CN113016109B - Luminous flat cable structure - Google Patents

Abstract

A light emitting flat cable structure comprises an optical fiber, a light bar, a plurality of signal wires or power wires and an outer cover. The outer coating is made of light-permeable materials and is used for coating the optical fibers, the light bars and the cables. The light emitting flat cable structure further comprises a connector, a circuit board, a controller, a shell, a plurality of light emitting components and a plurality of external signal wires. The connector comprises a connecting terminal, the circuit board comprises a terminal welding part, a cable welding part, a luminous component welding part and a controller welding part, the connecting terminal is electrically connected with the terminal welding part, the controller is connected with the controller welding part, and the luminous component is connected with the luminous component welding part. The external signal line is used for conducting the power supply signal and the control signal. The light emitting component or the light bar is used for generating light according to the power control signal. The signal line is used for transmitting data signals.

Description

Luminous flat cable structure

Technical Field

The present invention relates to a light emitting bus, and more particularly to a light emitting bus structure for SATA standards.

Background

The flexible flat cable (FFC/Flexible Flat Cable) is widely used in related electronic products due to the bending property of the electrical wires, and the flexible flat cable is usually provided with an electrical connector for facilitating the electrical connection and the purpose of electrical bending connection. However, the electronic products are increasingly designed with importance, and the conventional flexible flat cable not only needs to transmit signals, but also needs to use the light source of the optical assembly to generate different visual effects through combination with the optical assembly, thereby increasing the attractive force of the product to consumers. The application of light emitting diodes (Light Emitting Diode, LEDs) can be broadly divided into a display function and a lighting function, and in order to meet the visual demands of the modern society, LEDs are widely used in various lighting applications. The luminous flat cable structure of this creation sets up components such as optic fibre, LED lamp strip, signal line or cable through the accepting groove of outer quilt, and when components such as optic fibre, LED lamp strip, signal line or cable set up in the accepting groove, have the clearance with the accepting groove between, can improve the softness of luminous flat cable and the convenient degree of loading and unloading.

Disclosure of Invention

The purpose of this creation provides a luminous winding displacement structure, can send light at the in-process of transmission signal to increase visual effect.

The purpose of this creation is to provide a luminous winding displacement structure, and this luminous winding displacement structure is used for setting up components such as optic fibre, LED lamp strip, signal line or cable through the accepting groove of outer quilt, and when components such as optic fibre, LED lamp strip, signal line or cable set up in the accepting groove, have the clearance with the accepting groove, can improve the softness of luminous winding displacement and the degree of convenience of loading and unloading.

The present invention provides a light-emitting cable structure, which comprises a light bar, a cable and an outer cover. The light bar is an optical fiber or an LED light bar, and the optical fiber or the LED light bar is used for transmitting or emitting light. The cable is a signal line or a power line for transmitting electronic data signals. The outer cover is made of a light-permeable material, the light bar and the cable are coated in the outer cover, the outer cover comprises a containing groove, the containing groove is used for arranging the light bar or the cable, and the cable and the light bar are arranged in parallel.

According to the embodiment of the invention, the light bar is arranged in the accommodating groove, and a gap is arranged between the light bar and the accommodating groove.

According to the embodiment of the invention, the cable is arranged in the accommodating groove, and a gap is arranged between the cable and the accommodating groove.

According to the embodiment of the present invention, the outer layer of the optical fiber is provided with a sheath.

According to the embodiment of the invention, the wire protection sleeve is further included, and the wire protection sleeve is clamped with the outer cover.

According to the embodiment of the invention, the connector, the circuit board and the shell are further included. The connector comprises a plurality of connecting terminals, and the cable is electrically connected with the connecting terminals. The circuit board comprises a plurality of light-emitting component welding parts. The shell covers the circuit board.

According to the embodiment of the invention, the LED display device further comprises a plurality of light emitting components, the light emitting components are connected to the light emitting component welding parts, and the light bar is connected to the light emitting components.

