CN217482655U - Can reduce car light structure and vehicle of printing opacity face crosstalk - Google Patents

Abstract

The utility model relates to a car lamp structure and a car capable of reducing light crosstalk of a light-transmitting surface, wherein the car lamp structure comprises a transparent cover and two light-emitting mechanisms which are fixedly distributed at intervals side by side; the transparent cover is fixedly arranged outside the same end of the two light-emitting mechanisms, and a cut-off part is fixedly arranged on one side of the transparent cover close to the two light-emitting mechanisms. The beneficial effects of the utility model are that simple structure, reasonable in design, accessible cutting back portion guide invalid light's reflection path improves light energy utilization and rates, improves the sight effect when the car light is lighted.

Description

Can reduce car light structure and vehicle of printing opacity face crosstalk

Technical Field

The utility model relates to the technical field of vehicles, concretely relates to can reduce car light structure and vehicle of printing opacity face cluster light.

Background

At present, the domestic automobile lamp industry of the traveling vehicles is gradually standardized, and no matter passenger vehicles or agricultural vehicles, the appearance is required to be aesthetic, and more strict related regulations are required to be met. The structure for optimizing the effect of the external light source and the lighting effect of the internal key warning light source is more and more emphasized. At present, when a reflection bowl of a car lamp in the prior art is in a working state, light rays can be dispersed and reflected, so that a large amount of loss of an effective light source is caused, and meanwhile, light crosstalk can occur, so that the false impression that the reflection bowl is lightened when the reflection bowl is not in work is caused, and the illusion is easily caused for people.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a can reduce light transmitting surface cluster car light structure and vehicle is provided, aim at solving the problem among the prior art.

The utility model provides an above-mentioned technical problem's technical scheme as follows:

a car lamp structure capable of reducing light crosstalk of a light-transmitting surface comprises a transparent cover and two light-emitting mechanisms, wherein the two light-emitting mechanisms are fixedly distributed at intervals side by side; the transparent cover is fixedly arranged outside the same ends of the two light-emitting mechanisms, and a cutting part is fixedly arranged on one side of the transparent cover close to the two light-emitting mechanisms.

The utility model has the advantages that: when the transparent cover is used, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light rays, the light rays reach the lower surface of the transparent cover, part of the light rays are reflected by the lower surface of the transparent cover, and the rest of the light rays are refracted by the lower surface of the transparent cover and reach a position between the lower surface of the transparent cover and the upper surface of the transparent cover; among the light rays reaching between the lower surface of the transparent cover and the upper surface of the transparent cover, part of the light rays are refracted out through the upper surface of the transparent cover to be illuminated, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover, and part of the light rays are reflected to the part of the transparent cover corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover, so that the other light-emitting mechanism presents certain brightness;

in the process, part of light rays reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover are reflected and refracted by the cut part, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is reduced, and the false phenomenon that the other light-emitting mechanism is mistakenly turned on due to overhigh brightness is avoided.

The utility model discloses simple structure, reasonable in design, the accessible cuts back the reflection path of portion guide invalid light, reduces the light that reachs another light-emitting mechanism, improves the efficiency of light energy utilization, improves the sight effect when the car light is lighted.

On the basis of the technical scheme, the utility model discloses can also do following improvement.

Further, the cut part comprises a transparent cut strip, one side of the cut strip is fixedly connected with the transparent cover, and the other side of the cut strip extends between the two light-emitting mechanisms.

When the light-emitting mechanism is used, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light, the light reaches the lower surface of the transparent cover, part of the light is reflected by the lower surface of the transparent cover, and the rest of the light is refracted by the lower surface of the transparent cover and reaches a position between the lower surface of the transparent cover and the upper surface of the transparent cover; among the light rays reaching between the lower surface of the transparent cover and the upper surface of the transparent cover, part of the light rays are refracted out through the upper surface of the transparent cover to be illuminated, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover, and part of the light rays are reflected to the part of the transparent cover corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover, so that the other light-emitting mechanism presents certain brightness;

in the process, the light rays reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover are partially reflected into the cut-down strips and are reflected and refracted out through the surfaces on the two sides of the cut-down strips, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is further reduced, and the false phenomenon that the other light-emitting mechanism is mistakenly turned on due to overhigh brightness is avoided.

Further, the cut-back portion comprises transparent cut-back strips, one side of each cut-back strip is fixedly connected with the transparent cover, and the other side of each cut-back strip extends to a position close to any one of the light-emitting mechanisms close to the other light-emitting mechanism.

