CN209926273U

CN209926273U - Signal lamp structure and traveling equipment

Info

Publication number: CN209926273U
Application number: CN201821973016.0U
Authority: CN
Inventors: 李伟; 张珍源; 刘行
Original assignee: Nanbo (changzhou) Technology Co Ltd
Current assignee: Nanbo (changzhou) Technology Co Ltd; Ninebot Changzhou Technology Co Ltd
Priority date: 2018-11-27
Filing date: 2018-11-27
Publication date: 2020-01-10
Anticipated expiration: 2028-11-27

Abstract

The embodiment of the application discloses a signal lamp structure and driving equipment, wherein the signal lamp structure comprises a body; a cover body having light transmittance; the first side of the cover body is connected with the first side of the body, and an accommodating cavity is formed between the first side of the cover body and the first side of the body; the at least two first light sources are arranged in the accommodating cavity along the width direction of the body; the first light guide piece is arranged in the accommodating cavity and positioned between the at least two first light sources and the cover body; the light rays of the at least two first light sources respectively penetrate through the first light guide part and the cover body. According to the signal lamp structure, the first light guide piece is arranged between the at least two first light sources and the cover body, so that the utilization rate of light rays of the at least two first light sources can be improved; meanwhile, at least two first light sources are arranged in the accommodating cavity along the width direction of the body, so that the light emitting width of the first light sources along the width direction of the body can be effectively increased.

Description

Signal lamp structure and traveling equipment

Technical Field

The present disclosure relates to a lamp structure, and more particularly, to a signal lamp structure and a driving device.

Background

The driving device is a vehicle commonly used by people, and the driving device is generally provided with a light source and provides an indicating function through the light source. However, in the prior art, the light of the light source of the driving device generally directly penetrates through the cover body, and the light utilization rate of the light source is low.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a signal lamp structure and driving equipment for solving the problems in the prior art.

The technical scheme of the embodiment of the application is realized as follows:

the embodiment of the application provides a signal lamp structure, and the signal lamp structure includes:

a body;

a cover body having light transmittance; the first side of the cover body is connected with the first side of the body, and an accommodating cavity is formed between the first side of the cover body and the first side of the body;

the at least two first light sources are arranged in the accommodating cavity along the width direction of the body;

the first light guide piece is arranged in the accommodating cavity and positioned between the at least two first light sources and the cover body;

the light rays of the at least two first light sources respectively penetrate through the first light guide part and the cover body.

In some optional implementations, the at least two first light sources include a first sub first light source, a second sub first light source, and a third sub first light source disposed along a width direction of the body;

the light of the first sub-first light source, the light of the second sub-first light source and the light of the third sub-first light source respectively penetrate through the first light guide and penetrate through the cover body.

In some optional implementations, the first light guide includes:

a first convex surface disposed on a side of the first light guide member away from the at least two first light sources;

the light rays of the at least two first light sources are respectively gathered through the first convex surface and penetrate through the cover body.

the first convex surface includes: a first sub-first convex surface corresponding to a position of the first sub-first light source, a second sub-first convex surface corresponding to a position of the second sub-first light source, and a third sub-first convex surface corresponding to a position of the third sub-first light source;

the light rays of the first sub first light source are gathered through the first sub first convex surface and then penetrate through the cover body; the light of the second sub first light source is gathered through the second sub first convex surface and penetrates through the cover body; the light of the third sub first light source is gathered through the third sub first convex surface and penetrates through the cover body.

In some optional implementations, the signal light structure further includes: the first light gathering piece is arranged in the accommodating cavity and positioned between the at least two first light sources and the cover body;

the light rays of the at least two first light sources are respectively gathered through the first light gathering part and penetrate through the first light guiding part and penetrate through the cover body.

In some optional implementations, the first light concentrator includes:

the second convex surface is arranged on the side, close to the at least two first light sources, of the first light gathering piece;

the third convex surface is arranged on the side, far away from the at least two first light sources, of the first light gathering piece; the third convex surface is opposite to the second convex surface;

the light rays of the at least two first light sources are gathered through the second convex surface and the third convex surface and penetrate through the first light guide and penetrate through the cover body respectively.

the second convex surface includes: a first sub-second convex surface corresponding to a position of the first sub-first light source, a second sub-second convex surface corresponding to a position of the second sub-first light source, and a third sub-second convex surface corresponding to a position of the third sub-first light source;

the third convex surface includes: a first sub-third convex surface corresponding to a position of the first sub-first light source, a second sub-third convex surface corresponding to a position of the second sub-first light source, and a third sub-third convex surface corresponding to a position of the third sub-first light source;

the first sub-first light source is focused through the first sub-second convex surface and the first sub-third convex surface, and is transmitted through the first light guide through the cover; the second sub-first light source is focused through the second sub-second convex surface and the second sub-third convex surface and is transmitted through the first light guide through the cover; the third sub-first light source is focused through the third sub-second convex surface and the third sub-third convex surface, and is transmitted through the first light guide through the cover.

In some optional implementations, the first light collector further includes:

the third accommodating groove is formed in the side, close to the at least two first light sources, of the first light gathering piece; the second convex surface is formed at the bottom of the third accommodating groove; the at least two first light sources are positioned in the third accommodating groove.

In some optional implementations, the signal light structure further includes:

the at least two second light sources are arranged in the accommodating cavity and are positioned on one side of the at least two first light sources along the height direction of the body;

the second light condensing piece is arranged in the accommodating cavity and is positioned between the at least two second light sources and the cover body;

the second light guide piece is arranged in the accommodating cavity and positioned between the second light condensing piece and the cover body;

the light rays of the at least two second light sources are respectively gathered through the second light gathering part and penetrate through the second light guiding part and penetrate through the cover body.

In some optional implementations, the at least two second light sources include a first sub-second light source, a second sub-second light source, and a third sub-second light source disposed along a width direction of the body;

the second light condenser includes:

the fourth convex surface is arranged on the side, close to the at least two second light sources, of the second light condensing member;

a fifth convex surface disposed on the side of the second light condensing member away from the at least two second light sources; the fifth convex surface is opposite to the fourth convex surface;

the second light guide includes:

a sixth convex surface disposed on the side of the second light guide member away from the at least two second light sources;

the light of the first sub-second light source, the light of the second sub-second light source and the light of the third sub-second light source respectively penetrate through the fourth convex surface and the fifth convex surface to be gathered and penetrate through the sixth convex surface to be gathered and penetrate through the cover body.