According to the embodiment of the invention, the LED package further comprises a transfer line electrically connected with the light emitting component welding parts and the light bar.

According to the embodiment of the invention, the circuit board further comprises a plurality of external signal wires, the circuit board comprises a plurality of external signal wire welding parts, the external signal wires are connected to the external signal wire welding parts, and the shell wraps part of the external signal wires.

According to the embodiment of the invention, the shell comprises a first cover body and a second cover body, and the first cover body and the second cover body are combined to cover the circuit board.

According to the embodiment of the invention, the cable connector further comprises a plurality of terminal welding parts and a plurality of cable welding parts, wherein the connecting terminals are electrically connected with the terminal welding parts, and the cables are connected with the cable welding parts.

According to the embodiment of the invention, the circuit board comprises a plurality of controller welding parts, and further comprises a controller connected with the controller welding parts.

According to the embodiment of the invention, the light bar is an LED light bar, and the light bar is driven by external signals transmitted by the external signal lines.

According to the embodiment of the invention, the LED module further comprises a light emitting module connected to the welding parts of the light emitting modules, and the light emitting module is driven by external signals transmitted by the external signal wires.

According to the embodiment of the invention, the light bar is directly welded with the external signal wires or is connected with the external signal wires through the circuit board.

According to the embodiment of the invention, the light emitting components are directly welded with the external signal wires or are connected with the external signal wires through the circuit board.

According to the embodiment of the invention, the circuit board further comprises a plurality of external signal wire welding parts, wherein the circuit board comprises a first surface, and the light emitting component welding parts, the external signal wire welding parts and the controller welding parts are arranged on the first surface.

According to the embodiment of the invention, the circuit board comprises a second surface, and the terminal welding parts and the cable welding parts are arranged on the second surface.

According to the embodiment of the invention, the light bar is an LED light bar, the light bar is electrically connected with the welding parts of the light emitting components, and the light bar is driven by the controller.

According to the embodiment of the invention, the LED display device further comprises a light emitting component, wherein the light emitting component is connected to the welding parts of the light emitting components, and the light emitting component is driven by the controller.

Compared with the prior art, the light-emitting flat cable structure is used for arranging light bars such as optical fibers or LED light bars and cables such as signal wires or power wires through the accommodating grooves of the outer cover, and a gap is formed between the light bars or the cables and the accommodating grooves when the light bars or the cables are arranged in the accommodating grooves, so that the softness of the light-emitting flat cable and the convenience in assembly and disassembly can be improved.

For a further understanding of the nature and technical aspects of the present invention, reference should be made to the following detailed description of the invention and to the accompanying drawings, which are provided for purposes of reference only and are not intended to limit the invention.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 and 2 are exploded views of the light emitting bus bar structure of the present embodiment from opposite angles.

Fig. 3 is a perspective view of a light emitting flat cable structure according to the present embodiment.

Fig. 4 is a front view of the light emitting flat cable structure of fig. 3.

Fig. 5 and 6 are block diagrams of the light emitting flat cable structure of fig. 1, which are viewed from opposite angles after the connector, the circuit board, the cover and the LED light bar are combined.

Fig. 7 and 8 are block diagrams of the light emitting flat cable structure of fig. 5, in which the wire protective cover and the jacket are combined and then viewed from opposite angles.

Fig. 9 and 10 are block diagrams of the light emitting flat cable structure of fig. 7, in which the external signal lines and the second cover are combined with the circuit board and then viewed from opposite angles.

Fig. 11 is an exploded view of a light emitting flat cable structure according to another embodiment of the present invention.

Fig. 12 is a front view of the first surface of the circuit board in the light emitting flat cable structure of fig. 11.

Fig. 13 is a front view of the light emitting flat cable structure of fig. 4, with an optical fiber disposed in a receiving groove.

Fig. 14 is a front view of the light emitting flat cable structure of fig. 4, with the cable disposed in the receiving slot.

