CN217522285U - Elbow data line - Google Patents

Abstract

The application provides an elbow data line, including curved shell and connector, the second passageway that first passageway and communicate each other with first passageway is seted up to curved shell, the axis of first passageway intersects with the axis of second passageway and forms the contained angle, the one end of connector is equipped with the plug that is used for consumer, the other end is equipped with the winding displacement board that is used for connecting many wires, the connector has the one end of winding displacement board to stretch into in the first passageway, and the intercommunication department of first passageway and second passageway is located to the winding displacement board, the one end of many wires stretches into in the second passageway and welds in the winding displacement board. So, the wire rod need not in the curved shell bending alright be connected with the winding displacement board of connector, avoided leading to the life of wire rod to shorten because of the wire rod is fixed crooked in the curved shell to reduce the condition that the wire rod opens circuit or short circuit and take place, in order to reach the life who has prolonged elbow data line.

Description

Elbow data line

Technical Field

The application relates to the technical field of data communication, in particular to an elbow data line.

Background

The mobile phone data line is a cable used for connecting a mobile phone or a computer and mainly plays a role in data transmission and/or charging.

The mobile phone data line on the market at present adopts straight head structure mostly, and the extending direction of wire rod is the same with the plug direction of equipment plug end promptly, and the shortcoming of this kind of structure lies in, because behind the plug insertion equipment of data line, the wire rod directly outwards extends always, consequently needs great space to place equipment, leads to the user to use inconveniently.

Therefore, an elbow data line appears on the market, namely, an included angle is formed between the extension direction of a wire rod on one elbow and the plugging direction of the plug end of the device, the data line can greatly reduce the space required by the device during charging, and the data line is convenient for users to use. However, because the existing elbow data line is in the shape of an elbow, one end of the wire rod is connected with the plug end in a way that the wire rod extends into the bending position in the elbow and is bent, and then the wire rod can be connected with the plug end, and the long-term fixed bending of the wire rod in the elbow can cause the service life of the wire rod to be shortened.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the application provides an elbow data line.

The application is realized by the following technical scheme:

the application provides an elbow data line, including curved shell and connector, curved shell seted up first passageway and with the second passageway that first passageway communicates each other, the axis of first passageway with the crossing contained angle that forms of axis of second passageway, the one end of connector is equipped with the plug that is used for consumer, and the other end is equipped with the winding displacement board that is used for connecting many wires, the connector has the one end of winding displacement board stretches into in the first passageway, just the winding displacement board is located first passageway with the intercommunication department of second passageway, the one end of many wires stretches into in the second passageway and weld in the winding displacement board.

Furthermore, the central axis of the first channel intersects with the central axis of the second channel to form an included angle of 90 °.

Further, the winding displacement board is equipped with first face of weld and second face of weld, the second face of weld is located the opposite one side of first face of weld, many wires weld in first face of weld and/or on the second face of weld.

Furthermore, a first space is formed between the inner wall of the bent shell facing the first welding surface and the first welding surface, and a plurality of wires can stretch into the first space and are welded on the first welding surface.

Furthermore, a second space is formed between the inner wall of the bent shell facing the second welding surface and the second welding surface, and a plurality of wires can extend into the second space and are welded on the second welding surface.

Furthermore, the elbow data line still includes the setting element that is used for fixing a position many wires, setting element detachably locates the winding displacement board is towards one side of wire rod, the setting element is located one side of first face of weld is equipped with a plurality of first fastening grooves, and one is located along the thickness direction card to arbitrary wire rod in the first fastening groove, the setting element is located one side of second face of weld is equipped with a plurality of second fastening grooves, and one is located along the thickness direction card to arbitrary wire rod in the second fastening groove.

Furthermore, the bent shell comprises a first shell and a second shell, the first shell is provided with a first groove and a second groove communicated with the first groove, the second shell is provided with a third groove and a fourth groove communicated with the third groove, when the first shell is sleeved on the second shell, the first groove and the third groove form the first channel, and simultaneously the second groove and the fourth groove form the second channel.

Furthermore, when the first shell is sleeved on the second shell, one side of the positioning element abuts against the inner wall of the second groove of the first shell, and meanwhile, the opposite side of the positioning element abuts against the inner wall of the fourth groove of the second shell.

