CN210779242U

CN210779242U - Plug and data line with same

Info

Publication number: CN210779242U
Application number: CN201921880530.4U
Authority: CN
Inventors: 张德辉
Original assignee: Shenzhen Qihui Precision Metal Products Co ltd
Current assignee: Dongguan aikede Electronic Technology Co.,Ltd.
Priority date: 2019-10-31
Filing date: 2019-10-31
Publication date: 2020-06-16
Anticipated expiration: 2029-10-31

Abstract

The utility model relates to a plug field especially relates to a plug and have data line of this plug, and this plug includes PCB board and two at least conductive terminal, and conductive terminal includes weld part and at least one conduction portion, weld part one side is connected on the PCB board, conduction portion with weld part connection, just conduction portion is the angle setting with the weld part, and the data line includes foretell plug, still includes wire rod and USB interface, wire rod one end and plug connection, the other end and USB interface connection. The conductive terminals can be arranged at an angle with the PCB board no matter the conductive terminals are arranged at different angles on the plug, and the conductive terminals can be arranged at an angle with the PCB board by adopting the structure, so that the conductive terminals of the plug are designed in a diversified manner.

Description

Plug and data line with same

[ technical field ] A method for producing a semiconductor device

The utility model relates to a plug field especially relates to a plug and have data line of this plug.

[ background of the invention ]

The connector (hereinafter, a male connector is adopted) of the existing general electronic product and the plug (hereinafter, a female connector is adopted) of the electrical appliance are collectively called as a plug; the terminal in the plug is of a not-few structure, and one end of the terminal is usually connected to the PCB through an electrode so as to complete processing of electric signals through the PCB, such as high-level pull-up/pull-down and the like; the other end of the male head protrudes out of the male head, a groove matched with the terminal structure is formed in the female head, and then the male head and the female head are correspondingly matched in an inserting manner; however, the existing terminal is arranged at an angle, such as 90 degrees, to the PCB, and two ways are often adopted: firstly, give up the welded form in the past, be the angle with terminal and PCB and put, lead out wire rod electrode connecting terminal from the pin that the PCB board corresponds, but lacked the stable and big advantage of contact surface of this kind of mode of welding to the wire rod accounts for the space promptly and has raised the cost again, has still increased because the cluster leads to the risk of short circuit. Secondly, the terminal is immobile, thereby make the terminal welding on the PCB board with PCB board upset position, this kind of mode is mainly not dominant in the space, if the PCB board in the public head if not keep flat along public head to female direction, just need do very big with public head, in no matter beautifully or in the practicality, great public head is all unsuitable.

[ Utility model ] content

In order to overcome the prior technical problems. The utility model provides a plug and have electronic product of plug.

The utility model provides a technical problem's technical scheme provides a plug, its characterized in that: a plug, characterized by: the plug comprises a PCB and at least two conductive terminals, wherein each conductive terminal comprises a welding part and at least one conduction part, one surface of each welding part is connected onto the PCB, the conduction parts are connected with the welding parts, and the conduction parts and the welding parts are arranged at an angle.

Preferably, the plug includes a first connector and a second connector, and the PCB is disposed in the first connector and parallel to a connection direction of the first connector and the second connector.

Preferably, the conductive terminals include a first conductive terminal and a second conductive terminal, the first conductive terminal is disposed on one side of the PCB, and the second conductive terminal is disposed on the other side of the PCB.

Preferably, the conduction part and the welding part are integrally formed or assembled, and the conduction part stands on the side surface or the middle of the welding part.

Preferably, the conductive terminal further includes a connection portion, the connection portion is disposed at an end of the conductive terminal away from the soldering portion, and the connection portion is any one of a metal ring, a metal plating layer, a contact spring, an elastic contact, and an elastic contact pin.

Preferably, the first connector comprises a magnetic part surrounding the conductive terminal, wherein the conductive part and the magnetic part are in contact with each other; the second connector can be provided with a magnetic part or a magnetic body which can be magnetically attracted, and the first connector and the second connector are connected through the magnetic part.

