WO2020155087A1 - 发光排线结构 - Google Patents
发光排线结构 Download PDFInfo
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- WO2020155087A1 WO2020155087A1 PCT/CN2019/074373 CN2019074373W WO2020155087A1 WO 2020155087 A1 WO2020155087 A1 WO 2020155087A1 CN 2019074373 W CN2019074373 W CN 2019074373W WO 2020155087 A1 WO2020155087 A1 WO 2020155087A1
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- WIPO (PCT)
- Prior art keywords
- light
- emitting
- cable
- cable structure
- external signal
- Prior art date
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01B—CABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
- H01B7/00—Insulated conductors or cables characterised by their form
- H01B7/36—Insulated conductors or cables characterised by their form with distinguishing or length marks
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01R—ELECTRICALLY-CONDUCTIVE CONNECTIONS; STRUCTURAL ASSOCIATIONS OF A PLURALITY OF MUTUALLY-INSULATED ELECTRICAL CONNECTING ELEMENTS; COUPLING DEVICES; CURRENT COLLECTORS
- H01R24/00—Two-part coupling devices, or either of their cooperating parts, characterised by their overall structure
Definitions
- This application is a light-emitting cable, especially a light-emitting cable structure used in SATA specifications.
- Flexible flat cable (FFC/Flexible Flat Cable) is widely used in related electronic products because of its bending characteristics of electrical wires, and the end of the flexible flat cable is usually equipped with electrical connectors to facilitate its electrical plug Connected and used to achieve the purpose of electrical bending and guiding.
- electronic products are paying more and more attention to the shape design.
- the traditional flexible cable not only needs to transmit signals, but also needs to be combined with optical components to use the light source of optical components to produce different visual effects, increasing the product's appeal to consumers force.
- Light Emitting Diode (LED) applications can be roughly divided into display function and lighting function. In order to meet the visual needs of modern society, LEDs have been widely used in various lighting applications.
- components such as optical fiber, LED light bar, signal wire or cable are arranged through the receiving groove of the outer cover, and the optical fiber, LED light bar, signal wire or cable and other components are arranged in the receiving groove , There is a gap with the receiving groove, which can improve the flexibility of the light-emitting cable and the convenience of assembly and disassembly.
- the purpose of this application is to provide a light-emitting cable structure that can emit light during signal transmission to increase visual effects.
- the purpose of this application is to provide a light-emitting cable structure, the light-emitting cable structure is used to install optical fibers, LED light bars, signal lines or cables and other components through the receiving groove of the outer cover, and optical fibers, LED light bars, signal lines When components such as cables or cables are arranged in the receiving groove, there is a gap between the receiving groove, which can improve the flexibility of the light-emitting cable and the convenience of assembly and disassembly.
- the present application provides a light-emitting cable structure, which includes 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 to transmit or emit light.
- the cable is a signal cable or power cable, which is used to transmit electronic data signals.
- the outer cover is made of light-permeable material, the light strip and the cable are covered in the outer cover, and the outer cover contains a receiving slot for arranging the light strip or the cable, the cable Arranged in parallel with the light bar.
- the light bar is disposed in the receiving groove, and there is a gap between the light bar and the receiving groove.
- the cable is disposed in the receiving groove, and there is a gap between the cable and the receiving groove.
- the outer layer of the optical fiber is provided with a sheath.
- it further includes a wire protective sleeve, and the wire protective sleeve is engaged with the outer cover.
- the connector further includes a connector, a circuit board and a housing.
- the connector includes a plurality of connection terminals, and the cable is electrically connected to the connection terminals.
- the circuit board contains a number of soldering parts for light-emitting components.
- the shell covers the circuit board.
- it further includes a plurality of light-emitting elements, the light-emitting elements are connected to the welding parts of the light-emitting elements, and the light bar is connected to the light-emitting elements.
- it further includes a patch cord electrically connected to the welding parts of the light-emitting components and the light bar.