When the light-emitting mechanism is used, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light, the light reaches the lower surface of the transparent cover, part of the light is reflected by the lower surface of the transparent cover, and the rest of the light is refracted by the lower surface of the transparent cover and reaches a position between the lower surface of the transparent cover and the upper surface of the transparent cover; among the light rays reaching between the lower surface of the transparent cover and the upper surface of the transparent cover, part of the light rays are refracted out through the upper surface of the transparent cover to be illuminated, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover, and part of the light rays are reflected to the part of the transparent cover corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover, so that the other light-emitting mechanism presents certain brightness;

in the process, the light rays reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover are partially reflected into the cut-down strips and are reflected and refracted out through the surfaces on the two sides of the cut-down strips, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is further reduced, and the false phenomenon that the other light-emitting mechanism is mistakenly turned on due to overhigh brightness is avoided.

The two schemes are parallel schemes.

Furthermore, the cutting strips are of a structure with one side being thick and the other side being thin.

The beneficial effects of adopting above-mentioned further scheme are that simple structure, reasonable in design both can play and shelter from the effect, can connect save material again, reduce cost.

Furthermore, the cutting part comprises a transparent cutting plate, one side of the cutting plate is fixedly connected with the transparent cover, and the surface of the other side is close to the same ends of the two light-emitting mechanisms and is of a wave-shaped structure.

When the further scheme is adopted, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light, the light reaches the lower surface of the cutting plate, part of the light is reflected by the lower surface of the cutting plate, and the rest of the light is refracted by the lower surface of the cutting plate and reaches a position between the lower surface of the cutting plate and the upper surface of the cutting plate; among the light rays reaching between the lower surface of the cutting plate and the upper surface of the cutting plate, part of the light rays are refracted to the lower surface of the transparent cover through the upper surface of the cutting plate and then are refracted to a position between the lower surface of the transparent cover and the upper surface of the transparent cover through the lower surface of the transparent cover; among the light rays reaching between the lower surface of the transparent cover and the upper surface of the transparent cover, part of the light rays are refracted out through the upper surface of the transparent cover to be illuminated, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover, and part of the light rays are reflected to the part of the transparent cover corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover and the reduction plate, so that the other light-emitting mechanism presents certain brightness;

in the process, the light rays reflected back and forth between the lower surface of the transparent cover and the upper surface of the transparent cover are partially reflected into the cut-off plate and are reflected and refracted out through the wavy lower surface of the cut-off plate, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is further reduced, and the false phenomenon that the other light-emitting mechanism is mistakenly turned on due to overhigh brightness is avoided.

This scheme is parallel to the above-described two-strip scheme.

Further, the transparent cover is of a transparent plate-shaped structure.

The light-emitting mechanism has the advantages of being simple in structure, reasonable in design and convenient for light emitted by the light-emitting mechanism to transmit for illumination.

Further, each light-emitting mechanism comprises a light source and an opaque reflecting bowl, one end of the reflecting bowl, which is close to the transparent cover, is open, and the other end of the reflecting bowl, which is far away from the transparent cover, is closed; the closed end of the reflection bowl is provided with a through hole, and the light source is fixedly arranged at the through hole.

The beneficial effect of adopting above-mentioned further scheme is that when using, the light of light source transmission is reflected to the translucent cover through the reflection bowl, is lighted after by translucent cover reflection and transmission, and visual effect is preferred.

Further, the size of the open end of the reflection bowl is larger than that of the closed end, and the open end of the reflection bowl is close to the transparent cover.

The beneficial effects of adopting the further scheme are that simple structure, reasonable in design, neat pleasing to the eye, visual effect preferred.

Further, the light source is a bulb.

The beneficial effects of adopting above-mentioned further scheme are that simple structure, the illumination is convenient, and illuminating effect preferred, with low costs.

The utility model discloses still relate to a vehicle, include as above the car light structure that can reduce light-permeable surface cluster light.

The beneficial effects of adopting above-mentioned further scheme are that this scheme simple structure, reasonable in design, accessible cut-down portion guide invalid light's reflection path improves the light energy utilization and rates, improves the sight effect when the car light is lighted.