Preferably, one of the first conductive terminal and the second conductive terminal is a positive electrode, and the other is a negative electrode; the conductive terminals further comprise a third conductive terminal which is a data terminal and is arranged on any surface of the PCB.

Preferably, the conductive portion is disposed at 90 ° to the weld portion.

Preferably, the conducting part and the welding part are formed by bending metal sheets.

For better solving above-mentioned problem, the utility model provides a still another technical scheme, a data line, data line include foretell plug, still include wire rod and USB interface, wire rod one end and plug connection, the other end and USB interface connection.

Compared with the prior art, the utility model provides a plug and have equipment of this plug have following advantage.

1. The conductive terminals are provided with the welding parts and the conduction parts, and the conduction parts and the welding parts are arranged in an angle manner, so that the conduction parts can be inclined or erected on the welding parts from different angles to meet the requirement of arranging the conductive terminals on the plug at different angles, and the conductive terminals can be arranged in an angle manner with a PCB (printed circuit board) regardless of the transmission of electric energy or data signals, so that the conductive terminals of the plug are diversified, and are not limited to the condition that the existing conductive terminals are positioned in the same plane and at the same angle, for example, when the conductive terminals of the positive electrode and the negative electrode are positioned in the same plane, the positive electrode and the negative electrode are easily short-circuited by external foreign matters, thereby damaging the plug and even bringing about safety accidents, and the third conductive terminal and the positive electrode and the negative electrode can be arranged in different angles or different, thereby enhancing the durability of the plug.

Meanwhile, the welding part can realize the planar contact welding with the PCB, so that the contact surface of the welding part when being welded with the PCB is flat and has no gap, the welding stability and the welding contact area are increased, and the current which can be borne is larger; compared with the traditional welding mode, the connecting performance is better, and the welding structure of the mode has high rigidity and good integrity. And simultaneously, the air tightness and the water tightness are easily ensured.

2. Through setting up the PCB board to be parallel to the direction of connection with first connector and second connector, first its shell size that is used for protecting the PCB board need not to set up very big, from this the plug can set up comparatively meticulously, thereby the aesthetic property and the space utilization of plug have been guaranteed, second is the PCB board is kept away from conductive terminal one end and is need to weld the circuit usually, introduce the one end of external power source promptly, the circuit can adopt when the PCB board adopts this kind of mode to place and weld on the PCB board with the same mode tie of conductive terminal 24, can not bring the ascending power of axial for the circuit when first connector and second connector are connected, the ascending power of perpendicular to PCB side promptly, thereby the circuit is difficult to become flexible and drops, the stability of this plug has been increased.

3. The second conductive terminals are arranged on the surface of the PCB, away from the first conductive terminals, and the first conductive terminals and the second conductive terminals are respectively arranged on two surfaces of the PCB, so that the space is fully utilized, meanwhile, the first conductive terminals and the second conductive terminals are not easy to contact, the situation that the plug is damaged due to short circuit when the first conductive terminals and the second conductive terminals are used as positive and negative electrodes is avoided, and the stability and the reliability of the plug are improved.

4. The structure relationship between the conductive part and the welding part is further limited, the conductive part and the welding part are integrally formed or assembled, and the conductive part is arranged on the side surface or the middle part of the welding part, so that the conductive terminal can be made into different shapes to meet various types of plugs.

5. The connecting part can be any one of a metal ring, a metal plating layer, a contact spring sheet, an elastic contact and an elastic contact pin; it can be understood that the connecting portion is a portion of the conductive terminal for conducting the electrode, and is usually exposed to the plug, so that product customization can be realized, and the electronic device can be specifically set according to different customer product requirements and specific needs.