In some optional implementations, the fourth convex surface includes: a first sub-fourth convex surface corresponding to a position of the first sub-second light source, a second sub-fourth convex surface corresponding to a position of the second sub-second light source, and a third sub-fourth convex surface corresponding to a position of the third sub-second light source;

the fifth convex surface includes: a first sub-fifth convex surface corresponding to a position of the first sub-second light source, a second sub-fifth convex surface corresponding to a position of the second sub-second light source, and a third sub-fifth convex surface corresponding to a position of the third sub-second light source;

the sixth convex surface includes: a first sub-sixth convex surface corresponding to a position of the first sub-second light source, a second sub-sixth convex surface corresponding to a position of the second sub-second light source, and a third sub-sixth convex surface corresponding to a position of the third sub-second light source;

the light rays of the first sub second light source penetrate through the first sub fourth convex surface and the first sub fifth convex surface to be gathered, and penetrate through the first sub sixth convex surface to be gathered and penetrate through the cover body; the light rays of the second sub second light source penetrate through the second sub fourth convex surface and the second sub fifth convex surface to be gathered, and penetrate through the second sub sixth convex surface to be gathered and penetrate through the cover body; the light rays of the third sub-second light source penetrate through the third sub-fourth convex surface and the fourth sub-fifth convex surface to be gathered, and penetrate through the third sub-sixth convex surface to be gathered and penetrate through the cover body.

In some alternative implementations, when the first light guide includes a first convex surface and the second light guide includes a sixth convex surface;

the curvature of the first convex surface is greater than the curvature of the sixth convex surface; correspondingly, the at least two first light sources are high beams, and the at least two second light sources are low beams; or the like, or, alternatively,

the curvature of the first convex surface is smaller than that of the sixth convex surface, correspondingly, the at least two first light sources are dipped headlights, and the at least two second light sources are high beams.

In some optional implementations, the signal light structure further includes:

the third light source is arranged in the accommodating cavity; the first side of the at least two first light sources is positioned along the width direction of the body;

the fourth light source is arranged in the accommodating cavity; the second side of the at least two first light sources is positioned along the width direction of the body; the second sides of the at least two first light sources are arranged opposite to the first sides of the at least two first light sources;

and the light of the third light source and the light of the fourth light source respectively penetrate through the cover body.

In some optional implementations, the signal light structure further includes:

the light-isolating piece is arranged in the accommodating cavity and is positioned close to the cover body side; the light blocking member includes: the first through cavity, the second through cavity, the third through cavity and the fourth through cavity; the first port of the first through cavity corresponds to the first side of the cover body, the first port of the second through cavity corresponds to the second side of the cover body, and the second side of the cover body is opposite to the first side of the cover body; the first port of the third through cavity corresponds to the position of the third side of the cover body, and the first port of the fourth through cavity corresponds to the position of the fourth side of the cover body; the fourth side of the cover body is arranged opposite to the third side of the cover body and is respectively adjacent to the second side of the cover body and the first side of the cover body;

the at least two first light sources and the first light guide are disposed within the first through cavity; light rays of the at least two first light sources are transmitted through the first light guide and through the first side of the cover body;

the at least two second light sources, the second light concentrator, and the second light guide are disposed within the second through cavity; the light rays of the at least two second light sources are gathered through the second light gathering member and transmitted through the second light guide member and through the second side of the cover body;

the third light source is arranged in the third through cavity; the light of the third light source penetrates through the third side of the cover body through the first port of the third through cavity;

the fourth light source is arranged in the fourth through cavity; light of the fourth light source penetrates through the fourth side of the cover body through the first port of the fourth through cavity.

In some optional implementations, the signal light structure further includes:

a first Printed Circuit Board (PCB) disposed at a second port side of the first through cavity; the at least two first light sources are arranged on one side of the first PCB corresponding to the first port of the first through cavity;

the second PCB is arranged on the second port side of the second through cavity; the at least two second light sources are arranged on one side of the second PCB corresponding to the first port of the second through cavity;

the third PCB is arranged on the second port side of the third through cavity; the third light source is arranged on one side of the third PCB corresponding to the first port of the third through cavity;

the fourth PCB is arranged on the second port side of the fourth through cavity; the fourth light source is arranged on one side of the fourth PCB corresponding to the first port of the fourth through cavity.

In some optional implementations, the signal light structure further includes:

a third light guide disposed in the third through cavity, wherein a first side of the third light guide is provided with a first groove, the first side of the third light guide is disposed adjacent to a side of the third PCB corresponding to the first port of the third through cavity, the third light source corresponds to the first groove, and a second side of the third light guide is located at the first port side of the third through cavity; light of the third light source is gathered through the first groove and penetrates through the third side of the cover body;

a fourth light guide disposed in the fourth through cavity, wherein a first side of the fourth light guide is provided with a second groove, the first side of the fourth light guide is disposed adjacent to a side of the fourth PCB corresponding to the first port of the fourth through cavity, the fourth light source corresponds to the second groove, and a second side of the fourth light guide is located on the first port side of the fourth through cavity; light of the fourth light source is gathered through the second groove and penetrates through the fourth side of the cover body.

In some optional implementations, the at least two first light sources are high beams, the at least two second light sources are low beams, the third light source is a first turn signal, and the fourth light source is a second turn signal; or, the at least two first light sources are dipped headlights, the at least two second light sources are high beams, the third light source is a first steering light, and the fourth light source is a second steering light.

In some optional implementations, the signal light structure further includes:

the fifth light source is arranged in the accommodating cavity; the at least two second light sources and the at least two first light sources are positioned between the at least two second light sources and the at least two first light sources along the height direction of the body;

a fifth light guide disposed in the accommodating cavity, between the fifth light source and the cover, and between the second light guide and the first light guide along a height direction of the body;

light of the fifth light source is transmitted through the fifth light guide and through the cover.

In some optional implementations, the signal light structure further includes: a light-blocking member; the light blocking member includes: a fifth through cavity; the first port of the fifth through cavity corresponds to the middle part of the cover body;

the fifth light source and the fifth light guide are arranged in the fifth through cavity, and light of the fifth light source penetrates through the fifth light guide and penetrates through the middle part of the cover body.

In some optional implementations, the signal light structure further includes:

the heat dissipation part is arranged in the accommodating cavity; the at least two first light sources, the first light guide, the at least two second light sources, the second light concentrator, and the second light guide are all fixed to the heat dissipation member;

a first heat insulating member disposed on the heat dissipation member between the heat dissipation member and the first light guide member; a second heat insulator disposed on the heat dissipation member between the heat dissipation member and the second light guide.

