KR20180001043U - Connector assembly - Google Patents

Abstract

The present invention relates to a novel connector assembly, and includes a connector and a mail head including a magnet receptacle inserted into the electronic device interface. A plurality of pins are exposed to the first magnet attracting face, and the email head, the email head, is provided independently from the mail head, and the first magnet attracting surface corresponds to the magnet attracting force corresponding to the second magnet attracting surface Wherein the pin and / or pin form at least one signal positive group and at least one signal positive group, and wherein the signal forward group and the signal reverse group comprise a plurality of rows of needles, pins and tubes, Lt; / RTI >

Description

Connector assembly

The present invention relates to a connecting assembly, and more particularly to a novel connector assembly.

With the development of science and technology, electronic 3C products have become almost all necessities of life. Based on the need to charge electronics, there is an increasingly common charging of data lines, Andrews data lines and Apple data lines are generally one-piece structures, insert electronic pots with external force to be inserted, The data line can not perform charging of the positive electrode and the negative electrode plug, and is inconvenient.

To overcome the inconvenience of using existing charging wires, the present invention provides a new, easy to use connector assembly.

The present invention relates to a mail head comprising a plug portion and a magnet receptacle inserted into an electronic device interface, the mail head comprising a plurality of pins exposed on the surface of the first magnet attraction, A mail head comprising: a plurality of pins; an end of the mail having a second magnet attraction face at one end of the terminal of the mail, the first magnet attraction surface corresponding to the second magnet surface, Wherein the pins and / or pins form at least one signal positive group with at least one signal positive group, and wherein the signal forward direction and the signal reverse group are opposite to each other in a central symmetric manner, The present invention provides a connector assembly including:

Preferably, the magnet adsorption portion includes a first insulation portion provided on the surface of the first magnet and insulated from the fin, and a magnet pickup sheet surrounding the first insulation portion, wherein the magnet is a magnet or a magnetic adsorption ferromagnetic material .

Preferably, the magnet adsorption portion has a sheet structure having a thickness of 0.3 mm to 2 mm and a width of the magnet adsorption portion larger than the width of the insertion portion.

Preferably, the female end is provided with a groove at one end thereof, the bottom surface of the groove is a second magnet attraction surface received in the groove, the needle protruding from the second magnet field and exposed, 2 insulating portion, and the second insulating portion insulates and isolates the pin.

Preferably, the lower portion of the second magnet receiving surface in the groove is provided with at least one female magnet, and the female magnet magnetically attracts the magnet.

Preferably, the plurality of pins are arranged in a single row spaced from the first magnet field, the different signals transmitted by the pins are arranged symmetrically with respect to a central axis, Respectively.

Preferably, the plug is provided with a plurality of pins that match signals in the interface of the electronic device, the different signals transmitted by the plurality of pins are arranged asymmetrically at one end of the intervening electronic device interface, And is connected to a plurality of pins connected to the first magnet surface within the part.

Preferably, the plug is provided with a plurality of pins that match signals in the interface of the electronic device, the different signals transmitted by the plurality of pins are symmetrically arranged at one end of the intervening electronic device interface, And is connected in parallel to a plurality of pins connected to the first magnet surface within the part.

Preferably, the plurality of pins are arranged in two rows parallel to the first magnet receiving surface, each row being of the same size as the horizontal center line of the first magnet surface, the first row of pins forming a signal positive group , The second column forms a signal reverse group and the e-mail comprises a sequence of columns of columns arranged in a single column, each of which is connected to a signal in one of the columns.

Preferably, the different signals transmitted by the pins of each column are arranged symmetrically with respect to the central axis, and the signals transmitted by the pins include the V + signal, the V- signal, the D + signal, and the D- signal.

Preferably, the plurality of pins are arranged in two rows parallel to the first magnet receiving surface, each row being of the same size as the horizontal centerline of the second magnet surface, the first row of pins forming a signal forward group , The second column forms a signal reverse group, and the mail head comprises a column of columns arranged in a single column, each of which is connected to a signal in one of the columns.

Preferably, the plurality of pins are arranged in at least two rows parallel to the first magnet receiving surface, at least two rows of horizontal centerlines of the first magnet attraction face are the same size, and the signals of the pins are at least one of two rows Or by the partial fins of at least two rows of pins and the other rows, and the forward signal of the signal's pin and pin in the reverse direction of the signal matches the pin.

Preferably, the forward signal group of the fins includes at least a pin for transmitting the V + signal, the V- signal, the D + signal and the D- signal, and the signal inversion group of the pin includes at least a transmission V + - Includes pins.

Preferably, the plurality of pins are arranged in at least two rows parallel to the second magnet receiving surface, at least two rows of horizontal centers of the second magnet receiving surface are of the same size, and at least one row of two rows or rows of pins Wherein the mail head comprises a plurality of rows arranged in at least one row and wherein the signal of the forward signal of the pin and the pin of the pin are matched to the signal do.

Preferably, the signal forward group comprises signal lines for transmitting at least the V + signal, the V- signal, the D + signal and the D- signal, and the signal inversion group of the pin signal comprises at least a transmission V + D + signal, and D- signal pin.

In contrast to the prior art, the novel connector assembly of the present invention has the following advantageous effects.

First, the novel connector assembly according to the present invention is provided by separating the mail and the mail finger 13, and the pins of the mail pin mail pin are symmetrical so that the mail teeth are positively fastened to the mail head to implement the charging function, When combined with the mother flip 180 degree mail head, the power path is formed to reverse the charge function.

Second, the mail pins are one column, two columns or multiple columns, forming at least two mutually symmetric signal forward and signal reverse groups. Each signal forward group transmits at least a V + signal, a V- signal, a D- signal, a D- signal, and a signal for forwarding and / or a signal reverse group, Even in a combined or flip 180 degree reverse, the mail head combination forms a power signal path and a data signal path, and charging and data transmission can be achieved; The signal pins for the first column, the second column or the plurality of columns form at least two mutually center symmetric signal forward groups and signal reverse groups, each signal positive group comprising at least a V + signal, a V- signal, a D + And the mail pin selects a signal forward and / or signal reverse group for signal and position matching to ensure that the mail head combination and the data signal path in the mail and mail forward or reverse flip 180 degrees reverse And charging and data transmission can be achieved.

Third, a mail and a mail split design are used in the form of a mail plug inserted into an interface of an electronic equipment, a mother is provided with a mail magnet, and a magnetic force is applied to the mail and the mail to achieve electric conduction, It is not necessary to repeatedly pull the mail head from the interface of the electronic device repeatedly several times to damage the interface and does not affect the lifetime of the electronic device, 2 insulating portion, and is exposed to the shear face of the second insulating portion, so that the electrical connection between the electronic mail and the mail and the signal transmission stability are good.

Fourth, the pins for the pogo-pin pin have a long impact life, low-impedance electrical signal transmission stability, and the insulation space and other features promote miniaturization of the public 11.

Fifth, the upper end of the e-mail is provided with a groove formed in a shape corresponding to the magnet suction portion of the e-mail, and the e-mail is received in the groove, so that the e-mail and the e-mail are more firmly and stably contacted with each other.

Sixth, due to the design of the mail magnet suction part and the seat structure for the thin structure, the public is connected to the electronic equipment port, the user does not feel the thickness of the basic, and the user is able to make an upper time paste at the electronic device port, It does not affect the carrying of electronic equipment, it allows electronic equipment charging and data transfer, and even the ports of electronic devices can be protected against moisture, dirt and waterproofing.