6. The conduction part is simultaneously contacted with the magnetic part, so that the magnetic part can play a magnetic role and realize electric conduction; such design can make full use of the space, when can satisfying first connector and second connector magnetism and connect, still connect to compromise bigger magnetism and inhale the area and in order to increase magnetic attraction force, also make the area of magnetism portion of inhaling contact when electrically conductive can satisfy the condition of heavy current transmission completely simultaneously.

7. By defining one of the first conductive terminal and the second conductive terminal as a positive electrode and the other as a negative electrode,

8. through conduction portion with the welding part is 90 settings, and the benefit that this angle was set for lies in, first more convenient during this angle of processing, does not have dead angle or clearance, only needs to process conduction portion with the welding part upset, and second when conduction portion stands upright on the welding part, its better preparation relatively is with subsequent connecting portion, no matter be integral type processing connecting portion or assembled, all can give the better processing condition of connecting portion.

9. The conducting part and the welding part are formed by bending the metal sheet, the mode has the advantages that the first conductive terminal is more convenient to manufacture and process, the first conductive terminal only needs to cut the plane of the metal sheet into a fixed shape, and the first conductive terminal can be processed by bending for many times, so that the process is simplified, and the production efficiency is improved.

10. Further provides a data line, so that the electronic product can have all the beneficial effects of the conductive terminal.

[ description of the drawings ]

Fig. 1 is a schematic structural diagram of a plug according to a first embodiment of the present invention;

fig. 2 is a schematic structural view of a first connector in the plug according to the first embodiment of the present invention;

fig. 3 is a partial exploded view of a first connector in a plug according to a first embodiment of the present invention;

fig. 4 is an exploded view of a first connector in the plug provided by the first embodiment of the present invention;

fig. 5 is a schematic structural view of the conductive terminals and the PCB board in the first connector of the plug according to the first embodiment of the present invention;

fig. 6 is a schematic structural view of a first conductive terminal in the plug according to the first embodiment of the present invention;

fig. 7 is a projection view of the first conductive terminal of the plug according to the first embodiment of the present invention along the connecting direction between the first connector and the second connector;

fig. 8 is a schematic structural view of a plug according to a second embodiment of the present invention, in which a first conductive terminal is not in use;

fig. 9 is a schematic structural view of a plug according to a third embodiment of the present invention, in which a first conductive terminal is not in use;

fig. 10 is a schematic structural view of a second conductive terminal in the plug according to the fourth embodiment of the present invention;

fig. 11 is a schematic structural view of the first and second conductive terminals and the PCB board of the plug according to the fourth embodiment of the present invention when they are mated;

fig. 12 is a schematic structural view of an insertion portion in a plug according to a fourth embodiment of the present invention;

fig. 13 is a schematic structural view of an insertion portion at another angle in a plug according to a fourth embodiment of the present invention;

fig. 14 is a schematic structural view of an insertion portion of a plug according to a fourth embodiment of the present invention when the insertion portion is engaged with a second conductive terminal;

fig. 15 is a schematic structural view of an insertion portion of a plug according to a fourth embodiment of the present invention, the insertion portion being engaged with first and third conductive terminals;

fig. 16 is a schematic structural view of an insertion portion of a plug according to a fourth embodiment of the present invention when the insertion portion is mated with a PCB;

fig. 17 is a schematic structural view of a plug according to a fourth embodiment of the present invention in another state;

fig. 18 is a simplified structural schematic diagram of the PCB board and the conductive terminals according to the first to fourth embodiments of the present invention;

fig. 19 is a schematic structural diagram of an electronic product according to a first embodiment of the present invention when the electronic product is an adapter;

fig. 20 is a schematic structural diagram of an electronic product according to a first embodiment of the present invention.