Furthermore, the first shell is provided with a first positioning portion, the plug is provided with a first section and a second section fixedly connected with the first section, the section of the second section perpendicular to the thickness direction is larger than the section of the first section perpendicular to the thickness direction, and one side, facing the first section, of the second section abuts against the first positioning portion.

Furthermore, the first shell is provided with a second positioning part at the inner wall of the first groove, and one side of the second section departing from the first section abuts against the second positioning part.

The beneficial effect of this application: the central axis of the first channel and the central axis of the second channel are intersected to form an included angle, one end of the connector with the wire arranging plate extends into the first channel, the wire arranging plate is arranged at the communication position of the first channel and the second channel, and one ends of a plurality of wires extend into the second channel and are welded on the wire arranging plate.

Drawings

FIG. 1 is a schematic view of the elbow data line of the present invention;

fig. 2 is a schematic view of the bent shell of the present invention;

FIG. 3 is an exploded view of FIG. 1;

FIG. 4 is an exploded view in the other direction of FIG. 3;

FIG. 5 is a cross-sectional view of section A of FIG. 1;

fig. 6 is a schematic view of the bent shell of the present invention;

FIG. 7 is a sectional view of the portion B of FIG. 6;

fig. 8 is an exploded view of the connector and the positioning member.

The reference numerals in the figures are explained below:

100. an elbow data line; 1. a connector; 11. a plug; 111. a first stage; 112. a second section; 12. a wire arranging plate; 121. a first weld face; 122. a second weld face; 123. a bump; 2. bending the shell; 21. a first channel; 22. a second channel; 23. a first shell; 231. a first groove; 232. a second groove; 233. a card slot; 234. a first positioning portion; 235. a second positioning portion; 24. a second shell; 241. a third groove; 242. a fourth slot; 243. a clamping part; 244. a third positioning part; 245. a fourth positioning portion; 3. a first space; 4. a second space; 5. a positioning member; 51. a first fastening groove; 52. a second fastening groove; 53. and (4) a groove.

Detailed Description

In order to more clearly and completely explain the technical scheme of the present application, the present application is further explained with reference to the attached drawings.

Referring to fig. 1 to 8, the present application provides an elbow data line 100 including a curved shell 2 and a connector 1, the curved shell 2 is provided with a first channel 21 and a second channel 22 communicated with the first channel 21, referring to fig. 7, a central axis of the first channel 21 intersects with a central axis of the second channel 22 to form an included angle, one end of the connector 1 is provided with a plug 11 for an electrical device, and the other end of the connector 1 is provided with a line board 12 for connecting a plurality of wires. In this embodiment, the bent shell 2 is used to provide a fixed structure for the connector 1, the line board 12 of the connector 1 is connected to a plurality of wires (not labeled) so that the plug 11 of the connector 1 can be inserted into an external device to transmit data and/or charge the external device, the plug 11 is a type-c interface, it should be understood that the plurality of wires refers to four wires whose outer skins are respectively red, white, green and black, the red represents an anode of a power supply, the white represents a cathode of a data line, the green represents an anode of the data line, the black represents a ground wire, one end of each of the four wires is connected to the type-c interface, the other end of each of the four wires is connected to a USB interface, the type-c interface can be inserted into a mobile phone, and the USB interface can be inserted into the power plug 11 so as to supply power to the mobile phone; the USB interface can also be inserted into a computer, so that data can be conveniently transmitted between the mobile phone and the computer. Specifically, connector 1 has the one end of winding displacement board 12 to stretch into in the first passageway 21, and winding displacement board 12 locates first passageway 21 and second passageway 22's intercommunication department, the one end of many wires stretches into in the second passageway 22 and welds in winding displacement board 12, so, the wire rod need not in curved 2 interior bending of curved shell alright be connected with connector 1's winding displacement board 12, avoided leading to the life of wire rod to shorten because of many wires are at curved 2 internal fixation bendings of shell, thereby reduce the condition emergence that the wire rod opens circuit or the short circuit, in order to reach the life who has prolonged elbow data line 100.