Drawings

FIG. 1 is a front view of a first embodiment of the present invention;

FIG. 2 is a front view of a second embodiment of the present invention;

FIG. 3 is a front view of a third embodiment of the present invention;

fig. 4 is a side view of a third embodiment of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a transparent cover; 2. cutting strips; 3. a trimming plate; 4. a light source; 5. a reflective bowl.

Detailed Description

The principles and features of the present invention are described below in conjunction with the following drawings, the examples given are only intended to illustrate the present invention and are not intended to limit the scope of the present invention.

Example 1

As shown in fig. 1 to 4, the present embodiment provides a vehicle lamp structure capable of reducing crosstalk of a light-transmitting surface, which includes a transparent cover 1 and two light-emitting mechanisms, wherein the two light-emitting mechanisms are fixedly distributed side by side at intervals; the transparent cover 1 is fixedly arranged outside the same end of the two light-emitting mechanisms, and a cut-off part is fixedly arranged on one side of the transparent cover close to the two light-emitting mechanisms.

When the LED lamp is used, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light, the light reaches the lower surface of the transparent cover 1, part of the light is reflected by the lower surface of the transparent cover 1, and the rest part of the light is refracted by the lower surface of the transparent cover 1 to reach a position between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1; among the light rays reaching between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, part of the light rays are refracted out through the upper surface of the transparent cover 1 for illumination, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, and part of the light rays are reflected to the part of the transparent cover 1 corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover 1, so that the other light-emitting mechanism presents certain brightness;

in the process, part of light rays reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1 are reflected and refracted by the cut part, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is reduced, and the false phenomenon that the other light-emitting mechanism is turned on due to overhigh brightness is avoided.

When the transparent cover is applied, the transparent cover 1 is fixedly arranged at the head of a vehicle.

This embodiment simple structure, reasonable in design, accessible cutting back portion guide invalid light's reflection path reduces the light that reaches another light emitting mechanism, improves light energy utilization and rates, improves the sight effect when the car light is lighted.

Example 2

In addition to embodiment 1, in this embodiment, as shown in fig. 1, the cut portion includes a transparent cut strip 2, one side of the cut strip 2 is fixedly connected to the transparent cover 1, and the other side extends between the two light emitting mechanisms.

When the LED lamp is used, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light, the light reaches the lower surface of the transparent cover 1, part of the light is reflected by the lower surface of the transparent cover 1, and the rest part of the light is refracted by the lower surface of the transparent cover 1 to reach a position between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1; among the light rays reaching between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, part of the light rays are refracted out through the upper surface of the transparent cover 1 for illumination, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, and part of the light rays are reflected to the part of the transparent cover 1 corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover 1, so that the other light-emitting mechanism presents certain brightness;

in the process, the light rays reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1 are partially reflected into the cutting strips 2, and are reflected and refracted out through the two side surfaces of the cutting strips 2, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is further reduced, and the false phenomenon that the other light-emitting mechanism is turned on due to overhigh brightness is avoided. When the luminous device is used, any one of the luminous mechanisms is started, the light reflected by the luminous mechanism is shielded by the shielding strip cutting strip 2, the false phenomenon that the luminous mechanism is also started due to the fact that the light is reflected into the rest of the luminous mechanisms is avoided, meanwhile, the illumination brightness of the started luminous mechanism can be guaranteed, and the illumination effect is good.

Example 3

In addition to embodiment 1, in this embodiment, as shown in fig. 2, the cut portion includes a transparent cut strip 2, one side of the cut strip 2 is fixedly connected to the transparent cover 1, and the other side extends to a portion adjacent to any one of the light emitting mechanisms near the other light emitting mechanism.

When the transparent cover is used, any one of the light-emitting mechanisms is turned on, the light-emitting mechanism emits light, the light reaches the lower surface of the transparent cover 1, part of the light is reflected by the lower surface of the transparent cover 1, and the rest of the light is refracted by the lower surface of the transparent cover 1 and reaches a position between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1; among the light rays reaching between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, part of the light rays are refracted out through the upper surface of the transparent cover 1 for illumination, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, and part of the light rays are reflected to the part of the transparent cover 1 corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover 1, so that the other light-emitting mechanism presents certain brightness;

in the process, the light rays reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1 are partially reflected into the cut-off strips 2 and are reflected and refracted out through the two side surfaces of the cut-off strips 2, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is further reduced, and the false phenomenon that the other light-emitting mechanism is mistakenly turned on due to overhigh brightness is avoided. When the luminous device is used, any one of the luminous mechanisms is started, the light reflected by the luminous mechanism is shielded by the shielding strip cutting strip 2, the false appearance that the luminous mechanism is also started due to the fact that the light is reflected to the rest of the luminous mechanisms is avoided, meanwhile, the illumination brightness of the started luminous mechanism can be guaranteed, and the illumination effect is good.