Fig. 15 is a front view of the light emitting flat cable structure of fig. 13, with the cable disposed in the receiving groove.

Detailed Description

To further understand the present inventionAuthoringThe features, technical means, and specific functions and objects achieved by the present invention are described in more detail below with reference to the drawings and figures.

The following description of the embodiments refers to the accompanying drawings, which illustrate specific embodiments in which the present teachings may be practiced. The directional terms mentioned in this specification, such as "up", "down", "front", "back", "left", "right", "top", "bottom", "horizontal", "vertical", etc., refer only to the directions of the attached drawings. Thus, directional terms are used to illustrate and understand the present composition and are not intended to limit the present composition.

Referring to fig. 1, fig. 2 and fig. 3, fig. 1 and fig. 2 are exploded views of a light emitting flat cable structure 100 according to the present embodiment from opposite angles. Fig. 3 is a perspective view of a light emitting flat cable structure according to the present embodiment. The light emitting bus structure 100 includes an LED light bar 110, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a controller 160, a housing 170, an external signal line 162, a housing 170, and a wire protective sleeve 134. The LED light bar 110 includes a patch cord 112, and the LED light bar 110 is configured to emit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the cable 120 is wrapped in the outer cover 130, the outer cover 130 comprises a containing groove 132, the containing groove 132 is used for arranging the LED light bars 110, and the LED light bars 110 are arranged in parallel with the cable 120. The connector 140 includes a connection terminal 142. The circuit board 150 includes a terminal soldering portion 159, a cable soldering portion 158, a component soldering portion 154, a controller soldering portion 153 and an external signal wire soldering portion 155, the connection terminal 142 is electrically connected to the terminal soldering portion 159, the cable 120 is connected to the cable soldering portion 158, the patch cord 112 is connected to the component soldering portion 154, the circuit board 150 includes a first surface 152 and a second surface 157, the first surface 152 includes the controller soldering portion 153, the component soldering portion 154 and the external signal wire soldering portion 155, and the second surface 157 includes the cable soldering portion 158 and the terminal soldering portion 159. The controller 160 is connected to the controller welding portion 153. The housing 170 includes a first cover 172 and a second cover 173, and the first cover 172 and the second cover 173 are combined to cover the circuit board 150. The external signal line 162 is connected to the external signal line soldering portion 155, and the first cover 172 and the second cover 173 are combined to cover part of the external signal line 162. The wire protective sleeve 134 is combined with the outer cover 130, and the first cover 172 and the second cover 173 are combined to cover part of the wire protective sleeve 134.

Please refer to fig. 1, 2 and 4. Fig. 4 is a front view of the light emitting flat cable structure of fig. 3. The light emitting bus structure 100 includes an LED light bar 110, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a housing 170, an external signal wire 162, a housing 170, and a wire protective sleeve 134. The LED light bar 110 includes a patch cord 112, and the LED light bar 110 is configured to emit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the cable 120 is wrapped in the outer cover 130, the outer cover 130 comprises a containing groove 132, the containing groove 132 is used for arranging the LED lamp strips 110, and a gap 133 is formed between the containing groove 132 and the LED lamp strips 110, so that the light-emitting flat wire structure 100 has better flexibility and convenience in assembly and disassembly, and the LED lamp strips 110 are arranged in parallel with the cable 120. The circuit board 150 is combined with the connector 140, the cable 120, the housing 170, the cover 130, the LED light bar 110. The wire protective sheath 134 is combined with the outer cover 130, and the housing 170 encloses a portion of the wire protective sheath 134 and a portion of the external signal wire 162.