In other embodiments, the plug 11 is a Micro-USB interface, a Lighting interface, or the like for charging or transmitting data.

Referring to fig. 6 and 7, further, in order to facilitate the user to insert the plug 11 into the socket of the external device, the central axis of the first channel 21 and the central axis of the second channel 22 intersect to form an included angle of 90 °. In this embodiment, the included angle formed by the intersection of the central axis of the first passage 21 and the central axis of the second passage 22 is 90 °, the user fingers to abut against one end of the bent shell 2 departing from the plug 11, the fingers apply force to the bent shell 2 in the direction of the plug 11, the plug 11 is inserted into the socket of the external device, and in the inserting process, the fingers and the bent shell 2 can generate large friction force and abutting force, so that the user can insert the plug 11 into the socket of the external device in a labor-saving manner.

Referring to fig. 3 and 4, in order to better weld a plurality of wires to the wire arranging plate 12, the wire arranging plate 12 is provided with a first welding surface 121 and a second welding surface 122, the second welding surface 122 is provided on a side opposite to the first welding surface 121, and the plurality of wires are welded to the first welding surface 121 and/or the second welding surface 122. In one embodiment, the first welding surface 121 is used to provide a surface for multiple wires to be welded, so as to increase the contact area for multiple wires to be welded on the wire arranging plate 12.

In one embodiment, the second welding surface 122 is used to provide a surface for multiple wires to be welded, so as to increase the contact area for multiple wires to be welded on the wire arranging plate 12.

Referring to fig. 5, in order to better weld a plurality of wires to the first welding surface 121, a first space 3 is formed between an inner wall of the curved shell 2 facing the first welding surface 121 and the first welding surface 121, and the plurality of wires can extend into the first space 3 and be welded to the first welding surface 121. In the present embodiment, the first space 3 is used for providing a space for a plurality of wires to be welded on the first welding surface 121. Specifically, one end of the wires may extend into the first space 3 through the second channel 22 and be welded to the first welding surface 121.

Referring to fig. 5, in order to better weld the plurality of wires to the second welding surface 122, a second space 4 is formed between the inner wall of the curved shell 2 facing the second welding surface 122 and the second welding surface 122, and the plurality of wires can extend into the second space 4 and be welded to the second welding surface 122. In this embodiment, the second space 4 is used for providing a space for a plurality of wires to be welded on the second welding surface 122. Specifically, one end of the plurality of wires may extend into the second space 4 through the second channel 22 and be welded to the second welding surface 122.

Referring to fig. 4, in order to better fix the wires on the first welding surface 121 or the second welding surface 122, the elbow data line 100 includes a positioning member 5 for positioning a plurality of wires, the positioning member 5 is detachably disposed on one side of the wire arranging plate 12 facing the wires, a plurality of first fastening grooves 51 are disposed on one side of the positioning member 5 on the first welding surface 121, any wire is fastened in one first fastening groove 51 along the thickness direction, a plurality of second fastening grooves 52 are disposed on one side of the positioning member 5 on the second welding surface 122, and any wire is fastened in one second fastening groove 52 along the thickness direction. In an embodiment, the positioning member 5 is provided with a plurality of first fastening grooves 51 on one side of the first welding surface 121, that is, the positioning member 5 is provided with a plurality of first fastening grooves 51 on one side close to the first welding surface 121, and any one of the wires is clamped in one of the first fastening grooves 51 along the thickness direction. Specifically, when a plurality of wires are welded to the first welding surface 121, the plurality of wires can be respectively clamped in one first fastening groove 51 along the thickness direction, so as to improve the fixing force of the plurality of wires on the first welding surface 121.

In an embodiment, a plurality of second fastening grooves 52 are formed in a side of the positioning member 5 perpendicular to the second welding surface 122, that is, a plurality of second fastening grooves 52 are formed in a side of the positioning member 5 close to the second welding surface 122, and any one of the wires is fastened in one of the second fastening grooves 52 along the thickness direction. Specifically, when a plurality of wires are welded to the second welding surface 122, the plurality of wires can be respectively clamped in one second fastening groove 52 along the thickness direction, so as to improve the fixing force of the plurality of wires welded to the second welding surface 122.

