of the empty groove.

Referring to fig. 2 and 3, the two ring frames 26 are fixedly connected with a second lens 23, two side walls of the second lens 23 in the width direction are fixedly connected to the two ring frames 26 respectively, an end portion of the second lens 23 far away from the bottom wall of the empty slot is located in the second channel, a gap is left between an end portion of the second lens 23 facing the bottom wall of the empty slot and the bottom wall of the empty slot, a second arc-shaped surface is formed on an end surface of the second lens 23 far away from the bottom wall of the empty slot, and an end surface of the second lens 23 close to the bottom wall of the empty slot is arranged in parallel to the bottom wall of the empty slot. Install the distance light source on the lamp stand, the distance light source is second LED lamp 231, second LED lamp 231 is fixed on the dead slot diapire, second LED lamp 231 is located and corresponds the position that second lens 23 is just to the dead slot diapire, when second LED lamp 231 shines, the one end terminal surface that the light perpendicular to second lens 23 of second LED lamp 231 is close to the dead slot diapire shines on second lens 23, the illumination of second LED lamp 231 passes through second lens 23 refraction and forms distance light ray, the direction of illumination perpendicular to dead slot diapire setting of distance light ray.

Referring to fig. 2 and 3, a light-transmitting sheet 22 is fixed to the side wall of the hollow groove along the circumferential direction, the light-transmitting sheet 22 is disposed in a semicircular shape, and the light-transmitting sheet 22 is made of a translucent material, such as a polyethylene plastic plate, colored silica gel, or the like. The printing opacity piece 22 is fixed on the dead slot lateral wall along dead slot circumference lateral wall, and the both ends of printing opacity piece 22 are close to two first lens 24 settings respectively, and the intermediate position of printing opacity piece 22 length direction is close to first lens 24 and sets up, has seted up the inclined plane on the printing opacity piece 22, and the inclined plane sets up towards first lens 24 and second lens 23, and the distance that the one end that the inclined plane is close to second lens 23 is apart from the dead slot diapire is more nearly than the distance that the inclined plane kept away from the removal distance dead slot diapire of second lens 23. Install the diffuse light source on the lamp stand, the diffuse light source includes a plurality of third LED lamps 221, and a plurality of third LED evenly set up on the dead slot diapire along the length direction of printing opacity piece 22, and a plurality of third LED lamps 221 are located and just to the position of dead slot diapire corresponding to printing opacity piece 22.

Near light shines outwards towards printing opacity piece 22 one side, and printing opacity piece 22 can form the scattered light with the light of a plurality of third LED lamps 221 towards the reflection of all directions, simultaneously because printing opacity piece 22 sets up towards first lens 24 and second lens 23, first lens 24 and second lens 23 will receive the scattered light and go out the scattered light reflection to further increase the luminance around the car light.

Referring to fig. 2 and 3, install protective housing 1 on front bezel 2, protective housing 1 is made by complete transparent plastics, sets up the holding tank that supplies front bezel 2 to hold on protective housing 1, and when protective housing 1 was installed on front bezel 2, the lateral wall of holding tank respectively with the lateral wall interference fit of front bezel 2, protective housing 1 shelters from front bezel 2 to isolated with external.

Referring to fig. 3 and 4, a plurality of heat dissipation strips 41 are fixed on a side surface of the rear seat 3 away from the front seat 2, the length direction of the plurality of heat dissipation strips 41 is parallel to the width direction of the through groove, and the plurality of heat dissipation strips 41 are uniformly fixed on the outer bottom wall of the rear seat 3 along the length direction of the through groove.

Referring to fig. 3 and 4, a mounting bracket 42 is fixed on a side surface of the rear seat 3 away from the front seat 2, a length direction of the mounting bracket 42 is parallel to a length direction of the heat dissipation strips 41, the heat dissipation strip 41 at a position in the middle of the plurality of heat dissipation strips 41 is referred to as a central heat dissipation strip 41, and the mounting bracket 42 is fixedly connected to an end portion of the central heat dissipation strip 41. Fixedly connected with support on the external vehicle, be fixed with the lug on the support, seted up the patchhole 43 with the lug matching on the mounting bracket 42, be connected with second bolt 44 on the mounting bracket 42, the one end of second bolt 44 passes patchhole 43 and threaded connection on mounting bracket 42.

Referring to fig. 3 and 4, a power cord 4 is fixedly connected to an end portion of the mounting bracket 42 close to the heat dissipation bar 41, and conductive wires of the two first LED lamps 241, the second LED lamp 231 and the plurality of third LED lamps 221 are respectively gathered on the power cord 4. The first LED lamp 241 and the third LED lamp 221 jointly form a low beam lamp set, the second LED lamp 231 and the third LED lamp 221 jointly form a high beam lamp set, and the low beam lamp set and the high beam lamp set are respectively powered by different power circuits.