- the circuit board further includes a plurality of external signal wire soldering parts
- the external signal wires are connected to the external signal wire soldering parts
- the housing covers a part of the Some external signal lines.
- the housing includes a first cover and a second cover, and the first cover and the second cover are combined to cover the circuit board.
- it further includes a plurality of terminal welding parts and a plurality of cable welding parts, the connecting terminals are electrically connected to the terminal welding parts, and the cables are connected to the cable welding parts.
- the circuit board includes a plurality of controller welding parts, and further includes a controller, and the controller is connected to the controller welding parts.
- the light bar is an LED light bar, and the light bar is driven by external signals transmitted by the external signal lines.
- it further includes a light-emitting element connected to the welding parts of the light-emitting elements, and the light-emitting element is driven by an external signal transmitted by the external signal lines.
- the light bar is directly welded to the external signal lines or the external signal lines are transferred through the circuit board.
- the light-emitting components are directly soldered to the external signal lines or the external signal lines are transferred through the circuit board.
- the circuit board further includes a plurality of external signal wire welding parts
- the circuit board includes a first surface
- the light-emitting component welding parts, the external signal wire welding parts, and the controller welding parts are disposed on The first surface.
- the circuit board includes a second surface, and the terminal welding parts and the cable welding parts are provided on the second surface.
- the light bar is an LED light bar
- the light bar is electrically connected to the welding parts of the light-emitting components, and the light bar is driven by the controller.
- it further includes a light-emitting element connected to the welding parts of the light-emitting elements, and the light-emitting element is driven by the controller.
- the light-emitting cable structure of the present application is used to install light bars such as optical fibers or LED light bars, and cables such as signal lines or power lines through the receiving grooves of the outer cover, and the light bars or cables When the components are arranged in the receiving groove, a gap is formed with the receiving groove.
- This structure can improve the flexibility of the light-emitting cable and the convenience of assembly and disassembly.
- FIG. 1 and FIG. 2 are exploded views of the light-emitting cable structure of the embodiment of the application viewed from opposite angles.
- FIG. 3 is a perspective view of a light-emitting cable structure according to an embodiment of the application.
- Fig. 4 is a front view of the light-emitting cable structure of Fig. 3.
- FIG. 5 and FIG. 6 are the light-emitting cable structure of FIG. 1, which is a structural diagram viewed from an opposite perspective after the connector, circuit board, outer cover, and LED light bar are combined.
- FIG. 7 and FIG. 8 are the light-emitting cable structure of FIG. 5, the structure view from the opposite perspective after the wire protective cover and the outer are combined.
- FIG. 9 and 10 are the light-emitting cable structure of FIG. 7, which are structural diagrams viewed from opposite angles after the external signal line and the second cover are combined with the circuit board.
- FIG. 11 is an exploded view of a light-emitting cable structure according to another embodiment of the application.
- FIG. 12 is a front view of the first surface of the circuit board in the light-emitting cable structure of FIG. 11.
- Fig. 13 is a front view of the light-emitting cable structure of Fig. 4 with optical fibers arranged in a receiving groove.
- Fig. 14 is a front view of the light-emitting cable structure of Fig. 4 with the cable arranged in the receiving groove.
- Fig. 15 is a front view of the light-emitting cable structure of Fig. 13 with the cable arranged in the receiving groove.
- FIG. 1 and FIG. 2 are exploded views of the light-emitting cable structure 100 according to an embodiment of the application viewed from opposite angles.
- FIG. 3 is a perspective view of a light-emitting cable structure according to an embodiment of the application.
- the light-emitting cable 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 protection cover 134.
- the LED light bar 110 includes an adapter cable 112, and the LED light bar 110 is used to emit light.
- the cable 120 may be a signal cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is a light-transmissive material, and the cable 120 is wrapped in the outer cover 130.