It should be noted that, the distance between the other side of the above-mentioned cutting strip 2 and the side of the turned-on light-emitting mechanism close to the other light-emitting mechanism is 2-3cm, so that the light refracted from the cutting strip 2 returns to the turned-on light-emitting mechanism again, the illumination brightness of the turned-on light-emitting mechanism is improved, and the illumination effect is improved.

The two schemes of the above example 2 and example 3 are parallel schemes.

Example 4

In the present embodiment, the cut line 2 is configured to be thick on one side and thin on the other side in addition to any one of embodiment 2 and embodiment 3.

The scheme has the advantages of simple structure and reasonable design, can play a role in shielding, can also save materials, and reduces the cost.

Example 5

In addition to embodiment 1, in this embodiment, as shown in fig. 3 and 4, the cut portion includes a transparent cut plate 3, one side of the cut plate 3 is fixedly connected to the transparent cover 1, and the surface of the other side is adjacent to the same end of the two light emitting mechanisms and has a wave-shaped structure.

When the LED cutting board is used, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light, the light reaches the lower surface of the cutting board 3, part of the light is reflected by the lower surface of the cutting board 3, and the rest part of the light is refracted by the lower surface of the cutting board 3 and reaches a position between the lower surface of the cutting board 3 and the upper surface of the cutting board 3; among the light rays reaching between the lower surface of the cutting plate 3 and the upper surface of the cutting plate 3, part of the light rays are refracted to the lower surface of the transparent cover 1 through the upper surface of the cutting plate 3 and then are refracted to a position between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1 through the lower surface of the transparent cover 1; among the light rays reaching between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, part of the light rays are refracted out through the upper surface of the transparent cover 1 for illumination, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, and part of the light rays are reflected to the part of the transparent cover 1 corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover 1 and the cutting plate 3, so that the other light-emitting mechanism presents certain brightness;

in the process, the light rays reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1 are partially reflected into the cut-off plate 3 and are reflected and refracted by the wavy lower surface of the cut-off plate 3, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is further reduced, and the false phenomenon that the other light-emitting mechanism is turned on due to overhigh brightness is avoided.

Compared with the scheme of the two cutting strips 2, the scheme of the cutting strips 2 is a parallel scheme, the scheme of the cutting strips 2 can only cut light at a certain position, the wavy cutting plate 3 can cut light for multiple times, and light reaching the other light-emitting mechanism is further reduced, so that the other light-emitting mechanism is in a darker state, and misunderstanding is avoided.

Fig. 3 is a front view of the vehicle lamp, and fig. 4 is a side view of the vehicle lamp.

Example 6

In addition to the above embodiments, in the present embodiment, the transparent cover 1 has a transparent plate-like structure.

This scheme simple structure, reasonable in design makes things convenient for the light transmission that luminous mechanism sent and throws light on.

Example 7

On the basis of the above embodiments, in this embodiment, each light emitting mechanism includes a light source 4 and an opaque reflective bowl 5, one end of the reflective bowl 5 close to the transparent cover 1 is open, and the other end thereof far from the transparent cover 1 is closed; the closed end of the reflecting bowl 5 is provided with a through hole, and the light source 4 is fixedly arranged at the through hole.

When the LED lamp is used, light rays emitted by the light source are reflected to the transparent cover through the reflection bowl, and are reflected and transmitted by the transparent cover to illuminate, so that the visual effect is good.

When the reflector bowl is applied, the reflector bowl 5 is fixedly arranged at the head of the vehicle and is positioned between the transparent cover 1 and the head of the vehicle.

Example 8

On the basis of embodiment 7, in this embodiment, the size of the open end of the reflection bowl 5 is larger than that of the closed end, and the open end is close to the transparent cover 1.

The scheme has the advantages of simple structure, reasonable design, tidiness, attractiveness and better visual effect.

In addition to the above embodiments, the reflector bowl 5 may also take other suitable geometric shapes, such as a cylindrical shape.

Example 9

In the present embodiment, the light source 4 is a bulb on the basis of any one of embodiments 7 to 8.

