CN209786372U - Light-emitting flat cable structure - Google Patents

Abstract

A light-emitting flat cable structure comprises a plurality of light-emitting modules, a switching module, a cable, an outer cover, a wire buckle, a shell, a cover piece and an external signal wire. The light-emitting module comprises a light-emitting component, an adapter and a plurality of welding pins, and is covered by the light-emitting module and made of light-permeable material. The cable includes a plurality of connection terminals through which the cable is inserted into the housing. The cable buckle is used for fixing the cable and the light-emitting module. The adapter module comprises a circuit board, and the light-emitting module is connected to the circuit board through the adapter. The external signal line is used for conducting a power supply signal or a control signal. The light emitting component is used for generating light according to a power supply or a control signal. The cable is used to transmit power or signals.

Description

Light-emitting flat cable structure

Technical Field

The utility model relates to a luminous winding displacement especially relates to a luminous winding displacement structure.

Background

The flat cable has a characteristic of bending an electrical conductor, and is widely applied to related electronic products, and an electrical connector is usually disposed at an end of the flat cable for facilitating electrical insertion and connection thereof, so as to achieve the purpose of electrical bending and conductive connection. However, the electronic product attaches more importance to the design of the shape, and the conventional flat cable not only needs to transmit signals, but also needs to be combined with the optical component, so that the light source of the optical component is utilized to generate different visual effects, thereby increasing the attraction of the product to consumers. Applications of Light Emitting Diodes (LEDs) are roughly divided into a display function and an illumination function, and in order to meet the visual requirements of modern society, LEDs are widely used for various illumination purposes. The utility model discloses a luminous winding displacement structure sees through switching module transmission power or control signal and gives light-emitting module, makes light-emitting module send light according to different transmission signal, drive mode and light-emitting component's colour, and light-emitting module's adapter is connected with switching module, can improve the convenient degree of luminous winding displacement loading and unloading.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a luminous winding displacement structure can send light at transmission signal's in-process to increase visual effect.

An object of the utility model is to provide a luminous winding displacement structure, this luminous winding displacement structure see through switching module transmission power or control signal and give light-emitting module, make light-emitting module send light according to the different power that switching module transmitted, control signal, drive mode and light-emitting component's colour, set up to be connected in light-emitting module's adapter and switching module, can improve the convenience degree that luminous winding displacement loaded and unloaded.

The utility model provides a luminous cable structure, it contains a switching module, a luminous module, a cable, a first casing and a cover piece. The adapter module comprises a first circuit board, and the first circuit board comprises a plurality of first welding pins. The light-emitting module comprises a second circuit board, a light-emitting component, an adapter and an outer cover, wherein the adapter comprises a first terminal welding part and a second terminal welding part, the first terminal welding part is connected to the corresponding first welding pin, the second circuit board comprises a plurality of second welding pins, the light-emitting component is connected to the second circuit board, the second terminal welding part is connected to the second welding pin, the outer cover is made of light-permeable material, and the outer cover covers the second circuit board, the light-emitting component and part of the adapter. The cable comprises a plurality of connecting terminals, and the cable is a signal line or a power line and is used for transmitting power or signals. The first shell comprises a containing groove, a plurality of terminals are inserted into the shell, and the switching module is arranged in the containing groove. The cover member covers the adapter module, and is connected to the first housing for fixing the adapter module on the first housing.

According to the utility model discloses an embodiment, it further contains a first line knot and a second line knot, and this cable of this first line knot card, this light emitting module of this second line knot card, this cable and this light emitting module of this first line knot and this second line knot combination fixed.

According to the utility model discloses an embodiment, it further contains several external signal line, and this first circuit board further contains several external signal line welding part, and this external signal line welding part of several that this external signal line of several corresponds is connected.

According to the utility model discloses an embodiment, wherein, this light emitting component contains several light emitting component welding foot, and this second circuit board contains several light emitting component welding foot position, and this light emitting component welding foot of several is connected in this light emitting component welding foot position of several.

According to an embodiment of the present invention, the second circuit board is a flexible circuit board.

According to the embodiment of the present invention, the material of the outer cover is an insulating material such as Polyurethane (PU), Polyvinyl Chloride (PVC), silica gel, Thermoplastic Elastomer (TPE), or Thermoplastic Polyurethane (TPU).

according to an embodiment of the present invention, the second circuit board further includes a controller, and the controller is used for driving the light emitting element.