- the outer cover 130 includes a receiving groove 132 for setting the LED light bar 110, and the LED light bar 110 and the cable 120 are arranged in parallel.
- the connector 140 includes a connection terminal 142.
- the circuit board 150 includes a terminal welding part 159, a cable welding part 158, a component welding part 154, a controller welding part 153, and an external signal wire welding part 155.
- the connecting terminal 142 is electrically connected to the terminal welding part 159, and the cable 120 is connected to the cable
- the soldering part 158, the patch cord 112 is connected to the component soldering part 154.
- the circuit board 150 includes a first surface 152 and a second surface 157.
- the first surface 152 includes a controller soldering part 153, a component soldering part 154 and an external signal wire soldering part 155
- the second surface 157 includes a cable welding part 158 and a terminal welding part 159.
- the controller 160 is connected to the controller welding part 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 welding part 155, and the first cover 172 and the second cover 173 are combined to cover a part of the external signal line 162.
- the wire protective cover 134 is combined with the outer jacket 130, and the first cover 172 and the second cover 173 are combined to cover a part of the wire protective cover 134.
- Fig. 4 is a front view of the light-emitting cable structure of Fig. 3.
- the light-emitting cable 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 line 162, a housing 170, and a wire protection cover 134.
- the LED light bar 110 includes an adapter cable 112, and the LED light bar 110 is used to emit light.
- the cable 120 may be a signal cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is made of light-permeable material.
- the cable 120 is covered in the outer cover 130.
- the outer cover 130 contains a receiving groove 132.
- the receiving groove 132 is used to set the LED light bar 110. There is between the receiving groove 132 and the LED light bar 110.
- the gap 133 enables the light-emitting cable structure 100 to have better flexibility and convenience for assembly and disassembly.
- 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, the outer cover 130, and the LED light bar 110.
- the wire protective sleeve 134 is combined with the outer jacket 130, and the housing 170 covers a part of the wire protective sleeve 134 and a part of the external signal line 162.
- the light-emitting cable 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 protection cover 134.
- the LED light bar 110 includes an adapter cable 112, and the LED light bar 110 is used to emit light.
- the cable 120 may be a signal cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is a light-transmissive material, and the cable 120 is wrapped in the outer cover 130.
- the outer cover 130 includes a receiving groove 132 for setting the LED light bar 110, and the LED light bar 110 and the cable 120 are arranged in parallel.
- the connector 140 includes a connection terminal 142.
- the circuit board 150 includes a terminal welding part 159, a cable welding part 158, a component welding part 154, and a controller welding part 153.
- the connecting terminal 142 is electrically connected to the terminal welding part 159, the cable 120 is connected to the cable welding part 158, and the transfer cable 112 Connected to the component welding part 154.
- the controller 160 is connected to the controller welding part 153.
- the housing 170 includes a first cover 172 and a second cover 173.
- the light-emitting cable 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 protection cover 134.
- the cable 120 is wrapped in the outer cover 130, and the outer cover 130 includes a receiving groove 132 for setting the LED light bar 110, and the LED light bar 110 and the cable 120 are arranged in parallel.
- 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 soldering portion 153, a component soldering portion 154, and an external signal wire soldering portion 155.
- the second surface 157 includes a cable soldering portion 158 and a terminal soldering portion. ⁇ 159.
- the controller 160 is connected to the controller welding part 153.
- the housing 170 includes a first cover 172 and a second cover 173.
- the wire protective cover 134 is combined with the outer cover 130.
- the light-emitting cable 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 protection cover 134.
- the LED light bar 110 includes an adapter cable 112, and the LED light bar 110 is used to emit light.
- the cable 120 may be a signal cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is a light-transmissive material, and the cable 120 is wrapped in the outer cover 130.
- the outer cover 130 includes a receiving groove 132 for setting the LED light bar 110, and the LED light bar 110 and the cable 120 are arranged in parallel.
- 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.