1 is a schematic diagram showing the overall structure of a novel connector assembly of the present invention;
2 is a schematic view of a male structure of a novel connector assembly according to a first embodiment of the present invention;
3 is a schematic view of a male connector structure according to a first embodiment of the present invention;
4 is a schematic view of the structure of a mail connector according to a first embodiment of a connector assembly of the present invention;
5 is a schematic view of a mail connector according to a second embodiment of the present invention;
6 is a schematic structural view of a mail connector according to a second embodiment of the present invention.
7 is a schematic view of a mail connector for a third embodiment of the present invention.
8 is a schematic view of the structure of the mail connector and the female connector according to the third embodiment of the present invention.
9 is a schematic view of a structure of a mail connector and a female connector according to a fourth embodiment of the present invention.
10A is a schematic view of a mail connector of a novel connector assembly according to a fifth embodiment of the present invention;
10B is a schematic structural view of a mail connector portion of a novel connector assembly according to a fifth embodiment of the present invention.
10C is a schematic view of a female three-dimensional structure of a novel connector assembly according to a fifth embodiment of the present invention.
10D is a schematic view of the contact end face of the female connector according to the fifth embodiment of the present invention.
FIG. 10E is a schematic view showing the mail-mail coupling of the novel connector assembly of the fifth embodiment of the present invention; FIG.
FIG. 10F is a schematic structural view showing a mail and a frontal coupling signal matching of a new connector assembly according to a fifth embodiment of the present invention; FIG.
FIG. 10G is a schematic structural view of a novel connector assembly according to a fifth embodiment of the present invention, wherein a male reverse 180 degree reverse and mail coupling signal is matched.
11A is a schematic structural view of a mail connector portion of a novel connector assembly according to a sixth embodiment of the present invention.
11B is a schematic view of the structure of a contact block having a mail head of a novel connector assembly of a sixth embodiment of the present invention.
FIG. 11C is a schematic structural view of the female connector according to the sixth embodiment of the present invention, in which the mail and the mail forward signal are matched.
FIG. 11D is a schematic structural view of the female connector according to the sixth embodiment of the present invention, wherein the mail flip over 180 degrees is matched with the mail coupling signal.
12A is a schematic structural view of a mail connector portion of a novel connector assembly according to a seventh embodiment of the present invention.
12B is a schematic structural view of a female connector according to a seventh embodiment of the present invention in which a mail and a mail forward signal are matched.
FIG. 12C is a schematic structural view of a novel connector assembly according to a seventh embodiment of the present invention, wherein the mail flip over 180 degrees matches the mail coupling signal.
13A is a schematic structural view of a mail connector portion of a novel connector assembly according to an eighth embodiment of the present invention.
13B is a schematic view of the structure of a novel connector assembly according to an embodiment of the present invention.
FIG. 13C is a schematic structural view of a novel connector assembly according to an embodiment of the present invention, wherein the mail and mail forward signals are matched.
13D is a schematic structural view of a mail connector for a new connector assembly according to an embodiment of the present invention.
14A is a schematic structural view of a mail connector portion of a novel connector assembly according to a ninth embodiment of the present invention.
14B is a schematic view of the structure of a ninth embodiment of a novel connector assembly according to an embodiment of the present invention;
FIG. 14C is a schematic structural view of a novel connector assembly according to a ninth embodiment of the present invention, in which the mail and mail forward signals are matched.
14D is a schematic structural view of a novel connector assembly according to a ninth embodiment of the present invention wherein the mail rotator is rotated 180 degrees in reverse to the mail coupling signal.
15A is a schematic structural view of a novel connector assembly according to an embodiment of the present invention.
FIG. 15B is a schematic structural view of a mail connector according to a tenth embodiment of the present invention, wherein the mail and mail forward signals are matched.
15C is a schematic structural view of a novel connector assembly according to a tenth embodiment of the present invention.
16A is a schematic view of the structure of a contact end face of a mail connector of an embodiment of a novel connector assembly of the present invention;
FIG. 16B is a schematic structural view of a novel connector assembly according to an eleventh embodiment of the present invention, wherein the electronic mail and mail forward signals are matched.
16C is a schematic structural view of a novel connector assembly according to an eleventh embodiment of the present invention wherein a 180 degree rib and a mail coupling signal are matched.
17A is a schematic structural view of a mail connector portion of a connector assembly according to a twelfth embodiment of the present invention.
17B is a schematic view of the contact end face of the second connector assembly of the present invention having a mail head.
17C is a schematic structural view of a novel connector assembly according to a twelfth embodiment of the present invention, wherein the electronic mail and mail forward signals are matched.
17D is a schematic diagram of a novel connector assembly according to a twelfth embodiment of the present invention in which 180 degree reverse mail and mail coupled signals are matched.
18A is a schematic structural view of a novel connector assembly embodiment of the present invention in contact with a mail terminal.
FIG. 18B is a schematic structural view of a novel connector assembly according to a thirteenth embodiment of the present invention, wherein the electronic mail and mail front signals are matched. FIG.
18C is a schematic structural view of a novel connector assembly according to a thirteenth embodiment of the present invention, wherein a 180 degree reverse mail and a mail coupling notification are matched.
19A is a schematic structural view of a novel connector assembly according to an embodiment of the 14th mail head of the present invention.
FIG. 19B is a schematic structural view of a novel connector assembly according to a fourteenth embodiment of the present invention, wherein the electronic mail and mail forward signals are matched. FIG.
FIG. 19C is a schematic structural view of a novel connector assembly according to the fourteenth embodiment of the present invention, wherein the mail flip 180 also matches the mail and mail-coupled signals on the reverse.
20A is a schematic structural view of a novel connector assembly of a mail head according to a fifteenth embodiment in contact with a mail terminal.
Fig. 20B is a schematic structural view of a novel connector assembly according to a fifteenth embodiment of the present invention, wherein the electronic mail and mail forward signals are matched.
20C is a schematic structural view of a novel connector assembly according to a fifteenth embodiment of the present invention in which 180 degree reverse mail and female coupling signals are matched.
21A is a schematic structural view of a mail connector portion of a novel connector assembly according to a sixteenth embodiment of the present invention.
21B is a schematic view of the structure of the contact terminal face of the mail connector of the embodiment of the present invention.
FIG. 21C is a schematic structural view of a novel connector assembly according to the sixteenth embodiment of the present invention, wherein the mail and mail forward signals are matched.
FIG. 21D is a schematic structural diagram of a novel connector module according to the sixteenth embodiment of the present invention, wherein 180-degree reverse mail and mail-coupled signals are matched.
22A is a schematic structural view of a mail connector portion of a novel connector assembly according to the first embodiment of the present invention;
Figure 22B is a schematic view of the contact end face of the mail connector according to an embodiment of the present invention.
Fig. 22C is a schematic structural view of the female connector according to the seventeenth embodiment of the present invention, wherein the mail and mail forward signals are matched.
22D is a schematic structural view of a mail flip and mail coupling signal over a 180-degree reverse of a novel connector assembly according to a seventeenth embodiment of the present invention.
23A is a schematic structural view of a mail connector portion of a novel connector assembly according to an embodiment of the present invention.
23B is a schematic view of the structure of the contact end face of the mail connector of the eighteenth embodiment of the present invention.
24A is a schematic view of a contact end face of a female connector according to an embodiment of the present invention;
24B is a schematic structural view of a female connector according to a nineteenth embodiment of the novel connector assembly according to the present invention.
24C is a schematic structural view of a mail flip and mail coupling signal over a 180 degree reverse of the novel connector assembly of the present invention.
25A is a schematic view of the structure of a contact end face of a mail connector of an embodiment of a novel connector assembly of the present invention.
25B is a schematic structural view of a novel connector assembly of a twentieth embodiment of the present invention for matching a mail and a female front coupling signal.
25C is a schematic structural view of a mail flip and mail coupling signal over a 180 degree reverse of the novel connector assembly of the present invention.

In order to more clearly illustrate the objects, technical solutions and advantages of the present invention, the present invention will be described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described are not intended to limit the present invention, but merely as illustrative examples.

1, the present invention provides a novel connector assembly 10 that includes a mail terminal 101, a mail terminal 103, a line body 105, and a plug 107. As shown in the figure, the mail terminal 103 and the plug 107 are integrally connected to each other, and the mail terminal 103 and the plug 107 are located at both ends of the line 105, Is separately designed from the mail terminal 103, and the mail terminal 101 and the mail terminal 103 are magnetically attracted to each other. The mail terminal 101 is inserted into the interface 201 of the electronic device 20. The plug 107 may be a USB connector, a Type c connector, a micro header, a Lighting Dock header, or an HDMI interface.

2, the mail head 101 according to the first embodiment of the present invention includes a connector 1011 and a magnet attracting portion 1013, and the inserting portion 1011 is integrally formed with the magnetic suction portion 1013 And the insertion portion 1011 is rectangular and the conductive material is inserted into the interface 201 of the electronic device 20 to be electrically connected to the electronic device 20 and the magnetic adsorption material 1013 is extended The plug 1011 is positioned above the magnetized portion 1013 (hereinafter, " upper " " lower ", " inside ", " outside " is only used for defining relative positions in the relevant drawings) (1011) is slightly smaller than the width of the magnetic absorber (1013). The magnetic adsorbent body 1013 is a sheet-like design having a thickness of 0.3 mm to 2 mm, a width of 2 mm to 5 mm, a length of 7 mm to 18 mm, a thickness of 0.8 mm, a width of 3 mm, and a length of 12 mm . The thickness of the magnetic suction part 1013 is set to 0.3 mm, 0.4 mm, 0.5 mm, 0.6 mm, 0.7 mm, 0.8 mm, 0.9 mm, 1.0 mm, 1.1 mm, 1.2 mm, 1.3 mm, 1.4 mm, 1.5 mm, , 1.7 mm, 1.8 mm, 1.9 mm, 2.0 mm and the thickness of the design may have an error of ± 0.2 mm unless it has an unacceptable effect on the thickness of the electronic device 20. The insertion portion 1011 is inserted into the interface 201 of the electronic device 20 and the magnetic contact portion 1013 is inserted into the interface 201 of the electronic device 20 because the structure of the mail 101 is convex when the mail 101 is engaged with the electronic device 20. [ And is fixed to the outer surface of the interface 201 to prevent foreign matter from entering the interface 201 of the electronic device 20 and the mail 101 does not affect use It can be inserted into the electronic device 20 for a long time.

The plug-in unit 1011 has a power supply line 1021, a data negative line 1023, a data positive line 1025, a left power supply negative line 1027 and a right power supply negative line 1029, (V + is defined as a power positive signal, D + is defined as a data positive signal, D is defined as a data negative signal, and V- is defined as a power Negative < / RTI > signal). Since the pins are fixed in sequence in the interface 201 of the electronic device 20, the transmitted signal includes left to right V + signal contacts, D- signal contacts, D + signal contacts, air side electronic contacts, V- And the V + signal, the D- signal, the D + signal, and the V- signal are connected to each other. The signal lines and the arrangement of the connector 1011 are connected from the upper end of the plug portion 1011 to the power supply line 1021 and the data negative line 1021 respectively from the upper end of the plug portion 1011 to match the signal at the interface 201 of the electronic device 20. [ Line 1023, data positive line 1025, left power supply negative line 1027, and right power supply negative line 1029 in that order. However, the left power supply negative line 1027, the data negative line 1023, the power supply positive line 1021, the data positive line 1025, and the right power supply negative line 1029 are in this order. The magnetic attraction portion 1013 includes a pin 1041 and a magnetization plate 1043 and a first insulation portion 1045. The number of the fins 1041 is 5 and the number of signal lines And the connection is turned on. The function of the five pins 1041 is the negative pole of the power supply, the negative pole of the data, the positive pole of the power supply, the positive pole of the data, and the negative pole of the power supply. The pin 1041 is arranged in the exposed shear face of the heat resistant magnetic film 1043. The first insulation portion 1045 is provided around the pin 1041 so that the pins 1041 and the magnet 1043 are insulated from each other so that the plurality of pins 1041 are also insulated from each other. The magnetic pickup film 1043 may be a magnet material or a ferromagnetic material adsorbed by a magnet.

The pin 1041 of the mail terminal 101 is electrically connected to the left power supply negative line 1027 and the third order of the pins 1041 is electrically connected to the power supply positive line 1021 and the left power supply negative Line 1027 and the power supply positive line 1021 form the mail 101 and the signal of the mother 103 is forwarded to the group A signal.

3, the mail 101 is rectangular in the mail 101 of the first embodiment of the present invention, and the mail 103 includes the contact 1031, the pin 1033, and the mail magnet 1035 do. As shown in the figure, a groove having a shape corresponding to the magnetic suction portion 1013 is provided at the upper end of the female mail 103, and a plurality of contacts 1031 are provided in the groove. The pin 1033 is connected to the left first power supply terminal pin 1061, the second power supply terminal pin 1065, the first data terminal pin 1063, the second data terminal pin 1067, And includes a pin 1069. The upper end corresponds to the contact 1031 and communicates with each other, and the lower end is connected to the wire body 105. Each of the contacts 1031 includes a left first power supply terminal pin 1061, a first data terminal pin 1063, a second power supply terminal pin 1065, a second data terminal pin 1067, Is electrically connected to the supply terminal pin 1069 and the position of the contact 1031 is set to correspond to the pin 1041 of the mail 101. [ The e-mail magnet 1035 is connected to both the e-mail 103 and the e-mail 101 by magnetic attraction. When the e-mail 103 is connected to the e-mail 101, The contacts 1031 of the head 103 are turned on to reach the electrical connection. The arrangement order of the upper rows of the pins 1033 is the same as that of the left first power supply terminal pin 1061, the first data terminal pin 1063 A second power supply terminal pin 1065, a second data terminal pin 1067 and a right first power supply terminal pin 1069. The left first power supply terminal pin 1061, the first data terminal pin 1061, 1063, a second power supply terminal pin 1065, a second data terminal pin 1067, and a right first power supply terminal pin 1069 in this order. The upper end of the left first power supply terminal pin 1061 is connected to the left power supply negative line 1027 of the mail 101 by communication between the contact 1031 and the pin 1041 . The upper end of the first data terminal pin 1063 is connected to the data negative line 1023 of the mail 101 and the upper end of the second power supply terminal pin 1065 is connected to the power supply line 1021 of the mail terminal 101. [ The upper end of the second data terminal pin 1067 is connected to the data positive line 1025 of the mail 101 and the upper end of the right first power supply terminal 1069 is connected to the right side power of the mail head 101 And is connected to the supply negative line 1029. The upper end of the left first power supply terminal pin 1061 is connected to the left power supply negative line 1027 of the mail terminal 101 and the second power supply terminal pin 1065 Is connected to the power supply positive line 1021 of the mail 101 and the upper end of the right first power supply terminal pin 1069 is connected to the right power supply negative line 1029 of the mail 101, The electronic device is charged.