According to an embodiment of the present invention, wherein the light emitting element emits colorless, white, yellow, blue, red or green light.

According to an embodiment of the present invention, the light emitting device further includes a chip, and the chip controls the data input/output, the signal ground and the power ground.

According to the embodiment of the present invention, the first welding pins and the second welding pins transmit power and control signals to drive the light emitting elements with different colors.

According to an embodiment of the present invention, the adapter includes a first adapter and a second adapter, the first adapter further includes a first terminal contact portion, the second adapter further includes a second terminal contact portion, and the first terminal contact portion is electrically connected to the second terminal contact portion.

Compared with the prior art, the utility model discloses a luminous winding displacement structure sees through switching module transmission power or control signal and gives light-emitting module, makes light-emitting module send light according to different transmission signal, drive mode and light-emitting component's colour, and light-emitting module's adapter is connected with the switching module for luminous winding displacement structure easily loads and unloads, except can adjusting the light colour according to different demands, also promotes by a wide margin at the convenient degree of installation.

In order to make the above and other objects of the present invention more comprehensible, a preferred embodiment accompanied with the attached drawings is described in detail as follows:

Drawings

Fig. 1 and fig. 2 are exploded views of the light-emitting flat cable structure according to the embodiment of the present invention viewed from opposite viewing angles.

Fig. 3 is a structural diagram of the patching module in fig. 1.

Fig. 4 is a structural view of the light emitting module in fig. 1.

Fig. 5 and 6 are perspective views of the light-emitting flat cable structure according to the embodiment of the present invention viewed from opposite viewing angles.

Fig. 7 is a front view of the light-emitting flat cable structure of fig. 5.

3 fig. 3 8 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 a 3- 3 a 3' 3 of 3 fig. 37 3. 3

Fig. 9 and 10 are structural views of the cable of fig. 1 combined with the first housing and the second housing, viewed from the opposite perspective.

Fig. 11 and 12 are structural diagrams illustrating the adaptor module of fig. 9 disposed in the receiving groove of the first housing and viewed from an opposite viewing angle.

Fig. 13 and 14 are structural diagrams illustrating the cover member of fig. 11 fixing the adaptor module to the first housing from a reverse view.

Fig. 15 and 16 are structural diagrams illustrating the light emitting module and the adaptor module of fig. 13 combined together and viewed from an opposite viewing angle.

Fig. 17 is a structural view of another embodiment of the light emitting module of fig. 4.

Fig. 18 is a structural view of another embodiment of the light emitting module of fig. 4.

Fig. 19 is a structural view of another embodiment of the light emitting module of fig. 4.

Detailed Description

The following description of the embodiments refers to the accompanying drawings for illustrating the specific embodiments in which the invention may be practiced. Directional phrases used in this disclosure, such as "upper," "lower," "front," "rear," "left," "right," "top," "bottom," "horizontal," "vertical," and the like, refer only to the orientation of the appended drawings. Accordingly, the directional terms used are used for describing and understanding the present invention, and are not used for limiting the present invention.