Please refer to fig. 1, 2, 5 and 6. Fig. 5 and 6 are block diagrams of the light emitting bus bar structure 100 of fig. 1, which are viewed from opposite angles after the connector 140, the circuit board 150, the cover 130, and the LED light bar 110 are combined. The light emitting bus structure 100 includes an LED light bar 110, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a controller 160, a housing 170, an external signal line 162, a housing 170, and a wire protective sleeve 134. The LED light bar 110 includes a patch cord 112, and the LED light bar 110 is configured to emit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the cable 120 is wrapped in the outer cover 130, the outer cover 130 comprises a containing groove 132, the containing groove 132 is used for arranging the LED light bars 110, and the LED light bars 110 are arranged in parallel with the cable 120. The connector 140 includes a connection terminal 142. The circuit board 150 includes a terminal soldering portion 159, a cable soldering portion 158, a component soldering portion 154, and a controller soldering portion 153, the connection terminal 142 is electrically connected to the terminal soldering portion 159, the cable 120 is connected to the cable soldering portion 158, and the patch cord 112 is connected to the component soldering portion 154. The controller 160 is connected to the controller welding portion 153. The housing 170 includes a first cover 172 and a second cover 173.

Please refer to fig. 1, 2, 7 and 8. Fig. 7 and 8 are block diagrams of the light emitting flat cable structure 100 of fig. 5, in which the wire protective sheath 134 is combined with the outer cover 130 and viewed from the opposite perspective. The light emitting bus structure 100 includes an LED light bar 110, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a controller 160, a housing 170, an external signal line 162, a housing 170, and a wire protective sleeve 134. The cable 120 is wrapped in the outer cover 130, the outer cover 130 includes a receiving groove 132, the receiving groove 132 is used for arranging the LED light bars 110, and the LED light bars 110 are arranged parallel to the cable 120. The connector 140 includes a connection terminal 142. The circuit board 150 includes a first surface 152 and a second surface 157, the first surface 152 includes a controller solder 153, a component solder 154, and an external signal wire solder 155, and the second surface 157 includes a cable solder 158 and a terminal solder 159. The controller 160 is connected to the controller welding portion 153. The housing 170 includes a first cover 172 and a second cover 173. The wire protective sheath 134 is combined with the outer cover 130.

Please refer to fig. 1, 2, 9 and 10. Fig. 9 and 10 are block diagrams of the light emitting bus structure 100 of fig. 7, in which the external signal line 162 and the second cover 173 are combined with the circuit board 150 and then viewed from opposite angles. The light emitting bus structure 100 includes an LED light bar 110, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a controller 160, a housing 170, an external signal line 162, a housing 170, and a wire protective sleeve 134. The LED light bar 110 includes a patch cord 112, and the LED light bar 110 is configured to emit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the cable 120 is wrapped in the outer cover 130, the outer cover 130 comprises a containing groove 132, the containing groove 132 is used for arranging the LED light bars 110, and the LED light bars 110 are arranged in parallel with the cable 120. The circuit board 150 includes a component soldering portion 154, a controller soldering portion 153 and an external signal wire soldering portion 155, the connector 140 is combined with the circuit board 150, the patch cord 112 is connected to the component soldering portion 154, the circuit board 150 includes a first surface 152, and the first surface 152 includes the controller soldering portion 153, the component soldering portion 154 and the external signal wire soldering portion 155. The controller 160 is connected to the controller welding portion 153. The housing 170 includes a first cover 172 and a second cover 173, and the first cover 172 and the second cover 173 are combined to cover the circuit board 150. The external signal line 162 is connected to the external signal line soldering portion 155, and the first cover 172 and the second cover 173 are combined to cover part of the external signal line 162. The wire protective sleeve 134 is combined with the outer cover 130, and the first cover 172 and the second cover 173 are combined to cover part of the wire protective sleeve 134.