The third of the pins 1041 of the mail terminal 101 are electrically connected to the right power supply negative line 1029 and the third of the pins 1041 are electrically connected to the power supply positive line 1021, Negative line 1029 and power supply line 1021 form mail 101, and signaling group B is coupled to the signal. The signal conveyed by signal forward packet A and the signal preceded by pin 1041 in group B are symmetrical to each other.

4, when the mail 101 of the present embodiment of the present invention is reverse-engaged with the mail 103, the column 1033 is connected to the right first power supply terminal pin 1069, the second data terminal pin 1067, The second power supply terminal pin 1065, the first data terminal pin 1063, and the first left power supply terminal pin 1061 in this order. The pin 1033 is connected to the pin 1041 via the contact 1031 and the right first power supply terminal pin 1069 is connected to the left power supply negative line 1027 of the mail 101, The terminal pin 1067 is connected to the data negative line 1023 of the mail 101. The second power supply terminal pin 1065 is connected to the power supply line 1021 of the mail terminal 101 and the first data terminal pin 1063 is connected to the data positive line 1025 of the mail 101, The left first power supply terminal pin 1061 is connected to the right power supply negative line 1029 of the mail terminal 101. In this way the right first power supply terminal pin 1069 is connected to the left power supply negative line 1027 of the mail terminal 101 and the second power supply terminal pin 1065 is connected to the power supply of the mail 101 The electronic device can be charged since it is connected to the positive line 1021 and the left first power supply terminal pin 1061 is connected to the right power supply negative line 1029 of the mail head 101. [ Thus, the electronic device is chargeable regardless of whether the mail 103 is forward or backward.

5, the mail head 201 according to the second embodiment of the present invention includes a connector portion 83 and a magnetic suction portion 2013, and the plug portion 2011 is connected to the magnetic suction portion 2013 And is integrally formed. As shown in the figure, the plug-in section 2011 includes a left power supply line 2022, a left data positive line 2023, a data negative line 2024, a right data positive line 2025, a right power supply line 2026 The housing of the plug portion 2011 is made of a metal material, and the side walls are used as a negative electrode of a power source, that is, as a ground line, and the left and right side walls are arranged in a left- And correspond to the line 2021 and the right ground line 2027, respectively. The left mail line 2021, the right power main line 2022, the left data positive line 2023, the data negative line 2024, the right data positive line 2025, the right power supply line 2026, 2027) are arranged in order from left to right. That is, the arrangement of each line at the top and bottom is the same. The magnetic adsorber 2023 includes a pin 2041 and a magnetic pickup 2043. Seven pins 2041 correspond to seven wires, and are electrically connected to each other. The functions of the seven pins 2041 are a negative power supply, a positive pole of the power supply, a positive pole of data, a data negative, a positive data, a positive supply, and a negative supply. The mail head (201) magnet surrounds the pin (2041).

6 shows the combination of the mail 201 and the mail 203 in the second embodiment of the present invention. The mail 203 is rectangular and the mail 203 is the contact 2031, A pin (not shown) and a mail magnet 2035. At the upper end of the mail 203, a groove formed corresponding to the magnetic suction portion 2013 is provided. The magnetic suction portion 2013 is accommodated in this groove, and a plurality of contacts 2031 are provided in this groove. The discharge pin is connected to the left first power supply terminal pin 2061, the left second power supply terminal pin 2062, the left first data terminal pin 2063, the second data terminal pin 2064, The right side first power supply terminal pin 2065 and the right side first power supply terminal pin 2067. The seventh row of pins are symmetrical with respect to the second data end pin 2064, Correspond to the contact 2031 and are electrically connected, and the line is omitted. Each of the contacts 2031 includes a left first power supply terminal pin, a left second power supply terminal pin 2062, a left first data terminal pin 2063, a second data terminal pin 2064, The second power supply terminal pin 2066 and the right first power supply terminal pin 2067 and the position of the contact 2031 corresponds to the pin 2041 of the mail terminal 201 Respectively. The mail magnet 2035 corresponds to the magnetic force 2043 and the mail 203 and the mail 201 are connected to each other by magnetic attraction. When the mail 203 is connected to the mail 201, the pin 2041 of the mail 201 and the contact 2031 of the mail head 203 are turned on and reach the electrical connection. The columns of the pins are arranged in parallel, that is, the first right power supply terminal pin 2061, the left second power supply terminal pin 2062, the left first data terminal pin 2063, the second data terminal pin 2064, The right first data terminal pin 2065, the right second power supply terminal pin 2066, and the right first power supply terminal pin 2067 are arranged in the same order in the upper part and the lower part. The upper end of the left first power supply terminal pin 2061 is connected to the left ground line 2021 of the mail terminal 201 by the communication of the contact 2031 and the pin 2041. [ The upper end of the left second power supply terminal pin 2062 is connected to the left power supply of the mail 201 and the upper end of the left data terminal pin 2063 is connected to the left data positive line 2023 of the mail 201, The top of the second data terminal pin 2064 is connected to the data negative line 2024 of the mail 201 and the top of the right first data pin 2065 is connected to the right data positive line 2025 of the mail 201 The upper end of the right second power supply terminal pin 2066 is connected to the right power supply main line 2026 of the mail 201 and the upper end of the right first power supply terminal pin 2067 is connected to the mail 201, To the right ground line 2027 of FIG. In this way, the left first power supply terminal pin 2061 is connected to the left ground line 2021, the right first power supply terminal pin 2067 is connected to the right ground line 2027, The supply terminal pin 2062 is connected to the right power supply line 2022. The second power supply terminal pin 2066 and the right power supply line 2026 are connected to charge the electronic device. The left first power supply terminal pin 2061 is connected to the right ground 2021 and the right first power supply terminal pin 2067 is connected to the left ground The left second power supply terminal pin 2062 is connected to the right power supply positive line 2026 and the right second power supply terminal pin 2066 is connected to the right power supply line 2022, Thereby charging the electronic device. Even if the mail 203 is reversed, the device can be charged.

7, the mail head 301 according to the third embodiment of the present invention includes a connector 3011 and a magnet suction portion 3013, and the insertion portion 3011 is integrally formed with the magnetic suction portion 3013 The inserting portion 3011 is a rectangle and the magnet suction portion 3013 is an extending strip and the inserting portion 3011 is located above the magnet suction portion 3013 and the width of the inserting portion 3011 is formed by the magnet suction portion 3011. [ (3013). The plug 3011 is a power supply line 3021, a left power supply negative line 3027 and a right power supply negative line 3029, that is, a V + line, a V-line and a V- do. The pin sequence of the electronic device interface is the positive pole of the power supply, the negative pole of the data, the positive pole of the data, the empty end and the ground, and the order of the lines is the power supply line 3021, the left power supply negative line 3027 and the right power supply negative line 3029 and the power supply line 3021, the left power supply negative line 3027 and the right power supply negative line 3029 are the power supply positive electrode of the electronics pin, And the lower end of the plug portion 3011 corresponds to the left power supply negative line 3027, the power supply line 3021, and the right power supply negative line 3029 in this order. The magnet adsorber 3013 includes a pin 3041 and a magnet pickup 3043. The three pins 3041 correspond to the lower ends of three wires and are electrically connected and the function of the three pins 3041 is negative Power supply, positive pole of power supply and negative. Magnet pick-up 3043 surrounds pin 3041.

The first pin 3041 of the mail terminal 301 is connected to the left power supply negative line 3027 and the third of the pins 3041 is electrically connected to the power supply positive line 3021, The power supply line 3027 and the power supply line 3021 form the mail 301 and the mother 303 signal is connected to the signal forward group C. [

The third of pins 3041 of head 301 is connected to the right power supply negative line 3029 and the third of pins 3041 is connected to power supply line 3021 and the right power supply negative line 3029 and The power supply line 3021 forms the mail 301 and the mother 303 signal is connected to the group D. [ The pin 3041 signal forwards the signal passing in group C and the pin 3041 signal reverse group D is symmetrically centered.

Referring to Fig. 8, the mail 301 in the third embodiment of the present invention is a forward direction in the mail 303, the mail 303 is in a rectangular shape, the mail 303 is in contact with the contact 3031, (3033), and a mail magnet (3035). The upper end of the mail body 303 is provided with a groove having a shape corresponding to the magnet suction portion 3013 and the magnet suction portion 3013 is accommodated in the groove and a plurality of contacts 3031 are provided. The discharge pin 3033 includes a left first power supply terminal pin 3061, a second power supply terminal pin 3065, and a right first power supply terminal pin 3069. The upper end of the pin 3033 corresponds to the contact 3031 and is electrically connected to the lower end of the body 305. [ Each of the contacts 3031 is electrically connected to the left first power supply terminal pin 3061, the second power supply terminal pin 3065 and the right first power supply terminal pin 3069, and the position of the contact 3031 Is set corresponding to the pin 3041 of the mail terminal 301. [ The e-mail magnet 3035 corresponds to the magnetic resistance 3043, and the e-mail 303 and the e-mail 301 are connected to each other by magnet adsorption. When the mail 303 is connected to the mail 301, the pin 3041 of the mail 301 and the contact 3031 of the mail head 303 are turned on and reach the electrical connection. The rows of the pins 3033 are arranged in parallel, that is, the order of arrangement of the upper and lower portions is the same, and the row of pins 3033 is the axis of symmetry of the second axis of the second power supply terminal pin 3065. The first power supply terminal pin 3061, the second power supply terminal pin 3065 and the right first power supply terminal pin 3069 are connected to the first left power supply terminal pin 3061, 3065, and the first right power supply terminal pin 3069 in this order. The upper end of the left first power supply terminal pin 3061 is connected to the left power supply negative line 3027 of the mail terminal 301 through the communication of the contact 3031 and the pin 3041. [ The upper end of the second power supply terminal pin 3065 is connected to the power supply line 3021 and the upper end of the right first power supply terminal pin 3069 is connected to the right power supply negative line 3029 of the mail 301 do. In this way the top of the right first power supply terminal pin 3061 is connected to the left power supply negative line 3027 of the mail terminal 301 and the top of the right first power supply terminal pin 3069 is connected to the left 301 to the right power supply negative line 3029, and the electronic device can be charged. The pin 3033 is symmetrically provided so that the left first power supply terminal pin 3061 is connected to the right power supply negative line 3029 of the mail terminal 301 and the second The upper end of the power supply terminal pin 3065 is connected to the power supply positive line 3021 of the mail 301 and the right first power supply terminal pin 3069 is connected to the left power supply negative line 3027 of the mail 301. [ So that the electronic device can be charged. Even if the mail 303 is reversed, the electronic device can be charged.