Description of reference numerals: 100. a plug; 20. a first connector; 21. a connecting assembly; 211. a magnetic part; 212. a plug-in part; 2121. a first inlet; 2122. a second inlet; 2123. a first outlet; 2124. a second outlet; 2125. a third outlet; 2126. a limiting block; 22. a housing; 23. a PCB board; 24. a conductive terminal; 241. a first conductive terminal; 2411. a first weld; 24111. a groove; 24122. a protrusion; 2412. a first conductive part; 2413. a first connection portion; 242. a second conductive terminal; 2421. a second weld; 2422. a second conductive part; 2423. a second connecting portion; 243. a third conductive terminal; 25. mounting the component; 30. a second connector; 200. a wire rod; 300. and a USB interface.

[ detailed description ] embodiments

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and the embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The first embodiment is as follows:

referring to fig. 1, a plug 100 according to a first embodiment of the present invention includes a first connector 20 and a second connector 30; the first connector 20 and the second connector 30 can be connected in a breakable manner, such as insertion connection and magnetic connection; meanwhile, the electrode conduction is realized while the connection is carried out, so that the transmission of electric energy and/or the transmission of electric signals are completed.

Wherein in the utility model discloses in, first connector 20 and second connector 30 do not restrict male head and female head on the objective understanding, but are limited to first connector 20 for the input of signal of telecommunication, and second connector 30 is as the end of accepting of first connector 20 to will through electric energy and/or the signal of telecommunication behind first connector 20 output to electronic equipment on, for better understanding, exemplary like: when first connector 20 and second connector 30 are magnetism to inhale the plug, be about to similar adapter on second connector 30 pegs graft to electronic equipment's socket, magnetism through first connector 20 and second connector 30 realizes that the electrode switches on, and the relative electronic equipment's of second connector 30 socket is "public head" this moment, is "female head" again relatively first connector 20, for avoiding this type to obscure, consequently the utility model discloses inject more than making.

Referring to fig. 2, the first connector 20 includes a connecting member 21 and a housing 22; the first connector 20 is contacted with the second connector 30 through the connecting component 21 to form a detachable connection, and the outer shell 22 is used for protecting the first connector 20;

referring to fig. 2 and fig. 3, the housing 22 includes a PCB 23, the first connector 20 further includes a conductive terminal 24, one end of the conductive terminal 24 extends out of the connecting assembly 21, and an electrode at one end is connected to the PCB 23, so as to achieve electrical conduction or transmission with the second connector 30, that is, charging or data transmission;

referring to fig. 3 and 4, the PCB 23 and the connecting assembly 21 further include a mounting assembly 25, the mounting assembly 25 is fixedly connected to the connecting assembly 21, and one end of the conductive terminal 24 is electrically connected to the PCB 23, and the other end of the conductive terminal can enter from one side of the connecting assembly 21 close to the PCB 23, extend out from the other side, and extend to the outside of the connecting assembly 21; because the conductive terminals 24 are usually thin, the mounting assembly 25 can be used to support the conductive terminals 24 so as to make them stable and not easy to deform, thereby increasing the stability of the conductive terminals 24, and meanwhile, the mounting assembly 25 can separate the conductive terminals 24 to avoid the short circuit and series flow caused by mutual contact.

The material of the conductive terminal 24 is not limited, and may be any one of a copper core, a gold core, and an iron core; only the requirement of realizing electric energy transmission or point signal transmission is met, and the embodiment can be an all-copper core optionally so as to achieve better transmission efficiency.

Referring to fig. 4, the connecting assembly 21 includes a magnetic portion 211 and a plug portion 212, wherein the magnetic portion 211 may be rectangular, cylindrical, truncated cone-shaped, prism-shaped, ring-shaped, oval-shaped, kidney-shaped, shuttle-shaped, or self-developed for industrial design only, and is optionally circular, and the plug portion 212 is a protrusion structure or a groove structure for plugging with the second connector 30; optionally, the inserting portion 212 is of a convex structure, and the magnetic portion 211 is sleeved on the inserting portion 212, so that the inserting portion 212 passes through the magnetic portion 211, and therefore the first connector 20 can be connected with the second connector 30 in a magnetic manner while being inserted, and further the connection is more stable.