- the first surface 152 includes a controller welding part 153, a component welding part 154 and an external signal wire welding part 155.
- the controller 160 is connected to the controller welding part 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 welding part 155, and the first cover 172 and the second cover 173 are combined to cover a part of the external signal line 162.
- the wire protective cover 134 is combined with the outer jacket 130, and the first cover 172 and the second cover 173 are combined to cover a part of the wire protective cover 134.
- FIG. 11 is an exploded view of a light-emitting cable structure 100 according to another embodiment of the application.
- the light-emitting cable structure 100 includes an optical fiber 114, a cable 120, an outer cover 130, a connector 140, a circuit board 150, a light-emitting component 116, a controller 160, a housing 170, an external signal line 162, a housing 170, and a wire protection cover 134 .
- the optical fiber 114 includes a sheath 115, which 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 cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is made of a light-transmissive material.
- the cable 120 is covered in the outer cover 130.
- the outer cover 130 includes a receiving groove 132 for arranging the optical fiber 114.
- the optical fiber 114 and the cable 120 are arranged in parallel.
- the connector 140 includes a connection terminal 142.
- the circuit board 150 includes a terminal soldering part 159, a cable soldering part 158, a component soldering part 154, a controller soldering part 153, and an external signal wire soldering part 155.
- the component soldering part 154 may be the soldering part of the light-emitting component 116, and the connecting terminal 142 is electrically connected.
- the cable 120 is connected to the cable welding part 158, the light-emitting component 116 is connected to the component welding part 154, and the optical fiber 114 is connected to the light-emitting component 116.
- the controller 160 is connected to the controller welding part 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 welding part 155, and the first cover 172 and the second cover 173 are combined to cover a part of the external signal line 162.
- the wire protective cover 134 is combined with the outer jacket 130, and the first cover 172 and the second cover 173 are combined to cover a part of the wire protective cover 134.
- FIG. 12 is a front view of the first surface 152 of the circuit board 150 in the light-emitting cable structure 100 of FIG. 11.
- the first surface 152 of the circuit board 150 includes a component soldering portion 154, a controller soldering portion 153 and an external signal wire soldering portion 155.
- the component soldering portion 154 may be a corresponding soldering portion of the light emitting component 116.
- FIG. 13 is a front view of the light-emitting cable structure 100 of FIG. 4 with the optical fiber 114 disposed in the receiving groove 132.
- the light-emitting 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 line 162, a light-emitting component 116, a housing 170, and a wire protection cover 134.
- the optical fiber 114 is used to transmit light.
- the cable 120 may be a signal cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is made of light-transmissive material. The cable 120 is covered in the outer cover 130.
- the outer cover 130 contains a receiving groove 132 for installing the optical fiber 114. There is a gap 133 between the receiving groove 132 and the optical fiber 114.
- the light-emitting cable structure 100 has better flexibility and convenience for assembly and disassembly, 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 outer cover 130 and the light-emitting assembly 116, and the optical fiber 114 is connected to the light-emitting assembly 116.
- the wire protective sleeve 134 is combined with the outer jacket 130, and the housing 170 covers a part of the wire protective sleeve 134 and a part of the external signal line 162.
- FIG. 14 is a front view of the light-emitting cable structure 100 of FIG. 4 with the cable 120 arranged in the receiving groove 132.
- the light-emitting cable 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 line 162, a housing 170, and a wire protection cover 134.
- the LED light bar 110 includes an adapter cable 112, and the LED light bar 110 is used to emit light.
- the cable 120 may be a signal cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is made of light-transmissive material.
- the LED light bar 110 is covered in the outer cover 130.
- the outer cover 130 contains a receiving groove 132 for installing the cable 120. There is a gap between the receiving groove 132 and the cable 120. 133.
- the light-emitting cable structure 100 can be made more flexible and convenient for assembly and disassembly.
- 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 outer cover 130.