Referring to fig. 1, fig. 2, fig. 3 and fig. 4, fig. 1 and fig. 2 are exploded views of a light-emitting flat cable structure 10 according to an embodiment of the present invention from a reverse viewing angle. Fig. 3 is a block diagram of the patching module 20 of fig. 1. Fig. 4 is a structural view of the light emitting module 30 in fig. 1. The light-emitting flat cable structure 10 includes an adapter module 20, a light-emitting module 30, a cable 40, a first housing 51, a second housing 52, a cover 70, a first wire buckle 61, and a second wire buckle 62. The adaptor module 20 includes a first circuit board 210 and a plurality of external signal lines 230, the first circuit board 210 includes a plurality of first soldering pins 211 and a plurality of external signal line soldering portions 212, the external signal lines 230 are connected to the external signal line soldering portions 212, and the external signal lines 230 are used for transmitting power and control signals. The light emitting module 30 includes a second circuit board 330, a light emitting device 340, an adapter 200 and an outer cover 320, the second circuit board 330 includes a plurality of second soldering pads 331 and a plurality of light emitting device soldering pads 342, the light emitting device 340 includes a light emitting device soldering pad 341, the light emitting device soldering pad 341 is connected to the light emitting device soldering pad 342, the adapter 200 includes a first terminal soldering portion 221 and a second terminal soldering portion 311, the first terminal soldering portion 221 is connected to the corresponding first soldering pad 211, the second terminal soldering portion 311 is connected to the second soldering pad 331, the outer cover 320 is made of a light permeable material, and the outer cover covers the second circuit board 330, the light emitting device 340 and a part of the adapter 200. The cable 40 includes a plurality of first connection terminals 41 and second connection terminals 42, and the cable 40 may be a signal line or a power line for transmitting power or signals. The first connection terminal 41 is inserted into the first housing 51 and the second connection terminal 42 is inserted into the second housing 52, the first housing 51 includes an accommodation slot 511, and the adaptor module 20 is disposed in the accommodation slot 511. The cover 70 covers the patching module 20, and the cover 70 is connected to the first housing 51 for fixing the patching module 20 to the first housing 51. The first wire buckle 61 is engaged with the cable 40, the second wire buckle 62 covers the light emitting module 30, and the light emitting module 30 is fixed on the cable 40 by the combination of the second wire buckle 62 and the first wire buckle 61.

Referring to fig. 1 and 4, the light emitting module 30 includes a second circuit board 330, a light emitting device 340, an adapter 200, a plurality of resistors 36, and an outer cover 320, where the second circuit board 330 includes a plurality of second soldering pins 331 and a plurality of light emitting device soldering pins 342, the second soldering pins 331 can be used to transmit power signals or control signals to drive the light emitting devices 340 with different colors, the light emitting device 340 includes a light emitting device soldering pin 341, the light emitting device 340 can emit colorless, white, yellow, blue, red, or green light, the light emitting device soldering pin 341 is connected to the light emitting device soldering pin 342, the adapter 200 includes a second terminal soldering portion 311, the second terminal soldering portion 311 is connected to the second soldering pin 331, and the resistors 36 are connected to the second circuit board 330.

Please refer to fig. 1, 4, 5 and 6. Fig. 5 and 6 are perspective views of the light-emitting flat cable structure 10 according to the embodiment of the present invention from opposite viewing angles. The light-emitting flat cable structure 10 includes an adapter module 20, a light-emitting module 30, a cable 40, a first housing 51, a second housing 52, a cover 70, a first wire buckle 61, and a second wire buckle 62. The patching module 20 includes a first circuit board 210. The cable 40 may be a signal line or a power line for transmitting power or signals, the cable 40 is connected to the first housing 51 and the second housing 52, the first housing 51 includes a receiving groove 511, and the adaptor module 20 is disposed in the receiving groove 511. The cover 70 covers the patching module 20 and is connected to the first housing 51 for fixing the patching module 20 on the first housing 51. The light emitting module 30 includes an adaptor 200, an outer cover 320 and a light emitting device 340, wherein the adaptor 200 includes a second terminal soldering portion 311, the second terminal soldering portion 311 is connected to a second soldering pin 331, the outer cover 320 is made of a light permeable material, and covers the second circuit board 330, the light emitting device 340 and a portion of the adaptor 200. The first wire buckle 61 is engaged with the cable 40, the second wire buckle 62 covers the light emitting module 30, and the light emitting module 30 is fixed on the cable 40 by the combination of the second wire buckle 62 and the first wire buckle 61.

please refer to fig. 1, 4, 7 and 8. Fig. 7 is a front view of the light-emitting flat cable structure of fig. 5. 3 fig. 3 8 3 is 3 a 3 cross 3- 3 sectional 3 view 3 taken 3 along 3 line 3 a 3- 3 a 3' 3 of 3 fig. 37 3. 3 The light-emitting flat cable structure 10 includes a light-emitting module 30, a cable 40, a first buckle 61 and a second buckle 62. The light emitting module 30 includes a second circuit board 330 and an outer cover 320, wherein the outer cover 320 is made of a light-permeable material and covers the second circuit board 330. The cable 40 may be a signal line or a power line for transmitting power or signals. The first wire buckle 61 is engaged with the cable 40, the second wire buckle 62 covers the light emitting module 30, and the light emitting module 30 is fixed on the cable 40 by the combination of the second wire buckle 62 and the first wire buckle 61.