In some alternative implementations, the heat sink includes: a first ball and socket and a second ball and socket;

the body includes:

the through hole is communicated with the accommodating cavity;

a first support; the first support includes: the first ball head is connected with the first ball socket in a matched manner; the first connecting part is fixedly connected with the body;

a second support member; the second support member includes: the second ball head is matched and connected with the second ball socket; the second connecting part is fixedly connected with the body;

the signal lamp structure further includes:

the adjusting knob is arranged on the body and is fixedly connected with the heat radiating piece through the through hole; when the adjustment knob is rotated relative to the body, the heat sink is movable relative to the body in a circumferential direction of the body by rotation of the first ball socket relative to the first ball head and by rotation of the second ball socket relative to the second ball head.

The application embodiment also provides a running device, and the running device comprises the signal lamp structure of the application embodiment.

In the embodiment of the application, the first light guide piece is arranged between the at least two first light sources and the cover body, so that the utilization rate of light rays of the at least first light sources can be improved; meanwhile, at least two first light sources are arranged in the accommodating cavity along the width direction of the body, so that the light emitting width of the first light sources along the width direction of the body can be effectively increased.

Drawings

FIG. 1 is an exploded view of an alternative construction of the signal lamp construction of the present embodiment;

FIG. 2 is a schematic diagram of an alternative partial structure of a signal lamp structure in an embodiment of the present application;

FIG. 3 is a schematic view of an alternative partial structure of a signal lamp structure in an embodiment of the present application;

FIG. 4 is a schematic diagram of an alternative partial structure of a signal lamp structure in an embodiment of the present application;

FIG. 5 is a half sectional view of an alternative construction of the signal lamp construction of the embodiment of the subject application;

FIG. 6 is a schematic view of an alternative partial structure of a signal lamp structure in an embodiment of the present application;

FIG. 7 is a schematic view of an alternative partial structure of a signal lamp structure in an embodiment of the present application;

figure 8 is an exploded view of an alternative partial construction of the signal lamp construction in the embodiment of the subject application.

Reference numerals: 101. a third light guide; 1011. a third PCB board; 1012. a third light source; 102. a fourth light guide; 1021. a fourth PCB board; 1022. a fourth light source; 103. a first light guide; 103A, a first sub-first convex surface; 103B, a second sub-first convex surface; 103C, a third sub-first convex surface; 1031. a first PCB board; 1032. a first light-gathering member; 1032A, a first sub-first light gathering piece; 1032B, a second sub-first light gathering piece; 1032C, a third sub-first light gathering piece; 1033. a first sub-first light source; 1034. a second sub-first light source; 1035. a third sub-first light source; 1036. a first sub-third convex surface; 1037. a second sub-third convex surface; 1038. a third sub-third convex surface; 1039. a third sub-second convex surface; 104. a second light guide; 104A, a first sub-sixth convex surface; 104B, a second sub-sixth convex surface; 104C, a third sub-sixth convex surface; 1041. A second PCB board; 1042. a second light condenser; 1042A, a first sub-second condenser; 1042B, a second sub-second condenser; 1042C, a third sub-second condenser; 1043. a first sub-second light source; 1044. a second sub-second light source; 1045. a third sub-second light source; 1046. a first sub-fifth convex surface; 1047. a second sub-fifth convex surface; 1048. a third sub-fifth convex surface; 1049. a third sub-fourth convex surface; 105. a fifth light source; 1051. a fifth PCB board; 1052. a fifth light guide; 106. a light-blocking member; 1061. a first through cavity; 1062. A second through cavity; 1063. a third through cavity; 1064. a fourth through cavity; 1065. a fifth through cavity; 107. a body; 1081. a first thermal insulation member; 1082. a second thermal insulation member; 109. a screw; 201. a cover body; 202. a heat sink; 2021. a first ball socket; 203. adjusting a knob; 204. a backstop pad; 205. a third sub-third accommodation groove; 206. a third sub-fourth accommodating groove; 207. a first support; 208. a second support member; 301. and a controller.

Detailed Description

The present application will be described in further detail below with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the description of the embodiments of the present application, it should be noted that, unless otherwise specified and limited, the term "connected" should be interpreted broadly, for example, as an electrical connection, a communication between two elements, a direct connection, or an indirect connection via an intermediate, and the specific meaning of the terms may be understood by those skilled in the art according to specific situations.

It should be noted that the terms "first \ second \ third" referred to in the embodiments of the present application are only used for distinguishing similar objects, and do not represent a specific ordering for the objects, and it should be understood that "first \ second \ third" may exchange a specific order or sequence order if allowed. It should be understood that "first \ second \ third" distinct objects may be interchanged under appropriate circumstances such that the embodiments of the application described herein may be implemented in an order other than those illustrated or described herein.

The embodiments of the present application describe a signal lamp structure, and the signal lamp structure in the embodiments of the present application is described in detail below with reference to fig. 1 to 8.

As shown in fig. 1 and 2, the signal lamp structure according to the embodiment of the present application includes: a body 107; a cover 201 having light-transmitting properties; a first side of the cover 201 is connected with a first side of the body 107, and an accommodating cavity is formed between the first side of the cover 201 and the first side of the body 107; at least two first light sources arranged in the accommodating cavity along the width direction of the body 107; a first light guide 103 disposed in the accommodating cavity and located between the at least two first light sources and the cover 201; the light rays of the at least two first light sources respectively transmit through the first light guides 103 and the cover 201.

In the embodiment of the present application, the shape and structure of the body 107 are not limited as long as a receiving cavity is formed between the first side of the body 107 and the first side of the cover 201. For example, a first side of the body 107 may be provided with a first receiving groove. As another example, as shown in FIG. 1, the body 107 resembles an arch.

In the embodiment of the present application, the shape and structure of the cover 201 are not limited. For example, a second receiving groove may be disposed on a first side of the cover 201; the second accommodating groove and the first accommodating groove form an accommodating cavity. Here, the shape of the cover 201 matches the shape of the body 107. For example, as shown in FIG. 1, the body 107 is similar to an arch and the cover 201 is similar to an arch.

Here, the shape of the receiving cavity is not limited as long as at least two first light sources and the first light guide 103 can be received. For example, as shown in FIG. 1, the receiving cavity resembles an arch.

Here, the implementation manner of connecting the first side of the cover 201 and the first side of the body 107 is not limited. For example, the first side of the cover 201 and the first side of the body 107 may be connected by a snap or a bolt.

In the embodiment of the present application, the structure of the first light source is not limited as long as it can emit light. For example, the first light source may be a bulb or may be a laser-type structure. As an example, the first light source is a Light Emitting Diode (LED).