The pin 3041 to which the left power supply negative line 3027 is connected and the right power supply negative line 3029 to which the pin 3041 is connected is symmetrical with respect to the pin 3041 to which the power supply line 3021 is connected, . The contact 3031 to which the first left power supply terminal pin 3061 is connected and the contact 3031 to which the right first power supply terminal 3069 is connected is connected to the second power supply terminal pin 3065 And are arranged symmetrically and have a main line 3021, a left power supply negative line 3027 and a right power supply negative line 3029, respectively.

9, the mail head 401 of the fourth embodiment of the present invention is positively coupled to the mail 403, and the difference from the third embodiment is that the mail power supply line 4021, the left power supply 4021, Negative line 4027 is the same as the right power supply and the connection pattern of the wire 4029 and the arrangement of the inner pins 4033 of the female mail 403 are different. The row of pins 4033 includes a left first power supply terminal pin 4061, a second power supply terminal pin 4065 and a right first power supply terminal pin 4069, The second power supply terminal pin 4061 and the right first power supply terminal pin 4069 are arranged in the order of the left first power supply terminal pin 4061 and the right first power supply terminal pin 4069 And the second power supply terminal pin 4065 are arranged in this order. The upper end of the pin 4033 corresponds to the contact 4031, is connected to each other, and the lower end is connected to the wire body. Each of the contacts 4031 is electrically connected to the left first power supply terminal pin 4061, the second power supply terminal pin 4065 and the right first power supply terminal pin 4069 and the position of the contact 4031 Is set to correspond to the pin 4041 of the mail terminal 401. When the mail 403 is connected to the mail 401, the pin 4041 of the mail 401 and the contact 4031 of the mail 403 are turned on and reach the electrical connection. The plug portion 4011 includes a power supply line 4021, a left power supply negative line 4027 and a right power supply negative line 4029, that is, V + line, V-line, V- From left to right. The power supply line 4021, the left power supply negative line 4027 and the right power supply negative line 4029 are arranged in the upper order and the lower order, the left power supply negative line 4027 is used as a symmetry axis, The upper order of the upper part of the power supply line 4011 is the power supply line 4021, the left power supply negative line 4027, and the right power supply negative line 4029. [ The subordinate arrangement order of the plug portion 4011 is a power supply line 4021, a left power supply negative line 4027, and a right power supply negative line 4029. The upper end of the left first power supply terminal pin 4061 is connected to the left power supply negative line 4027 of the mail terminal 401 through the communication of the contact 4031 and the pin 4041, The upper end of the right first power supply terminal pin 4069 is connected to the right power supply negative line 4029 of the mail header 401. The upper end of the first power supply terminal pin 4065 is connected to the power supply line 4021, In this way the top of the left first power supply terminal pin 4061 is connected to the left power supply negative line 4027 of the mail terminal 401 and the top of the second power supply terminal pin 4065 is connected to the mail terminal And the top of the right first power supply terminal pin 4069 is connected to the right power supply negative line 4029 of the mail 401 so that the electronic device can be charged . When the female terminal 403 is reversed, the left first power supply terminal pin 4061 is connected to the right power supply negative line 4029 of the mail terminal 401 since the discharge pin 4033 is provided symmetrically The upper end of the second power supply terminal pin 4065 is connected to the power supply positive line 4021 of the mail 401 and the right side first power supply terminal pin 4069 is connected to the left power supply negative Line 4027 to allow the electronic device to be charged. Even if the electronic mail 403 is reversed, the electronic device can be charged.

The pin 4041 to which the left power supply negative line 4027 is connected and the right power supply negative line 4029 to which the pin 4041 is connected is symmetrically arranged with respect to the pin 4041 to which the power supply line 4021 is connected do. The contact 4031 connected to the left first power supply terminal pin 4061 and the contact 4031 connected to the right first power supply terminal 4069 are connected to the contact 4031 connected to the second power supply terminal pin 4065 And the main line 4021, the left power supply negative line 4027 and the right power supply negative line 4029 are connected.

In the first to fourth embodiments, if the mail pin and the mail pin are equal in number and symmetrical in a single column structure, only the mail pins need to form at least one signal forward group and the signal reverse groups are symmetrical with respect to each other , The signal forward group and the signal reverse group may include at least one V + signal, one V- signal. That is, the electronic pin selection selects one of the signal forward groups and one of the signal reverse groups to signal and position match the electronic mail connection, regardless of whether the mail front and the mail or the mail flip 180 degrees reverse from the magnet adsorption, The mother of V +, V-, and V +, V- corresponding conduction connections can be made, and the power signal transfer path achieves the charging function.

10A and 10B, the fifth embodiment differs from the first embodiment in the arrangement of pins in the mail suction part 113 of the mail head 11. The first magnet attraction surface 1137 is formed on one surface of the magnet contact portion 113 of the mail portion 11 which faces away from the insertion portion 111. The first magnet attraction surface 1137 is formed by a non- So that the mail head 11 and the mail electrode 13 are magnetically energized electrically. The pin 1131 is arranged in a single row at a distance from the horizontal centerline L (L may be any distance from the center line to the upper surface of the magnet suction section 113) at the upper half of the first magnet attraction surface 1137, The number may be one or more and the pin 1131 is exposed to the first pinching surface 1137 for electrical connection with the electronic mail 13. The first insulating portion 1135 is a ferromagnetic conductive material wrapped around the pin 1131 and insulated from each other and the magnetic film 1133 surrounding the first insulating portion 1135.

The pin 1131 includes a first V + pin 1141, a first D + pin 1143, a first D pin 1145 and a first V- pin 1140, and the first V + pin 1141 includes a V + Signal, and the first D + pin 1143 passes the D + signal, the first D- pin 1145 passes the D- signal, and the first V- pin 1147 passes the V- signal . The arrangement of the pins 131 in the magnet attracting portion 113 includes a first D + pin 1143, a first D-pin 1145, a first V + pin 1141, a first D-pin 1145, , And the first V-pin 1147 in that order. The corresponding signal pin 1311 may be connected to a signal line corresponding to the interface of the electronic device by a corresponding pin provided on the plug portion to realize signal transmission.

10C and 10D, the electronic mail 13 includes a pin 131, a mail magnet 133, a second insulating portion 135, and a groove 137. [ As shown in the figure, the mail section 13 is rectangular and has a recess 137 formed at the upper end thereof so as to have a shape corresponding to the magnet suction section 113 of the mail 11, The mail 11 is received and engaged. The e-mail magnet 133 is a permanent magnet or an electromagnet which is seated on the bottom surface of the groove 137, and is disposed in a circumferential direction so as to surround the second insulating portion 135. The bottom face of the groove 137 forms the second magnet attraction surface 139 and the second magnet attraction surface 139 and the bottom surface of the second magnet attraction surface 139 are aligned with the bottom surface of the groove 137, So that the shape of the first magnet attraction surface 1137 is substantially the same as that of the mail body 11. A force is exerted on the first magnet attraction surface 1137 and the second magnet attraction surface 139 of the electronic mail 13 so that the electronic mail 11 and the electronic mail 13 are more firmly engaged and the electrical connection is more stable .

The second magnet suction surface 139 is provided with rows of needles 131, and these rows 131 are arranged in parallel in the horizontal direction. The first row is arranged in the middle of the second magnet attraction surface 139 from the horizontal center line L and the second row is arranged in the lower half of the second magnet attraction surface 139 from the horizontal center line L. [ The second insulating portion 135 is rectangular and is wrapped around the discharge needle 131 so that the rows of the needles 131 are insulated from each other and the tip of the discharge needle 131 is higher than the front end face of the second insulating portion 135, 2 insulation portion 135 so that the electrical tortuous performance of the electronic mail 13 and the electronic mail 11 is stronger and the signal transmission stability is better. The needle pin 131 is preferably a pogo-pin so that the pin 131 has impact resistance, has a long life, stabilizes the transmission of low impedance electric signals, saves an insulating space, It is desirable to have a characteristic that enables the head 11 to be downsized.

The row of needles 131 includes a first D + pin 1313, two first D-pins 1315, a first V-pin 1317, a first V + pin 1311, a second D + pin 1312, A second V-pin 1316, two second D-pins 1314, and a second V + pin 1310. The arrangement of the first row of pins 131 includes a first D-pin 1313, a first D-pin 1315, a first V + pin 1311, a first D-pin 1315, 1317). The second column and the first column are symmetrically arranged with respect to the center, and the second V-pin 1316, the second D-pin 1314, the second V + pin 1310, the second D-pin 1314, 2 < / RTI > D + pin 1312.

10E and 10F, when the mail 11 comes into contact with the mail 13 in the forward direction, the magnet portion 113 of the mail 11 engages with the mail magnet 133 by a magnet action. The first magnet engaging surface 1137 of the mail 11 and the second magnet engaging surface 139 of the mail 13 are joined under the magnet adsorption so that the first D + pin 1143 of the mail 11 and the mail The first D-pin 1313 of the mail 11 is turned on and the first D-pin 1145 of the mail 11 and the first D-pin 1315 of the mail 13 are turned on, The first V + pin 1141 of the mail 11 is electrically connected to the first V + pin 1311 of the mail 13 and the first V + The V + pin 1311 is electrically connected to the first V-tube of the mail 11. The foot 1147 of the mail 13 and the first V-pin 1317 are electrically connected. The first D + pin 1143, the first D-pin 1145, the first V + pin 1141, the first D-pin 1145, the first V-pin 1147, the first D + The D-pin 1315, the first D-pin 1315, the first D-pin 1315, and the first V-pin 1317 are turned on. The D-signal, the D- signal, the V- signal and the V + signal of the mail head 11 correspond to the D-, D +, V- and V + signals of the mail 13, The mail 13 forms the data signal path with the power signal path, and the charging and data transfer function can be obtained.