The implementation principle of the anti-dazzle automobile lamp provided by the embodiment of the application is as follows: when the lamp is fixed to the vehicle, the protrusion of the external vehicle bracket is placed in the insertion hole 43, and then the lamp is fixed to the vehicle by passing the second bolt 44 through one end of the mounting bracket 42 and the protrusion and screwing it to the other end of the mounting bracket 42. When the lamp is fixed to a vehicle, the lamp is disposed perpendicular to the ground, and the light-transmitting sheet 22 is located directly below the second lens 23.

When the street lamp auxiliary lighting is available on the driving road, a driver communicates with a circuit switch of the dipped headlight group, the first LED lamp 241 and the third LED lamp 221 emit light simultaneously, the first LED lamp 241 forms dipped headlight through the first lens 24 and irradiates towards the ground, and the third LED lamp 221 forms scattered light through the light-transmitting sheet 22 to illuminate the periphery of the vehicle lamp. When no street lamp auxiliary lighting is available on the driving road, a driver communicates with a circuit switch of the high beam lamp group, the second LED lamp 231 and the third LED lamp 221 emit light simultaneously, the second LED lamp 231 emits high beam light towards far through the second lens 23, and the third LED lamp 221 emits scattered light through the light-transmitting sheet 22 to illuminate the periphery of the vehicle lamp. Because scattered light can compensate the shortcoming that low-beam light or high beam light can only be shone directly, diverge light to the surrounding of car light, when the passerby was walked towards the direction of vehicle, can be unlikely to feel very dazzling, also can see the condition on near ground simultaneously, reduce the probability of stumbling by the barrier, increase passerby's security of walking.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an anti-dazzle dizzy car light, includes lamp stand, short-distance beam light source and distance light source, be provided with first lens (24) and second lens (23) on the lamp stand, short-distance beam light source passes through first lens (24) refraction and forms short-distance beam, distance light source passes through second lens (23) refraction and forms distance light, its characterized in that: still include the scattered light source, be provided with printing opacity piece (22) on the lamp stand, the scattered light source passes through printing opacity piece (22) and forms scattered light.

2. The anti-glare vehicle lamp according to claim 1, wherein: the light source is a first LED lamp (241), the first lens (24) is arranged on the bottom wall of the hollow groove, the arc groove (242) is formed in one side face, facing the bottom wall of the hollow groove, of the first lens (24), the first LED lamp (241) is arranged on the bottom wall of the hollow groove, and the first LED lamp (241) is located in the arc groove (242).

3. The anti-glare vehicle lamp according to claim 2, wherein: the high beam light source is a second LED lamp (231), a gap is formed between the side face, facing the bottom wall of the empty groove, of one side of the second lens (23) and the bottom wall of the empty groove, the second LED lamp (231) is arranged on the bottom wall of the empty groove, and the second LED lamp (231) is located in the gap.

4. The anti-glare vehicle lamp according to claim 3, wherein: first lens (24) have two, and two first lens (24) are located the both sides of second lens (23) respectively, first LED lamp (241) have two, and two first LED lamp (241) set up on the dead slot diapire, and two first LED lamp (241) are located two arc groove (242) respectively, first lens (24) are located same straight line with second lens (23), printing opacity piece (22) set up on the lamp stand, printing opacity piece (22) set up towards two first lens (24) and second lens (23).

5. The anti-glare vehicle lamp according to claim 4, wherein: the diffuse light source includes a plurality of third LED lamps (221), printing opacity piece (22) set up on the dead slot lateral wall along dead slot circumference lateral wall, the inclined plane has been seted up on printing opacity piece (22), the inclined plane sets up towards first lens (24) and second lens (23), and a plurality of third LED set gradually on the dead slot diapire along the length direction of printing opacity piece (22), and a plurality of third LED lamps (221) are just setting up to printing opacity piece (22).

6. The anti-glare vehicle lamp according to claim 1, wherein: still include protective housing (1), printing opacity piece (22), first lens (24) and second lens (23) all are located the dead slot, install on the lamp stand protective housing (1), dead slot and external isolated are with protective housing (1).

7. The anti-glare vehicle lamp according to claim 1, wherein: and a heat dissipation strip (41) is arranged on the side surface of one side of the lamp holder, which is far away from the first lens (24).

8. The anti-glare vehicle lamp according to claim 1, wherein: the lamp holder is equipped with mounting bracket (42) on keeping away from one side of first lens (24), offer patchhole (43) with external support matching on mounting bracket (42), be connected with first bolt (243) on mounting bracket (42), patchhole (43) and threaded connection are passed on mounting bracket (42) to the one end of first bolt (243).

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