Please refer to fig. 1, 4, 9 and 10. Fig. 9 and 10 are structural views of the cable of fig. 1 combined with the first housing and the second housing, viewed from the opposite perspective. The light-emitting flat cable structure 10 includes an adapter module 20, a light-emitting module 30, a cable 40, a first housing 51, and a second housing 52. The cable 40 includes a plurality of first connection terminals 41 and second connection terminals 42, and the cable 40 may be a signal line or a power line for transmitting power or signals. The first connection terminal 41 is inserted into the first housing 51 and the second connection terminal 42 is inserted into the second housing 52.

please refer to fig. 1, 4, 11 and 12. Fig. 11 and 12 are structural diagrams illustrating the adaptor module of fig. 9 disposed in the receiving groove of the first housing and viewed from an opposite viewing angle. The light-emitting flat cable structure 10 includes an adapter module 20, a cable 40, a first housing 51, and a second housing 52. The adaptor module 20 includes a first circuit board 210, the first circuit board 210 includes a plurality of first soldering pins 211 and a plurality of external signal line soldering portions 212, the external signal line 230 is connected to the external signal line soldering portions 212, and the external signal line 230 is used for transmitting power and control signals. The cable 40 may be a signal line or a power line for transmitting power or signals. The first connection terminal 41 is inserted into the first housing 51 and the second connection terminal 42 is inserted into the second housing 52, the first housing 51 includes an accommodation slot 511, and the adaptor module 20 is disposed in the accommodation slot 511.

Please refer to fig. 1, 4, 13 and 14. Fig. 13 and 14 are structural diagrams illustrating the cover member of fig. 11 fixing the adaptor module to the first housing from a reverse view. The light-emitting flat cable structure 10 includes a connection module 20, a cable 40, a first housing 51, a second housing 52, and a cover 70. The adaptor module 20 includes a first circuit board 210 and a plurality of external signal lines 230, the first circuit board 210 includes a plurality of first soldering pins 211 and a plurality of external signal line soldering portions 212, the external signal lines 230 are connected to the external signal line soldering portions 212, and the external signal lines 230 are used for transmitting power and control signals. The cable 40 includes a plurality of first connection terminals 41 and second connection terminals 42, and the cable 40 may be a signal line or a power line for transmitting power or signals. The first connection terminal 41 is inserted into the first housing 51 and the second connection terminal 42 is inserted into the second housing 52, the first housing 51 includes an accommodation slot 511, and the adaptor module 20 is disposed in the accommodation slot 511. The cover 70 covers the patching module 20, and the cover 70 is connected to the first housing 51 for fixing the patching module 20 to the first housing 51.

Please refer to fig. 1, 4, 15 and 16. Fig. 15 and 16 are structural diagrams illustrating the light emitting module and the adaptor module of fig. 13 combined together and viewed from an opposite viewing angle. The light-emitting flat cable structure 10 includes an adapter module 20, a light-emitting module 30, a cable 40, a first housing 51, a second housing 52, and a cover 70. The adaptor module 20 includes a first circuit board 210 and a plurality of external signal lines 230, the first circuit board 210 includes a plurality of first soldering pins 211 and a plurality of external signal line soldering portions 212, the external signal lines 230 are connected to the external signal line soldering portions 212, and the external signal lines 230 are used for transmitting power and control signals. The light emitting module 30 includes a second circuit board 330, a light emitting device 340, an adapter 200 and an outer cover 320, the second circuit board 330 includes a plurality of second soldering pads 331 and a plurality of light emitting device soldering pads 342, the light emitting device 340 includes a light emitting device soldering pad 341, the light emitting device soldering pad 341 is connected to the light emitting device soldering pad 342, the adapter 200 includes a second terminal soldering portion 311, the second terminal soldering portion 311 is connected to the second soldering pad 331, the outer cover 320 is made of a light permeable material, and the outer cover covers the second circuit board 330, the light emitting device 340 and a part of the adapter 200. The cable 40 includes a plurality of first connection terminals 41 and second connection terminals 42, and the cable 40 may be a signal line or a power line for transmitting power or signals. The first connection terminal 41 is inserted into the first housing 51 and the second connection terminal 42 is inserted into the second housing 52, the first housing 51 includes an accommodation slot 511, and the adaptor module 20 is disposed in the accommodation slot 511. The cover 70 covers the patching module 20, and the cover 70 is connected to the first housing 51 for fixing the patching module 20 to the first housing 51.