Referring to FIG. 10G, the reverse link, that is, the mail 13 is rotated by 180 degrees and is coupled to the mail 11. At this time, the pin 1131 of the mail 11 forms a sequence. The first D-pin 1143, the first D-pin 1145, the first V + pin 1141, the first D-pin 1145, the first V-pin 1147, The second D + pin 1312, the second D pin 1314, the second V + pin 1310, the second D pin 1314, and the second V pin 1316 are electrically connected to each other . The D-, D-, V- and V + signals of the mail terminal 11 correspond to the D-, D +, V- and V + signals of the mail 13, The electronic mail 13 forms a power signal path and a data signal path, and charging and data transfer functions can be achieved.

The first column of column pins 131 form a signal forward group E and the second column form a signal reverse group F and the signal forward group E and the signal reverse group F are arranged symmetrically with respect to each other. Signal forward group E and signal reverse group F are carried with at least one D-, D +, V- and V + signal.

11A and 11B, in the sixth embodiment, a signal is transmitted by the pin 2131 of the mail 21, the pin 2131 is the first D + pin 2143, and the first D- Is different from the fifth embodiment in that it is a pin 2145, a first V + pin 2141, a first V-pin 2147, and a first V-pin 2147.

The first column of the needle pin 231 is connected to the first D + column 2313, the first V + column 2311, the first D-pin 2315 ), A second V-pin 2317, a second V-pin 2317, a second V-pin 2316, a second V-pin 2316, a second V-pin 2316, a second V- -, a D-pin 2314, a second V + pin 2310, and a second D + pin 2312.

Referring to FIG. 11C, a first D + pin 2143, a first D-pin 2145, a first V + pin 2141, a first V-pin 2147, a first D + Pin 2117 is connected to the first D + pin 2313, the first V + pin 2311, the first D-pin 2315, the first V-pin 2317 and the first V-pin 2317, The mail 11 and the mother 13 form a power signal path and a data signal path in correspondence with the conduction connection one by one, and a charging and data transfer function is obtained.

11D, the mail 23 is rotated by 180 degrees and connected to the mail 21 by the attraction of the magnet, and the first D + pin 2143 of the mail 21 is not changed, A first D-pin 2145, a first V + pin 2141, a first V-pin 2147, a first V-pin 2147, a second D + pin 2312, a second V + pin 2310 The second D-pin 2314, the second V-pin 2316 and the second V-pin 2316 of the mail 23 are electrically connected to each other to form the mail head 21 and the mail 23 ) Form a power supply signal path and a data signal path, and charge and data transfer functions become possible.

Similar to the fifth embodiment, the first column of pins 231 forms a signal forward group and the second column forms a signal reversal group, in which the signal forward group and the signal reverse group are arranged symmetrically with respect to each other . The signal forward and signal reverse groups carry at least one D- signal, D + signal, V- signal and V + signal.

12A, 12B, and 12C, the seventh embodiment differs from the first embodiment in that the position of the pin 3131 of the mail terminal 31 is changed, the pin 3131 is a single column, The second embodiment is different from the fifth embodiment in that it is disposed in the second half. The first D-pin 3141, the first V-pin 3141, the first D-pin 3145, the first D-pin 3145, the first D-pin 3141, the first D- ), A first D-pin 3141, a first D-, and a first V-pin 3147.

The first D-pin 3141, the first D-pin 3141, the first V-pin 3141, the first D-pin 3145, the first V-pin 3141, the first D- The first D-pin 3141 and the first D-pin 3147 are connected to the second D + pin 3312, the second D-pin 3314, the second V + pin 3310 ), The second D-pin 3314, and the second V-pin 3316, respectively. The mail terminal 31 and the mail terminal 33 form a power signal path and a data signal path, and a charging and data transfer function can be implemented.

The first D + pin 3141, the first D + pin 3141, the first D + pin 3141, the first D + pin 3141, the first D + pin 3141, the first D + 1 D + D-pin 3145, and first V-pin 3147, respectively.

The first D + pin 3313, the first V + pin 3311, the first D-pin 3315, the first V-pin 3317, and the first V-pin 3317 are electrically connected to each other. The head 31 and the mail 33 form a power signal path and a data signal path, and charging and data transfer functions can be implemented.

Similar to the fifth embodiment, the first column of the pinout 331 forms a signal forward group, the second column forms a signal repulsive group, and the signal forward group and the signal reverse group are arranged symmetrically with respect to each other . The signal forward and signal reverse groups carry at least one D-, D +, V- and V + signal.

From the previous embodiments, if the fins of the mail are in one column, the fins pins are arranged in two rows in parallel, the fins in the first row are arranged at the upper half of the second magnet at a distance from the horizontal center line L, A hint can be obtained that the distance from the center line L to the horizontal center line of the first and second rows is the same as the distance from the center line L to the second half of the second magnet attraction face. The pins of the needles form at least one signal forward group and at least one signal reverse group, and the signal forward group and the signal reverse group are symmetrically centered. Each signal forward group and each signal reverse group passes at least the D- signal, the D + signal, the V- signal and the V + signal, the specific layout of the signal is not limited, And / or a signal reverse group, and the position and signal settings are matched to determine whether the mail and the mail rotated 180 degrees in the mother / A charge and data transfer function can be obtained by forming a data signal path.

13A, the eighth embodiment is characterized in that the e-mail 41 pins 4131 are arranged in two rows in parallel, the first column is arranged on the upper half of the first magnet attraction surface 4137 from the horizontal center line L, The second column is disposed from the horizontal center line L to the lower half of the first magnet attraction surface 4137 and the first column is disposed from the left to the right by a first D + pin 4143, a first D-pin 4145, 4141, a first D-pin 4145 and a first V-pin 4147, the second arrangement and the first column are each centrally symmetric, and the second V-pin 4146, the second D- 4144, a second V + pin 4140, a second D-pin 4144, and a second D + pin 4142.

13B, the pin 431 of the mail 43 is positioned and signaled in correspondence with the pin 4131 of the mail 41, and the first row of pins 4131 is transmitted from the horizontal center line L to the second magnet And the second row is disposed on the lower half of the magnet attraction surface 439 from the horizontal center line L. [ The first column includes a first D + pin 4313, a first D-pin 4315, a first V + pin 4311, a first D-pin 4315, and a first V- Order. The second array of rows of pins 431 are arranged symmetrically about the center with respect to the first row and are arranged symmetrically with respect to the first row with a second V-pin 4316, a second D-pin 4314, a second V + pin 4310, The D-pin 4314 and the second D + pin 4312.

Referring to FIG. 13C, a first D + pin 4143, a first D-pin 4145, a first V + pin 4141, a first D-pin 4145, a first D + Second D-pin 4141, second V-pin 4146, second D-pin 4144, second V + pin 4140, second D-pin 4144, second D + pin 4142, 43, A first D-pin 4315, a first D-pin 4311, a first D-pin 4315, a first V-pin 4317, a second V-pin 4316, a second D- The second V + pin 4310, the second D-pin 4314 and the second D + pin 4312 are electrically connected to each other so that the mail 41 and the mail 43 are connected to the power supply signal path and the data signal Path, and charging and data transfer functions can be achieved.

13D, when the mail 43 is rotated 180 degrees and combined with the mail 41, the first D + pin 4143, the first D-pin 4145, the first V + pin 4143 of the mail 41, Pin 4141, second V- pin 4141, second D- pin 4141, second V- pin 4140, second D- pin 4141, first D-, first V- A second V-pin 4316, a first V-, D-pin 4315, a first V + pin 4311, a second D- The first D + pin 4313 and the first D + pin 4313 are electrically connected to each other so that the mail 41 and the mail 43 form a power supply signal path and a data signal path, Can be obtained.

The first and second columns of pins 4131 form at least one signal forward group G and at least one signal reverse group H, and the signal forward group G and the signal reverse group H are arranged symmetrically with respect to each other. The signal forward group G and the signal reverse group H are transmitted with at least one D- signal, D + signal, V- signal and V + signal.

14A, 14B and 14C, the ninth embodiment is different from the eighth embodiment in that the number of columns of the column 531 of the mail 53 is different. The rows of pins 531 are arranged in a " W " The first column of columns 531 is the first D + column 5313, the first V + column 5311 and the first V- 5317 and the second column is the first D-pin 5314 from left to right. , And a second D-pin (5314).

The first V-pin 5141, the first V-pin 5141, the second V-pin 5141, the first V-pin 5141, the first V-pin 5141, The first D-pin 5141 and the second V-pin 5141, the second V-D-pin 5144, the second D-pin 5144 and the second D-pin 5314 and the second D- So that the mail signal 51 and the mail 53 form a power supply signal path and a data signal path, and charging and data transfer functions become possible.

The mail terminal 53 is rotated 180 degrees, and the mail terminal 51 is connected. At this time, the first D- pin 5145, the first D- pin 5145, the second V- pin 5146, the second V + pin 5140, the second D + pin 5142 of the mail terminal 51, , The second D-pin 5314, the second D-pin 5314, the first V-pin 5317 and the first V + first D + pin 5413 of the mail terminal 53 are connected by a conductive connection So that the mail signal 51 and the mail terminal 53 form the power supply signal path and the data signal path, and charging and data transfer functions become possible.

Similar to the eighth embodiment, the first and second rows of pins 5131 form at least one signal forward group J and at least one signal reverse group K, the signal forward group J and the signal reverse group K form a center It is set up symmetrically. Signal forward group J and signal reverse group K are transmitted with at least D-, D +, V- and V + signals.

15A, 15B and 15C, the tenth embodiment differs from the first embodiment in that the number of columns of the pins 631 of the electronic mail 63 is different and the first column and the second column of the column 631 are the first The column from left to right is the first D + pin 6313, the first D-pin 6315, the first V- 6317 and the second column 631 is the second V +.

The mail terminal 61 is connected to the ninth embodiment and includes a first D + pin 6143, a first D-pin 6145, a first V-pin 6147, a second V + pin 6140, The first D-pin 6313, the first D-pin 6315, the first V-pin 6317, and the second V + pin 6310 of the transistor 63, respectively. The mail head 61 and the mail body 63 form a power signal path and a data signal path, and charge and data transfer functions become possible.

The mail terminal 63 is rotated 180 degrees and the mail portion 61 is connected and the first V + pin 6141, the second V-pin 6146, the second D-pin 6144, the second D + The second V + pin 6310, the first V-pin 6317, the second D-pin 6415 and the second D + pin 6313 of the electronic mail 6142 and the mail 63 are connected to one another The head 61 and the mail body 63 form a power signal path and a data signal path, and charging and data transfer functions become possible.