Please refer to fig. 1, 2 and 11. Fig. 11 is an exploded view of a light emitting bus bar structure 100 according to another embodiment of the present invention. The light emitting bus bar structure 100 includes an optical fiber 114, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a light emitting assembly 116, a controller 160, a housing 170, an external signal line 162, a housing 170, and a wire protective sheath 134. The optical fiber 114 includes a sheath 115, the sheath 115 is used to cover the optical fiber 114, and the optical fiber 114 is used to transmit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the cable 120 is wrapped in the outer cover 130, the outer cover 130 comprises a containing groove 132, the containing groove 132 is used for arranging the optical fibers 114, and the optical fibers 114 are arranged in parallel with the cable 120. The connector 140 includes a connection terminal 142. The circuit board 150 includes a terminal soldering portion 159, a cable soldering portion 158, a module soldering portion 154, a controller soldering portion 153, and an external signal wire soldering portion 155, the module soldering portion 154 may be a soldering portion of the light emitting module 116, the connection terminal 142 is electrically connected to the terminal soldering portion 159, the cable 120 is connected to the cable soldering portion 158, the light emitting module 116 is connected to the module soldering portion 154, and the optical fiber 114 is connected to the light emitting module 116. The controller 160 is connected to the controller welding portion 153. The housing 170 includes a first cover 172 and a second cover 173, and the first cover 172 and the second cover 173 are combined to cover the circuit board 150. The external signal line 162 is connected to the external signal line soldering portion 155, and the first cover 172 and the second cover 173 are combined to cover part of the external signal line 162. The wire protective sleeve 134 is combined with the outer cover 130, and the first cover 172 and the second cover 173 are combined to cover part of the wire protective sleeve 134.

Please refer to fig. 11 and 12. Fig. 12 is a front view of the first surface 152 of the circuit board 150 in the light emitting bus structure 100 of fig. 11. The first surface 152 of the circuit board 150 includes component solder 154, controller solder 153, and external signal wire solder 155, and the component solder 154 may be a corresponding solder of the light emitting component 116.

Please refer to fig. 11, 12 and 13. Fig. 13 is a front view of the light emitting flat cable structure 100 of fig. 4, with the optical fibers 114 disposed in the receiving grooves 132. The light emitting flat cable structure 100 includes an optical fiber 114, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a housing 170, an external signal wire 162, a light emitting assembly 116, a housing 170, and a wire protective sheath 134. The optical fiber 114 is used to transmit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the cable 120 is wrapped in the outer cover 130, the outer cover 130 comprises a containing groove 132, the containing groove 132 is used for arranging the optical fiber 114, and a gap 133 is formed between the containing groove 132 and the optical fiber 114, so that the light-emitting flat cable structure 100 has better flexibility and convenience in assembling and disassembling, and the optical fiber 114 and the cable 120 are arranged in parallel. The circuit board 150 is combined with the connector 140, the cable 120, the housing 170, the cover 130 and the light emitting assembly 116, and the optical fiber 114 is connected to the light emitting assembly 116. The wire protective sheath 134 is combined with the outer cover 130, and the housing 170 encloses a portion of the wire protective sheath 134 and a portion of the external signal wire 162.

Please refer to fig. 1, 11 and 14. Fig. 14 is a front view of the light emitting flat cable structure 100 of fig. 4, with the cable 120 disposed in the receiving groove 132. The light emitting bus structure 100 includes an LED light bar 110, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a housing 170, an external signal wire 162, a housing 170, and a wire protective sleeve 134. The LED light bar 110 includes a patch cord 112, and the LED light bar 110 is configured to emit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the LED light bar 110 is wrapped in the outer cover 130, the outer cover 130 includes a receiving groove 132, the receiving groove 132 is used for arranging the cable 120, and a gap 133 is formed between the receiving groove 132 and the cable 120, so that the light-emitting flat wire structure 100 has better flexibility and convenience in assembling and disassembling, and the LED light bar 110 and the cable 120 are arranged in parallel. The circuit board 150 is combined with the connector 140, the cable 120, the housing 170, and the cover 130. The wire protective sheath 134 is combined with the outer cover 130, and the housing 170 encloses a portion of the wire protective sheath 134 and a portion of the external signal wire 162.