Here, the number of the at least two first light sources is not limited. For example, the at least two first light sources may include four first light sources. For another example, the at least two first light sources include a first sub first light source 1033, a second sub first light source 1034 and a third sub first light source 1035 arranged along the width direction of the body 107, and light rays of the first sub first light source 1033, light rays of the second sub first light source 1034 and light rays of the third sub first light source 1035 respectively pass through the first light guide and pass through the cover. Here, the first sub first light source 1033, the second sub first light source 1034, and the third sub first light source 1035 may be the same type of light source, or may be different types of light sources. As an example, the first sub first light source 1033, the second sub first light source 1034, and the third sub first light source 1035 are all high beam lights or all low beam lights. As yet another example, the first and third sub-first

light sources

1033 and 1035 are low beam lights and the second sub-first light source 1034 is a high beam light. Here, the high beam or the low beam can be realized by controlling the current value of the light source to be different. As an example, the current through the high beam is controlled to be 900 amps and the current through the low beam is controlled to be 700 amps.

In the embodiment of the present application, the structure of the first light guide 103 is not limited. As long as the light of at least two first light sources can be guided, so that the light of the first light sources can penetrate through the cover 201 more. For example, the first light guide 103 includes: a first convex surface disposed on the side of the first light guide 103 away from the at least two first light sources; the light rays of the at least two first light sources are respectively gathered through the first convex surface and then penetrate through the cover body 201; so as to improve the utilization rate of the light of the first light source.

Here, the curvature of the first convex surface may be set by a person skilled in the art according to actual needs, so that the light rays of the at least two first light sources are gathered through the first convex surface.

When the at least two first light sources include a first sub-first light source 1033, a second sub-first light source 1034 and a third sub-first light source 1035 arranged along the width direction of the body 107, the light rays of the first sub-first light source 1033, the light rays of the second sub-first light source 1034 and the light rays of the third sub-first light source 1035 may be collected through one first convex surface, or may be collected through different first convex surfaces respectively. As an example, as shown in fig. 4, the first convex surface includes: a first sub-first convex surface 103A corresponding to a position of the first sub-first light source 1033, a second sub-first convex surface 103B corresponding to a position of the second sub-first light source 1034, and a third sub-first convex surface 103C corresponding to a position of the third sub-first light source 1035; the light of the first sub-first light source 1033 is collected by the first sub-first convex surface 103A and passes through the cover 201; the light of the second sub-first light source 1034 is focused through the second sub-first convex surface 103B and passes through the cover 201; the light rays of the third sub-first light source 1035 are collected through the third sub-first convex surface 103C and transmitted through the cover 201; the light emitting area of the first light source can be increased by arranging the first sub-first convex surface 103A, the second sub-first convex surface 103B and the third sub-first convex surface 103C, so that the light emitting area of the signal lamp structure is increased.

It is understood that the first sub-first convex surfaces 103A, the second sub-first convex surfaces 103B, and the third sub-first convex surfaces 103C may all be provided on one first light guide 103, or may be provided on different first light guides 103.

In some optional implementation manners of the embodiment of the present application, the signal lamp structure may further include: the first light gathering part 1032 is arranged in the accommodating cavity and positioned between the at least two first light sources and the cover body 201; the light rays of the at least two first light sources are respectively collected through the first light gathering part 1032 and transmitted through the first light guide 103 and transmitted through the cover 201.

In this implementation, the structure of the first light collector 1032 is not limited as long as the light of the at least two first light sources transmitted through the first light collector 1032 can be collected. For example, the first light gathering member 1032 may be provided with a convex surface, and the light rays of the at least two first light sources are gathered by the convex surface, so that the light rays of the first light sources passing through the first light gathering member 1032 are gathered in a smaller angle range, and the utilization rate of the light rays of the at least two first light sources is improved.

For example, the first light collector 1032 may include: a second convex surface disposed on the first light gathering member 1032 near the at least two first light sources; a third convex surface disposed on the side of the first light gathering member 1032 remote from the at least two first light sources; the third convex surface is opposite to the second convex surface; the light rays of the at least two first light sources are gathered through the second convex surface and the third convex surface and are transmitted through the cover 201 through the first light guide 103; the light rays of the first light sources passing through the first light gathering part 1032 can be gathered in a smaller angle range through the second convex surface and the third convex surface, and the utilization rate of the light rays of the at least two first light sources is improved.

The curvature of the second convex surface and the third convex surface can be set by a person skilled in the art according to actual needs, so that the light rays of the at least two first light sources are gathered through the second convex surface and the third convex surface.

Here, the second convex surface and the third convex surface may be provided on a planar structure, and may also be provided in a concave structure. As an example, the first light gathering member 1032 may further include: the third accommodating groove is formed in the first light gathering part 1032 close to the at least two first light sources; the second convex surface is formed at the bottom of the third accommodating groove; the at least two first light sources are positioned in the third accommodating groove.

When the at least two first light sources include a first sub first light source 1033, a second sub first light source 1034 and a third sub first light source 1035 arranged along the width direction of the body 107, light rays of the first sub first light source 1033, light rays of the second sub first light source 1034 and light rays of the third sub first light source 1035 are respectively collected through the second convex surface and the third convex surface and are transmitted through the first light guide 103 and are transmitted through the cover 201.

As shown in fig. 2 and 3, the second convex surface may include: a first sub-second convex surface corresponding to a position of the first sub-first light source 1033, a second sub-second convex surface corresponding to a position of the second sub-first light source 1034, and a third sub-second convex surface 1039 corresponding to a position of the third sub-first light source 1035; the third convex surface may include: a first sub-third convex surface 1036 corresponding to a position of the first sub-first light source 1033, a second sub-third convex surface 1037 corresponding to a position of the second sub-first light source 1034, and a third sub-third convex surface 1038 corresponding to a position of the third sub-first light source 1035; the first sub-second convex surface is opposite to the first sub-third convex surface 1036, the second sub-second convex surface is opposite to the second sub-third convex surface 1037, and the third sub-second convex surface 1039 is opposite to the third sub-third convex surface 1038; the first sub-first light sources 1033 are gathered through the first sub-second convex surface and the first sub-third convex surface 1036, and are transmitted through the first light guide 103 and through the cover 201; the second sub-first light source 1034 is focused through the second sub-second convex surface and the second sub-third convex surface 1037 and through the first light guide 103 and through the cover 201; the third sub-first light source 1035 is focused through the third sub-second convex surface 1039 and the third sub-third convex surface 1038, and is transmitted through the first light guide 103 and through the cover body 201.