Similar to the eighth embodiment, the first and second columns of pins 6131 form at least one signal positive group and at least one signal reverse group, and the signal forward group and the signal reverse group are symmetric with respect to each other . The signal forward group and the signal reverse group are transmitted with at least the D-, D +, V- and V + signals.

According to the eight-tenth embodiment of the invention, the mail pins and the female pins are arranged in two rows in parallel, the first row of mail pins are provided under the first magnet attraction and the second row is located in the horizontal centerline L, A hint that the distance between the fins in the first and second rows and the horizontal center line is the same is obtained at the lower half of the surface of the first magnet attraction surface in the horizontal center line L. [ The forward signal group and the reverse signal group are symmetrically centered, and each forward signal group and each reverse signal group form at least a D- signal, a D + signal , V- signal and V + signal, and the specific layout of the signal is not limited. Wherein at least one forward signal group and / or at least one reverse signal group is selected from the group consisting of a signal and a position corresponding to the matching setting, The signal path and the data signal path can be formed, and the charge and data transfer function can be obtained.

16A and 16B, a row of pins 731 of the e-mail 73 is provided from the horizontal center to the upper half of the second magnet attraction face of the e-mail 73, and the first D- A first D-column pin 7311, a first D-pin 7315, and a first V-pin 737.

The first D + pin 7143, the first D + pin 7145, the first V + pin 7141, the first D + pin 7141, the first D + pin 7141, the first D + pin 7141, 1 D +, D- pin 7145, first V-pin 7147 and first D + pin 7313, first D-pin 7315, first V + pin 7311, 7315 and V-pin 7317 correspond one-to-one, and the mail 71 and the mail 73 form a power signal path and a data signal path, and charging and data transfer functions become possible.

Referring to FIG. 16C, the mail 73 is rotated 180 degrees to the mail 71, and the second V-pin 7146, the second D-pin 7144, the second V + pin 7140, The first D-pin 7144, the second D + pin 7142 and the first V-pin 7317, the second D-pin 7315, the second V + pin 7311, the second D- The second D + pin 7313 corresponds to the one-to-one correspondence, is conductively connected, and the mail 71 and the mother 73 form a power signal path and a data signal path, and a charging and data transfer function becomes possible.

Similar to the eighth embodiment, the first and second columns of the pins 7131 of the mail 71 form at least one signal positive group and at least one signal positive group, and the signal forward group and the signal reverse group Are set up symmetrically with respect to each other. The signal forward group and the signal reverse group are transmitted with at least the D-, D +, V- and V + signals.

Further, according to the eleventh embodiment and the previous embodiments, it is possible to obtain a hint that when the number of the mail pins is parallel to two rows, the rows of the mail pins are arranged in one row. The first row of pins of the mail head is arranged on the upper half of the first magnet attraction surface from the horizontal center line L and the second row of fins is arranged on the lower half of the surface of the first magnet attraction from the horizontal center line L, The distance between column 2 and the horizontal centerline is the same. The first and second columns of the pins form at least one signal positive group and at least one signal reverse group, and the signal forward group and the signal reverse group are arranged symmetrically with respect to each other. The signal forward group and the signal reverse group are transmitted with at least the D-, D +, V- and V + signals. The mail pin only needs to select the mail pin for any signal forward and / or signal reverse group for the corresponding matching signal and location, and to achieve the mother forward and mail or pic mail flip 180 mail and mail combination And forms a power signal path and a data signal path so that a charging and data transfer function can be obtained.

17A, the twelfth embodiment is characterized in that the number of rows of the pins 8131 of the mail head 81 are parallel to each other, the first row is arranged in the first half of the mail magnet field 8137, The second row is different from the fifth embodiment in that the second row is disposed on the horizontal center line of the first magnet attraction surface 8137 of the mail head 81. The third column is provided from the horizontal center line L to the lower end of the first magnet field 8137 of the mail head 81, and the distances between the first column and the third column and the horizontal center line are the same. The first row of pins 9131 includes a first D + pin 8143, a first D-pin 8145, a first V + pin 8141, a first D-pin 8145, a first V- And the second column includes a second V + pin 8140, a second D-pin 8144, a second D + pin 8142, a second D-pin 8144, a second V + pin 8140 , The first column is symmetrical with respect to the first column and the third V-pin 8157, the third D-pin 8155, the third V + pin 8151, the third D-pin 8155, 3 D + tube foot (8153).

17B, the column pins 831 of the mail portion 83 are provided in one row and are provided in the upper face of the second magnet attraction surface 839 of the mail portion 83 from the horizontal center line L, The thermal needle 831 includes a D + pin 8313, a first D-pin 8315, a first V + pin 8311, a first D-pin 8315 and a first V-pin 8317 from left to right, to be.

17C, the first D + pin 8143, the first D-pin 8145, the first V + pin 8141, the first D-pin 8145, the first V- The pin 8147 has a first D + pin 8313, a first D-pin 8315, a first V + pin 8311, a first D-pin 8315 and a first V- So that the mail head 81 and the mail terminal 83 form a power supply signal path and a data signal path, and charge and data transfer functions become possible.

17D, the mail is rotated 180 degrees and is coupled to the mail 81. At this time, the third V-pin 8157, the third D-pin 8155, the third V + pin 8151, A first D-pin 8155, a third D + pin 8153 and a first V-pin 8317, a first D-pin 8315, a first V + pin 8311, a first D- And the first D + pin 8313 correspond to the conduction connection. Thus, the mail head 81 and the mail terminal 83 form a power supply signal path and a data signal path, and charge and data transfer functions become possible.

The column pin 831 of the mail portion 83 is a column and the positive or negative connection of the mail portion 31 and the mail head 81 is associated with the second row of pins 8131 of the mail head 81 And the mail pin 8131 may be in a random order.

The first column, the second column and the third column of the pins 8131 of the mail head 81 form at least one signal forward group M and at least one signal reverse group N, and the signal forward group M and the signal reverse group N is set to the center symmetry. Signal forward group M and signal reverse group N are transmitted with at least the D-, D +, V- and V + signals.

18A, the thirteenth embodiment is different from the twelfth embodiment in that the row 931 of the e-mail 93 is provided in a line from the horizontal center line L to the lower face of the second magnet attraction surface 939. [ The arrangement of pins 931 includes a first V- signal 9317, a first D- signal 9315, a first V + signal 9311, a first D- signal 9315, and a first D + signal 9311 from left to right (9313).

Referring to Fig. 18B, the holding mail 91 is the same as the twelfth embodiment, and the mail 91 and the mail 93 are connected to the third V-pin 9157, the third D-pin 9155 A third D + pin 9155, a third D + pin 9153, a first V- signal 9317, a first D- signal 9315, a first V + signal The first D-signal 9311, the signal 9315 and the first D + signal 9313 are electrically connected to each other and the mail head 91 and the mail 93 are connected to the power supply signal path and the data signal Path, and charging and data transfer functions become possible.

Referring to FIG. 18C, when the mail 93 is rotated 180 degrees and coupled with the mail 91, the first D + pin 9143, the first D-pin 9145, the first V + pin 9141, A first D-pin 9145, a first V-pin 9147, a first D + pin 9313, a first D-pin 9315, a first V + pin 9311, And the first V-pin 9317 correspond one-to-one by the conduction connection, form a power supply signal path and a data signal path, and charge and data transfer functions become possible.

Similar to the twelfth embodiment, the first column, the second column and the third column of the pins 9131 of the mail 91 form at least one signal positive group and at least one signal positive group, And the signal reversal group is the central symmetry. The signal forward group and the signal reverse group are transmitted with at least the D-, D +, V- and V + signals.

According to the twelfth and thirteenth embodiments, it can be concluded that when the mail pins are arranged in parallel in a three-column structure, the mail pins are arranged in a line. The first row of the mail pins is arranged on the upper half of the first magnet suction surface from the horizontal center line L and the third row is arranged on the lower half of the first magnet surface spaced from the horizontal centerline L, The first column, the second column and the third column of the pins form at least one signal positive group and at least one signal reverse group, and the signal forward group and the signal reverse group are center symmetry. The signal forward group and the signal reverse group are transmitted with at least a D- signal, a D + signal, a V- signal and a V + signal. The specific arrangement of the signals is not limited, and the column arrays of the first and third columns are symmetrical to each other. The mail pin of the mail pin is at least one signal forwards and / or at least one signal reverse signal and position matching, so that when the mail is a positive connection with the mail, or when the mail flip 180 is a head combination, And data signal paths to ensure that charging and data transmission can be achieved.

19A, the fourteenth embodiment is characterized in that the number of rows of pins 241 of the e-mail 24 is set from the horizontal center line L to the first row of the second magnet attraction surface 249, And is provided on the horizontal center line of the magnet attraction surface 249. The first column of the second column includes a first D + pin 2413, a first V + pin 2411, a first V-pin 2417 from left to right, a second D-, 2414, and the thermal pin 241 is of the " W " type.

19B, a first V + pin 2241, a first V- pin 2247, a second D + pin 2243, a first V + -second D-pin 2244, a first D + pin 2413 The first V-pin 2411, the first V-pin 2417, the second D-pin 2414 and the second D-pin 2414 are connected to each other to form a power source signal path and a data signal path, respectively And charging and data transfer functions become possible.

Referring to Figure 19C, when the mail 24 is rotated 180 degrees and is reverse coupled with the mail 22, the second D-pin 2244, the second D-pin 2244, the third V-pin 2257 A third D + pin 2253, a third D pin 2414, a second D pin 2414, a first V pin 2417, a second V + pin 2414, 2411 and the second D + pin 2413 correspond to a one-to-one conduction connection, forming a power signal path and a data signal path, and charging and data transfer functions become possible.

The first, second and third columns of pins 2231 of the mail 22 form at least one signal forward group P and at least one signal reverse group Q, and the signal forward group P and the signal reverse group P Is the central symmetry. Signal forward group P and signal reverse group Q are transmitted with at least the D-, D +, V- and V + signals.

20A, in the fifteenth embodiment, the columns 341 of the pins 34 are arranged in each column, the column pins 341 are arranged in two columns, and the first column is arranged in the second magnet 349 The second row is located on the horizontal centerline L and the second row is located on the horizontal centerline L in the lower half of the second magnet suction portion 349 and the second and first rows are of the " Which is different from the fourteenth embodiment. The first column of signals of the column of pins 341 is from left to right in the order of the first D + pin 3413, the first V + pin 3411, the first V-pin 3417, Pin 3414, and a second D-pin 3414, respectively.