Please refer to fig. 4 and 17. Fig. 17 is a structural view of another embodiment of the light emitting module of fig. 4. The light emitting module 30 includes a second circuit board 330, a light emitting device 340, an adapter 200, a plurality of resistors 36, and an outer cover 320, wherein the second circuit board 330 includes a plurality of second soldering pins 331 and a plurality of light emitting device soldering pins 342, the second soldering pins 331 can be used to transmit power signals or control signals to drive the light emitting devices 340 of different colors, the light emitting devices 340 include light emitting device soldering pins 341, the light emitting devices 340 can emit colorless, white, yellow, blue, red, or green light, the light emitting device soldering pins 341 are connected to the light emitting device soldering pins 342, the adapter 200 includes a second terminal soldering portion 311, the second terminal soldering portion 311 is connected to the second soldering pins 331, and the resistors 36 are connected to the second circuit board 330.

Please refer to fig. 4 and fig. 18. Fig. 18 is a structural view of another embodiment of the light emitting module of fig. 4. The light emitting module 30 includes a second circuit board 330, a light emitting device 340, an adaptor 200, a controller 35, a plurality of resistors 36 and a plurality of capacitors 37, the second circuit board 330 includes a plurality of second soldering pins 331 and a plurality of light emitting device soldering pins 342, the second soldering pins 331 can be used for transmitting power signals, the light emitting device 340 includes a light emitting device soldering pin 341, the light emitting device 340 can emit colorless, white, yellow, blue, red or green light, the light emitting device soldering pin 341 is connected to the light emitting device soldering pin 342, the adaptor 200 includes a second terminal soldering portion 311, the second terminal soldering portion 311 is connected to the second soldering pin 331, the controller 35, the plurality of resistors 36 and the plurality of capacitors 37 are connected to the second circuit board 330, and the controller 35 receives signals transmitted by the second soldering pin 331 and is used for driving the light emitting devices 340 of different colors.

Please refer to fig. 4 and fig. 19. Fig. 19 is a structural view of another embodiment of the light emitting module of fig. 4. The light emitting module 30 includes a second circuit board 330, a light emitting device 340, an adapter 200, and a plurality of capacitors 37, wherein the second circuit board 330 includes a plurality of second bonding pads 331 and a plurality of light emitting device bonding pads 342, the second bonding pads 331 can be used to transmit power signals or control signals to drive the light emitting devices 340 of different colors, the light emitting devices 340 include light emitting device bonding pads 341, the light emitting devices 340 can emit colorless, white, yellow, blue, red, or green light, a driving chip is disposed in the light emitting devices 340, the chip is used to control signal input/output of data, signal ground, and power ground, the light emitting device bonding pads 341 are connected to the light emitting device bonding pads 342, the adapter 200 includes a second terminal bonding portion 311, the second terminal bonding portion 311 is connected to the second bonding pads 331, and the capacitors 37 are connected to the second circuit board 330.

According to the present invention, it further includes a first wire buckle 61 and a second wire buckle 62, the first wire buckle 61 is fastened to the cable 40, the second wire buckle 62 is fastened to the light emitting module 30, and the first wire buckle 61 and the second wire buckle 62 are combined to fix the cable 40 and the light emitting module 30.

According to the embodiment of the present invention, the first circuit board 210 further includes a plurality of external signal lines 230, and the plurality of external signal line welding portions 212 are connected to the external signal lines 230.

According to the embodiment of the present invention, the light emitting device 340 includes a plurality of light emitting device soldering pins 341, the second circuit board 330 includes a plurality of light emitting device soldering pins 342, and the light emitting device soldering pins 341 are connected to the light emitting device soldering pins 342.

According to an embodiment of the present invention, the second circuit board 330 is a flexible circuit board.

According to the embodiment of the present invention, the material of the outer cover 320 is an insulating material such as Polyurethane (PU), Polyvinyl Chloride (PVC), silica gel, Thermoplastic Elastomer (TPE), or Thermoplastic Polyurethane (TPU).

According to the embodiment of the present invention, the second circuit board 330 further comprises a controller 35, wherein the controller 35 is used for driving the light emitting assembly 340.