- the wire protective sleeve 134 is combined with the outer jacket 130, and the housing 170 covers a part of the wire protective sleeve 134 and a part of the external signal line 162.
- FIG. 15 is a front view of the light-emitting cable structure 100 of FIG. 13 with the cable 120 arranged in the receiving groove 132.
- the light-emitting 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 line 162, a housing 170, and a wire protection cover 134.
- the optical fiber 114 is used to transmit light.
- the cable 120 may be a signal cable or a power cable, and the cable 120 is used to transmit electronic data signals.
- the outer cover 130 is made of light-transmissive material.
- the optical fiber 114 is covered in the outer cover 130.
- the outer cover 130 includes a receiving groove 132 for installing the cable 120.
- the light-emitting cable structure 100 can be made more flexible and convenient for assembly and disassembly, and the optical fibers 114 and the cables 120 are arranged in parallel.
- the circuit board 150 is combined with the connector 140, the cable 120, the housing 170, and the outer cover 130.
- the wire protective sleeve 134 is combined with the outer jacket 130, and the housing 170 covers a part of the wire protective sleeve 134 and a part of the external signal line 162.
- the LED light bar 110 is disposed in the receiving groove 132, and there is a gap 133 between the LED light bar 110 and the receiving groove 132.
- the optical fiber 114 is disposed in the receiving groove 132, and there is a gap 133 between the optical fiber 114 and the receiving groove 132.
- the cable 120 is disposed in the receiving groove 132, and there is a gap 133 between the cable 120 and the receiving groove 130.
- the outer layer of the optical fiber 114 is provided with a sheath 115.
- the wire protective sleeve 134 is engaged with the outer cover 130.
- the connector 140 further includes a connector 140, a circuit board 150, a controller 160, and a housing 170.
- the connector 140 includes a plurality of connection terminals 142.
- the circuit board 150 includes several terminal welding parts 159, several cable welding parts 158, several component welding parts 154, and several controller welding parts 153.
- the connecting terminal 142 is electrically connected to the terminal welding part 159, and the cable 120 is connected with wires. Cable welding part 158.
- the controller is connected to the controller welding part 153.
- the housing 170 covers the circuit board 150.
- it further includes a light emitting component 116, the light emitting component 116 is connected to the light emitting component welding part 154, and the optical fiber 114 is connected to the light emitting component 116.
- the patch cord 112 is electrically connected to the component welding portion 154 and the LED light bar 110.
- the circuit board 150 further includes a plurality of external signal wires 162, the circuit board 150 includes a plurality of external signal wire soldering portions 155, the external signal wires 162 are connected to the external signal wire soldering portion 155, and the housing 170 covers a part of the exterior Signal line 162.
- the cable 120 is electrically connected to the connection terminal 142.
- 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 connecting terminal 142 is directly connected to the cable 120 or the cable 120 is transferred through the circuit board 150.
- the LED light bar 110 is driven by the external signal transmitted by the external signal line 162 or the controller 160.
- the light-emitting component 116 is driven by the external signal transmitted by the external signal line 162 or the controller 160.
- the transfer cable 112 or the LED light bar 110 is directly welded to the external signal line 162 or the external signal line 162 is transferred through the circuit board 150.
- the light-emitting component 116 is directly welded to the external signal line 162 or the external signal line 162 is switched through the circuit board 150.
- the circuit board 150 includes a first surface 152, and the first surface 152 includes a component welding portion 154, an external signal wire welding portion 155 and a controller welding portion 153.
- the circuit board includes a second surface 157, and the second surface 157 includes a terminal welding part 159 and a cable welding part 158.
- the light-emitting cable structure 100 of the present application is used to install light bars such as optical fibers 114 or LED light bars 110, and cables 120 such as signal lines or power lines through the receiving grooves 132 of the outer cover 130, and the optical fibers 114.
- light bars such as optical fibers 114 or LED light bars 110
- cables 120 such as signal lines or power lines through the receiving grooves 132 of the outer cover 130, and the optical fibers 114.