20B, the holding mail 32 is the same as in the fourteenth embodiment, and the mail 32 and the mail 34 are connected to the first D + pin 3243 of the mail 32, the first V + The third D-pin 3255 and the first D + pin 3413, the first V + pin 3411, the first D-pin 3255, the third D- The V-pin 3417, the third D-pin 3414 and the second D-pin 3414 are connected to each other to form a power supply signal path and a data signal path, and charge and data transfer functions are enabled.

20C, a first D-pin 3245, a first D-pin 3245, a third V-pin 3257, a third V + pin 3251 and a third D + The second D-pin 3414, the second D-pin 3414, the first V-pin 3417, the first V + pin 3411 and the first D + pin 3413 are connected to each other to form a power signal path and data Thereby forming a signal path, and charging and data transfer functions become possible.

Similar to the fourteenth embodiment, the first column, second column and third column of pins 3231 of the mail 32 form at least one signal positive group with at least one signal positive group, And the signal reverse group is the central symmetry. The signal forward group and the signal reverse group are transmitted with at least one D- signal, D + signal, V- signal and V + signal.

21A, the fins 4231 of the mail head 42 of the sixteenth embodiment are three columns and the number of fins 4231 is different from that of the fifteenth embodiment, and the first column is a left- The second D-pin 4244, the second D-pin 4244, the third V-pin 4247, the second column, Is a third V-pin 4257, a third V + pin 4251, and a third D + pin 4253, which are center symmetrical to the column and the first column and left to right. 21B, the rows 441 of the e-mail 44 are parallel in a two-column structure, the first row is arranged in the horizontal center line of the second magnet portion 449, the second row is arranged in the second magnet portion 449, (4415), and the second column is the second V-pin (4416), which is disposed left to right from the horizontal center line at the lower half of the first V- , The second V + column pin 4410, and the second D + column pin 4412, and the columns of the first column and the second column are " M "

21C, the mail 42 and the mail 44 are positive connections and the second column of the mail 42 includes the second D-pin 4244, the second D-pin 4244, A third D-pin 4253, a first D-pin 4415, a first D-pin 4415, a second V-pin 4215, 4416, the second V + pin 4410, and the second D + pin 4412 are connected to each other to form a power signal path and a data signal path, and charge and data transfer functions are enabled.

21D, a first D-pin 4243, a first V + pin 4241, a first V-pin 4247, a second D-tube second D-pin 4244 of the mail 42, A first D + pin 4212, a first V + pin 4210, a first V-pin 4216, a second D-pin 4215, a second D-pin 4215, a second D + pin 4412 And the first D-pin 4415 and the first D-pin 4415 each correspond to a conduction connection to the electronic mail 44, and the power A signal path and a data signal path are formed, and charging and data transfer functions become possible.

Similar to the fifteenth embodiment, the first column, the second column and the third column of pins 4231 of the mail 42 form at least one signal positive group and at least one signal positive group, And the signal reverse group is the central symmetry. The signal forward group and the signal reverse group are transmitted with at least one D- signal, D + signal, V- signal and V + signal.

22A, the seventeenth embodiment of the e-mail 52 pin 5231 differs from the sixteenth embodiment in the number of pins 5231, and the first column is the left-to-right first D + tube first D-pin 5245, a first D-pin 5245, a first D-pin 5245, a first D-pin 5245, a third D-pin 5240, a third D-pin 5245, The third D-pin 5255, the third D-pin 5255, and the third D + pin 5253, respectively.

Referring to FIG. 22B, the column 541 of the mail 54 has a two-column structure. The first column is the first V + pin 5411, the second column is the second V-pin 5416, the second D-pin 5414, from left to right, A second D-pin 5414, and a second D + pin 5412, respectively.

22C, the second V + pin 5240, the third V-pin 5257, the third D-pin 5255 and the third D-pin 5255 of the mail 52 are connected to the mail 54 And the first V + pin 5411, the second V-pin 5416, the second D-pin 5414 and the second D-pin 5414 of the third D + pin 5253, The pin 5414 and the third D + pin 5412 correspond to a one-to-one conduction connection, and a power signal path and a data signal path are formed, and charging and data transfer functions are enabled.

22D, the first D-pin 5241, the first D-pin 5245, the first D-pin 5245, and the second D-pin 5245 are rotated when the mail 54 is rotated 180 degrees to the mail 52 and in the reverse direction. ), A second V-pin 5247, a second V + pin 5240 and a second D + pin 5412, a second D-pin 5414, a second D-pin 5414, a second V- The second V + pin 5411 and the second V + pin 5411 are electrically connected to each other to form a power signal path and a data signal path, and a charging and data transfer function becomes possible.

Similar to the fourteenth embodiment, the first column, second column and third column of pins 5231 of the mail 52 form at least one signal positive group with at least one signal positive group, And the signal reverse group is the central symmetry. The signal forward group and the signal reverse group are transmitted with at least one D- signal, D + signal, V- signal and V + signal.

In the fourteenth to seventeenth embodiments, when the mail pins are arranged in parallel in a three-column structure, the mail column pins are arranged in two rows, and the first row of the mail pins is arranged on the horizontal center line L in the first magnet attraction face And the second row is arranged in the horizontal center of the first magnet attraction surface and the third row is arranged in the lower half of the first magnet attraction surface from the horizontal center line L. [ The first and third rows of the pins are symmetrical to each other, and the second row is horizontally symmetrical.

The first column, second column and third column of the mail pins form at least one signal positive group and at least one signal reverse group, wherein the signal forward group and the signal reverse group are symmetrical to each other. The signal forward group and the signal reverse group are transmitted with at least a D- signal, a D + signal, a V- signal and a V + signal. The signal of a particular arrangement of positions is not limited and the mother of the needle pin selects the mail pin as at least one of the signal forward and / or signal reverse groups to match the signal and position settings, Coupled to the 180-degree mail head, forms a power signal path and a data signal path so that charging and data transmission can be achieved.

Referring to Figure 23A, the eighteenth embodiment maintains the mail 62 on a line, wherein the first column of pins 6231 of the mail 62 includes a first D + pin 6243, a first D- A first V-pin 6241, a first D-pin 6245, a first V-pin 6247, a second V-pin right 6240, a second D-pin 6244, A second D + pin 6242, a second D-pin 6244 and a second V + pin 6240. The third and first columns are symmetrical about the center and the third V- A third D-pin 6255, a third V + pin 6251, a third D-pin 6255, and a third D + pin 6253.

23B, the thermal pins 641 of the female 64 are parallel to each other, the first column is disposed with a distance L between the second magnet striker 649 and the horizontal centerline, At a distance L between the lower half of the second magnet portion 649 and the horizontal center line at the horizontal center line in the suction portion 649. [ The first row of discharge pins 641 is connected to a first D-pin 6413, a first D-pin 6415, a first V + pin 6411, a first D-pin 6415, 6417), and the second column includes a second V + column 6410, a second D-pin 6414, a second D + pin 6412, a second D-pin 6414, a second V + The third D-pin 6421, the third D-pin 6425, and the third D + pin 6423 from left to right.

The first D-pin 6243, the first D-pin 6245, the first V + pin 6241, the first D-pin 6245, the first V-pin 6245, , A first D-pin 6247, a second V + pin 6240, a second D-pin 6244, a second D + pin 6242, a second D-pin 6244, The third D- pin 6255, the third D- pin 6254, the third D- pin 6255, the third D- pin 6254, the third D- A first D-pin 6415, a first D-pin 6415, a D-pin 6411, a first D-pin 6415, a first D-pin 6417, a second V + pin 6410, A second D- pin 6414, a second D- pin 6412, a second D- 6414, a second V + pin 6410, a third V-pin 6427, a third D-pin 6425, The V + pin 6421, the third D-pin 6425 and the third D + pin 6434 are connected to form a power signal path and a data signal path so that charging and data transmission can be achieved.

The first D + pin 6243, the first D-pin 6245, the first V + pin 6241, the first D-pin 6245, the first D-pin 6245, the first D + 6247, a second V + pin 6240, a second D- pin 6244, a second D + pin 6242, a second D-pin 6244, a second V + pin 6240, The second D-pin 6257, the third D-pin 6255, the third V + pin 6251, the third D-pin 6255, the third D + pin 6253, the third D + pin 6423, A third D-pin 6425, a third D-pin 6425, a third V-pin 6427, a second V + pin 6410, a second D-pin 6414, a second D + A first D-pin 6415, a first D-pin 6415, a first D-pin 6415, a first D-pin 6415, ) And the first D + on connection, and forms a power signal path and a data signal path so that charging and data transmission can be achieved.

The first column, the second column, and the third column of the pin 6231 of the mail 62 form at least one signal forward group and at least one signal reverse group, and the signal forward group and the signal reverse group form one And are arranged symmetrically. The signal forward group and the signal reverse group are transmitted with at least a D- signal, a D + signal, a V- signal and a V + signal.

24A, the nineteenth embodiment is different from the eighteenth embodiment in the number of rows of the pins 741 in the respective columns of the electronic mail 74, the first column is the first V + pins 7413, The second row is the second D-pin 7414, the second D-pin 7414 from left to right and the third column is the first V-pin 7427 and the third D + from left to right, It is a "V" type overall.

24B, the structure of the mail 72 is maintained according to the twelfth embodiment, and the first V + pin 7241 of the mail 72, when the mail 72 is a positive connection with the mail 74, A second D-pin 7244, a second D-pin 7244, a third V-pin 7257, a third D + pin 7253, a first V + pin 7241, 7244, the second D-pin 7244, the third V-pin 7257, and the third D + pin 7253 form a power signal path and a data signal path corresponding to the one-to- Can be achieved.

Referring to FIG. 24C, the mail 74 flips 180 degrees and is opposite to the mail 72, and the first D + pin 7243, the first V-pin 7247, A third D- pin 7424, a second D- pin 7414, a second D- pin 7244, a second D- third V + pin 7241 and a third D + pin 7423, a third V- The first V + pin 7413 and the first V + pin 7413 are connected to each other to form a power signal path and a data signal path so that charging and data transmission can be achieved.

The first, second and third columns of the pin 7231 of the mail 72 form at least one signal forward group X and at least one signal reverse group Y and the signal forward group X and the signal reverse group Y Is set to be center symmetry. The signal forward group X and the signal reverse group Y are transmitted with at least a D- signal, a D + signal, a V- signal and a V + signal.

25A, the twentieth embodiment differs from the first embodiment in that the number of rows of pins 841 of the e-mail 84 is different, and the first column shows the first D + column 8413 and the first V-column pin 8417 from left to right, And the second column is the second V + column pin 8410, and the third column is the third D-pin 8425 and the third D-pin 8425 from left to right. The pin 841 is generally " W " shaped.