Here, the first sub-second convex surface, the second sub-second convex surface, and the third sub-second convex surface 1039 may have the same curvature to achieve the same type of light; it is also possible to have different curvatures to achieve different types of light.

It is understood that the first sub-second convex surface, the first sub-third convex surface 1036, the second sub-second convex surface, the second sub-third convex surface 1037, the third sub-second convex surface 1039, and the third sub-third convex surface 1038 may be all disposed on one first light gathering member 1032, or may be disposed on different first light gathering members 1032. As an example, as shown in fig. 2, the first light collector 1032 includes: a first sub-first light gathering member 1032A, the first sub-second convex surface and the first sub-third convex surface 1036 being disposed on the first sub-first light gathering member 1032A; a second sub-first light gathering member 1032B, the second sub-second convex surface and the second sub-third convex surface 1037 being disposed on the second sub-first light gathering member 1032B; the third sub-first light gathering member 1032C, the third sub-second convex surface 1039 and the third sub-third convex surface 1038 are disposed on the third sub-first light gathering member 1032C. Here, the first sub-first light collector 1032A, the second sub-first light collector 1032B, and the third sub-first light collector 1032C may be formed as separate bodies or as an integral body.

Here, as shown in fig. 3, the third receiving groove may include: the bottom of the first sub third containing groove forms the first sub second convex surface; the first sub first light source 1033 is located in the third receiving groove; the bottom of the second sub-third containing groove forms a second sub-second convex surface; the second sub first light source 1034 is located in the second sub third receiving groove; a third sub-third receiving groove 205, a bottom of the third sub-third receiving groove 205 forming the third sub-second convex surface 1039; the third sub-first light source 1035 is located in the third sub-third receiving groove 205.

Of course, the light rays of the first sub-first light source 1033, the second sub-first light source 1034 and the third sub-first light source 1035 may be focused through different positions of the same second convex surface and the third convex surface, respectively, and transmitted through the first light guide 103 and the cover 201.

In some optional implementation manners of the embodiment of the present application, the signal lamp structure may further include: at least two second light sources arranged in the accommodating cavity and positioned on one side of the at least two first light sources along the height direction of the body 107; the second light condenser 1042 is disposed in the accommodating cavity and located between the at least two second light sources and the cover 201; a second light guide 104 disposed in the accommodating cavity and located between the second light collector 1042 and the cover 201; the light rays of the at least two second light sources are respectively condensed by the second light condenser 1042 and transmitted by the second light guide 104 to be transmitted through the cover 201; the signal lamp structure can be simplified by arranging the at least two first light sources and the at least two second light sources in the same accommodating cavity.

In this implementation, the at least two second light sources, the second light condenser 1042 and the second light guide 104 are similar to the at least two first light sources, the first light condenser 1032 and the first light guide 103, respectively, and are not described herein again.

In this implementation, the at least two second light sources may include a first sub-second light source 1043, a second sub-second light source 1044, and a third sub-second light source 1045 disposed along the width direction of the body 107; the second light condenser 1042 includes: a fourth convex surface disposed on the second light condensing member 1042 near the at least two second light sources; a fifth convex surface, disposed on the side of the second light condensing member 1042 away from the at least two second light sources, and disposed opposite to the fourth convex surface; the second light guide 104 may include: a sixth convex surface disposed on the side of the second light guide 104 away from the at least two first light sources; the light rays of the first sub-second light source 1043, the light rays of the second sub-second light source 1044 and the light rays of the third sub-second light source 1045 are respectively focused through the fourth convex surfaces and the fifth convex surfaces and focused through the sixth convex surfaces and transmitted through the cover 201; after the light rays of the first sub-second light source 1043, the light rays of the second sub-second light source 1044 and the light rays of the third sub-second light source 1045 are collected by the fourth convex surfaces, the fifth convex surfaces and the sixth convex surfaces, the utilization rate of the light rays of the first sub-second light source 1043, the second sub-second light source 1044 and the third sub-second light source 1045 can be improved.

Here, the fourth convex surface, the fifth convex surface and the sixth convex surface are similar to the first convex surface, the second convex surface and the third convex surface, respectively, and are not described again.

For example, as shown in fig. 2, 4 and 5, the fourth convex surface may include: a first sub-fourth convex surface corresponding to the position of the first sub-second light source 1043, a second sub-fourth convex surface corresponding to the position of the second sub-second light source 1044, and a third sub-fourth convex surface 1049 corresponding to the position of the third sub-second light source 1045; the fifth convex surface includes: a first sub-fifth convex surface 1046 corresponding to a position of the first sub-second light source 1043, a second sub-fifth convex surface 1047 corresponding to a position of the second sub-second light source 1044, and a third sub-fifth convex surface 1048 corresponding to a position of the third sub-second light source 1045; the sixth convex surface includes: a first sub-sixth convex surface 104A corresponding to a position of the first sub-second light source 1043, a second sub-sixth convex surface 104B corresponding to a position of the second sub-second light source 1044, and a third sub-sixth convex surface 104C corresponding to a position of the third sub-second light source 1045; light rays of the first sub-second light source 1043 are collected through the first sub-fourth convex surface and the first sub-fifth convex surface 1046, and collected through the first sub-sixth convex surface 104A and pass through the cover 201; the light rays of the second sub-second light source 1044 are collected through the second sub-fourth convex surfaces and the second sub-fifth convex surfaces 1047, and collected through the second sub-sixth convex surfaces 104B and transmitted through the cover 201; the light rays of the third sub-second light source 1045 are collected by the third sub-fourth convex surface 1049 and the fourth sub-fifth convex surface, and collected by the third sub-sixth convex surface 104C and transmitted through the cover 201; the utilization rate of the light of the first sub-first light source 1033 can be improved by the first sub-fourth convex surface, the first sub-fifth convex surface 1046 and the first sub-sixth convex surface 104A; the utilization rate of the light of the second sub-first light source 1034 can be improved through the second sub-fourth convex surface, the second sub-fifth convex surface 1047 and the second sub-sixth convex surface 104B; as shown in fig. 6, the utilization rate of the light rays of the third sub-first light source 1035 can be improved by the third sub-fourth convex surface 1049, the third sub-fifth convex surface 1048 and the third sub-sixth convex surface 104C; the light emitting area of the second light source can be increased by arranging the first sub-sixth convex surface 104A, the second sub-sixth convex surface 104B and the third sub-sixth convex surface 104C, so that the light emitting area of the signal lamp structure is increased.