Please refer to fig. 1, 11 and 15. Fig. 15 is a front view of the light emitting flat cable structure 100 of fig. 13, in which the cable 120 is disposed in the receiving groove 132. The light emitting bus bar structure 100 includes an optical fiber 114, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a housing 170, an external signal wire 162, a housing 170, and a wire protective sheath 134. The optical fiber 114 is used to transmit light. The cable 120 may be a signal line or a power line, and the cable 120 is used to transmit electronic data signals. The outer cover 130 is made of a light-permeable material, the optical fiber 114 is coated in the outer cover 130, the outer cover 130 comprises a containing groove 132, the containing groove 132 is used for arranging the cable 120, and a gap 133 is formed between the containing groove 132 and the cable 120, so that the light-emitting flat cable structure 100 has better flexibility and convenience in assembling and disassembling, and the optical fiber 114 and the cable 120 are arranged in parallel. The circuit board 150 is combined with the connector 140, the cable 120, the housing 170, and the cover 130. The wire protective sheath 134 is combined with the outer cover 130, and the housing 170 encloses a portion of the wire protective sheath 134 and a portion of the external signal wire 162.

According to the embodiment of the invention, the LED light bar 110 is disposed in the accommodating groove 132, and a gap 133 is formed between the LED light bar 110 and the accommodating groove 132.

According to the embodiment of the present disclosure, the optical fiber 114 is disposed in the accommodating groove 132, and a gap 133 is formed between the optical fiber 114 and the accommodating groove 132.

According to the embodiment of the present disclosure, the cable 120 is disposed in the accommodating groove 132, and a gap 133 is formed between the cable 120 and the accommodating groove 130.

According to the present inventive embodiment, the outer layer of the optical fiber 114 is provided with a sheath 115.

According to the present embodiment, the wire protective sleeve 134 engages the outer envelope 130.

According to the present embodiment, the connector 140, the circuit board 150, the controller 160 and the housing 170 are further included. The connector 140 includes a plurality of connection terminals 142. The circuit board 150 includes a plurality of terminal solder portions 159, a plurality of cable solder portions 158, a plurality of component solder portions 154, and a plurality of controller solder portions 153, the connection terminals 142 are electrically connected to the terminal solder portions 159, and the cable 120 is connected to the cable solder portions 158. The controller is connected to the controller welding portion 153. The housing 170 encloses the circuit board 150.

According to the embodiment of the present disclosure, the light emitting device 116 is further included, the light emitting device 116 is connected to the light emitting device soldering portion 154, and the optical fiber 114 is connected to the light emitting device 116.

According to the embodiment of the present disclosure, the patch cord 112 is electrically connected to the component soldering portion 154 and the LED light bar 110.

According to the embodiment of the present disclosure, the circuit board 150 further includes a plurality of external signal wires 162, the circuit board 150 includes a plurality of external signal wire bonding portions 155, the external signal wires 162 are connected to the external signal wire bonding portions 155, and the housing 170 covers a portion of the external signal wires 162.

According to the embodiment of the present disclosure, the cable 120 is electrically connected to the connection terminal 142.

According to the embodiment of the present disclosure, the housing 170 includes a first cover 172 and a second cover 173, and the first cover 172 and the second cover 173 are combined to encapsulate the circuit board 150.

According to the present embodiment, the connection terminals 142 directly connect the cable 120 or patch the cable 120 through the circuit board 150.

According to the present inventive embodiment, the LED light bar 110 is driven by an external signal or controller 160 transmitted through an external signal line 162.

According to the present embodiment, the light emitting assembly 116 is driven by an external signal or controller 160 transmitted through an external signal line 162.

According to the present embodiment, the patch cord 112 or the LED light bar 110 directly welds the external signal line 162 or switches the external signal line 162 through the circuit board 150.

According to the embodiment of the present disclosure, the light emitting device 116 directly welds the external signal line 162 or switches the external signal line 162 through the circuit board 150.