25B, the holding mail 82 corresponds to the seventeenth embodiment, and when the mail 82 is a positive connection with the mail 84, the first D + pin 8413 of the mail 82, The first V-pin 8417, the second V-pin 8410, the third D-pin 8425, the third D-pin 8425, the first D + pin 8413, The second V + pin 8410, the third D-pin 8425, and the third D-pin 8425 correspond to a one-to-one conduction connection and form a power signal path and a data signal path to achieve charging and data transfer .

Referring to Figure 25C, when the e-mail 84 is rotated 180 degrees and the first D-pin 8245, the first D-pin 8245, the second V + pin 8240, The third V-tube 8257, the third D + pin 8253, the third D-pin 8425, the third D-pin 8425, the second V + column 8410, the first V- ), The first D + pin 8413 corresponds one-to-one to the conduction connection, and the power signal path and the data signal path are formed so that charging and data transmission can be achieved.

Similar to the nineteenth embodiment, the first column, the second column, and the third column of the pins 8231 of the mail 82 form at least one signal forward group X and at least one signal reverse group Y, The forward group X and the signal reverse group Y are center symmetric. The signal forward group X and the signal reverse group Y are transmitted with at least a D- signal, a D + signal, a V- signal and a V + signal.

In the eighteenth to twentieth embodiments, when the number of the mail pins is parallel to three rows, the number of the email lines is also three columns, and the first row is spaced a distance L between the horizontal center line and the upper half of the first magnet surface, The second row is arranged on the horizontal center line of the first magnet surface and the third row is arranged on the horizontal center line L and the lower half of the first magnet attraction portion. Wherein the first and third columns of the pins are symmetrical to each other and the second column is horizontally symmetrical and the three rows of pins form at least one set of a signal forward group and a signal reverse group, The reverse group Y is center symmetric. The signal forward group X and the signal reverse group Y are transmitted with at least a D- signal, a D + signal, a V- signal and a V + signal. The signal of the particular layout of the position is not limited and the mail pin selects the mail pin as at least one signal forward and / or signal reverse group of the signals and positions of the corresponding matching set, Flip 180 also forms power signal paths and data signal paths in reverse and mail head combinations, and charging and data transmission can be achieved.

Likewise, only when the mail pins are four columns, five columns, six columns, or more and only the mail pins are formed into at least one signal positive group and a signal reverse group, the signal forward group and the signal reverse group are symmetrical to each other, Each signal forward group and each signal reverse group is transmitted with at least a D- signal, a D + signal, a V- signal, and a V + signal. The signal of the particular layout of the position is not limited and the mail pin selects the mail pin as at least one signal forward and / or signal reverse group of the signals and positions of the corresponding matching set, Flip 180 also forms power signal paths and data signal paths in reverse and mail head combinations, and charging and data transmission can be achieved.

As far as the first to twentieth embodiments are concerned, when the e-mail pin is one row, two columns, three columns or more, and the e-mail column pin forms at least one signal forward group and one signal reverse group , The signal forward group and the signal reverse group are symmetrical to each other, and each signal forward group and each signal reverse group is transmitted with at least a D- signal, a D + signal, a V- signal and a V + signal. The signal of the specific layout of the position is not limited and the mail pin selects at least one signal forward and / or signal reverse group of the signal and position corresponding to the matching pin to the mail pin, In a mail flip 180 degree reverse, the mail head is also combined to form a power signal path and a data signal path, and charging and data transmission can be achieved with no exceptions.

In contrast to the prior art, the novel connector assembly 10 of the present invention has the following advantageous effects.

First, the novel connector assembly according to the present invention is characterized in that the mail terminal 11 and the mail terminal 13 are provided independently, and the pin 1131 of the mail 11 or the pin 131 of the mail 13 A power supply path is formed when the mail 13 and the mail head 11 are symmetrically structured to implement the charging function and when the mail 13 rotates 180 degrees and the mail 11 is reversed, So that the charging function can be realized.

Second, the pin 1131 of the mail 11 forms a signal forward and signal reverse group that is one column, two columns or a plurality of columns and is at least two mutually symmetric, each signal comprising at least a V + signal, a V- Signal and the signal reverse group for signal and position matching so that the mail 11 and the parent 13 are also coupled to the mother or flip 180 Thereby forming a power signal path and a data signal path in the public 11 and the reverse combination, and charging and data transmission can be achieved without exception even in a public manner; The pins 131 for one, two or more columns form at least two mutually symmetric signal forward and signal inversion groups, each signal comprising at least a V + signal, a V- signal, a D + signal, a D- And the mail 11 pin 1131 selects a signal forward and / or signal inversion group for signal and position matching to cause the mail 11 to be positively coupled to the mail 13, Even when the e-mail flip 180 is reversed, the power signal path and the data signal path are formed, and charging and data transmission can be achieved.

Thirdly, the mail 11 is inserted into the interface 201 of the electronic device 20, and the mail 13 is provided with the mail magnet 135, the mail 11, and the mail 13. It is not necessary to repeatedly pull the mail head 11 repeatedly from the interface 201 of the electronic device 20 to damage the interface 201 and does not affect the service life of the electronic device 20, Thereby promoting the electrical connection of the device 11. The front end of the needle bar 131 is higher than the front end face of the second insulating portion 137 and is exposed to the front end face of the second insulating portion 137 so that the electrical connection performance between the electronic mail 13 and the mail 11 is Is more reliable and has good signal transmission stability.

Fourth, the needle pin 131 is a pogo-pin pin, which has a long impact life, low-impedance electrical signal transmission stability, and an insulating space and other features promote miniaturization of the public 11.

Fifth, the upper end of the mail 13 is provided with a groove 137 formed in a shape corresponding to the magnet suction portion 113 of the mail 11, and the mail 11 is accommodated in the groove 137, 11 and the electronic mail 13 come into contact with each other more firmly and stably with electrical connection.

Sixth, the mail sucking portion 1013 of the mail 101 is designed in a sheet-like structure in which the mail 101 is connected to the port of the electronic device 20, and the user does not feel the thickness of the electronic device 20 The user may wish to engage the head 101 to the port of the electronic device 20 for a long time without charging the electronic device 20 and to charge and transfer the data to the electronic device 20, The ports of the device 20 may even be contaminated or watertight protected.

The foregoing is merely preferred embodiments of the present invention and is not intended to limit the present invention. Any alterations, substitutions and alterations made to equivalents that fall within the spirit of the present invention should be included within the scope of protection of this invention.

Claims (15)

A mails comprising a plug portion and a magnet suction portion, wherein the plug portion is inserted into an electronic device interface, the one face of the magnet suction portion facing away from the insertion portion is a first magnet attraction surface, A mail that is exposed on the surface of the first magnet attraction,
Wherein the end of the mail has a second magnet attraction face at the one end of the terminal of the mail and the first magnet attraction face and the second magnet flux face are connected to the magnet In response to adsorption,
/ RTI >
Wherein the electronic mail includes a plurality of pins, wherein the pin and the pin correspond to a transmission signal,
Wherein the tube and / or pin form at least one signal positive group and at least one signal positive group, and wherein the signal forward group and the signal reverse group are center symmetric. The magnetic pickup according to claim 1, wherein the magnet adsorption portion includes a first insulation portion provided on the surface of the first magnet and insulated from the fin, and a magnet pickup piece surrounding the first insulation portion, Lt; / RTI > The connector assembly of claim 1, wherein the magnet adsorption portion has a sheet structure having a thickness of 0.3 mm to 2 mm and a width of a magnet adsorption portion larger than a width of the insertion portion. The method of claim 1, wherein the bottom surface of the groove is a second magnet attraction surface received in the groove, the needle is exposed to the second magnet field, the mail further comprises a second insulation portion, Wherein the pins isolate and isolate the pins. 5. The connector assembly of claim 4, wherein a lower portion of the second magnet receiving surface in the groove is provided with at least one e-mail magnet, the e-mail magnet magnetically attracting the magnet. 2. The method of claim 1 wherein a plurality of pins are arranged in a single row on a first magnet responsive surface and the different signals transmitted by the pins are arranged symmetrically with respect to a central axis, And wherein the connector assembly corresponds to the pins. 7. The method of claim 6, wherein the plurality of pins are matched with signals at an interface of the electronic device, wherein different signals of the plurality of pins are symmetrically arranged at one end of an intervening electronic device interface, Wherein the pins are connected in parallel with the plurality of pins on the first magnet inner surface of the plug. 7. The method of claim 6, wherein the plurality of pins are matched with signals at an interface of the electronic device, wherein different signals of the plurality of pins are symmetrically arranged at one end of an intervening electronic device interface, Wherein the pins are connected in parallel to the plurality of pins on the first magnet surface in the plug. The connector assembly of claim 1, wherein the constant voltage output port outputs a voltage of 9V. 10. The method of claim 9, wherein the first pins are arranged in two rows parallel to the first magnet attraction face, each row having the same size as the horizontal center line of the first magnet surface, The second column forms a signal reverse group,
Wherein the electronic mail comprises a column of columns of columns arranged in a single column, each of which is connected to a signal in any one of the columns of pins. 3. The method of claim 1, wherein the pins of the plurality of rows are arranged parallel to the surface of the second magnet, each row having the same size as the horizontal centerline of the second magnet suction surface, Said second row of needles forming a signal reverse group,
Wherein the mail head includes a row of spaced apart rows of pins each of which is aligned with a signal in either row of the pins. The method of claim 1, wherein the plurality of pins are arranged in parallel in at least two rows on the first magnet attraction face, at least two rows are the same size as a horizontal center line of the first magnet attraction face,
The signal forward group comprises at least two rows, or a portion of at least two rows of pins of the other pins and the other row of pins,
Wherein the female tip includes pins of a plurality of rows arranged in at least one column of the columns, each of which can be matched to a pin, in a signal forward direction of a signal forward of the pin. 13. The method of claim 12 wherein the signal forward group comprises at least a transmission V + signal, a V- signal, a D + signal, a D- signal and the pin reverse of the signal comprises at least a V + signal, a V- And a connector assembly. The magnetic sensor of claim 1, wherein the plurality of rows of punches are arranged in at least two rows parallel to the surface of the second magnet, at least two columns are the same size as the horizontal centerline of the second magnet surface, The mail head may comprise a portion of the row of at least two rows of pins with columns of any one of the two rows or other columns and wherein the mail head is arranged in at least one row arranged to match the signal forward group signal and the pin signal respectively in the signal forward direction And a plurality of pins. 15. The connector assembly of claim 14, wherein the signal forward group is at least a transmission V + signal, a V- signal, a D + signal, a D- signal, a D- signal, a D- signal, a D- signal, a D- signal pin.

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