Referring to fig. 8, further, in order to mount the positioning member 5 on the wire arranging plate 12, the wire arranging plate 12 is provided with a protrusion 123, and the positioning member 5 is provided with a recess 53 facing the protrusion 123 between the first fastening slot 51 and the first fastening slot 51. In the present embodiment, the protrusion 123 is inserted into the groove 53 to locate the positioning member 5 on the wire arranging plate 12.

Referring to fig. 3, further, in order to mount the connector 1 in the curved housing 2, the curved housing 2 includes a first housing 23 and a second housing 24, the first housing 23 is provided with a first groove 231 and a second groove 232 communicated with the first groove 231, the second housing 24 is provided with a third groove 241 and a fourth groove 242 communicated with the third groove 241, and the first housing 23 is clamped in the second housing 24. In this embodiment, the first shell 23 is sleeved on the second shell 24 to form the bent shell 2, meanwhile, the first groove 231 is communicated with the third groove 241 to form the first channel 21, and the second groove 232 is communicated with the fourth groove 242 to form the second channel 22. Specifically, the connector 1 is placed in the third groove 241, and the first shell 23 is sleeved on the second shell 24, so that the connector 1 is disposed in the first passage 21.

Referring to fig. 3, further, a plurality of card slots 233 are formed in a side wall of the first shell 23, a plurality of clamping portions 243 are formed in an outer wall of the second shell 24, and the plurality of clamping portions 243 are respectively clamped in one card slot 233. In the present embodiment, the locking portion 243 is locked in the locking slot 233 for locking and connecting the first shell 23 and the second shell 24.

Referring to fig. 3 and 4, further, in order to fix the positioning element 5 in the bent housing 2, when the first housing 23 is sleeved on the second housing 24, one side of the positioning element 5 abuts against the inner wall of the second slot 232 of the first housing 23, and the opposite side of the positioning element 5 abuts against the inner wall of the fourth slot 242 of the second housing 24. In this embodiment, the positioning element 5 is disposed in the fourth slot 242, and at this time, one side of the positioning element 5 abuts against the inner wall of the second shell 24 in the fourth slot 242, and the first shell 23 is sleeved on the second shell 24, so that the other side of the positioning element 5 abuts against the inner wall of the first shell 23 in the second slot 232, so as to fix the positioning element 5 in the bent shell 2.

Referring to fig. 4, in order to firmly fix the connector 1 in the bent shell 2, the first shell 23 is provided with a first positioning portion 234 near the edge of the first groove 231, the plug 11 is provided with a first section 111 and a second section 112 fixedly connected with the first section 111, and the cross section of the second section 112 perpendicular to the thickness direction is larger than the cross section of the first section 111 perpendicular to the thickness direction. In the present embodiment, the second segment 112 abuts against the first positioning portion 234 on the side facing the first segment 111, so that all of the connector 1 except the first segment 111 is disposed in the first groove 231 and the third groove 241. Specifically, the connector 1 is placed in the third groove 241 of the second shell 24, the first shell 23 is sleeved on the second shell 24, and one side of the second segment 112 facing the first segment 111 abuts against the first positioning portion 234, so that all of the connector 1 except the first segment 111 is placed in the first groove 231 and the third groove 241, that is, all of the connector 1 except the first segment 111 is placed in the first passage 21.

Referring to fig. 4, in order to better and stably locate the connector 1 in the curved shell 2, the first shell 23 is provided with a second positioning portion 235 at an inner wall of the first groove 231. In the present embodiment, a side of the second segment 112 facing the first segment 111 abuts against the first positioning portion 234, and a side of the second segment 112 facing away from the first segment 111 abuts against the second positioning portion 235, so that all of the connector 1 except the first segment 111 is disposed in the first groove 231 and the third groove 241. Specifically, the connector 1 is placed in the third groove 241 of the second shell 24, the first shell 23 is sleeved on the second shell 24, one side of the second section 112 facing the first section 111 abuts against the first positioning portion 234, and one side of the second section 112 facing away from the first section 111 abuts against the second positioning portion 235, so that all the connectors 1 except the first section 111 are placed in the first groove 231 and the third groove 241, that is, all the connectors 1 except the first section 111 are placed in the first channel 21.