It is understood that the first sub-fourth convex surfaces, the first sub-fifth convex surfaces 1046, the second sub-fourth convex surfaces, the second sub-fifth convex surfaces 1047, the third sub-fourth convex surfaces 1049, and the third sub-fifth convex surfaces 1048 may all be disposed on one second light focusing member 1042, or may be disposed on different second light focusing members 1042. As an example, as shown in fig. 2, the second light condenser 1042 includes: the first sub-second light condenser 1042A, the first sub-fourth convex surface and the first sub-fifth convex surface 1046 are disposed on the first sub-second light condenser 1042A; the second sub-second light condenser 1042B, and the second sub-fourth convex surface and the second sub-fifth convex surface 1047 are disposed on the second sub-second light condenser 1042B; the third sub-second light-condensing member 1042C, the third sub-fourth convex surface 1049 and the third sub-fifth convex surface 1048 are disposed on the third sub-second light-condensing member 1042C. Here, the first sub-second light condenser 1042A, the second sub-second light condenser 1042B, and the third sub-second light condenser 1042C may be of a separate structure or an integral structure. The first sub-sixth convex surface 104A, the second sub-sixth convex surface 104B, and the third sub-sixth convex surface 104C may be all disposed on one second light guide 104, or may be disposed on different second light guides 104.

As an example, the second light condenser 1042 may further include: a fourth receiving groove disposed on the second light condensing member 1042 near the at least two second light sources; the bottom of the fourth accommodating groove forms the fourth convex surface; the at least two second light sources are positioned in the fourth accommodating groove.

As shown in fig. 5 and 6, the fourth receiving groove may include: the bottom of the first sub-fourth containing groove forms the first sub-fourth convex surface; the first sub second light source 1043 is located in the first sub fourth containing groove; the bottom of the second sub-fourth containing groove forms a second sub-fourth convex surface; the second sub second light source 1044 is located in the second sub fourth receiving groove; a third sub-fourth receiving groove 206, wherein a bottom of the third sub-fourth receiving groove 206 forms the third sub-fourth convex surface 1049; the third sub second light source 1045 is located in the third sub fourth receiving groove 206.

In this implementation, the first light source and the second light source may be the same type of light source or different types of light sources. When the first light source and the second light source are different types of light sources, different effects can be achieved by adjusting the curvature of the convex surface through which the light of the first light source passes and the curvature of the convex surface through which the light of the second light source passes. As an example, when the first light guide 103 includes: a first convex surface, the second light guide 104 comprising: when the sixth convex surface; the curvature of the first convex surface is greater than the curvature of the fourth convex surface; correspondingly, the at least two first light sources are high beams, and the at least two second light sources are low beams; or, the curvature of the first convex surface is smaller than that of the fourth convex surface, correspondingly, the at least two first light sources are dipped headlights, and the at least two second light sources are high headlights. Here, a convex surface with a large curvature can make the distance of light irradiation longer, and a convex surface with a small curvature can make the range of light irradiation larger.

In some optional implementation manners of the embodiment of the present application, the signal lamp structure may further include: a third light source 1012 disposed in the accommodating chamber; on a first side of the at least two first light sources in a width direction of the body 107; a fourth light source 1022 disposed in the accommodating cavity; on a second side of the at least two first light sources in a width direction of the body 107; the second sides of the at least two first light sources are arranged opposite to the first sides of the at least two first light sources; the light of the third light source 1012 and the light of the fourth light source 1022 are transmitted through the cover 201, respectively.

In this implementation, the third light source 1012 and the fourth light source 1022 are similar to the first light source, and are not described herein again.

In this implementation, the signal lamp structure may further include: the light-isolating piece 106 is arranged in the accommodating cavity and is positioned close to the cover body 201; the light blocking member 106 includes: a first through cavity 1061, a second through cavity 1062, a third through cavity 1063 and a fourth through cavity 1064; a first port of the first through cavity 1061 corresponds to a position of a first side of the cover 201, a first port of the second through cavity 1062 corresponds to a position of a second side of the cover 201, and the second side of the cover 201 is opposite to the first side of the cover 201; the first port of the third through cavity 1063 corresponds to the position of the third side of the cover 201, and the first port of the fourth through cavity 1064 corresponds to the position of the fourth side of the cover 201; the fourth side of the cover 201 is opposite to the third side of the cover 201, and is respectively adjacent to the second side of the cover 201 and the first side of the cover 201; when the signal lamp structure further includes: the at least two second light sources, the second light collector 1042 and the second light guide 104; the at least two first light sources and the first light guide 103 are disposed within the first through cavity 1061; the light of the at least two first light sources is transmitted through the first light guide 103 and the first side of the cover 201, and the at least two second light sources, the second light condenser 1042 and the second light guide 104 are disposed in the second through cavity 1062; the light rays of the at least two second light sources are collected through the second light gathering member 1042 and are transmitted through the second light guiding member 104 and transmitted through the second side of the cover 201; a third light source 1012 disposed in the third through cavity 1063; the light of the third light source 1012 passes through the first port of the third through cavity 1063 and passes through the third side of the cover 201; a fourth light source 1022 disposed within the fourth sub-cavity 1064; the light of the fourth light source 1022 passes through the first port of the fourth through-cavity 1064 and the fourth side of the casing 201; the at least two first light sources, the at least two second light sources, the third light source 1012 and the fourth light source 1022 are separated by the light-isolating piece 106, so that the light rays of the at least two first light sources, the at least two second light sources, the third light source 1012 and the fourth light source 1022 can penetrate through different positions of the cover body 201 without mutual influence; the signal lamp structure can be simplified by arranging at least two first light sources, at least two second light sources, a third light source 1012 and a fourth light source 1022 in the same accommodating cavity.

The signal lamp structure may further include: a first PCB 1031 disposed at the second port side of the first through cavity 1061; the at least two first light sources are disposed on one side of the first PCB 1031 corresponding to the first port of the first through cavity 1061; the first light source can be provided with electricity through the first PCB 1031, and light of the first light source can be blocked from being emitted from the second port side of the first through cavity 1061; a second PCB 1041 disposed at a second port side of the second through cavity 1062; the at least two second light sources are disposed on one side of the second PCB 1041 corresponding to the first port of the second through cavity 1062; at least two second light sources can be provided with electricity through the second PCB 1041, and light rays of the at least two second light sources can be blocked from exiting from the second port side of the second through cavity 1062; a third PCB 1011 disposed at a second port side of the third through cavity 1063; the third light source 1012 is disposed on one side of the third PCB 1011 corresponding to the first port of the third through cavity 1063; the third light source 1012 can be provided with electricity through the third PCB 1011, and the light of the third light source 1012 can be blocked from being emitted from the second port side of the third through cavity 1063; a fourth PCB 1021 arranged at a second port side of the fourth through-cavity 1064; the fourth light source 1022 is disposed on a side of the fourth PCB 1021 corresponding to the first port of the fourth through-cavity 1064, and power can be supplied to the fourth light source 1022 through the fourth PCB 1021, and light from the fourth light source 1022 can be blocked from exiting from the second port of the fourth through-cavity 1064.