- components such as the LED light bar 110, signal lines or power lines are arranged in the receiving groove 132, a gap 133 is formed between the receiving groove 132.
- This structure can improve the flexibility of the light-emitting cable structure 100 and the convenience of assembly and disassembly.
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Abstract
Description
Claims (21)
- 一种发光排线结构,其包含:一光条,用来传递或发出光线;一线缆,为信号线或电源线;以及一外被,包含一收容槽,该外被为可透光材质,该外被包覆该光条以及该线缆,该收容槽用来设置该光条或该线缆。
- 根据权利要求1所述的发光排线结构,其中,该光条为光纤或发光二极管(Light emitting diode,LED)灯条。
- 根据权利要求1所述的发光排线结构,其中,该光条设置于该收容槽之中,该光条与该收容槽之间具有一间隙。
- 根据权利要求1所述的发光排线结构,其中,该线缆设置于该收容槽之中,该线缆与该收容槽之间具有一间隙。
- 根据权利要求1所述的发光排线结构,其中,该光条为光纤,且该光纤的外层设有一护套。
- 根据权利要求1所述的发光排线结构,其进一步包含一线材保护套,该线材保护套卡合该外被。
- 根据权利要求1所述的发光排线结构,其进一步包含:一连接器,包含数个连接端子,该线缆与该些连接端子电性连接;一电路板,包含数个发光组件焊接部;以及一壳体,包覆该电路板。
- 根据权利要求7所述的发光排线结构,其进一步包含一发光组件,该发光组件连接于该些发光组件焊接部,该光条连接于该些发光组件。
- 根据权利要求7所述的发光排线结构,其进一步包含一转接线,该转接线电性连接该些发光组件焊接部以及该光条。
- 根据权利要求7所述的发光排线结构,其进一步包含数个外部信号线,该电路板包含数个外部信号线焊接部,该些外部信号线连接于该些外部信号线焊接部,该壳体包覆部分该些外部信号线。
- 根据权利要求7所述的发光排线结构,其中,该壳体包含一第一盖体以及一第二盖体,该第一盖体与该第二盖体组合,包覆该电路板。
- 根据权利要求7所述的发光排线结构,其进一步包含数个端子焊接部及数个线缆焊接部,该些连接端子电性连接该些端子焊接部,该些线缆连接该些线缆焊接部。
- 根据权利要求7所述的发光排线结构,其中,该电路板包含数个控制器焊接部,其进一步包含一控制器,该控制器连接于该些控制器焊接部。
- 根据权利要求10所述的发光排线结构,其中,该光条为LED灯条,该光条通过该些外部信号线传递的外部信号驱动。
- 根据权利要求10所述的发光排线结构,其进一步包含一发光组件,该发光组件连接于该些发光组件焊接部,该发光组件通过该些外部信号线传递的外部信号驱动。
- 根据权利要求14所述的发光排线结构,其中,该光条直接焊接该些外部信号线或通过该电路板转接该些外部信号线。
- 根据权利要求15所述的发光排线结构,其中,该些发光组件直接焊接该些外部信号线或通过该电路板转接该些外部信号线。
- 根据权利要求7所述的发光排线结构,其进一步包含数个外部信号线焊接 部,该电路板包含一第一表面,该些发光组件焊接部、该些外部信号线焊接部以及该些控制器焊接部设于该第一表面。
- 根据权利要求7所述的发光排线结构,其中,该电路板包含一第二表面,该些端子焊接部以及该些线缆焊接部设于该第二表面。
- 根据权利要求13所述的发光排线结构,其中,该光条为LED灯条,该光条电性连接该些发光组件焊接部,该光条通过该控制器驱动。
- 根据权利要求13所述的发光排线结构,其进一步包含一发光组件,该发光组件连接于该些发光组件焊接部,该发光组件通过该控制器驱动。
Priority Applications (2)
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