According to an embodiment of the present invention, the light emitting assembly 340 emits colorless, white, yellow, blue, red or green light.

According to the embodiment of the present invention, wherein the light emitting component 340 further comprises a chip, a signal input/output of chip control data, a signal ground and a power ground.

According to the embodiment of the present invention, the first bonding pad 211 and the second bonding pad 331 transmit power signals to drive the light emitting elements 340 with different colors.

According to the embodiment of the present invention, the adaptor 200 further includes a first adaptor 220 and a second adaptor 310, the first adaptor 220 further includes a first terminal contact portion 222, the second adaptor 310 further includes a second terminal contact portion 312, and the first terminal contact portion 222 is electrically connected to the second terminal contact portion 312.

the utility model discloses a luminous winding displacement structure 10 sees through switching module 20 transmission power or control signal and gives light-emitting module 30, makes light-emitting module 30 send light according to the colour of different transmission signal, drive mode and light-emitting component 340, and light-emitting module 30's adapter 200 is connected with switching module 20 for luminous winding displacement structure 10 easily loads and unloads, except can adjusting the light colour according to different demands, the degree of convenience in the installation also promotes by a wide margin.

In summary, although the present invention has been described with reference to the preferred embodiments, the present invention is not limited to the preferred embodiments, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, so that the scope of the present invention is defined by the appended claims.

Claims (11)

1. A light-emitting flat cable structure, comprising:

A switching module including a first circuit board including a plurality of first soldering pins;

A light-emitting module, including a second circuit board, a light-emitting module, an adapter and an outer cover, the second circuit board includes a plurality of second soldering pins, the light-emitting module is connected to the second circuit board, the adapter includes a first terminal soldering portion and a second terminal soldering portion, the terminal soldering portion is connected to the corresponding first soldering pin, the second terminal soldering portion is connected to the second soldering pin, the outer cover is made of light-permeable material, and the outer cover covers the second circuit board, the light-emitting module and part of the adapter;

The cable comprises a plurality of connecting terminals, and is a signal line or a power line;

A shell, which comprises a containing groove, a plurality of terminals are inserted into the shell, and the switching module is arranged in the containing groove; and

And the cover piece is used for covering the adapter module and is connected with the shell.

2. The light-emitting flat cable structure according to claim 1, further comprising a first wire buckle and a second wire buckle, wherein the first wire buckle engages with the cable, the second wire buckle engages with the light-emitting module, and the first wire buckle and the second wire buckle are combined to fix the cable and the light-emitting module.

3. The light-emitting flat cable structure according to claim 1, further comprising a plurality of external signal lines, wherein the first circuit board further comprises a plurality of external signal line soldering portions, and a plurality of external signal lines are connected to a corresponding plurality of external signal line soldering portions.

4. The light-emitting flat cable structure according to claim 1, wherein the light-emitting device comprises a plurality of light-emitting device soldering pins, the second circuit board comprises a plurality of light-emitting device soldering pins, and the plurality of light-emitting device soldering pins are connected to the plurality of light-emitting device soldering pins.

5. The light-emitting flat cable structure according to claim 1, wherein the second circuit board is a flexible circuit board.

6. The light-emitting flat cable structure according to claim 1, wherein the covering is made of an insulating material such as polyurethane, polyvinyl chloride, silicone, thermoplastic elastomer or thermoplastic polyurethane.

7. The light-emitting flat cable structure according to claim 1, wherein the second circuit board further comprises a controller for driving the light-emitting device.

8. the light-emitting flat cable structure according to claim 1, wherein the light-emitting device emits colorless, white, yellow, blue, red or green light.

9. the light-emitting flat cable structure according to claim 1, wherein the light-emitting device further comprises a chip, and the chip controls signal input/output of data, signal ground, and power ground.

10. The light-emitting flat cable structure according to claim 1, wherein a plurality of the first bonding pads and a plurality of the second bonding pads transmit power signals for driving light-emitting devices of different colors.

11. The light-emitting flat cable structure according to claim 1, wherein the adapter comprises a first adapter and a second adapter, the first adapter further comprises a first terminal contact portion, the second adapter further comprises a second terminal contact portion, and the first terminal contact portion is electrically connected to the second terminal contact portion.