Referring to fig. 5, the conductive terminal 24 includes at least two terminals, optionally three terminals, namely a first conductive terminal 241, a second conductive terminal 242, and a third conductive terminal 243, wherein the first conductive terminal 241, the second conductive terminal 242, and the third conductive terminal 243 are all used for transmitting electrical signals; the electrical signal may be an electrical energy or a data signal, i.e., the first conductive terminal 241, the second conductive terminal 242, and the third conductive terminal 243 may be any combination of positive, negative, and data terminals.

In some embodiments, the plug 100 is only for power transfer, i.e. for use with only charged positive and negative poles, i.e. no three terminals are required, only two terminals are required.

As can be seen from the illustration, the conductive terminals 24 are all connected to the PCB at one end, and the ends of the first conductive terminal 241 and the second conductive terminal 242 departing from the PCB 23 can be disposed at various angles of the PCB, and the specific implementation manner thereof is as follows:

referring to fig. 5, fig. 6 and fig. 7, first, taking the first conductive terminal 241 as an example, which is optionally defined as a positive electrode, a portion of the first conductive terminal connected to the PCB 23 is defined as a first soldering portion 2411, one surface of the first soldering portion 2411 and the PCB 23 are soldered by a planar contact method, so that a contact surface of the first soldering portion 2411 when soldered to the PCB 23 is flat and has no gap, and the soldering stability and the soldering contact area are increased, so that the current that can be received is larger; compared with the traditional welding mode, the connecting performance is better, and the welding structure of the mode has high rigidity and good integrity. And simultaneously, the air tightness and the water tightness are easily ensured.

A first conducting part 2412 which is connected with the first welding part 2411 in an electrode manner is arranged on the surface of the first welding part 2411 which is vertical to the surface far away from the PCB 23, the first conducting part 2412 is used for transmitting electric signals, and the first conducting part 2412 and the first welding part 2411 are arranged in an angle manner in appearance; the angle is different from the existing angle of the bent terminal, and can be referred to as a third conductive terminal 243, and the third conductive terminal 243 is the same as the previous bent terminal in the mode that one end is welded on a PCB, and the other end is directly bent in the front; the angle between the first conductive portion 2412 and the first soldering portion 2411 is defined as the projection of the conductive terminal 24 along the direction from the first soldering portion 2411 to the first connection portion 2413 or along the connection direction of the plug 100, and the angle between the first soldering portion 2411 and the first conductive portion 2412 can be referred to as the angle a in fig. 6 and 7.

Further, an angle a thereof is defined as 30 ° to 120 °, so that the first conductive part 2412 and the PCB board 23 assume different angles, preferably 90 °.

Furthermore, a first connection portion 2413 is further disposed at an end of the first conductive portion 2412 away from the PCB 23, the first connection portion 2413 is electrically connected to the first conductive portion 2412, and the first connection portion 2413 is generally exposed from the first connector 20 and is a portion of the first conductive terminal 241 for electrically connecting to the second connector 30, i.e. a portion for contacting the second connector 30.

Having explained the positional relationship and functional properties of the first weld 2411, the first conduction part 2412 and the first connection part 2413 above, the structural features forming the positional relationship are further supplemented by two embodiments below:

example two:

referring to fig. 8, in the second embodiment, a situation that the first soldering portion 2411, the first conducting portion 2412 and the first connecting portion 2413 are integrally processed is described, at this time, the first conducting portion 2412 is disposed at an angle on a side surface or a middle portion of the first soldering portion 2411, when the first conducting portion 2412 stands in the middle of the first soldering portion 2411, the first conducting portion 2412 is integrally formed by a mold, and when the first conducting portion 2412 stands on a side surface of the first soldering portion 2411, the first conducting terminal 241 is formed by bending a metal sheet.

Further, after the first conducting portion 2412 is bent to form an angle shape standing on the first welding portion 2411, one end of the first conducting portion 2412 away from the first welding portion is continuously bent to form an elastic contact spring sheet so as to form the first connecting portion 2413.