Here, the signal lamp structure may further include: a third light guide 101 disposed in the third through cavity 1063, a first side of the third light guide 101 being provided with a first groove, the first side of the third light guide 101 being disposed adjacent to a side of the third PCB 1011 corresponding to the first port of the third through cavity 1063, the third light source 1012 corresponding to the first groove, and a second side of the third light guide 101 being located at the first port side of the third through cavity 1063; the light of the third light source 1012 is collected through the first groove and passes through the third side of the cover 201; a fourth light guide 102 disposed in the fourth through-hole 1064, a first side of the fourth light guide 102 being provided with a second groove, the first side of the fourth light guide 102 being disposed adjacent to a side of the fourth PCB 1021 corresponding to the first port of the fourth through-hole 1064, the fourth light source 1022 corresponding to the second groove, and a second side of the fourth light guide 102 being located at the first port side of the fourth through-hole 1064; the light of the fourth light source 1022 is collected through the second groove and transmitted through the fourth side of the cover 201; the third light guide 101 can conduct the light of the third light source 1012 and gather the light of the third light source 1012 through the first groove, so that the utilization rate of the light of the third light source 1012 is improved; the light of the fourth light source 1022 can be transmitted through the fourth light guide 102, and the light of the third light source 1012 can be collected through the second groove, so that the utilization rate of the light of the fourth light source 1022 is improved.

Here, the third light guide 101 and the fourth light guide 102 are similar to the first light guide 103 described above and are not described again.

In some optional implementations of the present application, the signal lamp structure may further include: a fifth light source 105 disposed in the accommodating cavity; between the at least two second light sources and the at least two first light sources in the height direction of the body 107; a fifth light guide 1052 disposed in the accommodating cavity, between the fifth light source 105 and the cover 201, and between the second light guide 104 and the first light guide 103 along a height direction of the body 107; light of the fifth light source 105 is transmitted through the fifth light guide 1052 and through the cover 201.

In an implementation manner, as shown in fig. 1 and 7, the signal lamp structure may further include: a light-blocking member 106; the light blocking member 106 may include: a fifth through cavity 1065; a first port of the fifth through cavity 1065 corresponds to the middle of the cover 201; the fifth light source 105 and a fifth light guide 1052 are disposed within the fifth through cavity 1065; light of the fifth light source 105 is transmitted through the fifth light guide 1052 and through the middle part of the cover 201; the signal lamp structure can be simplified by arranging at least two first light sources, at least two second light sources and a fifth light source 105 in the same accommodating cavity; meanwhile, the at least two first light sources, the at least two second light sources and the fifth light source 105 are separated by the light-shielding member 106, so that the light rays of the at least two first light sources, the at least two second light sources and the fifth light source 105 can penetrate through different positions of the cover 201.

Here, the fifth light source 105 and the fifth light guide 1052 are similar to the first light source and the first light guide 103, respectively, and thus, a detailed description thereof is omitted. As an example, the signal lamp structure may further include: a fifth PCB 1051 disposed at a second port side of the fifth through cavity 1065; the fifth light source 105 is disposed on a side of the fifth PCB 1051 corresponding to the first port of the fifth through cavity 1065.

Of course, the light-shielding member 106 may be provided with a first through cavity 1061, a second through cavity 1062, a third through cavity 1063, a fourth through cavity 1064 and a fifth through cavity 1065; wherein the first port of the fifth through cavity 1065 is located between the first port of the first through cavity 1061 and the first port of the second through cavity 1062; the signal light structure may simultaneously include at least two first light sources, at least two second light sources, a third light source 1012, a fourth light source 1022, and a fifth light source 105; in order to achieve a variety of types of light sources. As an example, when the signal light structure includes the at least two first light sources, the at least two second light sources, the third light source 1012, the fourth light source 1022, and the fifth light source 105, the at least two first light sources are high beam lights, the at least two second light sources are low beam lights, the third light source 1012 is a first turn signal light, the fourth light source 1022 is a second turn signal light, and the fifth light source 105 is a position light; or, the at least two first light sources are dipped headlights, the at least two second light sources are high headlights, the third light source 1012 is a first turn signal light, the fourth light source 1022 is a second turn signal light, and the fifth light source 105 is a position light. Here, as shown in fig. 1, the signal lamp structure may further include: a controller 301 electrically connected to the at least two first light sources, the at least two second light sources, the third light source 1012, the fourth light source 1022, and the fifth light source 105, respectively; so as to control the at least two first light sources, the at least two second light sources, the third light source 1012, the fourth light source 1022 and the fifth light source 105 to operate, respectively.

Here, when the first turn signal is a left turn signal, the second turn signal is a right turn signal; when the first steering indicating light is a right steering indicating light, the second steering indicating light is a left steering indicating light.

In some optional implementations of the embodiment of the present application, as shown in fig. 1 and 8, the signal lamp structure may further include: the heat dissipation member 202 is arranged in the accommodating cavity; the at least two first light sources, the first light collector 1032, the first light guide 103, the at least two second light sources, the second light collector 1042, and the second light guide 104 are all fixed on the heat dissipation member 202; a first heat insulating member 1081 disposed on the heat dissipation member 202 between the heat dissipation member 202 and the first light guide 103; a second thermal insulation member 1082 disposed on the heat dissipation member 202 between the heat dissipation member 202 and the second light guide 104; so that the at least two first light sources and the at least two second light sources are radiated by the heat radiating member 202, and heat can be prevented from being conducted to the first light guide 103 and the second light guide 104 by the first heat insulator 1081 and the second heat insulator 1082, thereby preventing the first light guide 103 and the second light guide 104 from being thermally deformed.

Here, the implementation of the first light guide 103 and the second light guide 104 fixed to the heat dissipation member 202 is not limited. For example, as shown in fig. 4 and 8, the first light guide 103 and the second light guide 104 are fixed to the heat dissipation member 202 by a screw 109.