Referring to fig. 3, in order to better and stably arrange the connector 1 in the curved shell 2, a third positioning portion 244 is disposed on the second shell 24 near the edge of the third groove 241, and a fourth positioning portion 245 is disposed on the second shell 24 at the inner wall of the third groove 241. Specifically, the connector 1 is placed in the third groove 241 of the second shell 24, one side of the second section 112 facing the second shell 24 is clamped between the third positioning portion 244 and the fourth positioning portion 245, the first shell 23 is sleeved on the second shell 24, one side of the second section 112 facing the first shell 23 is clamped between the first positioning portion 234 and the second positioning portion 235, so that the connector 1 except the first section 111 is completely placed in the first groove 231 and the third groove 241, that is, the connector 1 except the first section 111 is completely placed in the first channel 21, and the first section 111 is placed outside the bent shell 2, so that the first section 111 of the plug 11 can be inserted into an external device to transmit data and/or charge the external device.

Of course, the present application may have other embodiments, and based on the embodiments, those skilled in the art may obtain other embodiments without any creative effort, and all of them fall within the protection scope of the present application.

Claims (10)

1. The utility model provides an elbow data line, includes curved shell, curved shell seted up first passageway and with the second passageway of first passageway intercommunication each other, the axis of first passageway with the crossing contained angle that forms of axis of second passageway, its characterized in that, elbow data line still includes:

one end of the connector is provided with a plug for electric equipment, and the other end of the connector is provided with a wire arrangement board for connecting a plurality of wires;

the connector by the one end of winding displacement board stretches into in the first passageway, just winding displacement board is located the first passageway with the intercommunication department of second passageway, the one end of many wires stretches into in the second passageway and weld in winding displacement board.

2. The elbow data line of claim 1, wherein the intersection of the central axis of the first passageway and the central axis of the second passageway forms an angle of 90 °.

3. The elbow data wire of claim 1, wherein the wiring board is provided with a first soldering surface and a second soldering surface, the second soldering surface being provided on a side opposite to the first soldering surface;

a plurality of wires are welded to the first welding surface and/or the second welding surface.

4. The elbow data line of claim 3, wherein a first space is provided between the inner wall of the curved shell facing the first welding surface and the first welding surface, and a plurality of wires can be inserted into the first space and welded on the first welding surface.

5. The elbow data line of claim 3, wherein a second space is provided between the inner wall of the curved shell facing the second welding surface and the second welding surface, and a plurality of wires can be inserted into the second space and welded to the second welding surface.

6. The elbow data line according to claim 3, further comprising a positioning member for positioning a plurality of wires, wherein the positioning member is detachably disposed on a side of the wire arranging plate facing the wires;

a plurality of first fastening grooves are formed in one side, arranged on the first welding surface, of the positioning piece, and any wire is clamped in one first fastening groove in the thickness direction;

one side of the positioning piece, which is arranged on the second welding surface, is provided with a plurality of second fastening grooves, and any wire rod is clamped in one of the second fastening grooves along the thickness direction.

7. The elbow data line of claim 6, wherein the bend shell comprises a first shell and a second shell;

the first shell is provided with a first groove and a second groove communicated with the first groove;

the second shell is provided with a third groove and a fourth groove communicated with the third groove;

when the first shell is sleeved on the second shell, the first channel is formed by the first groove and the third groove, and the second channel is formed by the second groove and the fourth groove.

8. The elbow data line of claim 7, wherein when the first housing is nested in the second housing, one side of the positioning element abuts against the inner wall of the second slot of the first housing, and the opposite side of the positioning element abuts against the inner wall of the fourth slot of the second housing.

9. The elbow data line of claim 7, wherein the first housing defines a first detent, and wherein the plug defines a first segment and a second segment fixedly coupled to the first segment;

the section of the second section perpendicular to the thickness direction is larger than the section of the first section perpendicular to the thickness direction;

one side of the second section facing the first section is abutted against the first positioning part.

10. The elbow data line of claim 9, wherein the first shell is provided with a second positioning portion at an inner wall of the first groove;

one side of the second section, which is far away from the first section, is abutted against the second positioning part.

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