Example three:

referring to fig. 9, the third embodiment describes that the first welding portion 2411 and the first transmission portion 2412 are assembled, that is, a groove 24111 is optionally formed on the first welding portion 2411, a protrusion 24122 matched with the first welding portion 2412 is formed on the first transmission portion 2412, when the protrusion 24122 is inserted into the groove 24111, the first transmission portion 2412 stands on the first welding portion 2411 and is disposed at an angle, and the groove 24111 and the protrusion 24122 can be interchanged in position, which only needs to satisfy the above functions.

The first connection portion 2413 may be formed by assembling, machining, bending integrally, or alternatively bending integrally.

The first conductive terminal 241 has been described above, and the second conductive terminal 242 is further described below.

Example four:

referring to fig. 10, taking the second conductive terminal 242 as an example, which may be optionally defined as a negative electrode, the second conductive terminal 242 also includes a second soldering portion 2421 and a second conductive portion 2422; unlike the second conductive terminal 242, the number of the second conductive parts 2422 may be at least two, and as shown in the figure, the number of the second conductive parts 2422 may be two, which may be arranged in the manner described in the second embodiment and the third embodiment, and thus, the second soldering part 2421 is also disposed at an angle; it is optionally adopted that the second welding part 2421 is integrally provided at both sides thereof.

Referring to fig. 10 and 11, the second conductive terminals 242 are disposed on a surface of the PCB 23 away from the first conductive terminals 241, so as to fully utilize the space, and meanwhile, the first conductive terminals 241 and the second conductive terminals 242 are not easily contacted, thereby preventing the damage of the plug 100 due to the short circuit of the positive and negative electrodes; the stability and reliability of the plug 100 is increased.

Further, the second welding part 2421 is connected with the ground level and the negative electrode on the PCB 23 at the same time, so that the second conducting part 2422 presents the negative electrode and is grounded at the same time, thereby after the whole plug forms an electric path, the stability of electrification is ensured, the circuit oscillation cannot easily occur, and meanwhile, a large current can pass through, so that the quick charging and overload protection can be realized, the circuit and the external electronic equipment are prevented from being damaged, and the personal safety is ensured under special conditions.

With continued reference to fig. 12 and 13, the structural features of the first conductive terminal 241 and the second conductive terminal 242 are described above, and the assembly thereof during the mounting process is further described below.

The end of the mating part 212 close to the PCB is provided with a first inlet 2121 and a second inlet 2122 for the conductive terminals to be inserted thereinto, the end of the mating part 212 away from the PCB is provided with a first outlet 2123, a second outlet 2124 and a third outlet 2125, wherein the first outlet 2123 and the third outlet 2125 are both disposed on the side of the end where the mating part 212 is located, the second outlet 2124 is disposed on the front side of the mating part 212, the first inlet 2121 and the first outlet 2123 are communicated with each other, and the second inlet 2122, the second outlet 2124 and the third outlet 2125 are communicated with each other, so that the conductive terminals extend into the end of the mating part 212 close to the PCB and extend out from the other end.

Referring to fig. 14 and fig. 15, specifically, the first inlet 2121 and the second conductive terminal 242 are matched with each other, the second conductive terminal 242 extends from the first inlet 2511 and then from the first outlet 2123, at this time, the second welding part 2421 is exposed at the first inlet 2121, the second conductive part 2422 is exposed at the first outlet 2123, and the magnetic attraction part 211 is embedded at one end of the first outlet 2123, so that the part of the second conductive part 2422 extending from the first outlet 2123 and the magnetic attraction part 211 are contacted and abutted to each other, that is, the two second conductive parts 2422 are contacted to the inner wall of the magnetic attraction part 211 at the same time, so that the magnetic attraction part 211 can perform the magnetic attraction function and can also achieve electric conduction; therefore, the magnetic part 211 can also be understood as the second connecting part 2423 disposed on the second conductive terminal 242, such design can fully utilize the space, thereby obtaining a larger magnetic area to increase the magnetic attraction force, and simultaneously making the contact area of the magnetic part 211 completely satisfy the condition of large current transmission when conducting,

the third conductive terminal 243 and the first conductive terminal 241 enter from the second inlet 2122 and respectively extend from the second outlet 2124 and the third outlet 2125, and similarly, the first soldering portion 2411 is exposed at the second inlet 2122, the first connecting portion 2413 is exposed at the third outlet 2125, and the third conductive terminal 243 is similarly disposed.