The LED lamp has the advantages of simple structure, convenience in illumination, better illumination effect and low cost.

The light source 4 is powered by a power supply inside the vehicle.

Example 10

On the basis of the above embodiments, the present embodiment further provides a vehicle including the lamp structure capable of reducing the light crosstalk of the light-transmitting surface.

This scheme simple structure, reasonable in design, the accessible cuts back the reflection path of portion guide invalid light, improves the efficiency of light energy utilization, improves the sight effect when the car light is lighted.

It should be noted that the vehicle protected by the scheme can be an agricultural vehicle, and can also be a vehicle in other suitable fields.

The working principle of the utility model is as follows:

when the LED lamp is used, any one of the light-emitting mechanisms is started, the light-emitting mechanism emits light, the light reaches the lower surface of the transparent cover 1, part of the light is reflected by the lower surface of the transparent cover 1, and the rest part of the light is refracted by the lower surface of the transparent cover 1 to reach a position between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1; among the light rays reaching between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, part of the light rays are refracted out through the upper surface of the transparent cover 1 for illumination, the rest part of the light rays are reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1, and part of the light rays are reflected to the part of the transparent cover 1 corresponding to the other light-emitting mechanism and are refracted to the other light-emitting mechanism through the lower surface of the transparent cover 1, so that the other light-emitting mechanism presents certain brightness;

in the process, part of light rays reflected back and forth between the lower surface of the transparent cover 1 and the upper surface of the transparent cover 1 are reflected and refracted out through the cut part, so that the light rays reaching the other light-emitting mechanism are reduced, the brightness of the other light-emitting mechanism is reduced, and the false phenomenon that the other light-emitting mechanism is mistakenly turned on due to overhigh brightness is avoided.

The utility model discloses simple structure, reasonable in design, accessible cut back portion guide invalid light's reflection path improves light energy utilization and rates, improves the sight effect when the car light is lighted.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (10)

1. The utility model provides a can reduce car light structure that light-permeable surface cluster light which characterized in that: the LED lamp comprises a transparent cover (1) and two light-emitting mechanisms, wherein the two light-emitting mechanisms are fixedly distributed side by side at intervals; the transparent cover (1) is fixedly arranged outside the same end of the two light-emitting mechanisms, and a cutting part is fixedly arranged on one side of the transparent cover close to the two light-emitting mechanisms.

2. The vehicular lamp structure capable of reducing crosstalk of the light-transmitting surface according to claim 1, wherein: the cut part comprises a transparent cut strip (2), one side of the cut strip (2) is fixedly connected with the transparent cover (1), and the other side of the cut strip extends between the two light-emitting mechanisms.

3. The vehicular lamp structure according to claim 1, wherein: the cut part comprises transparent cut strips (2), one side of each cut strip (2) is fixedly connected with the transparent cover (1), and the other side of each cut strip extends to a part which is close to any one of the light-emitting mechanisms and is close to the other light-emitting mechanism.

4. The vehicular lamp structure according to claim 2 or 3, wherein: the cutting strips (2) are in a structure with one thick side and the other thin side.

5. The vehicular lamp structure according to claim 1, wherein: the cutting part comprises a transparent cutting plate (3), one side of the cutting plate (3) is fixedly connected with the transparent cover (1), and the surface of the other side is close to two same ends of the light-emitting mechanisms and is of a wave-shaped structure.

6. The vehicular lamp structure according to any one of claims 1 to 3 or 5, wherein: the transparent cover (1) is of a transparent plate-shaped structure.

7. The vehicular lamp structure according to any one of claims 1 to 3 or 5, wherein: each light-emitting mechanism comprises a light source (4) and an opaque reflecting bowl (5), one end of each reflecting bowl (5) close to the transparent cover (1) is open, and the other end of each reflecting bowl (5) far away from the transparent cover (1) is closed; the closed end of the reflection bowl (5) is provided with a through hole, and the light source (4) is fixedly arranged at the through hole.

8. The vehicular lamp structure according to claim 7, wherein: the size of the open end of the reflection bowl (5) is larger than that of the closed end, and the open end of the reflection bowl is close to the transparent cover (1).

9. The vehicular lamp structure according to claim 7, wherein: the light source (4) is a bulb.

10. A vehicle, characterized in that: a vehicular lamp structure comprising the structure for reducing crosstalk of the light-transmitting surface according to any one of claims 1 to 9.

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