According to the present embodiment, the circuit board 150 includes a first surface 152, and the first surface 152 includes a component soldering portion 154, an external signal wire soldering portion 155, and a controller soldering portion 153.

According to the present inventive embodiment, the circuit board includes a second surface 157, and the second surface 157 includes a terminal solder 159 and a cable solder 158.

In summary, the light emitting flat cable structure 100 of the present invention is used to arrange the light bars such as the optical fiber 114 or the LED light bar 110 and the cable 120 such as the signal line or the power line through the accommodating groove 132 of the cover 130, and the gap 133 is formed between the optical fiber 114, the LED light bar 110, the signal line or the power line and the accommodating groove 132 when the optical fiber 114, the LED light bar 110, the signal line or the power line are arranged in the accommodating groove 132, which can improve the softness of the light emitting flat cable structure 100 and the convenience of assembling and disassembling.

In summary, although the present invention has been described in terms of the preferred embodiments, the preferred embodiments are not limited to the above embodiments, and various modifications and changes can be made by one skilled in the art without departing from the spirit and scope of the invention, and the scope of the invention is defined by the appended claims.

Claims (13)

1. A light emitting bus bar structure, comprising:

the light bar is used for transmitting or emitting light, and is an optical fiber or LED light bar;

the cable is a signal wire or a power wire;

the outer cover comprises a containing groove, the outer cover is made of a light-permeable material, the outer cover coats the light bar and the cable, the containing groove is used for arranging the light bar or the cable, the light bar and the cable are respectively arranged in the containing groove, the center of the light bar and the center of the cable are not arranged on the same plane, and a gap is arranged between the light bar and the containing groove and between the cable and the containing groove;

a wire protection sleeve, which is clamped with the outer quilt;

the connector comprises a plurality of connecting terminals, and the cable is electrically connected with the connecting terminals;

a circuit board comprising a plurality of light emitting component welding parts;

a shell body for coating the circuit board;

the light bar is connected with the light-emitting components; and

and the switching wire is electrically connected with the welding parts of the light emitting components and the light bar.

2. The light emitting bus bar structure of claim 1 wherein the outer layer of the optical fiber is provided with a jacket.

3. The light emitting device of claim 1, further comprising a plurality of external signal wires, the circuit board comprising a plurality of external signal wire bonding portions, the external signal wires being connected to the external signal wire bonding portions, the housing surrounding portions of the external signal wires.

4. The light emitting device of claim 1, wherein the housing comprises a first cover and a second cover, the first cover and the second cover being combined to encapsulate the circuit board.

5. The light emitting device of claim 1, further comprising a plurality of terminal solder joints and a plurality of cable solder joints, wherein the connecting terminals are electrically connected to the terminal solder joints, and the cables are connected to the cable solder joints.

6. The light emitting device of claim 1, wherein the circuit board comprises a plurality of controller solder joints, and further comprising a controller coupled to the plurality of controller solder joints.

7. The light emitting device of claim 3, wherein the light bar is driven by external signals transmitted through the external signal lines.

8. The light emitting device of claim 7, wherein the LED light bar directly welds the external signal wires or switches the external signal wires through the circuit board.

9. The light emitting device of claim 3, wherein the light emitting elements are soldered directly to the external signal lines or are connected to the external signal lines via the circuit board.

10. The light emitting device of claim 6, further comprising a plurality of external signal wire bonding portions, wherein the circuit board comprises a first surface, and wherein the light emitting device bonding portions, the external signal wire bonding portions, and the controller bonding portions are disposed on the first surface.

11. The light emitting device of claim 5, wherein the circuit board comprises a second surface, and the terminal solder portions and the cable solder portions are disposed on the second surface.

12. The light emitting device of claim 6, wherein the light bar is an LED light bar, the light bar is electrically connected to the light emitting device soldering portions, and the light bar is driven by the controller.

13. The light emitting device of claim 6, wherein the light emitting element is driven by the controller.