Referring to fig. 16, in order to stabilize the PCB 23 when the first soldering portion 2411 and the second soldering portion 2421 are soldered to the PCB 23, a stopper 2126 is further disposed on the inserting portion 212, the stopper 2126 is arranged on a surface of the inserting portion 212 facing the PCB 23 to form a gap, and the PCB 23 is inserted into the gap to be fixed.

Further, in order to stabilize the first and

second welding portions

2411 and 2421 in the second inlet 2122, the mounting assembly 25 is inserted into the second inlet 2122, the first and

second welding portions

2411 and 2421 pass through the mounting assembly 25, and the mounting assembly 25 stabilizes the first and

second welding portions

2411 and 2421 without easily contacting or deforming.

Referring to fig. 17, further, the PCB 23 is disposed in parallel with the connection direction of the plug 100, i.e. in parallel with the connection direction of the first connector 20 and the second connector 30, it can be understood that the PCB 23 is disposed in parallel based on the structure of the conductive terminals 24, and the PCB 23 has the following advantages: the first is that its shell 22 size that is used for protecting PCB board 23 need not to set up very greatly, from this plug 100 can set up comparatively meticulously, thereby the aesthetic property and the space utilization of plug 100 have been guaranteed, the second is that PCB board 23 is kept away from conductive terminal 24 one end and is need to weld the circuit (not numbered) usually, the one end of introducing external power source promptly, the circuit can adopt when the PCB board adopts this kind of mode to place and weld flatly on the PCB board with conductive terminal 24 the same mode, can not bring ascending power to the circuit when first connector 20 and second connector 30 are connected, the ascending power of perpendicular to PCB direction promptly, thereby the circuit is difficult to become flexible and drops, the stability of this plug has been increased.

Referring to fig. 18 (which is simplified for clarity), summarizing the first to fourth embodiments, the present invention mainly emphasizes a structure of the first conductive terminal 241 and the second conductive terminal 242 (hereinafter referred to as the conductive terminal 24), a first soldering part 2411/a second soldering part 2421 (hereinafter referred to as soldering part) soldered on the PCB 23 via the conductive terminal, a first conductive part 2412 and a second conductive part 2422 (hereinafter referred to as conductive part), so that the conductive terminals 24 and the PCB 23 are connected at an angle, and then the first connection portion 2413 and the second connection portion 2423 (hereinafter, collectively referred to as "connection portions") on the conductive portion are matched, so that the connection portions can be arranged at an angle as the PCB 23, so that the connection part can transmit electric energy and/or electric signals at different angles when the first connector 20 and the second connector 30 are connected.

It should be understood that the conductive terminal 24 in the first embodiment is only illustrated by positive and negative electrodes, and in some embodiments, the conductive terminal 24 is set as a data terminal, which also falls within the scope of the present invention.

According to the above, the connection part may be any one of a metal ring, a metal plating layer, a contact spring, an elastic contact, and an elastic contact pin; it is understood that the connecting portion is a portion of the conductive terminal 24 for conducting the electrode, which is generally exposed to the plug 100, and can be specified according to different customer product requirements and specific electronic equipment required to be adapted, for example, a magnetic metal ring as used in the fourth embodiment.

Referring to fig. 19 and 20, in order to better explain the present invention, the present invention provides another technical solution as follows:

namely, a data line (not numbered) which can be used for a mobile power supply, a switching device, a usb disk, a mobile hard disk, and an adapter, and includes the plug 100.