Here, the structure of the heat sink 202 is not limited. As an example, as shown in fig. 1 and 5, the heat sink 202 may include: a first ball socket 2021 and a second ball socket; the body 107 may include: the through hole is communicated with the accommodating cavity; a first support 207; the first support 207 includes: the first ball head is matched and connected with the first ball socket 2021; a first connecting portion fixedly connected to the body 107; a second support 208; the second support 208 includes: the second ball head is matched and connected with the second ball socket; a second connecting portion fixedly connected to the body 107; the signal lamp structure may further include: the adjusting knob 203 is arranged on the body 107 and is fixedly connected with the heat sink 202 through the through hole; when the adjustment knob 203 is rotated relative to the body 107, the heat sink 202 is movable relative to the body 107 in the circumferential direction of the body 107 by the first ball socket 2021 rotating relative to the first ball and by the second ball socket rotating relative to the second ball; the position of the heat sink 202 with respect to the circumferential direction of the body 107 is adjusted by means of an adjustment knob 203, thereby further adjusting the position of the at least two first light sources and the at least two second light sources with respect to the circumferential direction of the body 107. The circumferential direction of the body 107 is the width direction of the body 107 and the height direction of the body 107; the height direction of the body 107 is the direction E shown in fig. 2, and the width direction of the body 107 is the direction F shown in fig. 2.

It will be understood by those skilled in the art that when the at least two first light sources, the first light collector 1032 and the first light guide 103 are located in the first through cavity 1061, the adjusting knob 203 does not collide with the inner wall of the first through cavity 1061 when the at least two first light sources, the first light collector 1032 and the first light guide 103 are adjusted by the heat sink 202 to move in the circumferential direction of the body 107 relative to the body 107; when the at least two second light sources, the second light condenser 1042 and the second light guide 104 are located in the second through cavity 1062, the adjusting knob 203 adjusts, through the heat sink 202, the at least two second light sources, the second light condenser 1042 and the second light guide 104 not to collide with the inner wall of the second through cavity 1062 when moving in the circumferential direction of the body 107 relative to the body 107.

Here, in order to prevent the heat sink 202 from moving in a direction away from or toward the body 107, the signal lamp structure may further include a back-stop pad 204 disposed between the body 107 and the adjusting knob 203, and the adjusting knob 203 is fixedly disposed in a direction away from or toward the body 107 with respect to the body 107 through the back-stop pad 204.

In the embodiment of the present application, the first light guide 103 is disposed between the at least two first light sources and the cover 201, so that the utilization rate of the light of the at least two first light sources can be improved; meanwhile, at least two first light sources are arranged in the accommodating cavity along the width direction of the body 107, so that the light emitting width of the first light sources along the width direction of the body 107 can be effectively increased.

The embodiment of the application also describes a running device, and the running device comprises the signal lamp structure described in the embodiment of the application.

Here, the traveling device may be an electric motorcycle or an electric motorcycle.

The above description is only for the specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily conceive of the changes or substitutions within the technical scope of the present application, and shall be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims

1. A signal lamp structure, characterized in that the signal lamp structure comprises:

a body;

2. The signal light structure of claim 1, wherein the at least two first light sources include a first sub first light source, a second sub first light source, and a third sub first light source arranged in a width direction of the body;

3. The signal light structure according to claim 1, wherein the first light guide includes:

4. The signal light structure of claim 3, wherein the at least two first light sources include a first sub first light source, a second sub first light source, and a third sub first light source arranged in a width direction of the body;

5. The signal light structure of claim 1, further comprising: the first light gathering piece is arranged in the accommodating cavity and positioned between the at least two first light sources and the cover body;

6. The signal light structure as defined in claim 5, wherein the first light gathering member includes:

7. The signal light structure of claim 6, wherein the at least two first light sources include a first sub first light source, a second sub first light source, and a third sub first light source arranged in a width direction of the body;

8. The signal light structure as defined in claim 6, wherein the first light gathering member further comprises:

9. The signal light structure of any of claims 1 to 8, further comprising:

10. The signal lamp structure as claimed in claim 9,

the at least two second light sources comprise a first sub second light source, a second sub second light source and a third sub second light source which are arranged along the width direction of the body;

the second light condenser includes:

the second light guide includes:

11. The signal light structure as defined in claim 10, wherein the fourth convex surface includes: a first sub-fourth convex surface corresponding to a position of the first sub-second light source, a second sub-fourth convex surface corresponding to a position of the second sub-second light source, and a third sub-fourth convex surface corresponding to a position of the third sub-second light source;

the light rays of the first sub second light source penetrate through the first sub fourth convex surface and the first sub fifth convex surface to be gathered, and penetrate through the first sub sixth convex surface to be gathered and penetrate through the cover body; the light rays of the second sub second light source penetrate through the second sub fourth convex surface and the second sub fifth convex surface to be gathered, and penetrate through the second sub sixth convex surface to be gathered and penetrate through the cover body; the light rays of the third sub-second light source penetrate through the third sub-fourth convex surface and the third sub-fifth convex surface to be gathered, and penetrate through the third sub-sixth convex surface to be gathered and penetrate through the cover body.

12. The signal light structure according to claim 10, wherein when the first light guide includes a first convex surface and the second light guide includes a sixth convex surface;

13. The signal light structure of claim 9, further comprising:

14. The signal light structure of claim 13, further comprising:

15. The signal light structure of claim 14, further comprising:

the first PCB is arranged on the second port side of the first through cavity; the at least two first light sources are arranged on one side of the first PCB corresponding to the first port of the first through cavity;

16. The signal light structure of claim 15, further comprising:

17. The signal light structure as defined in any one of claims 13 to 16, wherein said at least two first light sources are high beams, said at least two second light sources are low beams, said third light source is a first turn signal light, and said fourth light source is a second turn signal light; or, the at least two first light sources are dipped headlights, the at least two second light sources are high beams, the third light source is a first steering light, and the fourth light source is a second steering light.

18. The signal light structure of claim 9, further comprising:

19. The signal light structure of claim 18, further comprising: a light-blocking member; the light blocking member includes: a fifth through cavity; the first port of the fifth through cavity corresponds to the middle part of the cover body;

20. The signal light structure of claim 9, further comprising:

21. The signal lamp structure as claimed in claim 20,

the heat sink includes: a first ball and socket and a second ball and socket;

the body includes:

the through hole is communicated with the accommodating cavity;

the signal lamp structure further includes:

22. A running apparatus, characterized in that the running apparatus includes the signal lamp structure according to any one of claims 1 to 21.