When the second connector 30 is a jack on an electronic device, the Type of the jack of the electronic device, which can be adapted to the first connector 20, may be any one of Lightning, Micro-USB, and Type-C; when the second connector 30 is an adapter, the type of the adapter is any one of the above types, and the socket type of the electronic device socket of the adapter is not limited to the above types, and is replaced according to the socket type of the current mainstream market environment, and the adapter is also included in the scope of the present invention.

The data line further comprises a wire 200 and a USB interface 300, wherein the plug 100, the wire 200 and the USB interface 300 are connected through electrodes; the first connector 20 of the plug 100 is connected to the wire 200, and the USB interface 300 is disposed at an end of the wire 200 away from the first connector 20 and can be connected to an external power electrode.

Specifically, when the second connector 30 is an adapter, the second connector 30 can be placed in a socket of an external device, and one end of the second connector 30 can be inserted into a socket of an external electronic device, and an electrode connection is formed between the first connector 20 and the second connector 30 through connection therebetween; similarly, when the second connector 30 is a socket of an electronic device, the first connector 20 is directly plugged into the second connector 30; if the data line can be a magnetic data line, i.e. the first connector 20 and the second connector 30 can realize magnetic connection.

It will be appreciated that a data line constructed using plug 100 should have the benefits of all of the features of plug 100.

If this data line sets up on electronic product through the combination form, this electronic product also should belong to the scope of the utility model protection.

Compared with the prior art, the utility model provides a plug has the electronic product of this plug promptly and has following advantage:

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and all modifications, equivalents and improvements made within the principles of the present invention are intended to be included within the scope of the present invention.

Claims

1. A plug, characterized by: this plug includes PCB board and two at least conductive terminals, and conductive terminal includes welding part and at least one conduction portion, the welding part one side is connected on the PCB board, conduction portion with the welding part is connected, just conduction portion is the angle setting with the welding part.

2. A plug as claimed in claim 1, wherein: the plug comprises a first connector and a second connector, and the PCB is arranged in the first connector and parallel to the first connector and the second connector in the connecting direction.

3. A plug as claimed in claim 1, wherein: the conductive terminals comprise a first conductive terminal and a second conductive terminal, the first conductive terminal is arranged on one surface of the PCB, and the second conductive terminal is arranged on the other surface of the PCB.

4. A plug as claimed in claim 1, wherein: the conduction portion and the welding portion are integrally formed or assembled, and the conduction portion is located on the side face or the middle of the welding portion.

5. A plug as claimed in claim 1, wherein: the conductive terminal further comprises a connecting part, the connecting part is arranged at one end, deviating from the welding part, of the conductive terminal, and the connecting part is any one of a metal ring, a metal coating, a contact elastic sheet, an elastic contact and an elastic contact pin.

6. A plug as claimed in claim 2, wherein: the first connector comprises a magnetic part arranged around the conductive terminal, wherein the conductive part and the magnetic part are in mutual contact;

the second connector can be provided with magnetism portion of inhaling or the magnetism body of being inhaled by magnetism on, first connector and second connector pass through magnetism portion magnetic force of inhaling and connect.

7. A plug as claimed in claim 3, wherein: one of the first conductive terminal and the second conductive terminal is a positive electrode, and the other one is a negative electrode; the conductive terminals further comprise a third conductive terminal, and the third conductive terminal is a data terminal and is arranged on any surface of the PCB.

8. A plug as claimed in claim 1, wherein: the conduction part and the welding part are arranged at 90 degrees.

9. A plug according to any one of claims 1 to 8, wherein: the conducting part and the welding part are formed by bending metal sheets.

10. A data line, characterized by: the plug comprises the plug as claimed in any one of claims 1 to 9, and further comprises a wire and a USB interface, wherein one end of the wire is connected with the plug, and the other end of the wire is connected with the USB interface.